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ColOfAbRiX/ansible | lib/ansible/modules/database/vertica/vertica_facts.py | 28 | 9387 | #!/usr/bin/python
# -*- coding: utf-8 -*-
# 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/>.
ANSIBLE_METADATA = {'status': ['preview'],
'supported_by': 'community',
'version': '1.0'}
DOCUMENTATION = """
---
module: vertica_facts
version_added: '2.0'
short_description: Gathers Vertica database facts.
description:
- Gathers Vertica database facts.
options:
cluster:
description:
- Name of the cluster running the schema.
required: false
default: localhost
port:
description:
Database port to connect to.
required: false
default: 5433
db:
description:
- Name of the database running the schema.
required: false
default: null
login_user:
description:
- The username used to authenticate with.
required: false
default: dbadmin
login_password:
description:
- The password used to authenticate with.
required: false
default: null
notes:
- The default authentication assumes that you are either logging in as or sudo'ing
to the C(dbadmin) account on the host.
- This module uses C(pyodbc), a Python ODBC database adapter. You must ensure
that C(unixODBC) and C(pyodbc) is installed on the host and properly configured.
- Configuring C(unixODBC) for Vertica requires C(Driver = /opt/vertica/lib64/libverticaodbc.so)
to be added to the C(Vertica) section of either C(/etc/odbcinst.ini) or C($HOME/.odbcinst.ini)
and both C(ErrorMessagesPath = /opt/vertica/lib64) and C(DriverManagerEncoding = UTF-16)
to be added to the C(Driver) section of either C(/etc/vertica.ini) or C($HOME/.vertica.ini).
requirements: [ 'unixODBC', 'pyodbc' ]
author: "Dariusz Owczarek (@dareko)"
"""
EXAMPLES = """
- name: gathering vertica facts
vertica_facts: db=db_name
"""
try:
import pyodbc
except ImportError:
pyodbc_found = False
else:
pyodbc_found = True
from ansible.module_utils.basic import AnsibleModule
from ansible.module_utils.pycompat24 import get_exception
class NotSupportedError(Exception):
pass
# module specific functions
def get_schema_facts(cursor, schema=''):
facts = {}
cursor.execute("""
select schema_name, schema_owner, create_time
from schemata
where not is_system_schema and schema_name not in ('public')
and (? = '' or schema_name ilike ?)
""", schema, schema)
while True:
rows = cursor.fetchmany(100)
if not rows:
break
for row in rows:
facts[row.schema_name.lower()] = {
'name': row.schema_name,
'owner': row.schema_owner,
'create_time': str(row.create_time),
'usage_roles': [],
'create_roles': []}
cursor.execute("""
select g.object_name as schema_name, r.name as role_name,
lower(g.privileges_description) privileges_description
from roles r join grants g
on g.grantee = r.name and g.object_type='SCHEMA'
and g.privileges_description like '%USAGE%'
and g.grantee not in ('public', 'dbadmin')
and (? = '' or g.object_name ilike ?)
""", schema, schema)
while True:
rows = cursor.fetchmany(100)
if not rows:
break
for row in rows:
schema_key = row.schema_name.lower()
if 'create' in row.privileges_description:
facts[schema_key]['create_roles'].append(row.role_name)
else:
facts[schema_key]['usage_roles'].append(row.role_name)
return facts
def get_user_facts(cursor, user=''):
facts = {}
cursor.execute("""
select u.user_name, u.is_locked, u.lock_time,
p.password, p.acctexpired as is_expired,
u.profile_name, u.resource_pool,
u.all_roles, u.default_roles
from users u join password_auditor p on p.user_id = u.user_id
where not u.is_super_user
and (? = '' or u.user_name ilike ?)
""", user, user)
while True:
rows = cursor.fetchmany(100)
if not rows:
break
for row in rows:
user_key = row.user_name.lower()
facts[user_key] = {
'name': row.user_name,
'locked': str(row.is_locked),
'password': row.password,
'expired': str(row.is_expired),
'profile': row.profile_name,
'resource_pool': row.resource_pool,
'roles': [],
'default_roles': []}
if row.is_locked:
facts[user_key]['locked_time'] = str(row.lock_time)
if row.all_roles:
facts[user_key]['roles'] = row.all_roles.replace(' ', '').split(',')
if row.default_roles:
facts[user_key]['default_roles'] = row.default_roles.replace(' ', '').split(',')
return facts
def get_role_facts(cursor, role=''):
facts = {}
cursor.execute("""
select r.name, r.assigned_roles
from roles r
where (? = '' or r.name ilike ?)
""", role, role)
while True:
rows = cursor.fetchmany(100)
if not rows:
break
for row in rows:
role_key = row.name.lower()
facts[role_key] = {
'name': row.name,
'assigned_roles': []}
if row.assigned_roles:
facts[role_key]['assigned_roles'] = row.assigned_roles.replace(' ', '').split(',')
return facts
def get_configuration_facts(cursor, parameter=''):
facts = {}
cursor.execute("""
select c.parameter_name, c.current_value, c.default_value
from configuration_parameters c
where c.node_name = 'ALL'
and (? = '' or c.parameter_name ilike ?)
""", parameter, parameter)
while True:
rows = cursor.fetchmany(100)
if not rows:
break
for row in rows:
facts[row.parameter_name.lower()] = {
'parameter_name': row.parameter_name,
'current_value': row.current_value,
'default_value': row.default_value}
return facts
def get_node_facts(cursor, schema=''):
facts = {}
cursor.execute("""
select node_name, node_address, export_address, node_state, node_type,
catalog_path
from nodes
""")
while True:
rows = cursor.fetchmany(100)
if not rows:
break
for row in rows:
facts[row.node_address] = {
'node_name': row.node_name,
'export_address': row.export_address,
'node_state': row.node_state,
'node_type': row.node_type,
'catalog_path': row.catalog_path}
return facts
# module logic
def main():
module = AnsibleModule(
argument_spec=dict(
cluster=dict(default='localhost'),
port=dict(default='5433'),
db=dict(default=None),
login_user=dict(default='dbadmin'),
login_password=dict(default=None),
), supports_check_mode = True)
if not pyodbc_found:
module.fail_json(msg="The python pyodbc module is required.")
db = ''
if module.params['db']:
db = module.params['db']
try:
dsn = (
"Driver=Vertica;"
"Server=%s;"
"Port=%s;"
"Database=%s;"
"User=%s;"
"Password=%s;"
"ConnectionLoadBalance=%s"
) % (module.params['cluster'], module.params['port'], db,
module.params['login_user'], module.params['login_password'], 'true')
db_conn = pyodbc.connect(dsn, autocommit=True)
cursor = db_conn.cursor()
except Exception:
e = get_exception()
module.fail_json(msg="Unable to connect to database: %s." % str(e))
try:
schema_facts = get_schema_facts(cursor)
user_facts = get_user_facts(cursor)
role_facts = get_role_facts(cursor)
configuration_facts = get_configuration_facts(cursor)
node_facts = get_node_facts(cursor)
module.exit_json(changed=False,
ansible_facts={'vertica_schemas': schema_facts,
'vertica_users': user_facts,
'vertica_roles': role_facts,
'vertica_configuration': configuration_facts,
'vertica_nodes': node_facts})
except NotSupportedError:
e = get_exception()
module.fail_json(msg=str(e))
except SystemExit:
# avoid catching this on python 2.4
raise
except Exception:
e = get_exception()
module.fail_json(msg=e)
if __name__ == '__main__':
main()
| gpl-3.0 |
suninsky/ReceiptOCR | Python/server/lib/python2.7/site-packages/markupsafe/__init__.py | 144 | 10697 | # -*- coding: utf-8 -*-
"""
markupsafe
~~~~~~~~~~
Implements a Markup string.
:copyright: (c) 2010 by Armin Ronacher.
:license: BSD, see LICENSE for more details.
"""
import re
import string
from collections import Mapping
from markupsafe._compat import text_type, string_types, int_types, \
unichr, iteritems, PY2
__version__ = "1.0"
__all__ = ['Markup', 'soft_unicode', 'escape', 'escape_silent']
_striptags_re = re.compile(r'(<!--.*?-->|<[^>]*>)')
_entity_re = re.compile(r'&([^& ;]+);')
class Markup(text_type):
r"""Marks a string as being safe for inclusion in HTML/XML output without
needing to be escaped. This implements the `__html__` interface a couple
of frameworks and web applications use. :class:`Markup` is a direct
subclass of `unicode` and provides all the methods of `unicode` just that
it escapes arguments passed and always returns `Markup`.
The `escape` function returns markup objects so that double escaping can't
happen.
The constructor of the :class:`Markup` class can be used for three
different things: When passed an unicode object it's assumed to be safe,
when passed an object with an HTML representation (has an `__html__`
method) that representation is used, otherwise the object passed is
converted into a unicode string and then assumed to be safe:
>>> Markup("Hello <em>World</em>!")
Markup(u'Hello <em>World</em>!')
>>> class Foo(object):
... def __html__(self):
... return '<a href="#">foo</a>'
...
>>> Markup(Foo())
Markup(u'<a href="#">foo</a>')
If you want object passed being always treated as unsafe you can use the
:meth:`escape` classmethod to create a :class:`Markup` object:
>>> Markup.escape("Hello <em>World</em>!")
Markup(u'Hello <em>World</em>!')
Operations on a markup string are markup aware which means that all
arguments are passed through the :func:`escape` function:
>>> em = Markup("<em>%s</em>")
>>> em % "foo & bar"
Markup(u'<em>foo & bar</em>')
>>> strong = Markup("<strong>%(text)s</strong>")
>>> strong % {'text': '<blink>hacker here</blink>'}
Markup(u'<strong><blink>hacker here</blink></strong>')
>>> Markup("<em>Hello</em> ") + "<foo>"
Markup(u'<em>Hello</em> <foo>')
"""
__slots__ = ()
def __new__(cls, base=u'', encoding=None, errors='strict'):
if hasattr(base, '__html__'):
base = base.__html__()
if encoding is None:
return text_type.__new__(cls, base)
return text_type.__new__(cls, base, encoding, errors)
def __html__(self):
return self
def __add__(self, other):
if isinstance(other, string_types) or hasattr(other, '__html__'):
return self.__class__(super(Markup, self).__add__(self.escape(other)))
return NotImplemented
def __radd__(self, other):
if hasattr(other, '__html__') or isinstance(other, string_types):
return self.escape(other).__add__(self)
return NotImplemented
def __mul__(self, num):
if isinstance(num, int_types):
return self.__class__(text_type.__mul__(self, num))
return NotImplemented
__rmul__ = __mul__
def __mod__(self, arg):
if isinstance(arg, tuple):
arg = tuple(_MarkupEscapeHelper(x, self.escape) for x in arg)
else:
arg = _MarkupEscapeHelper(arg, self.escape)
return self.__class__(text_type.__mod__(self, arg))
def __repr__(self):
return '%s(%s)' % (
self.__class__.__name__,
text_type.__repr__(self)
)
def join(self, seq):
return self.__class__(text_type.join(self, map(self.escape, seq)))
join.__doc__ = text_type.join.__doc__
def split(self, *args, **kwargs):
return list(map(self.__class__, text_type.split(self, *args, **kwargs)))
split.__doc__ = text_type.split.__doc__
def rsplit(self, *args, **kwargs):
return list(map(self.__class__, text_type.rsplit(self, *args, **kwargs)))
rsplit.__doc__ = text_type.rsplit.__doc__
def splitlines(self, *args, **kwargs):
return list(map(self.__class__, text_type.splitlines(
self, *args, **kwargs)))
splitlines.__doc__ = text_type.splitlines.__doc__
def unescape(self):
r"""Unescape markup again into an text_type string. This also resolves
known HTML4 and XHTML entities:
>>> Markup("Main » <em>About</em>").unescape()
u'Main \xbb <em>About</em>'
"""
from markupsafe._constants import HTML_ENTITIES
def handle_match(m):
name = m.group(1)
if name in HTML_ENTITIES:
return unichr(HTML_ENTITIES[name])
try:
if name[:2] in ('#x', '#X'):
return unichr(int(name[2:], 16))
elif name.startswith('#'):
return unichr(int(name[1:]))
except ValueError:
pass
# Don't modify unexpected input.
return m.group()
return _entity_re.sub(handle_match, text_type(self))
def striptags(self):
r"""Unescape markup into an text_type string and strip all tags. This
also resolves known HTML4 and XHTML entities. Whitespace is
normalized to one:
>>> Markup("Main » <em>About</em>").striptags()
u'Main \xbb About'
"""
stripped = u' '.join(_striptags_re.sub('', self).split())
return Markup(stripped).unescape()
@classmethod
def escape(cls, s):
"""Escape the string. Works like :func:`escape` with the difference
that for subclasses of :class:`Markup` this function would return the
correct subclass.
"""
rv = escape(s)
if rv.__class__ is not cls:
return cls(rv)
return rv
def make_simple_escaping_wrapper(name):
orig = getattr(text_type, name)
def func(self, *args, **kwargs):
args = _escape_argspec(list(args), enumerate(args), self.escape)
_escape_argspec(kwargs, iteritems(kwargs), self.escape)
return self.__class__(orig(self, *args, **kwargs))
func.__name__ = orig.__name__
func.__doc__ = orig.__doc__
return func
for method in '__getitem__', 'capitalize', \
'title', 'lower', 'upper', 'replace', 'ljust', \
'rjust', 'lstrip', 'rstrip', 'center', 'strip', \
'translate', 'expandtabs', 'swapcase', 'zfill':
locals()[method] = make_simple_escaping_wrapper(method)
# new in python 2.5
if hasattr(text_type, 'partition'):
def partition(self, sep):
return tuple(map(self.__class__,
text_type.partition(self, self.escape(sep))))
def rpartition(self, sep):
return tuple(map(self.__class__,
text_type.rpartition(self, self.escape(sep))))
# new in python 2.6
if hasattr(text_type, 'format'):
def format(*args, **kwargs):
self, args = args[0], args[1:]
formatter = EscapeFormatter(self.escape)
kwargs = _MagicFormatMapping(args, kwargs)
return self.__class__(formatter.vformat(self, args, kwargs))
def __html_format__(self, format_spec):
if format_spec:
raise ValueError('Unsupported format specification '
'for Markup.')
return self
# not in python 3
if hasattr(text_type, '__getslice__'):
__getslice__ = make_simple_escaping_wrapper('__getslice__')
del method, make_simple_escaping_wrapper
class _MagicFormatMapping(Mapping):
"""This class implements a dummy wrapper to fix a bug in the Python
standard library for string formatting.
See http://bugs.python.org/issue13598 for information about why
this is necessary.
"""
def __init__(self, args, kwargs):
self._args = args
self._kwargs = kwargs
self._last_index = 0
def __getitem__(self, key):
if key == '':
idx = self._last_index
self._last_index += 1
try:
return self._args[idx]
except LookupError:
pass
key = str(idx)
return self._kwargs[key]
def __iter__(self):
return iter(self._kwargs)
def __len__(self):
return len(self._kwargs)
if hasattr(text_type, 'format'):
class EscapeFormatter(string.Formatter):
def __init__(self, escape):
self.escape = escape
def format_field(self, value, format_spec):
if hasattr(value, '__html_format__'):
rv = value.__html_format__(format_spec)
elif hasattr(value, '__html__'):
if format_spec:
raise ValueError('No format specification allowed '
'when formatting an object with '
'its __html__ method.')
rv = value.__html__()
else:
# We need to make sure the format spec is unicode here as
# otherwise the wrong callback methods are invoked. For
# instance a byte string there would invoke __str__ and
# not __unicode__.
rv = string.Formatter.format_field(
self, value, text_type(format_spec))
return text_type(self.escape(rv))
def _escape_argspec(obj, iterable, escape):
"""Helper for various string-wrapped functions."""
for key, value in iterable:
if hasattr(value, '__html__') or isinstance(value, string_types):
obj[key] = escape(value)
return obj
class _MarkupEscapeHelper(object):
"""Helper for Markup.__mod__"""
def __init__(self, obj, escape):
self.obj = obj
self.escape = escape
__getitem__ = lambda s, x: _MarkupEscapeHelper(s.obj[x], s.escape)
__unicode__ = __str__ = lambda s: text_type(s.escape(s.obj))
__repr__ = lambda s: str(s.escape(repr(s.obj)))
__int__ = lambda s: int(s.obj)
__float__ = lambda s: float(s.obj)
# we have to import it down here as the speedups and native
# modules imports the markup type which is define above.
try:
from markupsafe._speedups import escape, escape_silent, soft_unicode
except ImportError:
from markupsafe._native import escape, escape_silent, soft_unicode
if not PY2:
soft_str = soft_unicode
__all__.append('soft_str')
| mit |
ahmadio/edx-platform | lms/djangoapps/mobile_api/social_facebook/groups/views.py | 86 | 4938 | """
Views for groups info API
"""
from rest_framework import generics, status, mixins
from rest_framework.response import Response
from django.conf import settings
import facebook
from ...utils import mobile_view
from . import serializers
@mobile_view()
class Groups(generics.CreateAPIView, mixins.DestroyModelMixin):
"""
**Use Case**
An API to Create or Delete course groups.
Note: The Delete is not invoked from the current version of the app
and is used only for testing with facebook dependencies.
**Creation Example request**:
POST /api/mobile/v0.5/social/facebook/groups/
Parameters: name : string,
description : string,
privacy : open/closed
**Creation Response Values**
{"id": group_id}
**Deletion Example request**:
DELETE /api/mobile/v0.5/social/facebook/groups/<group_id>
**Deletion Response Values**
{"success" : "true"}
"""
serializer_class = serializers.GroupSerializer
def create(self, request, *args, **kwargs):
serializer = self.get_serializer(data=request.DATA, files=request.FILES)
if not serializer.is_valid():
return Response(serializer.errors, status=status.HTTP_400_BAD_REQUEST)
try:
app_groups_response = facebook_graph_api().request(
settings.FACEBOOK_API_VERSION + '/' + settings.FACEBOOK_APP_ID + "/groups",
post_args=request.POST.dict()
)
return Response(app_groups_response)
except facebook.GraphAPIError, ex:
return Response({'error': ex.result['error']['message']}, status=status.HTTP_400_BAD_REQUEST)
def delete(self, request, *args, **kwargs): # pylint: disable=unused-argument
"""
Deletes the course group.
"""
try:
return Response(
facebook_graph_api().request(
settings.FACEBOOK_API_VERSION + '/' + settings.FACEBOOK_APP_ID + "/groups/" + kwargs['group_id'],
post_args={'method': 'delete'}
)
)
except facebook.GraphAPIError, ex:
return Response({'error': ex.result['error']['message']}, status=status.HTTP_400_BAD_REQUEST)
@mobile_view()
class GroupsMembers(generics.CreateAPIView, mixins.DestroyModelMixin):
"""
**Use Case**
An API to Invite and Remove members to a group
Note: The Remove is not invoked from the current version
of the app and is used only for testing with facebook dependencies.
**Invite Example request**:
POST /api/mobile/v0.5/social/facebook/groups/<group_id>/member/
Parameters: members : int,int,int...
**Invite Response Values**
{"member_id" : success/error_message}
A response with each member_id and whether or not the member was added successfully.
If the member was not added successfully the Facebook error message is provided.
**Remove Example request**:
DELETE /api/mobile/v0.5/social/facebook/groups/<group_id>/member/<member_id>
**Remove Response Values**
{"success" : "true"}
"""
serializer_class = serializers.GroupsMembersSerializer
def create(self, request, *args, **kwargs):
serializer = self.get_serializer(data=request.DATA, files=request.FILES)
if not serializer.is_valid():
return Response(serializer.errors, status=status.HTTP_400_BAD_REQUEST)
graph = facebook_graph_api()
url = settings.FACEBOOK_API_VERSION + '/' + kwargs['group_id'] + "/members"
member_ids = serializer.object['member_ids'].split(',')
response = {}
for member_id in member_ids:
try:
if 'success' in graph.request(url, post_args={'member': member_id}):
response[member_id] = 'success'
except facebook.GraphAPIError, ex:
response[member_id] = ex.result['error']['message']
return Response(response, status=status.HTTP_200_OK)
def delete(self, request, *args, **kwargs): # pylint: disable=unused-argument
"""
Deletes the member from the course group.
"""
try:
return Response(
facebook_graph_api().request(
settings.FACEBOOK_API_VERSION + '/' + kwargs['group_id'] + "/members",
post_args={'method': 'delete', 'member': kwargs['member_id']}
)
)
except facebook.GraphAPIError, ex:
return Response({'error': ex.result['error']['message']}, status=status.HTTP_400_BAD_REQUEST)
def facebook_graph_api():
"""
Returns the result from calling Facebook's Graph API with the app's access token.
"""
return facebook.GraphAPI(facebook.get_app_access_token(settings.FACEBOOK_APP_ID, settings.FACEBOOK_APP_SECRET))
| agpl-3.0 |
johnsonc/OTM2 | opentreemap/treemap/tests/ui/uitest_registration_views.py | 12 | 2858 | # -*- coding: utf-8 -*-
from __future__ import print_function
from __future__ import unicode_literals
from __future__ import division
from time import sleep
from django.core.urlresolvers import reverse
from django.core import mail
from registration.models import RegistrationProfile
from treemap.tests.ui import UITestCase
from treemap.tests import make_user, create_mock_system_user
class LoginLogoutTest(UITestCase):
def setUp(self):
create_mock_system_user()
super(LoginLogoutTest, self).setUp()
self.user = make_user(username='username', password='password')
self.profile = RegistrationProfile.objects.create_profile(self.user)
def test_invalid_login(self):
self.browse_to_url(reverse('auth_login'))
login_url = self.driver.current_url
self.process_login_form(
self.user.username, 'passwordinvalid')
# There should be an error list with at least one element
self.wait_until_present('.errorlist li')
# We should be on the same page
self.assertEqual(login_url, self.driver.current_url)
def test_valid_login(self):
self.browse_to_url(reverse('auth_login'))
login_url = self.driver.current_url
self.process_login_form(self.user.username, 'password')
email_element = self.wait_until_present(
'[data-field="user.email"][data-class="display"]')
# We should not be on the same page
self.assertNotEqual(login_url, self.driver.current_url)
# We should expect our username in the url
self.assertIn(self.user.username, self.driver.current_url)
value = email_element.get_attribute('data-value')
self.assertEqual(self.user.email, value)
sleep(1) # prevent hang
class ForgotUsernameTest(UITestCase):
def setUp(self):
create_mock_system_user()
super(ForgotUsernameTest, self).setUp()
self.user = make_user(username='username', password='password')
def tearDown(self):
mail.outbox = []
super(ForgotUsernameTest, self).tearDown()
def test_can_get_to_page(self):
self.browse_to_url(reverse('auth_login'))
forgot_username_url = reverse('forgot_username')
link = self.find_anchor_by_url(forgot_username_url)
link.click()
self.wait_until_present('input[name="email"]')
self.assertEqual(self.live_server_url + forgot_username_url,
self.driver.current_url)
def test_can_retrieve_username(self):
self.browse_to_url(reverse('forgot_username'))
email_elem = self.driver.find_element_by_name('email')
email_elem.send_keys(self.user.email)
self.click('form input[type="submit"]')
self.wait_until_text_present('Email Sent')
self.assertEqual(len(mail.outbox), 1)
| gpl-3.0 |
catb0t/simpleforth | forth.py | 1 | 7114 | #!/usr/bin/env python3
import builtins
from pmlr import pmlr
debug_write = pmlr.util.debug_write
ERR_DATA = {
ZeroDivisionError: {"IS_FATAL": False, "TYPE": "DEBUG"},
LookupError: {"IS_FATAL": False, "TYPE": "RANGE"},
IndexError: {"IS_FATAL": False, "TYPE": "RANGE"},
TypeError: {"IS_FATAL": True, "TYPE": "ERROR"},
NameError: {"IS_FATAL": True, "TYPE": "FATAL"},
ValueError: {"IS_FATAL": True, "TYPE": "FATAL"},
AssertionError: {"IS_FATAL": True, "TYPE": "FATAL"},
}
def is_none(*args):
return None in args
def cmp_all(val, *tests):
return builtins.all([val == test for test in tests])
def all(*args):
return builtins.all(args)
def any(*args):
return builtins.any(args)
class Forth(object):
def __init__(self):
(self._stk, self._lopstk,
self._retstk, self._sftstk) = [Stack() for i in range(4)]
self.dict = {
"": ()
}
self.funcdict = {
"": ()
}
def run(self, prog, sandbox=False):
pass
def define(self, name, defn):
defn = " ".join(defn).strip()
try:
self.run(defn, sandbox=True)
except MalformedExpressionException as err:
debug_write(err.msg, level=err.level)
return None # {"name": "None", "desc": "debug"}
class OpCore():
"""bare stack operator mixin"""
def peek(self, from_idx=0, to_idx=-1):
return self._stk[:]
def pop(self, count=1, idx=-1):
"""( x -- )
take something and return it"""
if count > len(self._stk):
pmlr.util.debug_write(
"popping more items than exist on stack!\n",
level="WARN"
)
# http://stackoverflow.com/a/34633242/4532996
# from testing it seems that pop(x) is slower than pop()
# pop(-1) doesn't seem to be optimised to pop(),
# so avoid it if possible
x = []
if -1 == idx:
for i in range(count):
try:
x.append(self._stk.pop())
except LookupError as err:
self.err(err, errtype="RANGE")
break
else:
for i in range(count):
try:
x.append(self._stk.pop(idx))
except LookupError as err:
self.err(err, errtype="RANGE")
break
return x[0] if len(x) == 1 else list(reversed(x))
def push(self, *args, idx=-1):
"""( -- x ... )
put somethings at idx"""
if idx == -1:
self._stk.extend(args)
else:
if idx < 0:
for arg in args:
self._stk.insert(idx, arg)
idx -= 1
else:
for arg in args:
self._stk.insert(idx, arg)
idx += 1
def clear(self):
"""( z y x -- )
clear the stack completely"""
y = self._stk.copy()
self._stk.clear()
return y
def pick(self, idx=-3, drop=False):
"""( x -- x )
pick somethings from a range of indicies"""
s = self._stk[idx]
if drop: self._stk[idx] = []
return s
def drop(self, count=1, idx=-1):
"""( x -- )
drop items without returning (cheaper pop)"""
[self.pop(idx=idx) for i in range(count)]
def dup(self, count=1, from_idx=-1):
"""( y -- y y )
duplicate something and push"""
try:
y = self._stk[from_idx] * count
except LookupError as err:
self.err(err, errtype="RANGE")
self.push(*y, idx=idx)
def dupn(self, count=2, idx=-1):
"""( x y -- x y x y )
dup count items from an idx"""
y = []
for i in range(count):
try:
y.append(self._stk[idx - i])
except LookupError as err:
if idx == 1:
continue
else:
self.err(err, errtype="RANGE")
return None
self.push(*y, idx=idx)
def swap(self, idx=-1):
"""( x y -- y x )
swap two things at an index"""
self.push(*reversed([self.pop(idx=idx) for i in range(2)]), idx=idx)
def rot(self, idx=-1, count=3):
"""( w x y z -- x y z w )
rotate things left, at an index"""
l = [self.pop(idx=idx) for i in range(count)]
l.insert(0, l.pop())
self.push(*l, idx=idx)
def urot(self, idx=-1, count=3):
"""( w x y z -- z w x y )
rotate things right, at an index"""
l = [self.pop(idx=idx) for i in range(count)]
l.append(l.pop(0))
self.push(*l, idx=idx)
class OpLogik():
pass
class OpString():
pass
class Stack(OpCore, OpLogik, OpString):
"the mixin mixer of the above mixins"
def __init__(self):
self._stk = []
def err(self, err, errtype=None, framelevel=3):
if errtype is None:
errtype = ERR_DATA.get(err.__class__, {"TYPE": "FATAL"})["TYPE"]
errtype = errtype.upper()
debug_write(*err.args, "\n", level=errtype, framelevel=framelevel)
if ERR_DATA.get(err.__class__, {"IS_FATAL": True})["IS_FATAL"]:
raise err.__class__(
pmlr.util.debug_fmt(
errtype, framelevel=framelevel
) + " " + "".join([str(i) for i in err.args])
)
def __repr__(self):
return "<{}> {}".format(len(self._stk), _fmt_collection(self._stk))
is_collection = lambda c: any(issubclass(c.__class__, (list, tuple, dict, set)), isinstance(c, (list, tuple, dict, set)))
def _fmt_collection(col):
"format a collection literal"
t_super = col.__class__
try:
t_mro = t_super.mro()
t_meta = t_mro[1]
if cmp_all(type(t_meta), object, type, type(object), type(type)): raise TypeError
except (NameError, TypeError, IndexError, AttributeError) as err:
if cmp_all(err.__class__, NameError, AttributeError) and not hasattr(t_super, "mro"): raise
else: raise TypeError("need object instance but found {} (class constructor, type or object object)".format(type(col)))
is_iter = hasattr(col, "__iter__")
is_meta_iter = hasattr(col.__class__, "__iter__")
if not any(is_iter, is_meta_iter):
raise TypeError("({}) {} object is not iterable".format(col, col.__class__))
orderedary = (list, tuple, set)
if any(isinstance(col, orderedary), issubclass(col.__class__, orderedary)):
return "[ {} ]".format(" ".join(repr(i) if not is_collection(i) else _fmt_collection(i) for i in col))
elif any(isinstance(col, dict), issubclass(col, dict)):
return " ".join("{}:{}".format(str(key), str(value)) for key, value in col.items())
else:
raise TypeError("don't know how to format that container")
return locals()
if __name__ == "__main__":
from tests import main as test_main
test_main() | gpl-3.0 |
skidzen/grit-i18n | grit/tool/build.py | 2 | 19603 | #!/usr/bin/env python
# Copyright (c) 2012 The Chromium Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
'''The 'grit build' tool along with integration for this tool with the
SCons build system.
'''
import filecmp
import getopt
import os
import shutil
import sys
from grit import grd_reader
from grit import util
from grit.tool import interface
from grit import shortcuts
# It would be cleaner to have each module register itself, but that would
# require importing all of them on every run of GRIT.
'''Map from <output> node types to modules under grit.format.'''
_format_modules = {
'android': 'android_xml',
'c_format': 'c_format',
'chrome_messages_json': 'chrome_messages_json',
'data_package': 'data_pack',
'js_map_format': 'js_map_format',
'rc_all': 'rc',
'rc_translateable': 'rc',
'rc_nontranslateable': 'rc',
'rc_header': 'rc_header',
'resource_map_header': 'resource_map',
'resource_map_source': 'resource_map',
'resource_file_map_source': 'resource_map',
}
_format_modules.update(
(type, 'policy_templates.template_formatter') for type in
[ 'adm', 'admx', 'adml', 'reg', 'doc', 'json',
'plist', 'plist_strings', 'ios_plist', 'android_policy' ])
def GetFormatter(type):
modulename = 'grit.format.' + _format_modules[type]
__import__(modulename)
module = sys.modules[modulename]
try:
return module.Format
except AttributeError:
return module.GetFormatter(type)
class RcBuilder(interface.Tool):
'''A tool that builds RC files and resource header files for compilation.
Usage: grit build [-o OUTPUTDIR] [-D NAME[=VAL]]*
All output options for this tool are specified in the input file (see
'grit help' for details on how to specify the input file - it is a global
option).
Options:
-a FILE Assert that the given file is an output. There can be
multiple "-a" flags listed for multiple outputs. If a "-a"
or "--assert-file-list" argument is present, then the list
of asserted files must match the output files or the tool
will fail. The use-case is for the build system to maintain
separate lists of output files and to catch errors if the
build system's list and the grit list are out-of-sync.
--assert-file-list Provide a file listing multiple asserted output files.
There is one file name per line. This acts like specifying
each file with "-a" on the command line, but without the
possibility of running into OS line-length limits for very
long lists.
-o OUTPUTDIR Specify what directory output paths are relative to.
Defaults to the current directory.
-D NAME[=VAL] Specify a C-preprocessor-like define NAME with optional
value VAL (defaults to 1) which will be used to control
conditional inclusion of resources.
-E NAME=VALUE Set environment variable NAME to VALUE (within grit).
-f FIRSTIDSFILE Path to a python file that specifies the first id of
value to use for resources. A non-empty value here will
override the value specified in the <grit> node's
first_ids_file.
-w WHITELISTFILE Path to a file containing the string names of the
resources to include. Anything not listed is dropped.
-t PLATFORM Specifies the platform the build is targeting; defaults
to the value of sys.platform. The value provided via this
flag should match what sys.platform would report for your
target platform; see grit.node.base.EvaluateCondition.
-h HEADERFORMAT Custom format string to use for generating rc header files.
The string should have two placeholders: {textual_id}
and {numeric_id}. E.g. "#define {textual_id} {numeric_id}"
Otherwise it will use the default "#define SYMBOL 1234"
--output-all-resource-defines
--no-output-all-resource-defines If specified, overrides the value of the
output_all_resource_defines attribute of the root <grit>
element of the input .grd file.
--write-only-new flag
If flag is non-0, write output files to a temporary file
first, and copy it to the real output only if the new file
is different from the old file. This allows some build
systems to realize that dependent build steps might be
unnecessary, at the cost of comparing the output data at
grit time.
--depend-on-stamp
If specified along with --depfile and --depdir, the depfile
generated will depend on a stampfile instead of the first
output in the input .grd file.
Conditional inclusion of resources only affects the output of files which
control which resources get linked into a binary, e.g. it affects .rc files
meant for compilation but it does not affect resource header files (that define
IDs). This helps ensure that values of IDs stay the same, that all messages
are exported to translation interchange files (e.g. XMB files), etc.
'''
def ShortDescription(self):
return 'A tool that builds RC files for compilation.'
def Run(self, opts, args):
self.output_directory = '.'
first_ids_file = None
whitelist_filenames = []
assert_output_files = []
target_platform = None
depfile = None
depdir = None
rc_header_format = None
output_all_resource_defines = None
write_only_new = False
depend_on_stamp = False
(own_opts, args) = getopt.getopt(args, 'a:o:D:E:f:w:t:h:',
('depdir=','depfile=','assert-file-list=',
'output-all-resource-defines',
'no-output-all-resource-defines',
'depend-on-stamp',
'write-only-new='))
for (key, val) in own_opts:
if key == '-a':
assert_output_files.append(val)
elif key == '--assert-file-list':
with open(val) as f:
assert_output_files += f.read().splitlines()
elif key == '-o':
self.output_directory = val
elif key == '-D':
name, val = util.ParseDefine(val)
self.defines[name] = val
elif key == '-E':
(env_name, env_value) = val.split('=', 1)
os.environ[env_name] = env_value
elif key == '-f':
# TODO(joi@chromium.org): Remove this override once change
# lands in WebKit.grd to specify the first_ids_file in the
# .grd itself.
first_ids_file = val
elif key == '-w':
whitelist_filenames.append(val)
elif key == '--output-all-resource-defines':
output_all_resource_defines = True
elif key == '--no-output-all-resource-defines':
output_all_resource_defines = False
elif key == '-t':
target_platform = val
elif key == '-h':
rc_header_format = val
elif key == '--depdir':
depdir = val
elif key == '--depfile':
depfile = val
elif key == '--write-only-new':
write_only_new = val != '0'
elif key == '--depend-on-stamp':
depend_on_stamp = True
if len(args):
print 'This tool takes no tool-specific arguments.'
return 2
self.SetOptions(opts)
if self.scons_targets:
self.VerboseOut('Using SCons targets to identify files to output.\n')
else:
self.VerboseOut('Output directory: %s (absolute path: %s)\n' %
(self.output_directory,
os.path.abspath(self.output_directory)))
if whitelist_filenames:
self.whitelist_names = set()
for whitelist_filename in whitelist_filenames:
self.VerboseOut('Using whitelist: %s\n' % whitelist_filename);
whitelist_contents = util.ReadFile(whitelist_filename, util.RAW_TEXT)
self.whitelist_names.update(whitelist_contents.strip().split('\n'))
self.write_only_new = write_only_new
self.res = grd_reader.Parse(opts.input,
debug=opts.extra_verbose,
first_ids_file=first_ids_file,
defines=self.defines,
target_platform=target_platform)
# If the output_all_resource_defines option is specified, override the value
# found in the grd file.
if output_all_resource_defines is not None:
self.res.SetShouldOutputAllResourceDefines(output_all_resource_defines)
# Set an output context so that conditionals can use defines during the
# gathering stage; we use a dummy language here since we are not outputting
# a specific language.
self.res.SetOutputLanguage('en')
if rc_header_format:
self.res.AssignRcHeaderFormat(rc_header_format)
self.res.RunGatherers()
self.Process()
if assert_output_files:
if not self.CheckAssertedOutputFiles(assert_output_files):
return 2
if depfile and depdir:
self.GenerateDepfile(depfile, depdir, first_ids_file, depend_on_stamp)
return 0
def __init__(self, defines=None):
# Default file-creation function is built-in open(). Only done to allow
# overriding by unit test.
self.fo_create = open
# key/value pairs of C-preprocessor like defines that are used for
# conditional output of resources
self.defines = defines or {}
# self.res is a fully-populated resource tree if Run()
# has been called, otherwise None.
self.res = None
# Set to a list of filenames for the output nodes that are relative
# to the current working directory. They are in the same order as the
# output nodes in the file.
self.scons_targets = None
# The set of names that are whitelisted to actually be included in the
# output.
self.whitelist_names = None
# Whether to compare outputs to their old contents before writing.
self.write_only_new = False
@staticmethod
def AddWhitelistTags(start_node, whitelist_names):
# Walk the tree of nodes added attributes for the nodes that shouldn't
# be written into the target files (skip markers).
from grit.node import include
from grit.node import message
from grit.node import structure
for node in start_node:
# Same trick data_pack.py uses to see what nodes actually result in
# real items.
if (isinstance(node, include.IncludeNode) or
isinstance(node, message.MessageNode) or
isinstance(node, structure.StructureNode)):
text_ids = node.GetTextualIds()
# Mark the item to be skipped if it wasn't in the whitelist.
if text_ids and text_ids[0] not in whitelist_names:
node.SetWhitelistMarkedAsSkip(True)
@staticmethod
def ProcessNode(node, output_node, outfile):
'''Processes a node in-order, calling its formatter before and after
recursing to its children.
Args:
node: grit.node.base.Node subclass
output_node: grit.node.io.OutputNode
outfile: open filehandle
'''
base_dir = util.dirname(output_node.GetOutputFilename())
formatter = GetFormatter(output_node.GetType())
formatted = formatter(node, output_node.GetLanguage(), output_dir=base_dir)
outfile.writelines(formatted)
def Process(self):
# Update filenames with those provided by SCons if we're being invoked
# from SCons. The list of SCons targets also includes all <structure>
# node outputs, but it starts with our output files, in the order they
# occur in the .grd
if self.scons_targets:
assert len(self.scons_targets) >= len(self.res.GetOutputFiles())
outfiles = self.res.GetOutputFiles()
for ix in range(len(outfiles)):
outfiles[ix].output_filename = os.path.abspath(
self.scons_targets[ix])
else:
for output in self.res.GetOutputFiles():
output.output_filename = os.path.abspath(os.path.join(
self.output_directory, output.GetFilename()))
# If there are whitelisted names, tag the tree once up front, this way
# while looping through the actual output, it is just an attribute check.
if self.whitelist_names:
self.AddWhitelistTags(self.res, self.whitelist_names)
for output in self.res.GetOutputFiles():
self.VerboseOut('Creating %s...' % output.GetFilename())
# Microsoft's RC compiler can only deal with single-byte or double-byte
# files (no UTF-8), so we make all RC files UTF-16 to support all
# character sets.
if output.GetType() in ('rc_header', 'resource_map_header',
'resource_map_source', 'resource_file_map_source'):
encoding = 'cp1252'
elif output.GetType() in ('android', 'c_format', 'js_map_format', 'plist',
'plist_strings', 'doc', 'json', 'android_policy'):
encoding = 'utf_8'
elif output.GetType() in ('chrome_messages_json'):
# Chrome Web Store currently expects BOM for UTF-8 files :-(
encoding = 'utf-8-sig'
else:
# TODO(gfeher) modify here to set utf-8 encoding for admx/adml
encoding = 'utf_16'
# Set the context, for conditional inclusion of resources
self.res.SetOutputLanguage(output.GetLanguage())
self.res.SetOutputContext(output.GetContext())
self.res.SetFallbackToDefaultLayout(output.GetFallbackToDefaultLayout())
self.res.SetDefines(self.defines)
# Make the output directory if it doesn't exist.
self.MakeDirectoriesTo(output.GetOutputFilename())
# Write the results to a temporary file and only overwrite the original
# if the file changed. This avoids unnecessary rebuilds.
outfile = self.fo_create(output.GetOutputFilename() + '.tmp', 'wb')
if output.GetType() != 'data_package':
outfile = util.WrapOutputStream(outfile, encoding)
# Iterate in-order through entire resource tree, calling formatters on
# the entry into a node and on exit out of it.
with outfile:
self.ProcessNode(self.res, output, outfile)
# Now copy from the temp file back to the real output, but on Windows,
# only if the real output doesn't exist or the contents of the file
# changed. This prevents identical headers from being written and .cc
# files from recompiling (which is painful on Windows).
if not os.path.exists(output.GetOutputFilename()):
os.rename(output.GetOutputFilename() + '.tmp',
output.GetOutputFilename())
else:
# CHROMIUM SPECIFIC CHANGE.
# This clashes with gyp + vstudio, which expect the output timestamp
# to change on a rebuild, even if nothing has changed, so only do
# it when opted in.
if not self.write_only_new:
write_file = True
else:
files_match = filecmp.cmp(output.GetOutputFilename(),
output.GetOutputFilename() + '.tmp')
write_file = not files_match
if write_file:
shutil.copy2(output.GetOutputFilename() + '.tmp',
output.GetOutputFilename())
os.remove(output.GetOutputFilename() + '.tmp')
self.VerboseOut(' done.\n')
# Print warnings if there are any duplicate shortcuts.
warnings = shortcuts.GenerateDuplicateShortcutsWarnings(
self.res.UberClique(), self.res.GetTcProject())
if warnings:
print '\n'.join(warnings)
# Print out any fallback warnings, and missing translation errors, and
# exit with an error code if there are missing translations in a non-pseudo
# and non-official build.
warnings = (self.res.UberClique().MissingTranslationsReport().
encode('ascii', 'replace'))
if warnings:
self.VerboseOut(warnings)
if self.res.UberClique().HasMissingTranslations():
print self.res.UberClique().missing_translations_
sys.exit(-1)
def CheckAssertedOutputFiles(self, assert_output_files):
'''Checks that the asserted output files are specified in the given list.
Returns true if the asserted files are present. If they are not, returns
False and prints the failure.
'''
# Compare the absolute path names, sorted.
asserted = sorted([os.path.abspath(i) for i in assert_output_files])
actual = sorted([
os.path.abspath(os.path.join(self.output_directory, i.GetFilename()))
for i in self.res.GetOutputFiles()])
if asserted != actual:
missing = list(set(actual) - set(asserted))
extra = list(set(asserted) - set(actual))
error = '''Asserted file list does not match.
Expected output files:
%s
Actual output files:
%s
Missing output files:
%s
Extra output files:
%s
'''
print error % ('\n'.join(asserted), '\n'.join(actual), '\n'.join(missing),
'\n'.join(extra))
return False
return True
def GenerateDepfile(self, depfile, depdir, first_ids_file, depend_on_stamp):
'''Generate a depfile that contains the imlicit dependencies of the input
grd. The depfile will be in the same format as a makefile, and will contain
references to files relative to |depdir|. It will be put in |depfile|.
For example, supposing we have three files in a directory src/
src/
blah.grd <- depends on input{1,2}.xtb
input1.xtb
input2.xtb
and we run
grit -i blah.grd -o ../out/gen --depdir ../out --depfile ../out/gen/blah.rd.d
from the directory src/ we will generate a depfile ../out/gen/blah.grd.d
that has the contents
gen/blah.h: ../src/input1.xtb ../src/input2.xtb
Where "gen/blah.h" is the first output (Ninja expects the .d file to list
the first output in cases where there is more than one). If the flag
--depend-on-stamp is specified, "gen/blah.rd.d.stamp" will be used that is
'touched' whenever a new depfile is generated.
Note that all paths in the depfile are relative to ../out, the depdir.
'''
depfile = os.path.abspath(depfile)
depdir = os.path.abspath(depdir)
infiles = self.res.GetInputFiles()
# We want to trigger a rebuild if the first ids change.
if first_ids_file is not None:
infiles.append(first_ids_file)
if (depend_on_stamp):
output_file = depfile + ".stamp"
# Touch the stamp file before generating the depfile.
with open(output_file, 'a'):
os.utime(output_file, None)
else:
# Get the first output file relative to the depdir.
outputs = self.res.GetOutputFiles()
output_file = os.path.join(self.output_directory,
outputs[0].GetFilename())
output_file = os.path.relpath(output_file, depdir)
# The path prefix to prepend to dependencies in the depfile.
prefix = os.path.relpath(os.getcwd(), depdir)
deps_text = ' '.join([os.path.join(prefix, i) for i in infiles])
depfile_contents = output_file + ': ' + deps_text
self.MakeDirectoriesTo(depfile)
outfile = self.fo_create(depfile, 'wb')
outfile.writelines(depfile_contents)
@staticmethod
def MakeDirectoriesTo(file):
'''Creates directories necessary to contain |file|.'''
dir = os.path.split(file)[0]
if not os.path.exists(dir):
os.makedirs(dir)
| bsd-2-clause |
minosg/piblinker | piblinker.py | 1 | 14790 | #!/usr/bin/env python
"""blinky.py: A small library that uses wiriping pi access to raspbery pi GPIO
ports,aimed at providing a simple notification interface"""
__author__ = "minos197@gmail.com"
__license__ = "LGPL"
__version__ = "0.0.1"
__email__ = "Minos Galanakis"
__project__ = "smartpi"
__date__ = "01-06-2015"
import io
import time
import fcntl
import serial
import struct
from subprocess import Popen, PIPE
from colorlogger import CLogger
from functools import wraps
from pidaemon import start_daemon, kill_daemon, normal_start
def blinker(color, period=0.2, times=3):
""" Decorator that allows modular output formating for PiLogger """
def blinker_decorator(func):
@wraps(func)
def func_wrapper(class_obj, message):
# Blinke the LED before printing sdout
class_obj.blink(color, times, period)
return func(class_obj, color, message)
return func_wrapper
return blinker_decorator
class PiBlinkerError(Exception):
__module__ = 'exceptions'
class PiBlinker():
def __init__(self):
raise ValueError('PiBlinker is not meant to be instantiated')
@classmethod
def setup(self,
log_level="ver_debug",
log_label="PiBlinker",
log_path=None,
log_colors=None):
""" Module Init."""
# Map a color to GPIO.BCM PIN
self.LEDS = {"RED": [17],
"GREEN": [18],
"BLUE": [27],
"PURPLE": [17, 27],
"YELLOW": [17, 18],
"CYAN": [18, 27],
"WHITE": [17, 18, 27]}
self.last_mode = 0
# Configure the GPIO ports in hardware
map(self.run, [(x % v) for n in self.LEDS.values()
for v in n
for x in ["gpio export %d out",
"gpio -g mode %d out"]])
self.i2c_devices = {}
# Assosiate log levels with colors
if not log_colors:
log_colors = {"base_color": "CYAN",
"info": "HBLUE",
"warning": "YELLOW",
"error": "RED",
"debug": "GREEN",
"ver_debug": "GREEN"}
# Initalise the logging module
CLogger.setup(log_label, log_level, log_path, log_colors)
return self
@staticmethod
def run(cmd):
""" Execute shell command in detached mdoe."""
proc = Popen([cmd], stdout=PIPE, stderr=PIPE, shell=True)
ret, err = proc.communicate()
if err:
# ignore warnings in error stream
if "Warning" in err:
CLogger.warning(err.strip())
return err
raise PiBlinkerError(err)
else:
return ret
@classmethod
def set_led(self, led, mode):
""" Set an LED to one of the supported states."""
if led not in self.LEDS.keys():
return
mlist = {"ON": 1, "OFF": 0, "Toggle": -1}
# convert input to a numerical mode
try:
md = mode if mode not in mlist\
else {k: v for k, v in mlist.iteritems()}[mode]
except KeyError:
raise PiBlinkerError("Mode %s is not reognised" % mode)
# Toggle the led if required
led_state = md if md >= 0 else (self.last_mode + 1) % 2
# Toggle the GPIO
map(self.run, ["gpio -g write %d %d" % (led_no, led_state) for
led_no in self.LEDS[led]])
self.last_mode = led_state
@classmethod
def blink(self, led, times, delay=1):
""" Blink an LED n number of times."""
# Make sure led is uppercase
led = led.upper()
if led not in self.LEDS.keys():
return
mode = 0
count = 1
while (count <= times * 2):
self.set_led(led, mode)
time.sleep(delay)
mode = (mode + 1) % 2
count += 1
self.set_led(led, mode)
@classmethod
def led_print(self, color, text):
""" Print a debug message and notify the user with the LED."""
eval("self.%s" % color.lower())(text)
@classmethod
def led_bcast(self, data):
""" Broadcast a number through led brings """
import re
# separate the numbers in the string ie 192.168.3.1 will become array
data = map(int, filter(lambda x: x, re.split(r'\D', data)))
# Separate the digits to a three color tuple
data = map(lambda x: (x/100, (x % 100)/10, (x % 10)), data)
for red_cnt, green_cnt, blue_cnt in data:
self.blink("GREEN", 1, 1)
time.sleep(0.5)
self.blink("RED", red_cnt, 0.2)
time.sleep(0.5)
self.blink("GREEN", green_cnt, 0.2)
time.sleep(0.5)
self.blink("BLUE", blue_cnt, 0.2)
time.sleep(0.5)
self.blink("RED", 1, 1)
@classmethod
@blinker("RED")
def red(self, *args):
""" Print a debug message and notify the user with the LED."""
color, message = args
print"|%s|> %s" % (color, message)
@classmethod
@blinker("GREEN")
def green(self, *args):
""" Print a debug message and notify the user with the LED."""
color, message = args
print"|%s|> %s" % (color, message)
@classmethod
@blinker("BLUE")
def blue(self, *args):
""" Print a debug message and notify the user with the LED."""
color, message = args
print"|%s|> %s" % (color, message)
@classmethod
@blinker("RED")
def error(self, *args):
""" Print a debug message and notify the user with the LED."""
CLogger.error(args[-1])
@classmethod
@blinker("BLUE")
def info(self, *args):
""" Print a debug message and notify the user with the LED."""
CLogger.info(args[-1])
@classmethod
@blinker("RED")
def warning(self, *args):
""" Print a debug message and notify the user with the LED."""
CLogger.warning(args[-1])
@classmethod
@blinker("GREEN")
def debug(self, *args):
""" Print a debug message and notify the user with the LED."""
CLogger.debug(args[-1])
@classmethod
def uart_open(self, port="/dev/ttyAMA0", baud=9600, time_out=None):
"""Open the Serial Channel"""
try:
self.uart = serial.Serial(port, baud, timeout=time_out)
except serial.SerialException:
print "** Failed to initialize serial, check your port.** "
raise ValueError
@classmethod
def uart_activate(self):
""" Spam UART port untill it receives an ACK """
self.uart_open()
countr = 0
# Test with a not supported command
t_char = "O"
while True:
self.uart.write(t_char)
if self.uart.inWaiting():
repl = self.uart.read(2)
if repl == "OK":
print "UART Activated"
else:
print "UART was already enabled"
break
elif countr == 99:
# Test with a supported command to see if activated
t_char = "2"
elif countr > 100:
break
time.sleep(0.05)
countr += 1
@classmethod
def uart_read(self, target="ADC"):
"""Read the register through uart"""
cmd = {"ADC": "2", "PIN": "1"}
if target in cmd.keys():
self.uart.write(cmd[target])
return self.uart.readline()[:-1]
@classmethod
def uart_close(self):
"""Close the serial channel"""
self.uart.close()
@classmethod
def i2c_open_file(self, slave_id, bus=1):
"""Open the I2C channel for raw byte comms"""
if slave_id in self.i2c_devices.keys():
print "Device %d already open" % slave_id
return
# Open the file descriptors
read_ch = io.open("/dev/i2c-"+str(bus), "rb", buffering=0)
write_ch = io.open("/dev/i2c-"+str(bus), "wb", buffering=0)
# Set the register
fcntl.ioctl(read_ch, 0x0703, slave_id)
fcntl.ioctl(write_ch, 0x0703, slave_id)
# store it to an internal dict
self.i2c_devices[slave_id] = (read_ch, write_ch)
# return the file descriptors if the user wants to manually drive them
return (read_ch, write_ch)
@classmethod
def i2c_write_as(self, slave_id, format, data):
"""Write the data formatted using struct pack,
Format needs to be specified"""
try:
wb_file = self.i2c_devices[slave_id][1]
wb_file.write(struct.pack(format, data))
except KeyError:
print "Device %d does not exist" % slave_id
except struct.error:
print "Pack Error make sure the data fits the format structure"
except:
raise IOError
@classmethod
def i2c_read_as(self, slave_id, format, byte_no):
try:
rb_file = self.i2c_devices[slave_id][0]
return struct.unpack(format, rb_file.read(byte_no))
except KeyError:
print "Device %d does not exit" % slave_id
except struct.error:
print "Pack Error make sure the data fits the format structure"
except:
raise IOError
@classmethod
def i2c_close(self, slave_id):
"""Close the file descriptors associated to the slave channel"""
try:
self.i2c_devices.pop(slave_id)
except KeyError:
print "Device %d does not exit" % slave_id
@classmethod
def demux(self, data):
""" For efficiency purposes 10Bit ADC are muxed GPIO state."""
adc_val = data & 0x3FF
pin_val = (data >> 15)
return (adc_val, pin_val)
@classmethod
def i2c_read_adc(self, slave_id):
"""Reads data as returned from a 10Bit ADC sampling operation"""
return self.demux(self.i2c_read_as(slave_id, '>H', 2)[0])[0]
@classmethod
def i2c_read_pin(self, slave_id):
"""Reads data as returned from a 10Bit ADC sampling operation"""
return self.demux(self.i2c_read_as(slave_id, '>H', 2)[0])[1]
@classmethod
def test_hardware(self):
""" Detect hardware shield's presense """
detected = False
try:
self.uart_open(time_out=2)
reading = self.uart_read("ADC")
if len(reading):
detected = True
except:
pass
try:
readf, writef = self.i2c_open_file(0x04, 1)
self.i2c_read_as(04, ">H", 2)
self.i2c_close(0x04)
detected = True
except:
pass
return detected
if __name__ == "__main__":
import argparse
parser = argparse.ArgumentParser()
parser.add_argument("-t", "--test", help="Test Hardware, select from [all,\
i2c, led, log, poll, uart]", dest='test')
parser.add_argument("-a", "--activate", help="Activate UART mode\
after a reset", action="store_true")
parser.add_argument("-d", "--daemon", help="Start a button monitor daemon",
action="store_true")
parser.add_argument("-nd", "--nodaemon", help="Start monitor without\
daemon context used in conjuction with wrappers",
action="store_true")
parser.add_argument("-b1", "--button1", help="Bind script to button1",
dest='button1')
parser.add_argument("-b2", "--button2", help="Bind script to button2",
dest='button2')
parser.add_argument("-u", "--user", help="Select different user\
to run script as")
parser.add_argument("-s", "--sudopass", help="Set optional sudo password\
for elevated priviledges")
parser.add_argument("-k", "--kill", help="increase output verbosity",
action="store_true")
parser.add_argument("-i", "--blinkip", help="increase output verbosity",
action="store_true")
args = parser.parse_args()
mode = 0
pb = PiBlinker.setup()
if args.daemon or args.nodaemon:
arguments = [args.button1, args.button2, args.user, args.sudopass]
if args.nodaemon:
normal_start(*arguments)
else:
start_daemon(*arguments)
elif args.kill:
kill_daemon()
elif args.activate:
pb.uart_activate()
elif args.blinkip:
pb.led_bcast(pb.run("hostname -I"))
elif args.test:
if args.test == "all":
pb.red("This is important")
pb.green("This worked")
pb.blue("This you should know")
readf, writef = pb.i2c_open_file(0x04, 1)
# read two bytes using the direct file descriptor
print "|RAW ADC|>", repr(readf.read(2))
# read a 2byte uint8_t variable
print "|DEC ADC|>", pb.i2c_read_as(04, ">H", 2)[0]
pb.i2c_close(0x04)
pb.info("This is an info")
pb.warning("This is a warning")
pb.error("This is an error")
pb.debug("This is debug")
elif args.test == "i2c":
readf, writef = pb.i2c_open_file(0x04, 1)
# read two bytes using the direct file descriptor
print "|RAW ADC|>", repr(readf.read(2))
# read a 2byte uint8_t variable
print "|DEC ADC|>", pb.i2c_read_as(04, ">H", 2)[0]
pb.i2c_close(0x04)
elif args.test == "poll":
readf, writef = pb.i2c_open_file(0x04, 1)
try:
while True:
# Read using read ADC
print "| ADC:", pb.i2c_read_adc(0x04), "| PIN: ",\
pb.i2c_read_pin(0x04), "|"
time.sleep(0.2)
except KeyboardInterrupt:
pass
pb.i2c_close(0x04)
elif args.test == "uart":
pb.uart_open()
print "ADC:", pb.uart_read("ADC")
print "PIN:", pb.uart_read("PIN")
pb.uart_close()
elif args.test == "led":
pb.led_print("RED", "This is RED")
pb.led_print("GREEN", "This is GREEN")
pb.led_print("BLUE", "This is BLUE")
elif args.test == "log":
pb.info("This is an info")
pb.warning("This is a warning")
pb.error("This is an error")
pb.debug("This is debug")
else:
parser.print_help()
| lgpl-2.1 |
jonwright/ImageD11 | scripts/plotImageD11map.py | 1 | 1829 | #!/usr/bin/env python
from __future__ import print_function
from ImageD11.grain import read_grain_file
import sys, os
gf = read_grain_file(sys.argv[1])
mapfile=open(sys.argv[2],"w")
def dodot(xyz,k):
mapfile.write("%f %f %f %d\n"%(xyz[0],xyz[1],xyz[2],k))
def getmedian(s):
items=s.split()
j = -1
for i in range(len(items)):
if items[i] == "median":
j = i
if j == -1:
return 0
return abs(float(items[j+2]))
try:
outersf = float(sys.argv[3])
except:
outersf = 1.0
print("Scale factor is",outersf)
for g in gf:
#print g.translation, g.ubi
mapfile.write("\n\n")
o = g.translation
try:
sf = pow(getmedian(g.intensity_info),0.3333)*outersf
except:
sf = outersf
try:
k = int(g.npks)
except:
k = 1
for u in g.ubi:
dodot(o,k)
dodot(o+u*sf,int(g.npks))
for u in g.ubi:
dodot(o,k)
dodot(o-u*sf,int(g.npks))
# dodot(o,k)
# dodot(o+sf*(-g.ubi[0]-g.ubi[1]),k)
# dodot(o,k)
# dodot(o+sf*(g.ubi[0]+g.ubi[1]),k)
mapfile.close()
term = " "
if "linux" in sys.platform:
term = "set term x11"
if "win32" in sys.platform:
term = "set term windows"
open("gnuplot.in","w").write("""
%s
set ticslevel 0
set title "Color proportional to number of peaks"
set palette model RGB
set palette defined ( 0 "violet", 1 "blue", 2 "green", 3 "yellow", 4 "orange", 5 "red" )
set view equal xyz
set view 75,0,1,1
#set terminal gif animate delay 10 loop 1 optimize size 1024,768
set nokey
set hidden3d
#set output "ImageD11map.gif"
splot "%s" u 1:2:3:4 w l lw 2 lc pal z
"""%(term, sys.argv[2])
# "".join(["set view 75,%d\n replot\n"%(i) for i in range(1,360,1)])
)
os.system("gnuplot -background white gnuplot.in -")
| gpl-2.0 |
inspyration/odoo | addons/email_template/tests/test_mail.py | 124 | 14318 | # -*- coding: utf-8 -*-
##############################################################################
#
# OpenERP, Open Source Business Applications
# Copyright (c) 2012-TODAY OpenERP S.A. <http://openerp.com>
#
# 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 base64
from openerp.addons.mail.tests.common import TestMail
from openerp.tools import mute_logger
class test_message_compose(TestMail):
def setUp(self):
super(test_message_compose, self).setUp()
# create a 'pigs' and 'bird' groups that will be used through the various tests
self.group_bird_id = self.mail_group.create(self.cr, self.uid,
{'name': 'Bird', 'description': 'I am angry !'})
def test_00_message_compose_wizard(self):
""" Tests designed for the mail.compose.message wizard updated by email_template. """
cr, uid = self.cr, self.uid
mail_compose = self.registry('mail.compose.message')
self.res_users.write(cr, uid, [uid], {'signature': 'Admin', 'email': 'a@a.a'})
user_admin = self.res_users.browse(cr, uid, uid)
p_a_id = user_admin.partner_id.id
group_pigs = self.mail_group.browse(cr, uid, self.group_pigs_id)
group_bird = self.mail_group.browse(cr, uid, self.group_bird_id)
# Mail data
_subject1 = 'Pigs'
_subject2 = 'Bird'
_body_html1 = 'Fans of Pigs, unite !'
_body_html2 = 'I am angry !'
_attachments = [
{'name': 'First', 'datas_fname': 'first.txt', 'datas': base64.b64encode('My first attachment'), 'res_model': 'res.partner', 'res_id': self.partner_admin_id},
{'name': 'Second', 'datas_fname': 'second.txt', 'datas': base64.b64encode('My second attachment'), 'res_model': 'res.partner', 'res_id': self.partner_admin_id},
]
_attachments_test = [('first.txt', 'My first attachment'), ('second.txt', 'My second attachment')]
# Create template on mail.group, with attachments
group_model_id = self.registry('ir.model').search(cr, uid, [('model', '=', 'mail.group')])[0]
email_template = self.registry('email.template')
email_template_id = email_template.create(cr, uid, {
'model_id': group_model_id,
'name': 'Pigs Template',
'subject': '${object.name}',
'body_html': '${object.description}',
'user_signature': False,
'attachment_ids': [(0, 0, _attachments[0]), (0, 0, _attachments[1])],
'email_to': 'b@b.b, c@c.c',
'email_cc': 'd@d.d'
})
# ----------------------------------------
# CASE1: comment and save as template
# ----------------------------------------
# 1. Comment on pigs
compose_id = mail_compose.create(cr, uid,
{'subject': 'Forget me subject', 'body': '<p>Dummy body</p>'},
{'default_composition_mode': 'comment',
'default_model': 'mail.group',
'default_res_id': self.group_pigs_id,
'active_ids': [self.group_pigs_id, self.group_bird_id]})
compose = mail_compose.browse(cr, uid, compose_id)
# 2. Save current composition form as a template
mail_compose.save_as_template(cr, uid, [compose_id], context={'default_model': 'mail.group'})
# Test: email_template subject, body_html, model
last_template_id = email_template.search(cr, uid, [('model', '=', 'mail.group'), ('subject', '=', 'Forget me subject')], limit=1)[0]
self.assertTrue(last_template_id, 'email_template not found for model mail.group, subject Forget me subject')
last_template = email_template.browse(cr, uid, last_template_id)
self.assertEqual(last_template.body_html, '<p>Dummy body</p>', 'email_template incorrect body_html')
# ----------------------------------------
# CASE2: comment with template, save as template
# ----------------------------------------
# 1. Comment on pigs
context = {
'default_composition_mode': 'comment',
'default_model': 'mail.group',
'default_res_id': self.group_pigs_id,
'default_use_template': False,
'default_template_id': email_template_id,
'active_ids': [self.group_pigs_id, self.group_bird_id]
}
compose_id = mail_compose.create(cr, uid, {'subject': 'Forget me subject', 'body': 'Dummy body'}, context)
compose = mail_compose.browse(cr, uid, compose_id, context)
onchange_res = compose.onchange_template_id(email_template_id, 'comment', 'mail.group', self.group_pigs_id)['value']
onchange_res['partner_ids'] = [(4, partner_id) for partner_id in onchange_res.pop('partner_ids', [])]
onchange_res['attachment_ids'] = [(4, attachment_id) for attachment_id in onchange_res.pop('attachment_ids', [])]
compose.write(onchange_res)
compose.refresh()
message_pids = [partner.id for partner in compose.partner_ids]
partner_ids = self.res_partner.search(cr, uid, [('email', 'in', ['b@b.b', 'c@c.c', 'd@d.d'])])
# Test: mail.compose.message: subject, body, partner_ids
self.assertEqual(compose.subject, _subject1, 'mail.compose.message subject incorrect')
self.assertIn(_body_html1, compose.body, 'mail.compose.message body incorrect')
self.assertEqual(set(message_pids), set(partner_ids), 'mail.compose.message partner_ids incorrect')
# Test: mail.compose.message: attachments (owner has not been modified)
for attach in compose.attachment_ids:
self.assertEqual(attach.res_model, 'res.partner', 'mail.compose.message attachment res_model through templat was overriden')
self.assertEqual(attach.res_id, self.partner_admin_id, 'mail.compose.message attachment res_id incorrect')
self.assertIn((attach.datas_fname, base64.b64decode(attach.datas)), _attachments_test,
'mail.message attachment name / data incorrect')
# Test: mail.message: attachments
mail_compose.send_mail(cr, uid, [compose_id])
group_pigs.refresh()
message_pigs = group_pigs.message_ids[0]
for attach in message_pigs.attachment_ids:
self.assertEqual(attach.res_model, 'mail.group', 'mail.compose.message attachment res_model through templat was overriden')
self.assertEqual(attach.res_id, self.group_pigs_id, 'mail.compose.message attachment res_id incorrect')
self.assertIn((attach.datas_fname, base64.b64decode(attach.datas)), _attachments_test,
'mail.message attachment name / data incorrect')
# ----------------------------------------
# CASE3: mass_mail with template
# ----------------------------------------
# 1. Mass_mail on pigs and bird, with a default_partner_ids set to check he is correctly added
context = {
'default_composition_mode': 'mass_mail',
'default_notify': True,
'default_model': 'mail.group',
'default_res_id': self.group_pigs_id,
'default_template_id': email_template_id,
'default_partner_ids': [p_a_id],
'active_ids': [self.group_pigs_id, self.group_bird_id]
}
compose_id = mail_compose.create(cr, uid, {'subject': 'Forget me subject', 'body': 'Dummy body'}, context)
compose = mail_compose.browse(cr, uid, compose_id, context)
onchange_res = compose.onchange_template_id(email_template_id, 'mass_mail', 'mail.group', self.group_pigs_id)['value']
onchange_res['partner_ids'] = [(4, partner_id) for partner_id in onchange_res.pop('partner_ids', [])]
onchange_res['attachment_ids'] = [(4, attachment_id) for attachment_id in onchange_res.pop('attachment_ids', [])]
compose.write(onchange_res)
compose.refresh()
message_pids = [partner.id for partner in compose.partner_ids]
partner_ids = [p_a_id]
self.assertEqual(compose.subject, '${object.name}', 'mail.compose.message subject incorrect')
self.assertEqual(compose.body, '<p>${object.description}</p>', 'mail.compose.message body incorrect') # todo: check signature
self.assertEqual(set(message_pids), set(partner_ids), 'mail.compose.message partner_ids incorrect')
# 2. Post the comment, get created message
mail_compose.send_mail(cr, uid, [compose_id], {'default_res_id': -1, 'active_ids': [self.group_pigs_id, self.group_bird_id]})
group_pigs.refresh()
group_bird.refresh()
message_pigs = group_pigs.message_ids[0]
message_bird = group_bird.message_ids[0]
# Test: subject, body
self.assertEqual(message_pigs.subject, _subject1, 'mail.message subject on Pigs incorrect')
self.assertEqual(message_bird.subject, _subject2, 'mail.message subject on Bird incorrect')
self.assertIn(_body_html1, message_pigs.body, 'mail.message body on Pigs incorrect')
self.assertIn(_body_html2, message_bird.body, 'mail.message body on Bird incorrect')
# Test: partner_ids: p_a_id (default) + 3 newly created partners
# message_pigs_pids = [partner.id for partner in message_pigs.notified_partner_ids]
# message_bird_pids = [partner.id for partner in message_bird.notified_partner_ids]
# partner_ids = self.res_partner.search(cr, uid, [('email', 'in', ['b@b.b', 'c@c.c', 'd@d.d'])])
# partner_ids.append(p_a_id)
# self.assertEqual(set(message_pigs_pids), set(partner_ids), 'mail.message on pigs incorrect number of notified_partner_ids')
# self.assertEqual(set(message_bird_pids), set(partner_ids), 'mail.message on bird notified_partner_ids incorrect')
# ----------------------------------------
# CASE4: test newly introduced partner_to field
# ----------------------------------------
# get already-created partners back
p_b_id = self.res_partner.search(cr, uid, [('email', '=', 'b@b.b')])[0]
p_c_id = self.res_partner.search(cr, uid, [('email', '=', 'c@c.c')])[0]
p_d_id = self.res_partner.search(cr, uid, [('email', '=', 'd@d.d')])[0]
# modify template: use partner_to, use template and email address in email_to to test all features together
user_model_id = self.registry('ir.model').search(cr, uid, [('model', '=', 'res.users')])[0]
email_template.write(cr, uid, [email_template_id], {
'model_id': user_model_id,
'body_html': '${object.login}',
'email_to': '${object.email}, c@c',
'partner_to': '%i,%i' % (p_b_id, p_c_id),
'email_cc': 'd@d',
})
# patner by email + partner by id (no double)
send_to = [p_a_id, p_b_id, p_c_id, p_d_id]
# Generate messsage with default email and partner on template
mail_value = mail_compose.generate_email_for_composer(cr, uid, email_template_id, uid)
self.assertEqual(set(mail_value['partner_ids']), set(send_to), 'mail.message partner_ids list created by template is incorrect')
@mute_logger('openerp.models')
def test_10_email_templating(self):
""" Tests designed for the mail.compose.message wizard updated by email_template. """
cr, uid, context = self.cr, self.uid, {}
# create the email.template on mail.group model
group_model_id = self.registry('ir.model').search(cr, uid, [('model', '=', 'mail.group')])[0]
email_template = self.registry('email.template')
email_template_id = email_template.create(cr, uid, {
'model_id': group_model_id,
'name': 'Pigs Template',
'email_from': 'Raoul Grosbedon <raoul@example.com>',
'subject': '${object.name}',
'body_html': '${object.description}',
'user_signature': True,
'email_to': 'b@b.b, c@c.c',
'email_cc': 'd@d.d',
'partner_to': '${user.partner_id.id},%s,%s,-1' % (self.user_raoul.partner_id.id, self.user_bert.partner_id.id)
})
# not force send: email_recipients is not taken into account
msg_id = email_template.send_mail(cr, uid, email_template_id, self.group_pigs_id, context=context)
mail = self.mail_mail.browse(cr, uid, msg_id, context=context)
self.assertEqual(mail.subject, 'Pigs', 'email_template: send_mail: wrong subject')
self.assertEqual(mail.email_to, 'b@b.b, c@c.c', 'email_template: send_mail: wrong email_to')
self.assertEqual(mail.email_cc, 'd@d.d', 'email_template: send_mail: wrong email_cc')
self.assertEqual(
set([partner.id for partner in mail.recipient_ids]),
set((self.partner_admin_id, self.user_raoul.partner_id.id, self.user_bert.partner_id.id)),
'email_template: send_mail: wrong management of partner_to')
# force send: take email_recipients into account
email_template.send_mail(cr, uid, email_template_id, self.group_pigs_id, force_send=True, context=context)
sent_emails = self._build_email_kwargs_list
email_to_lst = [
['b@b.b', 'c@c.c'], ['Administrator <admin@yourcompany.example.com>'],
['Raoul Grosbedon <raoul@raoul.fr>'], ['Bert Tartignole <bert@bert.fr>']]
self.assertEqual(len(sent_emails), 4, 'email_template: send_mail: 3 valid email recipients + email_to -> should send 4 emails')
for email in sent_emails:
self.assertIn(email['email_to'], email_to_lst, 'email_template: send_mail: wrong email_recipients')
| agpl-3.0 |
eicher31/compassion-modules | child_compassion/mappings/household_mapping.py | 3 | 3536 | # -*- coding: utf-8 -*-
##############################################################################
#
# Copyright (C) 2016 Compassion CH (http://www.compassion.ch)
# Releasing children from poverty in Jesus' name
# @author: Emanuel Cino <ecino@compassion.ch>
#
# The licence is in the file __manifest__.py
#
##############################################################################
from odoo.addons.message_center_compassion.mappings.base_mapping import \
OnrampMapping
class HouseHoldMapping(OnrampMapping):
ODOO_MODEL = 'compassion.household'
CONNECT_MAPPING = {
"BeneficiaryHouseholdMemberList": ('member_ids',
'compassion.household.member'),
"BeneficiaryHouseholdMemberDetails": ('member_ids',
'compassion.household.member'),
"FemaleGuardianEmploymentStatus": 'female_guardian_job_type',
"FemaleGuardianOccupation": 'female_guardian_job',
"Household_ID": "household_id",
"Household_Name": "name",
"IsNaturalFatherLivingWithChild": 'father_living_with_child',
"IsNaturalMotherLivingWithChild": 'mother_living_with_child',
"MaleGuardianEmploymentStatus": 'male_guardian_job_type',
"MaleGuardianOccupation": "male_guardian_job",
"NaturalFatherAlive": "father_alive",
"NaturalMotherAlive": "mother_alive",
"NumberOfSiblingBeneficiaries": "number_beneficiaries",
"ParentsMaritalStatus": "marital_status",
"ParentsTogether": "parents_together",
'RevisedValues': 'revised_value_ids',
# Not define
"SourceKitName": None,
}
def _process_odoo_data(self, odoo_data):
# Unlink old revised values and create new ones
if isinstance(odoo_data.get('revised_value_ids'), list):
household = self.env[self.ODOO_MODEL].search(
[('household_id', '=', odoo_data['household_id'])])
household.revised_value_ids.unlink()
for value in odoo_data['revised_value_ids']:
self.env['compassion.major.revision'].create({
'name': value,
'household_id': household.id,
})
del odoo_data['revised_value_ids']
# Replace dict by a tuple for the ORM update/create
if 'member_ids' in odoo_data:
# Remove all members
household = self.env[self.ODOO_MODEL].search(
[('household_id', '=', odoo_data['household_id'])])
household.member_ids.unlink()
member_list = list()
for member in odoo_data['member_ids']:
orm_tuple = (0, 0, member)
member_list.append(orm_tuple)
odoo_data['member_ids'] = member_list or False
for key in odoo_data.iterkeys():
val = odoo_data[key]
if isinstance(val, basestring) and val.lower() in (
'null', 'false', 'none', 'other', 'unknown'):
odoo_data[key] = False
class HouseholdMemberMapping(OnrampMapping):
ODOO_MODEL = 'compassion.household.member'
CONNECT_MAPPING = {
"Beneficiary_GlobalID": ('child_id.global_id', 'compassion.child'),
"Beneficiary_LocalID": 'beneficiary_local_id',
"FullName": None,
"HouseholdMemberRole": 'role',
"HouseholdMember_Name": 'name',
"IsCaregiver": 'is_caregiver',
"IsPrimaryCaregiver": 'is_primary_caregiver',
}
| agpl-3.0 |
go-bears/nupic | src/nupic/encoders/category.py | 39 | 7798 | # ----------------------------------------------------------------------
# Numenta Platform for Intelligent Computing (NuPIC)
# Copyright (C) 2013, Numenta, Inc. Unless you have an agreement
# with Numenta, Inc., for a separate license for this software code, the
# following terms and conditions apply:
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero Public License version 3 as
# published by the Free Software Foundation.
#
# 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 Public License for more details.
#
# You should have received a copy of the GNU Affero Public License
# along with this program. If not, see http://www.gnu.org/licenses.
#
# http://numenta.org/licenses/
# ----------------------------------------------------------------------
import numpy
from nupic.data.fieldmeta import FieldMetaType
from nupic.data import SENTINEL_VALUE_FOR_MISSING_DATA
from nupic.encoders.base import Encoder, EncoderResult
from nupic.encoders.scalar import ScalarEncoder
UNKNOWN = "<UNKNOWN>"
class CategoryEncoder(Encoder):
"""Encodes a list of discrete categories (described by strings), that aren't
related to each other, so we never emit a mixture of categories.
The value of zero is reserved for "unknown category"
Internally we use a ScalarEncoder with a radius of 1, but since we only encode
integers, we never get mixture outputs.
The SDRCategoryEncoder uses a different method to encode categories"""
def __init__(self, w, categoryList, name="category", verbosity=0, forced=False):
"""params:
forced (default False) : if True, skip checks for parameters' settings; see encoders/scalar.py for details
"""
self.encoders = None
self.verbosity = verbosity
# number of categories includes "unknown"
self.ncategories = len(categoryList) + 1
self.categoryToIndex = dict()
self.indexToCategory = dict()
self.indexToCategory[0] = UNKNOWN
for i in xrange(len(categoryList)):
self.categoryToIndex[categoryList[i]] = i+1
self.indexToCategory[i+1] = categoryList[i]
self.encoder = ScalarEncoder(w, minval=0, maxval=self.ncategories - 1,
radius=1, periodic=False, forced=forced)
self.width = w * self.ncategories
assert self.encoder.getWidth() == self.width
self.description = [(name, 0)]
self.name = name
# These are used to support the topDownCompute method
self._topDownMappingM = None
# This gets filled in by getBucketValues
self._bucketValues = None
def getDecoderOutputFieldTypes(self):
""" [Encoder class virtual method override]
"""
# TODO: change back to string meta-type after the decoding logic is fixed
# to output strings instead of internal index values.
#return (FieldMetaType.string,)
return (FieldMetaType.integer,)
def getWidth(self):
return self.width
def getDescription(self):
return self.description
def getScalars(self, input):
""" See method description in base.py """
if input == SENTINEL_VALUE_FOR_MISSING_DATA:
return numpy.array([None])
else:
return numpy.array([self.categoryToIndex.get(input, 0)])
def getBucketIndices(self, input):
""" See method description in base.py """
# Get the bucket index from the underlying scalar encoder
if input == SENTINEL_VALUE_FOR_MISSING_DATA:
return [None]
else:
return self.encoder.getBucketIndices(self.categoryToIndex.get(input, 0))
def encodeIntoArray(self, input, output):
# if not found, we encode category 0
if input == SENTINEL_VALUE_FOR_MISSING_DATA:
output[0:] = 0
val = "<missing>"
else:
val = self.categoryToIndex.get(input, 0)
self.encoder.encodeIntoArray(val, output)
if self.verbosity >= 2:
print "input:", input, "va:", val, "output:", output
print "decoded:", self.decodedToStr(self.decode(output))
def decode(self, encoded, parentFieldName=''):
""" See the function description in base.py
"""
# Get the scalar values from the underlying scalar encoder
(fieldsDict, fieldNames) = self.encoder.decode(encoded)
if len(fieldsDict) == 0:
return (fieldsDict, fieldNames)
# Expect only 1 field
assert(len(fieldsDict) == 1)
# Get the list of categories the scalar values correspond to and
# generate the description from the category name(s).
(inRanges, inDesc) = fieldsDict.values()[0]
outRanges = []
desc = ""
for (minV, maxV) in inRanges:
minV = int(round(minV))
maxV = int(round(maxV))
outRanges.append((minV, maxV))
while minV <= maxV:
if len(desc) > 0:
desc += ", "
desc += self.indexToCategory[minV]
minV += 1
# Return result
if parentFieldName != '':
fieldName = "%s.%s" % (parentFieldName, self.name)
else:
fieldName = self.name
return ({fieldName: (outRanges, desc)}, [fieldName])
def closenessScores(self, expValues, actValues, fractional=True,):
""" See the function description in base.py
kwargs will have the keyword "fractional", which is ignored by this encoder
"""
expValue = expValues[0]
actValue = actValues[0]
if expValue == actValue:
closeness = 1.0
else:
closeness = 0.0
if not fractional:
closeness = 1.0 - closeness
return numpy.array([closeness])
def getBucketValues(self):
""" See the function description in base.py """
if self._bucketValues is None:
numBuckets = len(self.encoder.getBucketValues())
self._bucketValues = []
for bucketIndex in range(numBuckets):
self._bucketValues.append(self.getBucketInfo([bucketIndex])[0].value)
return self._bucketValues
def getBucketInfo(self, buckets):
""" See the function description in base.py
"""
# For the category encoder, the bucket index is the category index
bucketInfo = self.encoder.getBucketInfo(buckets)[0]
categoryIndex = int(round(bucketInfo.value))
category = self.indexToCategory[categoryIndex]
return [EncoderResult(value=category, scalar=categoryIndex,
encoding=bucketInfo.encoding)]
def topDownCompute(self, encoded):
""" See the function description in base.py
"""
encoderResult = self.encoder.topDownCompute(encoded)[0]
value = encoderResult.value
categoryIndex = int(round(value))
category = self.indexToCategory[categoryIndex]
return EncoderResult(value=category, scalar=categoryIndex,
encoding=encoderResult.encoding)
@classmethod
def read(cls, proto):
encoder = object.__new__(cls)
encoder.verbosity = proto.verbosity
encoder.encoder = ScalarEncoder.read(proto.encoder)
encoder.width = proto.width
encoder.description = [(proto.name, 0)]
encoder.name = proto.name
encoder.indexToCategory = {x.index: x.category
for x in proto.indexToCategory}
encoder.categoryToIndex = {category: index
for index, category
in encoder.indexToCategory.items()
if category != UNKNOWN}
encoder._topDownMappingM = None
encoder._bucketValues = None
return encoder
def write(self, proto):
proto.width = self.width
proto.indexToCategory = [
{"index": index, "category": category}
for index, category in self.indexToCategory.items()
]
proto.name = self.name
proto.verbosity = self.verbosity
self.encoder.write(proto.encoder)
| agpl-3.0 |
dvliman/jaikuengine | .google_appengine/lib/django-1.5/tests/regressiontests/extra_regress/models.py | 114 | 1365 | from __future__ import unicode_literals
import copy
import datetime
from django.contrib.auth.models import User
from django.db import models
from django.utils.encoding import python_2_unicode_compatible
@python_2_unicode_compatible
class RevisionableModel(models.Model):
base = models.ForeignKey('self', null=True)
title = models.CharField(blank=True, max_length=255)
when = models.DateTimeField(default=datetime.datetime.now)
def __str__(self):
return "%s (%s, %s)" % (self.title, self.id, self.base.id)
def save(self, *args, **kwargs):
super(RevisionableModel, self).save(*args, **kwargs)
if not self.base:
self.base = self
kwargs.pop('force_insert', None)
kwargs.pop('force_update', None)
super(RevisionableModel, self).save(*args, **kwargs)
def new_revision(self):
new_revision = copy.copy(self)
new_revision.pk = None
return new_revision
class Order(models.Model):
created_by = models.ForeignKey(User)
text = models.TextField()
@python_2_unicode_compatible
class TestObject(models.Model):
first = models.CharField(max_length=20)
second = models.CharField(max_length=20)
third = models.CharField(max_length=20)
def __str__(self):
return 'TestObject: %s,%s,%s' % (self.first,self.second,self.third)
| apache-2.0 |
goFrendiAsgard/kokoropy | kokoropy/packages/sqlalchemy/dialects/mysql/pyodbc.py | 32 | 2640 | # mysql/pyodbc.py
# Copyright (C) 2005-2014 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:: mysql+pyodbc
:name: PyODBC
:dbapi: pyodbc
:connectstring: mysql+pyodbc://<username>:<password>@<dsnname>
:url: http://pypi.python.org/pypi/pyodbc/
Limitations
-----------
The mysql-pyodbc dialect is subject to unresolved character encoding issues
which exist within the current ODBC drivers available.
(see http://code.google.com/p/pyodbc/issues/detail?id=25). Consider usage
of OurSQL, MySQLdb, or MySQL-connector/Python.
"""
from .base import MySQLDialect, MySQLExecutionContext
from ...connectors.pyodbc import PyODBCConnector
from ... import util
import re
class MySQLExecutionContext_pyodbc(MySQLExecutionContext):
def get_lastrowid(self):
cursor = self.create_cursor()
cursor.execute("SELECT LAST_INSERT_ID()")
lastrowid = cursor.fetchone()[0]
cursor.close()
return lastrowid
class MySQLDialect_pyodbc(PyODBCConnector, MySQLDialect):
supports_unicode_statements = False
execution_ctx_cls = MySQLExecutionContext_pyodbc
pyodbc_driver_name = "MySQL"
def __init__(self, **kw):
# deal with http://code.google.com/p/pyodbc/issues/detail?id=25
kw.setdefault('convert_unicode', True)
super(MySQLDialect_pyodbc, self).__init__(**kw)
def _detect_charset(self, connection):
"""Sniff out the character set in use for connection results."""
# Prefer 'character_set_results' for the current connection over the
# value in the driver. SET NAMES or individual variable SETs will
# change the charset without updating the driver's view of the world.
#
# If it's decided that issuing that sort of SQL leaves you SOL, then
# this can prefer the driver value.
rs = connection.execute("SHOW VARIABLES LIKE 'character_set%%'")
opts = dict([(row[0], row[1]) for row in self._compat_fetchall(rs)])
for key in ('character_set_connection', 'character_set'):
if opts.get(key, None):
return opts[key]
util.warn("Could not detect the connection character set. "
"Assuming latin1.")
return 'latin1'
def _extract_error_code(self, exception):
m = re.compile(r"\((\d+)\)").search(str(exception.args))
c = m.group(1)
if c:
return int(c)
else:
return None
dialect = MySQLDialect_pyodbc
| mit |
chienlieu2017/it_management | odoo/addons/website_event/controllers/main.py | 7 | 11571 | # -*- coding: utf-8 -*-
import babel.dates
import re
import werkzeug
from datetime import datetime, timedelta
from dateutil.relativedelta import relativedelta
from odoo import fields, http, _
from odoo.addons.website.models.website import slug
from odoo.http import request
class WebsiteEventController(http.Controller):
@http.route(['/event', '/event/page/<int:page>', '/events', '/events/page/<int:page>'], type='http', auth="public", website=True)
def events(self, page=1, **searches):
Event = request.env['event.event']
EventType = request.env['event.type']
searches.setdefault('date', 'all')
searches.setdefault('type', 'all')
searches.setdefault('country', 'all')
domain_search = {}
def sdn(date):
return fields.Datetime.to_string(date.replace(hour=23, minute=59, second=59))
def sd(date):
return fields.Datetime.to_string(date)
today = datetime.today()
dates = [
['all', _('Next Events'), [("date_end", ">", sd(today))], 0],
['today', _('Today'), [
("date_end", ">", sd(today)),
("date_begin", "<", sdn(today))],
0],
['week', _('This Week'), [
("date_end", ">=", sd(today + relativedelta(days=-today.weekday()))),
("date_begin", "<", sdn(today + relativedelta(days=6-today.weekday())))],
0],
['nextweek', _('Next Week'), [
("date_end", ">=", sd(today + relativedelta(days=7-today.weekday()))),
("date_begin", "<", sdn(today + relativedelta(days=13-today.weekday())))],
0],
['month', _('This month'), [
("date_end", ">=", sd(today.replace(day=1))),
("date_begin", "<", (today.replace(day=1) + relativedelta(months=1)).strftime('%Y-%m-%d 00:00:00'))],
0],
['nextmonth', _('Next month'), [
("date_end", ">=", sd(today.replace(day=1) + relativedelta(months=1))),
("date_begin", "<", (today.replace(day=1) + relativedelta(months=2)).strftime('%Y-%m-%d 00:00:00'))],
0],
['old', _('Old Events'), [
("date_end", "<", today.strftime('%Y-%m-%d 00:00:00'))],
0],
]
# search domains
# TDE note: WTF ???
current_date = None
current_type = None
current_country = None
for date in dates:
if searches["date"] == date[0]:
domain_search["date"] = date[2]
if date[0] != 'all':
current_date = date[1]
if searches["type"] != 'all':
current_type = EventType.browse(int(searches['type']))
domain_search["type"] = [("event_type_id", "=", int(searches["type"]))]
if searches["country"] != 'all' and searches["country"] != 'online':
current_country = request.env['res.country'].browse(int(searches['country']))
domain_search["country"] = ['|', ("country_id", "=", int(searches["country"])), ("country_id", "=", False)]
elif searches["country"] == 'online':
domain_search["country"] = [("country_id", "=", False)]
def dom_without(without):
domain = [('state', "in", ['draft', 'confirm', 'done'])]
for key, search in domain_search.items():
if key != without:
domain += search
return domain
# count by domains without self search
for date in dates:
if date[0] != 'old':
date[3] = Event.search_count(dom_without('date') + date[2])
domain = dom_without('type')
types = Event.read_group(domain, ["id", "event_type_id"], groupby=["event_type_id"], orderby="event_type_id")
types.insert(0, {
'event_type_id_count': sum([int(type['event_type_id_count']) for type in types]),
'event_type_id': ("all", _("All Categories"))
})
domain = dom_without('country')
countries = Event.read_group(domain, ["id", "country_id"], groupby="country_id", orderby="country_id")
countries.insert(0, {
'country_id_count': sum([int(country['country_id_count']) for country in countries]),
'country_id': ("all", _("All Countries"))
})
step = 10 # Number of events per page
event_count = Event.search_count(dom_without("none"))
pager = request.website.pager(
url="/event",
url_args={'date': searches.get('date'), 'type': searches.get('type'), 'country': searches.get('country')},
total=event_count,
page=page,
step=step,
scope=5)
order = 'website_published desc, date_begin'
if searches.get('date', 'all') == 'old':
order = 'website_published desc, date_begin desc'
events = Event.search(dom_without("none"), limit=step, offset=pager['offset'], order=order)
values = {
'current_date': current_date,
'current_country': current_country,
'current_type': current_type,
'event_ids': events, # event_ids used in website_event_track so we keep name as it is
'dates': dates,
'types': types,
'countries': countries,
'pager': pager,
'searches': searches,
'search_path': "?%s" % werkzeug.url_encode(searches),
}
return request.render("website_event.index", values)
@http.route(['/event/<model("event.event"):event>/page/<path:page>'], type='http', auth="public", website=True)
def event_page(self, event, page, **post):
values = {
'event': event,
'main_object': event
}
if '.' not in page:
page = 'website_event.%s' % page
try:
request.website.get_template(page)
except ValueError:
# page not found
values['path'] = re.sub(r"^website_event\.", '', page)
values['from_template'] = 'website_event.default_page' # .strip('website_event.')
page = 'website.page_404'
return request.render(page, values)
@http.route(['/event/<model("event.event"):event>'], type='http', auth="public", website=True)
def event(self, event, **post):
if event.menu_id and event.menu_id.child_id:
target_url = event.menu_id.child_id[0].url
else:
target_url = '/event/%s/register' % str(event.id)
if post.get('enable_editor') == '1':
target_url += '?enable_editor=1'
return request.redirect(target_url)
@http.route(['/event/<model("event.event"):event>/register'], type='http', auth="public", website=True)
def event_register(self, event, **post):
values = {
'event': event,
'main_object': event,
'range': range,
}
return request.render("website_event.event_description_full", values)
@http.route('/event/add_event', type='http', auth="user", methods=['POST'], website=True)
def add_event(self, event_name="New Event", **kwargs):
event = self._add_event(event_name, request.context)
return request.redirect("/event/%s/register?enable_editor=1" % slug(event))
def _add_event(self, event_name=None, context=None, **kwargs):
if not event_name:
event_name = _("New Event")
date_begin = datetime.today() + timedelta(days=(14))
vals = {
'name': event_name,
'date_begin': fields.Date.to_string(date_begin),
'date_end': fields.Date.to_string((date_begin + timedelta(days=(1)))),
'seats_available': 1000,
}
return request.env['event.event'].with_context(context or {}).create(vals)
def get_formated_date(self, event):
start_date = fields.Datetime.from_string(event.date_begin).date()
end_date = fields.Datetime.from_string(event.date_end).date()
month = babel.dates.get_month_names('abbreviated', locale=event.env.context.get('lang', 'en_US'))[start_date.month]
return ('%s %s%s') % (month, start_date.strftime("%e"), (end_date != start_date and ("-" + end_date.strftime("%e")) or ""))
@http.route('/event/get_country_event_list', type='http', auth='public', website=True)
def get_country_events(self, **post):
Event = request.env['event.event']
country_code = request.session['geoip'].get('country_code')
result = {'events': [], 'country': False}
events = None
if country_code:
country = request.env['res.country'].search([('code', '=', country_code)], limit=1)
events = Event.search(['|', ('address_id', '=', None), ('country_id.code', '=', country_code), ('date_begin', '>=', '%s 00:00:00' % fields.Date.today()), ('state', '=', 'confirm')], order="date_begin")
if not events:
events = Event.search([('date_begin', '>=', '%s 00:00:00' % fields.Date.today()), ('state', '=', 'confirm')], order="date_begin")
for event in events:
if country_code and event.country_id.code == country_code:
result['country'] = country
result['events'].append({
"date": self.get_formated_date(event),
"event": event,
"url": event.website_url})
return request.render("website_event.country_events_list", result)
def _process_tickets_details(self, data):
nb_register = int(data.get('nb_register-0', 0))
if nb_register:
return [{'id': 0, 'name': 'Registration', 'quantity': nb_register, 'price': 0}]
return []
@http.route(['/event/<model("event.event"):event>/registration/new'], type='json', auth="public", methods=['POST'], website=True)
def registration_new(self, event, **post):
tickets = self._process_tickets_details(post)
if not tickets:
return request.redirect("/event/%s" % slug(event))
return request.env['ir.ui.view'].render_template("website_event.registration_attendee_details", {'tickets': tickets, 'event': event})
def _process_registration_details(self, details):
''' Process data posted from the attendee details form. '''
registrations = {}
global_values = {}
for key, value in details.iteritems():
counter, field_name = key.split('-', 1)
if counter == '0':
global_values[field_name] = value
else:
registrations.setdefault(counter, dict())[field_name] = value
for key, value in global_values.iteritems():
for registration in registrations.values():
registration[key] = value
return registrations.values()
@http.route(['/event/<model("event.event"):event>/registration/confirm'], type='http', auth="public", methods=['POST'], website=True)
def registration_confirm(self, event, **post):
Attendees = request.env['event.registration']
registrations = self._process_registration_details(post)
for registration in registrations:
registration['event_id'] = event
Attendees += Attendees.sudo().create(
Attendees._prepare_attendee_values(registration))
return request.render("website_event.registration_complete", {
'attendees': Attendees,
'event': event,
})
| gpl-3.0 |
derekjchow/models | research/deeplab/core/nas_cell.py | 1 | 8432 | # Copyright 2018 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.
# ==============================================================================
"""Cell structure used by NAS."""
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
import tensorflow as tf
from deeplab.core.utils import resize_bilinear
from deeplab.core.utils import scale_dimension
arg_scope = tf.contrib.framework.arg_scope
slim = tf.contrib.slim
class NASBaseCell(object):
"""NASNet Cell class that is used as a 'layer' in image architectures.
See https://arxiv.org/abs/1707.07012 and https://arxiv.org/abs/1712.00559.
Args:
num_conv_filters: The number of filters for each convolution operation.
operations: List of operations that are performed in the NASNet Cell in
order.
used_hiddenstates: Binary array that signals if the hiddenstate was used
within the cell. This is used to determine what outputs of the cell
should be concatenated together.
hiddenstate_indices: Determines what hiddenstates should be combined
together with the specified operations to create the NASNet cell.
"""
def __init__(self, num_conv_filters, operations, used_hiddenstates,
hiddenstate_indices, drop_path_keep_prob, total_num_cells,
total_training_steps):
if len(hiddenstate_indices) != len(operations):
raise ValueError(
'Number of hiddenstate_indices and operations should be the same.')
if len(operations) % 2:
raise ValueError('Number of operations should be even.')
self._num_conv_filters = num_conv_filters
self._operations = operations
self._used_hiddenstates = used_hiddenstates
self._hiddenstate_indices = hiddenstate_indices
self._drop_path_keep_prob = drop_path_keep_prob
self._total_num_cells = total_num_cells
self._total_training_steps = total_training_steps
def __call__(self, net, scope, filter_scaling, stride, prev_layer, cell_num):
"""Runs the conv cell."""
self._cell_num = cell_num
self._filter_scaling = filter_scaling
self._filter_size = int(self._num_conv_filters * filter_scaling)
with tf.variable_scope(scope):
net = self._cell_base(net, prev_layer)
for i in range(len(self._operations) // 2):
with tf.variable_scope('comb_iter_{}'.format(i)):
h1 = net[self._hiddenstate_indices[i * 2]]
h2 = net[self._hiddenstate_indices[i * 2 + 1]]
with tf.variable_scope('left'):
h1 = self._apply_conv_operation(
h1, self._operations[i * 2], stride,
self._hiddenstate_indices[i * 2] < 2)
with tf.variable_scope('right'):
h2 = self._apply_conv_operation(
h2, self._operations[i * 2 + 1], stride,
self._hiddenstate_indices[i * 2 + 1] < 2)
with tf.variable_scope('combine'):
h = h1 + h2
net.append(h)
with tf.variable_scope('cell_output'):
net = self._combine_unused_states(net)
return net
def _cell_base(self, net, prev_layer):
"""Runs the beginning of the conv cell before the chosen ops are run."""
filter_size = self._filter_size
if prev_layer is None:
prev_layer = net
else:
if net.shape[2] != prev_layer.shape[2]:
prev_layer = resize_bilinear(
prev_layer, tf.shape(net)[1:3], prev_layer.dtype)
if filter_size != prev_layer.shape[3]:
prev_layer = tf.nn.relu(prev_layer)
prev_layer = slim.conv2d(prev_layer, filter_size, 1, scope='prev_1x1')
prev_layer = slim.batch_norm(prev_layer, scope='prev_bn')
net = tf.nn.relu(net)
net = slim.conv2d(net, filter_size, 1, scope='1x1')
net = slim.batch_norm(net, scope='beginning_bn')
net = tf.split(axis=3, num_or_size_splits=1, value=net)
net.append(prev_layer)
return net
def _apply_conv_operation(self, net, operation, stride,
is_from_original_input):
"""Applies the predicted conv operation to net."""
if stride > 1 and not is_from_original_input:
stride = 1
input_filters = net.shape[3]
filter_size = self._filter_size
if 'separable' in operation:
num_layers = int(operation.split('_')[-1])
kernel_size = int(operation.split('x')[0][-1])
for layer_num in range(num_layers):
net = tf.nn.relu(net)
net = slim.separable_conv2d(
net,
filter_size,
kernel_size,
depth_multiplier=1,
scope='separable_{0}x{0}_{1}'.format(kernel_size, layer_num + 1),
stride=stride)
net = slim.batch_norm(
net, scope='bn_sep_{0}x{0}_{1}'.format(kernel_size, layer_num + 1))
stride = 1
elif 'atrous' in operation:
kernel_size = int(operation.split('x')[0][-1])
net = tf.nn.relu(net)
if stride == 2:
scaled_height = scale_dimension(tf.shape(net)[1], 0.5)
scaled_width = scale_dimension(tf.shape(net)[2], 0.5)
net = resize_bilinear(net, [scaled_height, scaled_width], net.dtype)
net = slim.conv2d(net, filter_size, kernel_size, rate=1,
scope='atrous_{0}x{0}'.format(kernel_size))
else:
net = slim.conv2d(net, filter_size, kernel_size, rate=2,
scope='atrous_{0}x{0}'.format(kernel_size))
net = slim.batch_norm(net, scope='bn_atr_{0}x{0}'.format(kernel_size))
elif operation in ['none']:
if stride > 1 or (input_filters != filter_size):
net = tf.nn.relu(net)
net = slim.conv2d(net, filter_size, 1, stride=stride, scope='1x1')
net = slim.batch_norm(net, scope='bn_1')
elif 'pool' in operation:
pooling_type = operation.split('_')[0]
pooling_shape = int(operation.split('_')[-1].split('x')[0])
if pooling_type == 'avg':
net = slim.avg_pool2d(net, pooling_shape, stride=stride, padding='SAME')
elif pooling_type == 'max':
net = slim.max_pool2d(net, pooling_shape, stride=stride, padding='SAME')
else:
raise ValueError('Unimplemented pooling type: ', pooling_type)
if input_filters != filter_size:
net = slim.conv2d(net, filter_size, 1, stride=1, scope='1x1')
net = slim.batch_norm(net, scope='bn_1')
else:
raise ValueError('Unimplemented operation', operation)
if operation != 'none':
net = self._apply_drop_path(net)
return net
def _combine_unused_states(self, net):
"""Concatenates the unused hidden states of the cell."""
used_hiddenstates = self._used_hiddenstates
states_to_combine = ([
h for h, is_used in zip(net, used_hiddenstates) if not is_used])
net = tf.concat(values=states_to_combine, axis=3)
return net
@tf.contrib.framework.add_arg_scope
def _apply_drop_path(self, net):
"""Apply drop_path regularization."""
drop_path_keep_prob = self._drop_path_keep_prob
if drop_path_keep_prob < 1.0:
# Scale keep prob by layer number.
assert self._cell_num != -1
layer_ratio = (self._cell_num + 1) / float(self._total_num_cells)
drop_path_keep_prob = 1 - layer_ratio * (1 - drop_path_keep_prob)
# Decrease keep prob over time.
current_step = tf.cast(tf.train.get_or_create_global_step(), tf.float32)
current_ratio = tf.minimum(1.0, current_step / self._total_training_steps)
drop_path_keep_prob = (1 - current_ratio * (1 - drop_path_keep_prob))
# Drop path.
noise_shape = [tf.shape(net)[0], 1, 1, 1]
random_tensor = drop_path_keep_prob
random_tensor += tf.random_uniform(noise_shape, dtype=tf.float32)
binary_tensor = tf.cast(tf.floor(random_tensor), net.dtype)
keep_prob_inv = tf.cast(1.0 / drop_path_keep_prob, net.dtype)
net = net * keep_prob_inv * binary_tensor
return net
| apache-2.0 |
lancezlin/ml_template_py | lib/python2.7/site-packages/sklearn/metrics/tests/test_score_objects.py | 15 | 17443 | import pickle
import tempfile
import shutil
import os
import numbers
import numpy as np
from sklearn.utils.testing import assert_almost_equal
from sklearn.utils.testing import assert_array_equal
from sklearn.utils.testing import assert_raises
from sklearn.utils.testing import assert_raises_regexp
from sklearn.utils.testing import assert_true
from sklearn.utils.testing import ignore_warnings
from sklearn.utils.testing import assert_not_equal
from sklearn.utils.testing import assert_warns_message
from sklearn.base import BaseEstimator
from sklearn.metrics import (f1_score, r2_score, roc_auc_score, fbeta_score,
log_loss, precision_score, recall_score)
from sklearn.metrics.cluster import adjusted_rand_score
from sklearn.metrics.scorer import (check_scoring, _PredictScorer,
_passthrough_scorer)
from sklearn.metrics import make_scorer, get_scorer, SCORERS
from sklearn.svm import LinearSVC
from sklearn.pipeline import make_pipeline
from sklearn.cluster import KMeans
from sklearn.dummy import DummyRegressor
from sklearn.linear_model import Ridge, LogisticRegression
from sklearn.tree import DecisionTreeClassifier, DecisionTreeRegressor
from sklearn.datasets import make_blobs
from sklearn.datasets import make_classification
from sklearn.datasets import make_multilabel_classification
from sklearn.datasets import load_diabetes
from sklearn.model_selection import train_test_split, cross_val_score
from sklearn.model_selection import GridSearchCV
from sklearn.multiclass import OneVsRestClassifier
from sklearn.externals import joblib
REGRESSION_SCORERS = ['r2', 'neg_mean_absolute_error',
'neg_mean_squared_error', 'neg_median_absolute_error',
'mean_absolute_error',
'mean_squared_error', 'median_absolute_error']
CLF_SCORERS = ['accuracy', 'f1', 'f1_weighted', 'f1_macro', 'f1_micro',
'roc_auc', 'average_precision', 'precision',
'precision_weighted', 'precision_macro', 'precision_micro',
'recall', 'recall_weighted', 'recall_macro', 'recall_micro',
'neg_log_loss', 'log_loss',
'adjusted_rand_score' # not really, but works
]
MULTILABEL_ONLY_SCORERS = ['precision_samples', 'recall_samples', 'f1_samples']
def _make_estimators(X_train, y_train, y_ml_train):
# Make estimators that make sense to test various scoring methods
sensible_regr = DummyRegressor(strategy='median')
sensible_regr.fit(X_train, y_train)
sensible_clf = DecisionTreeClassifier(random_state=0)
sensible_clf.fit(X_train, y_train)
sensible_ml_clf = DecisionTreeClassifier(random_state=0)
sensible_ml_clf.fit(X_train, y_ml_train)
return dict(
[(name, sensible_regr) for name in REGRESSION_SCORERS] +
[(name, sensible_clf) for name in CLF_SCORERS] +
[(name, sensible_ml_clf) for name in MULTILABEL_ONLY_SCORERS]
)
X_mm, y_mm, y_ml_mm = None, None, None
ESTIMATORS = None
TEMP_FOLDER = None
def setup_module():
# Create some memory mapped data
global X_mm, y_mm, y_ml_mm, TEMP_FOLDER, ESTIMATORS
TEMP_FOLDER = tempfile.mkdtemp(prefix='sklearn_test_score_objects_')
X, y = make_classification(n_samples=30, n_features=5, random_state=0)
_, y_ml = make_multilabel_classification(n_samples=X.shape[0],
random_state=0)
filename = os.path.join(TEMP_FOLDER, 'test_data.pkl')
joblib.dump((X, y, y_ml), filename)
X_mm, y_mm, y_ml_mm = joblib.load(filename, mmap_mode='r')
ESTIMATORS = _make_estimators(X_mm, y_mm, y_ml_mm)
def teardown_module():
global X_mm, y_mm, y_ml_mm, TEMP_FOLDER, ESTIMATORS
# GC closes the mmap file descriptors
X_mm, y_mm, y_ml_mm, ESTIMATORS = None, None, None, None
shutil.rmtree(TEMP_FOLDER)
class EstimatorWithoutFit(object):
"""Dummy estimator to test check_scoring"""
pass
class EstimatorWithFit(BaseEstimator):
"""Dummy estimator to test check_scoring"""
def fit(self, X, y):
return self
class EstimatorWithFitAndScore(object):
"""Dummy estimator to test check_scoring"""
def fit(self, X, y):
return self
def score(self, X, y):
return 1.0
class EstimatorWithFitAndPredict(object):
"""Dummy estimator to test check_scoring"""
def fit(self, X, y):
self.y = y
return self
def predict(self, X):
return self.y
class DummyScorer(object):
"""Dummy scorer that always returns 1."""
def __call__(self, est, X, y):
return 1
def test_all_scorers_repr():
# Test that all scorers have a working repr
for name, scorer in SCORERS.items():
repr(scorer)
def test_check_scoring():
# Test all branches of check_scoring
estimator = EstimatorWithoutFit()
pattern = (r"estimator should be an estimator implementing 'fit' method,"
r" .* was passed")
assert_raises_regexp(TypeError, pattern, check_scoring, estimator)
estimator = EstimatorWithFitAndScore()
estimator.fit([[1]], [1])
scorer = check_scoring(estimator)
assert_true(scorer is _passthrough_scorer)
assert_almost_equal(scorer(estimator, [[1]], [1]), 1.0)
estimator = EstimatorWithFitAndPredict()
estimator.fit([[1]], [1])
pattern = (r"If no scoring is specified, the estimator passed should have"
r" a 'score' method\. The estimator .* does not\.")
assert_raises_regexp(TypeError, pattern, check_scoring, estimator)
scorer = check_scoring(estimator, "accuracy")
assert_almost_equal(scorer(estimator, [[1]], [1]), 1.0)
estimator = EstimatorWithFit()
scorer = check_scoring(estimator, "accuracy")
assert_true(isinstance(scorer, _PredictScorer))
estimator = EstimatorWithFit()
scorer = check_scoring(estimator, allow_none=True)
assert_true(scorer is None)
def test_check_scoring_gridsearchcv():
# test that check_scoring works on GridSearchCV and pipeline.
# slightly redundant non-regression test.
grid = GridSearchCV(LinearSVC(), param_grid={'C': [.1, 1]})
scorer = check_scoring(grid, "f1")
assert_true(isinstance(scorer, _PredictScorer))
pipe = make_pipeline(LinearSVC())
scorer = check_scoring(pipe, "f1")
assert_true(isinstance(scorer, _PredictScorer))
# check that cross_val_score definitely calls the scorer
# and doesn't make any assumptions about the estimator apart from having a
# fit.
scores = cross_val_score(EstimatorWithFit(), [[1], [2], [3]], [1, 0, 1],
scoring=DummyScorer())
assert_array_equal(scores, 1)
def test_make_scorer():
# Sanity check on the make_scorer factory function.
f = lambda *args: 0
assert_raises(ValueError, make_scorer, f, needs_threshold=True,
needs_proba=True)
def test_classification_scores():
# Test classification scorers.
X, y = make_blobs(random_state=0, centers=2)
X_train, X_test, y_train, y_test = train_test_split(X, y, random_state=0)
clf = LinearSVC(random_state=0)
clf.fit(X_train, y_train)
for prefix, metric in [('f1', f1_score), ('precision', precision_score),
('recall', recall_score)]:
score1 = get_scorer('%s_weighted' % prefix)(clf, X_test, y_test)
score2 = metric(y_test, clf.predict(X_test), pos_label=None,
average='weighted')
assert_almost_equal(score1, score2)
score1 = get_scorer('%s_macro' % prefix)(clf, X_test, y_test)
score2 = metric(y_test, clf.predict(X_test), pos_label=None,
average='macro')
assert_almost_equal(score1, score2)
score1 = get_scorer('%s_micro' % prefix)(clf, X_test, y_test)
score2 = metric(y_test, clf.predict(X_test), pos_label=None,
average='micro')
assert_almost_equal(score1, score2)
score1 = get_scorer('%s' % prefix)(clf, X_test, y_test)
score2 = metric(y_test, clf.predict(X_test), pos_label=1)
assert_almost_equal(score1, score2)
# test fbeta score that takes an argument
scorer = make_scorer(fbeta_score, beta=2)
score1 = scorer(clf, X_test, y_test)
score2 = fbeta_score(y_test, clf.predict(X_test), beta=2)
assert_almost_equal(score1, score2)
# test that custom scorer can be pickled
unpickled_scorer = pickle.loads(pickle.dumps(scorer))
score3 = unpickled_scorer(clf, X_test, y_test)
assert_almost_equal(score1, score3)
# smoke test the repr:
repr(fbeta_score)
def test_regression_scorers():
# Test regression scorers.
diabetes = load_diabetes()
X, y = diabetes.data, diabetes.target
X_train, X_test, y_train, y_test = train_test_split(X, y, random_state=0)
clf = Ridge()
clf.fit(X_train, y_train)
score1 = get_scorer('r2')(clf, X_test, y_test)
score2 = r2_score(y_test, clf.predict(X_test))
assert_almost_equal(score1, score2)
def test_thresholded_scorers():
# Test scorers that take thresholds.
X, y = make_blobs(random_state=0, centers=2)
X_train, X_test, y_train, y_test = train_test_split(X, y, random_state=0)
clf = LogisticRegression(random_state=0)
clf.fit(X_train, y_train)
score1 = get_scorer('roc_auc')(clf, X_test, y_test)
score2 = roc_auc_score(y_test, clf.decision_function(X_test))
score3 = roc_auc_score(y_test, clf.predict_proba(X_test)[:, 1])
assert_almost_equal(score1, score2)
assert_almost_equal(score1, score3)
logscore = get_scorer('neg_log_loss')(clf, X_test, y_test)
logloss = log_loss(y_test, clf.predict_proba(X_test))
assert_almost_equal(-logscore, logloss)
# same for an estimator without decision_function
clf = DecisionTreeClassifier()
clf.fit(X_train, y_train)
score1 = get_scorer('roc_auc')(clf, X_test, y_test)
score2 = roc_auc_score(y_test, clf.predict_proba(X_test)[:, 1])
assert_almost_equal(score1, score2)
# test with a regressor (no decision_function)
reg = DecisionTreeRegressor()
reg.fit(X_train, y_train)
score1 = get_scorer('roc_auc')(reg, X_test, y_test)
score2 = roc_auc_score(y_test, reg.predict(X_test))
assert_almost_equal(score1, score2)
# Test that an exception is raised on more than two classes
X, y = make_blobs(random_state=0, centers=3)
X_train, X_test, y_train, y_test = train_test_split(X, y, random_state=0)
clf.fit(X_train, y_train)
assert_raises(ValueError, get_scorer('roc_auc'), clf, X_test, y_test)
def test_thresholded_scorers_multilabel_indicator_data():
# Test that the scorer work with multilabel-indicator format
# for multilabel and multi-output multi-class classifier
X, y = make_multilabel_classification(allow_unlabeled=False,
random_state=0)
X_train, X_test, y_train, y_test = train_test_split(X, y, random_state=0)
# Multi-output multi-class predict_proba
clf = DecisionTreeClassifier()
clf.fit(X_train, y_train)
y_proba = clf.predict_proba(X_test)
score1 = get_scorer('roc_auc')(clf, X_test, y_test)
score2 = roc_auc_score(y_test, np.vstack(p[:, -1] for p in y_proba).T)
assert_almost_equal(score1, score2)
# Multi-output multi-class decision_function
# TODO Is there any yet?
clf = DecisionTreeClassifier()
clf.fit(X_train, y_train)
clf._predict_proba = clf.predict_proba
clf.predict_proba = None
clf.decision_function = lambda X: [p[:, 1] for p in clf._predict_proba(X)]
y_proba = clf.decision_function(X_test)
score1 = get_scorer('roc_auc')(clf, X_test, y_test)
score2 = roc_auc_score(y_test, np.vstack(p for p in y_proba).T)
assert_almost_equal(score1, score2)
# Multilabel predict_proba
clf = OneVsRestClassifier(DecisionTreeClassifier())
clf.fit(X_train, y_train)
score1 = get_scorer('roc_auc')(clf, X_test, y_test)
score2 = roc_auc_score(y_test, clf.predict_proba(X_test))
assert_almost_equal(score1, score2)
# Multilabel decision function
clf = OneVsRestClassifier(LinearSVC(random_state=0))
clf.fit(X_train, y_train)
score1 = get_scorer('roc_auc')(clf, X_test, y_test)
score2 = roc_auc_score(y_test, clf.decision_function(X_test))
assert_almost_equal(score1, score2)
def test_unsupervised_scorers():
# Test clustering scorers against gold standard labeling.
# We don't have any real unsupervised Scorers yet.
X, y = make_blobs(random_state=0, centers=2)
X_train, X_test, y_train, y_test = train_test_split(X, y, random_state=0)
km = KMeans(n_clusters=3)
km.fit(X_train)
score1 = get_scorer('adjusted_rand_score')(km, X_test, y_test)
score2 = adjusted_rand_score(y_test, km.predict(X_test))
assert_almost_equal(score1, score2)
@ignore_warnings
def test_raises_on_score_list():
# Test that when a list of scores is returned, we raise proper errors.
X, y = make_blobs(random_state=0)
f1_scorer_no_average = make_scorer(f1_score, average=None)
clf = DecisionTreeClassifier()
assert_raises(ValueError, cross_val_score, clf, X, y,
scoring=f1_scorer_no_average)
grid_search = GridSearchCV(clf, scoring=f1_scorer_no_average,
param_grid={'max_depth': [1, 2]})
assert_raises(ValueError, grid_search.fit, X, y)
@ignore_warnings
def test_scorer_sample_weight():
# Test that scorers support sample_weight or raise sensible errors
# Unlike the metrics invariance test, in the scorer case it's harder
# to ensure that, on the classifier output, weighted and unweighted
# scores really should be unequal.
X, y = make_classification(random_state=0)
_, y_ml = make_multilabel_classification(n_samples=X.shape[0],
random_state=0)
split = train_test_split(X, y, y_ml, random_state=0)
X_train, X_test, y_train, y_test, y_ml_train, y_ml_test = split
sample_weight = np.ones_like(y_test)
sample_weight[:10] = 0
# get sensible estimators for each metric
estimator = _make_estimators(X_train, y_train, y_ml_train)
for name, scorer in SCORERS.items():
if name in MULTILABEL_ONLY_SCORERS:
target = y_ml_test
else:
target = y_test
try:
weighted = scorer(estimator[name], X_test, target,
sample_weight=sample_weight)
ignored = scorer(estimator[name], X_test[10:], target[10:])
unweighted = scorer(estimator[name], X_test, target)
assert_not_equal(weighted, unweighted,
msg="scorer {0} behaves identically when "
"called with sample weights: {1} vs "
"{2}".format(name, weighted, unweighted))
assert_almost_equal(weighted, ignored,
err_msg="scorer {0} behaves differently when "
"ignoring samples and setting sample_weight to"
" 0: {1} vs {2}".format(name, weighted,
ignored))
except TypeError as e:
assert_true("sample_weight" in str(e),
"scorer {0} raises unhelpful exception when called "
"with sample weights: {1}".format(name, str(e)))
@ignore_warnings # UndefinedMetricWarning for P / R scores
def check_scorer_memmap(scorer_name):
scorer, estimator = SCORERS[scorer_name], ESTIMATORS[scorer_name]
if scorer_name in MULTILABEL_ONLY_SCORERS:
score = scorer(estimator, X_mm, y_ml_mm)
else:
score = scorer(estimator, X_mm, y_mm)
assert isinstance(score, numbers.Number), scorer_name
def test_scorer_memmap_input():
# Non-regression test for #6147: some score functions would
# return singleton memmap when computed on memmap data instead of scalar
# float values.
for name in SCORERS.keys():
yield check_scorer_memmap, name
def test_deprecated_names():
X, y = make_blobs(random_state=0, centers=2)
X_train, X_test, y_train, y_test = train_test_split(X, y, random_state=0)
clf = LogisticRegression(random_state=0)
clf.fit(X_train, y_train)
for name in ('mean_absolute_error', 'mean_squared_error',
'median_absolute_error', 'log_loss'):
warning_msg = "Scoring method %s was renamed to" % name
for scorer in (get_scorer(name), SCORERS[name]):
assert_warns_message(DeprecationWarning,
warning_msg,
scorer, clf, X, y)
assert_warns_message(DeprecationWarning,
warning_msg,
cross_val_score, clf, X, y, scoring=name)
def test_scoring_is_not_metric():
assert_raises_regexp(ValueError, 'make_scorer', check_scoring,
LogisticRegression(), f1_score)
assert_raises_regexp(ValueError, 'make_scorer', check_scoring,
LogisticRegression(), roc_auc_score)
assert_raises_regexp(ValueError, 'make_scorer', check_scoring,
Ridge(), r2_score)
assert_raises_regexp(ValueError, 'make_scorer', check_scoring,
KMeans(), adjusted_rand_score)
| mit |
14thibea/megamix | megamix/batch/DPGMM.py | 1 | 20644 | # -*- coding: utf-8 -*-
#
#Created on Fri Apr 14 15:21:17 2017
#
#author: Elina Thibeau-Sutre
#
from .initializations import initialize_log_assignements,initialize_mcw
from .base import _full_covariance_matrices
from .base import _log_normal_matrix
from .base import BaseMixture
from .base import _log_B
import numpy as np
from scipy.special import psi,betaln
from scipy.misc import logsumexp
class DPVariationalGaussianMixture(BaseMixture):
"""
Variational Bayesian Estimation of a Gaussian Mixture with Dirichlet Process
This class allows to infer an approximate posterior distribution over the
parameters of a Gaussian mixture distribution.
The weights distribution follows a Dirichlet Process with attribute alpha.
Parameters
----------
n_components : int, defaults to 1.
Number of clusters used.
init : str, defaults to 'kmeans'.
Method used in order to perform the initialization,
must be in ['random', 'plus', 'AF_KMC', 'kmeans', 'GMM', 'VBGMM'].
reg_covar : float, defaults to 1e-6
In order to avoid null covariances this float is added to the diagonal
of covariance matrices.
type_init : str, defaults to 'resp'.
The algorithm is initialized using this data (responsibilities if 'resp'
or means, covariances and weights if 'mcw').
Other parameters
----------------
alpha_0 : float, Optional | defaults to None.
The prior parameter on the weight distribution (Beta).
A high value of alpha_0 will lead to equal weights, while a low value
will allow some clusters to shrink and disappear. Must be greater than 0.
If None, the value is set to 1/n_components
beta_0 : float, Optional | defaults to None.
The precision prior on the mean distribution (Gaussian).
Must be greater than 0.
If None, the value is set to 1.0
nu_0 : float, Optional | defaults to None.
The prior of the number of degrees of freedom on the covariance
distributions (Wishart). Must be greater or equal to dim.
If None, the value is set to dim
means_prior : array (dim,), Optional | defaults to None
The prior value to compute the value of the means.
If None, the value is set to the mean of points_data
cov_wishart_prior : type depends on covariance_type, Optional | defaults to None
If covariance_type is 'full' type must be array (dim,dim)
If covariance_type is 'spherical' type must be float
The prior value to compute the value of the precisions.
pypcoeff : float | defaults to 0
If 0 the weights are generated according to a Dirichlet Process
If >0 and <=1 the weights are generated according to a Pitman-Yor
Process.
Attributes
----------
name : str
The name of the method : 'VBGMM'
alpha : array of floats (n_components,2)
Contains the parameters of the weight distribution (Beta)
beta : array of floats (n_components,)
Contains coefficients which are multipied with the precision matrices
to form the precision matrix on the Gaussian distribution of the means.
nu : array of floats (n_components,)
Contains the number of degrees of freedom on the distribution of
covariance matrices.
_inv_prec : array of floats (n_components,dim,dim)
Contains the equivalent of the matrix W described in Bishop's book. It
is proportional to cov.
_log_det_inv_prec : array of floats (n_components,)
Contains the logarithm of the determinant of W matrices.
cov : array of floats (n_components,dim,dim)
Contains the computed covariance matrices of the mixture.
means : array of floats (n_components,dim)
Contains the computed means of the mixture.
log_weights : array of floats (n_components,)
Contains the logarithm of weights of each cluster.
iter : int
The number of iterations computed with the method fit()
convergence_criterion_data : array of floats (iter,)
Stores the value of the convergence criterion computed with data
on which the model is fitted.
convergence_criterion_test : array of floats (iter,) | if _early_stopping only
Stores the value of the convergence criterion computed with test data
if it exists.
_is_initialized : bool
Ensures that the method _initialize() has been used before using other
methods such as score() or predict_log_assignements().
Raises
------
ValueError : if the parameters are inconsistent, for example if the cluster number is negative, init_type is not in ['resp','mcw']...
References
----------
'Variational Inference for Dirichlet Process Mixtures', D. Blei and M. Jordan
"""
def __init__(self, n_components=1,init="kmeans",alpha_0=None,beta_0=None,
nu_0=None,means_prior=None,cov_wishart_prior=None,
reg_covar=1e-6,type_init='resp',n_jobs=1,pypcoeff=0,
boost=None):
super(DPVariationalGaussianMixture, self).__init__()
self.n_components = n_components
self.covariance_type = "full"
self.init = init
self.type_init = type_init
self.reg_covar = reg_covar
self.boost = boost
self.alpha_0 = alpha_0
self.beta_0 = beta_0
self.nu_0 = nu_0
self.pypcoeff = pypcoeff
self._means_prior = means_prior
self._inv_prec_prior = cov_wishart_prior
self.n_jobs = n_jobs
self._is_initialized = False
self.iter = 0
self.convergence_criterion_data = []
self.convergence_criterion_test = []
self._check_common_parameters()
self._check_parameters()
if pypcoeff==0:
self.name = 'DPGMM'
else:
self.name = 'PYPGMM'
def _check_parameters(self):
"""
Check the value of the init parameter
"""
if self.init not in ['random', 'random_sk', 'plus', 'kmeans', 'AF_KMC', 'GMM', 'VBGMM']:
raise ValueError("Invalid value for 'init': %s "
"'init' should be in "
"['random','plus','kmeans','AF_KMC','GMM','VBGMM']"
% self.init)
if self.pypcoeff < 0 or self.pypcoeff > 1:
raise ValueError("Invalid value for 'pypcoeff': %s "
"'pypcoeff' should be between 0 and 1"
% self.init)
if self.boost is not None :
if self.boost < 0:
raise ValueError("Invalid value for 'boost': %s "
"'boost' should be positive"
% self.init)
if self.init == 'random_sk' and self.type_init=='mcw':
raise ValueError("random_sk is only compatible with"
"type_init = resp")
def _initialize(self,points_data,points_test=None):
"""
This method initializes the Variational Gaussian Mixture by setting the values
of the means, the covariances and other specific parameters (alpha, beta, nu)
Parameters
----------
points_data : an array (n_points,dim)
Data on which the model is fitted.
points_test: an array (n_points,dim) | Optional
Data used to do early stopping (avoid overfitting)
"""
n_points,dim = points_data.shape
self._check_prior_parameters(points_data)
if self.type_init == 'resp':
log_assignements = initialize_log_assignements(self.init,self.n_components,points_data,
points_test)
self._inv_prec = np.empty((self.n_components,dim,dim))
self._log_det_inv_prec = np.empty(self.n_components)
self.cov = np.empty((self.n_components,dim,dim))
self.alpha = np.empty((self.n_components,2))
self.log_weights = np.empty(self.n_components)
self._step_M(points_data,log_assignements)
# Boosting covariance matrices
if self.boost is not None:
self.cov *= self.boost
self._inv_prec *= self.boost
self._log_det_inv_prec += dim * np.log(self.boost)
elif self.type_init == 'mcw':
#Means, covariances and weights
means,cov,log_weights = initialize_mcw(self.init,self.n_components,points_data,
points_test)
self.cov = cov
self.means = means
self.log_weights = log_weights
# Hyper parameters
N = np.exp(log_weights) * n_points
self.alpha = np.asarray([1 + N,
self.alpha_0 + np.hstack((np.cumsum(N[::-1])[-2::-1], 0))]).T
self.alpha += np.asarray([-self.pypcoeff * np.ones(self.n_components),
self.pypcoeff * np.arange(self.n_components)]).T
self.beta = self.beta_0 + N
self.nu = self.nu_0 + N
# Matrix W
self._inv_prec = cov * self.nu[:,np.newaxis,np.newaxis]
self._log_det_inv_prec = np.log(np.linalg.det(self._inv_prec))
elif self.init == 'user':
if self.type_init=='kmeans':
self._initialize_cov(points_data)
# Hyper parameters
N = np.exp(self.log_weights) * n_points
self.alpha = np.asarray([1 + N,
self.alpha_0 + np.hstack((np.cumsum(N[::-1])[-2::-1], 0)) ]).T
self.alpha += np.asarray([-self.pypcoeff * np.ones(self.n_components),
self.pypcoeff * np.arange(self.n_components)]).T
self.beta = self.beta_0 + N
self.nu = self.nu_0 + N
# Matrix W
self._inv_prec = self.cov * self.nu[:,np.newaxis,np.newaxis]
self._log_det_inv_prec = np.log(np.linalg.det(self._inv_prec))
self._is_initialized = True
def _step_E(self, points):
"""
In this step the algorithm evaluates the responsibilities of each points in each cluster
Parameters
----------
points : an array (n_points,dim)
Returns
-------
log_resp: an array (n_points,n_components)
an array containing the logarithm of the responsibilities.
log_prob_norm : an array (n_points,)
logarithm of the probability of each sample in points
"""
n_points,dim = points.shape
log_gaussian = _log_normal_matrix(points,self.means,self.cov,'full',self.n_jobs)
log_gaussian -= 0.5 * dim * np.log(self.nu)
digamma_sum = np.sum(psi(.5 * (self.nu - np.arange(0, dim)[:,np.newaxis])),0)
log_lambda = digamma_sum + dim * np.log(2)
log_prob = self.log_weights + log_gaussian + 0.5 * (log_lambda - dim / self.beta)
log_prob_norm = logsumexp(log_prob, axis=1)
log_resp = log_prob - log_prob_norm[:,np.newaxis]
return log_prob_norm,log_resp
def _step_M(self,points,log_resp):
"""
In this step the algorithm updates the values of the parameters (means, covariances,
alpha, beta, nu).
Parameters
----------
points : an array (n_points,dim)
log_resp: an array (n_points,n_components)
an array containing the logarithm of the responsibilities.
"""
n_points,dim = points.shape
resp = np.exp(log_resp)
# Convenient statistics
N = np.sum(resp,axis=0) + 10*np.finfo(resp.dtype).eps #Array (n_components,)
X_barre = 1/N[:,np.newaxis] * np.dot(resp.T,points) #Array (n_components,dim)
S = _full_covariance_matrices(points,X_barre,N,resp,self.reg_covar,self.n_jobs)
#Parameters update
self.alpha = np.asarray([1.0 + N,
self.alpha_0 + np.hstack((np.cumsum(N[::-1])[-2::-1], 0))]).T
self.alpha += np.asarray([-self.pypcoeff * np.ones(self.n_components),
self.pypcoeff * np.arange(self.n_components)]).T
self.beta = self.beta_0 + N
self.nu = self.nu_0 + N
# Weights update
for i in range(self.n_components):
if i==0:
self.log_weights[i] = psi(self.alpha[i][0]) - psi(np.sum(self.alpha[i]))
else:
self.log_weights[i] = psi(self.alpha[i][0]) - psi(np.sum(self.alpha[i]))
self.log_weights[i] += self.log_weights[i-1] + psi(self.alpha[i-1][1]) - psi(self.alpha[i-1][0])
# Means update
means = self.beta_0 * self._means_prior + N[:,np.newaxis] * X_barre
self.means = means * np.reciprocal(self.beta)[:,np.newaxis]
self.means_estimated = self.means
# Covariance update
for i in range(self.n_components):
diff = X_barre[i] - self._means_prior
product = self.beta_0 * N[i]/self.beta[i] * np.outer(diff,diff)
self._inv_prec[i] = self._inv_prec_prior + N[i] * S[i] + product
det_inv_prec = np.linalg.det(self._inv_prec[i])
self._log_det_inv_prec[i] = np.log(det_inv_prec)
self.cov[i] = self._inv_prec[i] / self.nu[i]
def _convergence_criterion_simplified(self,points,log_resp,log_prob_norm):
"""
Compute the lower bound of the likelihood using the simplified Blei and
Jordan formula. Can only be used with data which fits the model.
Parameters
----------
points : an array (n_points,dim)
log_resp: an array (n_points,n_components)
an array containing the logarithm of the responsibilities.
log_prob_norm : an array (n_points,)
logarithm of the probability of each sample in points
Returns
-------
result : float
the lower bound of the likelihood
"""
resp = np.exp(log_resp)
n_points,dim = points.shape
prec = np.linalg.inv(self._inv_prec)
prec_prior = np.linalg.inv(self._inv_prec_prior)
lower_bound = np.zeros(self.n_components)
for i in range(self.n_components):
lower_bound[i] = _log_B(prec_prior,self.nu_0) - _log_B(prec[i],self.nu[i])
resp_i = resp[:,i:i+1]
log_resp_i = log_resp[:,i:i+1]
lower_bound[i] -= np.sum(resp_i*log_resp_i)
lower_bound[i] += dim*0.5*(np.log(self.beta_0) - np.log(self.beta[i]))
result = np.sum(lower_bound)
result -= self.n_components * betaln(1,self.alpha_0)
result += np.sum(betaln(self.alpha.T[0],self.alpha.T[1]))
result -= n_points * dim * 0.5 * np.log(2*np.pi)
return result
def _convergence_criterion(self,points,log_resp,log_prob_norm):
"""
Compute the lower bound of the likelihood using the Blei and Jordan formula.
The formula cannot be simplified (as it is done in scikit-learn) as we also
use it to calculate the lower bound of test points, in this case no
simplification can be done.
Parameters
----------
points : an array (n_points,dim)
log_resp: an array (n_points,n_components)
an array containing the logarithm of the responsibilities.
log_prob_norm : an array (n_points,)
logarithm of the probability of each sample in points
Returns
-------
result : float
the lower bound of the likelihood
"""
resp = np.exp(log_resp)
n_points,dim = points.shape
# Convenient statistics
N = np.sum(resp,axis=0) + 10*np.finfo(resp.dtype).eps #Array (n_components,)
X_barre = 1/N[:,np.newaxis] * np.dot(resp.T,points) #Array (n_components,dim)
S = _full_covariance_matrices(points,X_barre,N,resp,self.reg_covar,self.n_jobs)
prec = np.linalg.inv(self._inv_prec)
prec_prior = np.linalg.inv(self._inv_prec_prior)
lower_bound = np.zeros(self.n_components)
for i in range(self.n_components):
digamma_sum = np.sum(psi(.5 * (self.nu[i] - np.arange(0, dim)[:,np.newaxis])),0)
log_det_prec_i = digamma_sum + dim * np.log(2) - self._log_det_inv_prec[i] #/!\ Inverse
#First line
lower_bound[i] = log_det_prec_i - dim/self.beta[i] - self.nu[i]*np.trace(np.dot(S[i],prec[i]))
diff = X_barre[i] - self.means[i]
lower_bound[i] += -self.nu[i]*np.dot(diff,np.dot(prec[i],diff.T))
lower_bound[i] *= 0.5 * N[i]
#Second line
lower_bound[i] += _log_B(prec_prior,self.nu_0) - _log_B(prec[i],self.nu[i])
resp_i = resp[:,i:i+1]
log_resp_i = log_resp[:,i:i+1]
lower_bound[i] -= np.sum(resp_i*log_resp_i)
lower_bound[i] += 0.5 * (self.nu_0 - self.nu[i]) * log_det_prec_i
lower_bound[i] += dim*0.5*(np.log(self.beta_0) - np.log(self.beta[i]))
lower_bound[i] += dim*0.5*(1 - self.beta_0/self.beta[i] + self.nu[i])
#Third line without the last term which is not summed
diff = self.means[i] - self._means_prior
lower_bound[i] += -0.5*self.beta_0*self.nu[i]*np.dot(diff,np.dot(prec[i],diff.T))
lower_bound[i] += -0.5*self.nu[i]*np.trace(np.dot(self._inv_prec_prior,prec[i]))
#Terms with alpha
lower_bound[i] += (N[i] + 1.0 - self.alpha[i,0]) * (psi(self.alpha[i,0]) - psi(np.sum(self.alpha[i])))
lower_bound[i] += (np.sum(N[i+1::]) + self.alpha_0 - self.alpha[i,1]) * (psi(self.alpha[i,1]) - psi(np.sum(self.alpha[i])))
result = np.sum(lower_bound)
result -= self.n_components * betaln(1,self.alpha_0)
result += np.sum(betaln(self.alpha.T[0],self.alpha.T[1]))
result -= n_points * dim * 0.5 * np.log(2*np.pi)
return result
def _get_parameters(self):
return (self.log_weights, self.means, self.cov,
self.alpha, self.beta, self.nu)
def _set_parameters(self, params,verbose=True):
(self.log_weights, self.means, self.cov,
self.alpha, self.beta, self.nu )= params
# Matrix W
self._inv_prec = self.cov * self.nu[:,np.newaxis,np.newaxis]
self._log_det_inv_prec = np.log(np.linalg.det(self._inv_prec))
if self.n_components != len(self.means) and verbose:
print('The number of components changed')
self.n_components = len(self.means)
def _limiting_model(self,points):
n_points,dim = points.shape
log_resp = self.predict_log_resp(points)
_,n_components = log_resp.shape
exist = np.zeros(n_components)
for i in range(n_points):
for j in range(n_components):
if np.argmax(log_resp[i])==j:
exist[j] = 1
idx_existing = np.where(exist==1)
log_weights = self.log_weights[idx_existing]
means = self.means[idx_existing]
cov = self.cov[idx_existing]
alpha = self.alpha[idx_existing]
beta = self.beta[idx_existing]
nu = self.nu[idx_existing]
params = (log_weights, means, cov,
alpha, beta, nu)
return params | apache-2.0 |
sgarrity/bedrock | lib/l10n_utils/management/commands/fluent.py | 8 | 3597 | # This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, You can obtain one at http://mozilla.org/MPL/2.0/.
from pathlib import Path
import textwrap
from django.core.management.base import BaseCommand
class Command(BaseCommand):
help = 'Convert a template to use Fluent for l10n'
requires_system_checks = False
def add_arguments(self, parser):
subparsers = parser.add_subparsers(
title='subcommand', dest='subcommand'
)
subparsers.add_parser('help')
recipe_parser = subparsers.add_parser(
'recipe',
description='Create migration recipe from template'
)
recipe_parser.add_argument('template', type=Path)
ftl_parser = subparsers.add_parser(
'ftl',
description='Create Fluent file with existing recipe'
)
ftl_parser.add_argument(
'recipe_or_template', type=Path,
help='Path to the recipe or the template from which the recipe was generated'
)
ftl_parser.add_argument(
'locales', nargs='*', default=['en'], metavar='ab-CD',
help='Locale codes to create ftl files for'
)
template_parser = subparsers.add_parser(
'template',
description='Create template_ftl.html file with existing recipe'
)
template_parser.add_argument('template', type=Path)
activation_parser = subparsers.add_parser(
'activation',
description='Port activation data from .lang for a recipe/template'
)
activation_parser.add_argument(
'recipe_or_template', type=Path,
help='Path to the recipe or the template from which the recipe was generated'
)
def handle(self, subcommand, **kwargs):
if subcommand == 'recipe':
return self.create_recipe(**kwargs)
if subcommand == 'ftl':
return self.create_ftl(**kwargs)
if subcommand == 'template':
return self.create_template(**kwargs)
if subcommand == 'activation':
return self.activation(**kwargs)
return self.handle_help(**kwargs)
def handle_help(self, **kwargs):
self.stdout.write(textwrap.dedent('''\
To migrate a template from .lang to Fluent, use the subcommands like so
./manage.py fluent recipe bedrock/app/templates/app/some.html
# edit IDs in lib/fluent_migrations/app/some.py
./manage.py fluent template bedrock/app/templates/app/some.html
./manage.py fluent ftl bedrock/app/templates/app/some.html
More documentation on https://bedrock.readthedocs.io/en/latest/fluent-conversion.html.
'''))
def create_recipe(self, template, **kwargs):
from ._fluent_recipe import Recipe
recipe = Recipe(self)
recipe.handle(template)
def create_template(self, template, **kwargs):
from ._fluent_templater import Templater
templater = Templater(self)
templater.handle(template)
def create_ftl(self, recipe_or_template, locales, **kwargs):
from ._fluent_ftl import FTLCreator
ftl_creator = FTLCreator(self)
for locale in locales:
ftl_creator.handle(recipe_or_template, locale)
def activation(self, recipe_or_template, **kwargs):
from ._fluent_activation import Activation
activation = Activation(self)
activation.handle(recipe_or_template)
| mpl-2.0 |
kevinmel2000/brython | www/src/Lib/test/unittests/test_cgitb.py | 113 | 2551 | from test.support import run_unittest
from test.script_helper import assert_python_failure, temp_dir
import unittest
import sys
import cgitb
class TestCgitb(unittest.TestCase):
def test_fonts(self):
text = "Hello Robbie!"
self.assertEqual(cgitb.small(text), "<small>{}</small>".format(text))
self.assertEqual(cgitb.strong(text), "<strong>{}</strong>".format(text))
self.assertEqual(cgitb.grey(text),
'<font color="#909090">{}</font>'.format(text))
def test_blanks(self):
self.assertEqual(cgitb.small(""), "")
self.assertEqual(cgitb.strong(""), "")
self.assertEqual(cgitb.grey(""), "")
def test_html(self):
try:
raise ValueError("Hello World")
except ValueError as err:
# If the html was templated we could do a bit more here.
# At least check that we get details on what we just raised.
html = cgitb.html(sys.exc_info())
self.assertIn("ValueError", html)
self.assertIn(str(err), html)
def test_text(self):
try:
raise ValueError("Hello World")
except ValueError as err:
text = cgitb.text(sys.exc_info())
self.assertIn("ValueError", text)
self.assertIn("Hello World", text)
def test_syshook_no_logdir_default_format(self):
with temp_dir() as tracedir:
rc, out, err = assert_python_failure(
'-c',
('import cgitb; cgitb.enable(logdir=%s); '
'raise ValueError("Hello World")') % repr(tracedir))
out = out.decode(sys.getfilesystemencoding())
self.assertIn("ValueError", out)
self.assertIn("Hello World", out)
# By default we emit HTML markup.
self.assertIn('<p>', out)
self.assertIn('</p>', out)
def test_syshook_no_logdir_text_format(self):
# Issue 12890: we were emitting the <p> tag in text mode.
with temp_dir() as tracedir:
rc, out, err = assert_python_failure(
'-c',
('import cgitb; cgitb.enable(format="text", logdir=%s); '
'raise ValueError("Hello World")') % repr(tracedir))
out = out.decode(sys.getfilesystemencoding())
self.assertIn("ValueError", out)
self.assertIn("Hello World", out)
self.assertNotIn('<p>', out)
self.assertNotIn('</p>', out)
def test_main():
run_unittest(TestCgitb)
if __name__ == "__main__":
test_main()
| bsd-3-clause |
rhololkeolke/apo-website-devin | src/application/facebook/facebook.py | 2 | 8731 | """
This module contains helper classes and methods
for the facebook integration module
.. module:: application.facebook.facebook
.. moduleauthor:: Devin Schwab <dts34@case.edu>
"""
import facebooksdk as fb
import models
from flask import flash
class AlbumList(object):
def __init__(self, token):
"""
Given an an access token this class
will get all albums for the object associated with the token
(i.e. a page or a user)
It will lazily construct an Album instance for each of
the album ids returned
"""
self.graph = fb.GraphAPI(token.access_token)
albums_data = self.graph.get_connections('me', 'albums')['data']
self.album_ids = {}
self.album_names = {}
for data in albums_data:
self.album_ids[data['id']] = data
self.album_names[data['name']] = data
def get_albums_by_name(self, names):
"""
Given a list of names this method will
return album objects for each matching name.
If a name is not found then it is silently ignored.
This method returns a dictionary mapping name
to Album object.
"""
albums = {}
for name in names:
if name in self.album_names:
if isinstance(self.album_names[name], Album):
albums[name] = self.album_names[name]
else:
self.album_names[name] = Album(graph=self.graph,
album_data=self.album_names[name])
self.album_ids[self.album_names[name].me] = self.album_names[name]
albums[name] = self.album_names[name]
return albums
def get_albums_by_id(self, ids):
"""
Given a list of ids this method will
return album objects for each matching id.
If an id is not found then it is silently ignored.
This method returns a dictionary mapping id to
Album object
"""
albums = {}
for album_id in ids:
if album_id in self.album_ids:
if isinstance(self.album_ids[album_id], Album):
albums[album_id] = self.album_ids[album_id]
else:
self.album_ids[album_id] = Album(graph=self.graph,
album_data=self.album_ids[album_id])
self.album_names[self.album_ids[album_id].name] = self.album_ids[album_id]
albums[album_id] = self.album_ids[album_id]
return albums
def get_all_albums_by_id(self):
"""
This method returns a dictionary of all
albums with album ids as the keys
"""
for album_id in self.album_ids:
if not isinstance(self.album_ids[album_id], Album):
self.album_ids[album_id] = Album(graph=self.graph,
album_data=self.album_ids[album_id])
self.album_names[self.album_ids[album_id].name] = self.album_ids[album_id]
return self.album_ids
def get_all_albums_by_name(self):
"""
This method returns a dictionary of all
albums with album names as the keys
"""
for name in self.album_names:
if not isinstance(self.album_names[name], Album):
self.album_names[name] = Album(graph=self.graph,
album_data=self.album_names[name])
self.album_ids[self.album_names[name].me] = self.album_names[name]
return self.album_names
class Album(object):
def __init__(self, graph=None, token=None, album_id=None, album_data=None):
"""
Initializes a new Album object.
If graph is provided then the graph object is saved to this
instance.
If the token is provided then the graph object for this token
is created and saved to this instance.
If both are none then an error is raised.
If album_id is provided then the graph object is queried
for the id and the album object populates itself with this data
If album_data is provided then the graph object is populated
with the data in the json derived object
If both are None then an error is raised
"""
if graph is None and token is None:
raise TypeError("Either a graph object must be provided or a token must be provided")
if graph is not None:
self.graph = graph
query = models.AccessTokenModel.all()
query.filter('access_token =', graph.access_token)
try:
self.token = query.fetch(1)[0]
except IndexError:
raise TypeError('The token object provided was not an AccessTokenModel instance')
else:
self.graph = fb.GraphAPI(token.access_token)
self.token = token
if album_id is None and album_data is None:
raise TypeError("Either an album id or a album data must be provided")
if album_id is not None:
album_data = self.graph.get_object(album_id)
self.me = album_data['id']
self.name = album_data['name']
self.desc = album_data.get('description', None)
self.count = album_data.get('count', 0)
if 'cover_photo' in album_data:
self.cover_photo = Photo(self.me, graph=self.graph, photo_id=album_data['cover_photo']).thumbnail
else:
self.cover_photo = None
def get_model(self):
query = models.AlbumModel.all()
query.filter('me =', self.me)
try:
return query.fetch(1)[0]
except IndexError:
cover_thumb = None
if self.cover_photo is not None:
cover_thumb = self.cover_photo
entity = models.AlbumModel(me=self.me,
token=self.token,
name=self.name,
desc=self.desc,
cover_photo=cover_thumb)
entity.put()
return entity
def get_photos(self):
"""
Get a list of Photo objects
"""
photos_data = self.graph.get_connections(self.me, 'photos')['data']
photos = []
for photo_data in photos_data:
query = models.PhotoModel.all()
query.filter('me =', photo_data['id'])
try:
photos.append(query.fetch(1)[0])
except IndexError:
name = None
if 'name' in photo_data:
name = photo_data['name']
orig = photo_data['images'][0]['source']
entity = models.PhotoModel(me=photo_data['id'],
album_id=self.me,
name=name,
thumbnail=photo_data['picture'],
original=orig)
entity.put()
photos.append(entity)
return photos
class Photo(object):
def __init__(self, album_id, graph=None, token=None, photo_id=None, photo_data=None):
if graph is None and token is None:
raise TypeError("Either a graph object must be provided or a token must be provided")
if graph is not None:
self.graph = graph
else:
self.graph = fb.GraphAPI(token.access_token)
if photo_id is None and photo_data is None:
raise TypeError("Either an album id or a album data must be provided")
if photo_id is not None:
photo_data = self.graph.get_object(photo_id)
self.me = photo_data['id']
self.name = photo_data.get('name', None)
self.thumbnail = photo_data['picture']
self.original = photo_data['images'][0]['source']
self.album_id = album_id
def get_model(self):
query = models.PhotoModel.all()
query.filter('me =', self.me)
try:
return query.fetch(1)[0]
except IndexError:
entity = models.PhotoModel(me=self.me,
album_id=self.album_id,
name=self.name,
thumbnail=self.thumbnail,
original=self.original)
entity.put()
return entity
| bsd-3-clause |
korotkyn/ibis | ibis/expr/tests/test_temporal.py | 9 | 5955 | # Copyright 2014 Cloudera Inc.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
from ibis.common import IbisError
import ibis.expr.operations as ops
import ibis.expr.types as ir
import ibis.expr.temporal as T
from ibis.expr.tests.mocks import MockConnection
from ibis.compat import unittest
class TestFixedOffsets(unittest.TestCase):
def setUp(self):
self.con = MockConnection()
self.table = self.con.table('alltypes')
def test_upconvert(self):
cases = [
(T.day(14), 'w', T.week(2)),
(T.hour(72), 'd', T.day(3)),
(T.minute(240), 'h', T.hour(4)),
(T.second(360), 'm', T.minute(6)),
(T.second(3 * 86400), 'd', T.day(3)),
(T.millisecond(5000), 's', T.second(5)),
(T.microsecond(5000000), 's', T.second(5)),
(T.nanosecond(5000000000), 's', T.second(5)),
]
for offset, unit, expected in cases:
result = offset.to_unit(unit)
assert result.equals(expected)
def test_multiply(self):
offset = T.day(2)
assert (offset * 2).equals(T.day(4))
assert (offset * (-2)).equals(T.day(-4))
assert (3 * offset).equals(T.day(6))
assert ((-3) * offset).equals(T.day(-6))
def test_repr(self):
assert repr(T.day()) == '<Timedelta: 1 day>'
assert repr(T.day(2)) == '<Timedelta: 2 days>'
assert repr(T.year()) == '<Timedelta: 1 year>'
assert repr(T.month(2)) == '<Timedelta: 2 months>'
assert repr(T.second(40)) == '<Timedelta: 40 seconds>'
def test_cannot_upconvert(self):
cases = [
(T.day(), 'w'),
(T.hour(), 'd'),
(T.minute(), 'h'),
(T.second(), 'm'),
(T.second(), 'd'),
(T.millisecond(), 's'),
(T.microsecond(), 's'),
(T.nanosecond(), 's'),
]
for delta, target in cases:
self.assertRaises(IbisError, delta.to_unit, target)
def test_downconvert_second_parts(self):
K = 2
sec = T.second(K)
milli = T.millisecond(K)
micro = T.microsecond(K)
nano = T.nanosecond(K)
cases = [
(sec.to_unit('s'), T.second(K)),
(sec.to_unit('ms'), T.millisecond(K * 1000)),
(sec.to_unit('us'), T.microsecond(K * 1000000)),
(sec.to_unit('ns'), T.nanosecond(K * 1000000000)),
(milli.to_unit('ms'), T.millisecond(K)),
(milli.to_unit('us'), T.microsecond(K * 1000)),
(milli.to_unit('ns'), T.nanosecond(K * 1000000)),
(micro.to_unit('us'), T.microsecond(K)),
(micro.to_unit('ns'), T.nanosecond(K * 1000)),
(nano.to_unit('ns'), T.nanosecond(K))
]
self._check_cases(cases)
def test_downconvert_hours(self):
K = 2
offset = T.hour(K)
cases = [
(offset.to_unit('h'), T.hour(K)),
(offset.to_unit('m'), T.minute(K * 60)),
(offset.to_unit('s'), T.second(K * 3600)),
(offset.to_unit('ms'), T.millisecond(K * 3600000)),
(offset.to_unit('us'), T.microsecond(K * 3600000000)),
(offset.to_unit('ns'), T.nanosecond(K * 3600000000000))
]
self._check_cases(cases)
def test_downconvert_day(self):
K = 2
week = T.week(K)
day = T.day(K)
cases = [
(week.to_unit('d'), T.day(K * 7)),
(week.to_unit('h'), T.hour(K * 7 * 24)),
(day.to_unit('d'), T.day(K)),
(day.to_unit('h'), T.hour(K * 24)),
(day.to_unit('m'), T.minute(K * 1440)),
(day.to_unit('s'), T.second(K * 86400)),
(day.to_unit('ms'), T.millisecond(K * 86400000)),
(day.to_unit('us'), T.microsecond(K * 86400000000)),
(day.to_unit('ns'), T.nanosecond(K * 86400000000000))
]
self._check_cases(cases)
def test_combine_with_different_kinds(self):
cases = [
(T.day() + T.minute(), T.minute(1441)),
(T.second() + T.millisecond(10), T.millisecond(1010)),
(T.hour() + T.minute(5) + T.second(10), T.second(3910))
]
self._check_cases(cases)
def test_timedelta_generic_api(self):
cases = [
(T.timedelta(weeks=2), T.week(2)),
(T.timedelta(days=3), T.day(3)),
(T.timedelta(hours=4), T.hour(4)),
(T.timedelta(minutes=5), T.minute(5)),
(T.timedelta(seconds=6), T.second(6)),
(T.timedelta(milliseconds=7), T.millisecond(7)),
(T.timedelta(microseconds=8), T.microsecond(8)),
(T.timedelta(nanoseconds=9), T.nanosecond(9)),
]
self._check_cases(cases)
def _check_cases(self, cases):
for x, y in cases:
assert x.equals(y)
def test_offset_timestamp_expr(self):
c = self.table.i
x = T.timedelta(days=1)
expr = x + c
assert isinstance(expr, ir.TimestampArray)
assert isinstance(expr.op(), ops.TimestampDelta)
# test radd
expr = c + x
assert isinstance(expr, ir.TimestampArray)
assert isinstance(expr.op(), ops.TimestampDelta)
class TestTimedelta(unittest.TestCase):
def test_compound_offset(self):
# These are not yet allowed (e.g. 1 month + 1 hour)
pass
def test_offset_months(self):
pass
| apache-2.0 |
hectord/lettuce | tests/integration/lib/Django-1.2.5/django/core/handlers/base.py | 44 | 9926 | import sys
from django import http
from django.core import signals
from django.utils.encoding import force_unicode
from django.utils.importlib import import_module
class BaseHandler(object):
# Changes that are always applied to a response (in this order).
response_fixes = [
http.fix_location_header,
http.conditional_content_removal,
http.fix_IE_for_attach,
http.fix_IE_for_vary,
]
def __init__(self):
self._request_middleware = self._view_middleware = self._response_middleware = self._exception_middleware = None
def load_middleware(self):
"""
Populate middleware lists from settings.MIDDLEWARE_CLASSES.
Must be called after the environment is fixed (see __call__).
"""
from django.conf import settings
from django.core import exceptions
self._view_middleware = []
self._response_middleware = []
self._exception_middleware = []
request_middleware = []
for middleware_path in settings.MIDDLEWARE_CLASSES:
try:
dot = middleware_path.rindex('.')
except ValueError:
raise exceptions.ImproperlyConfigured('%s isn\'t a middleware module' % middleware_path)
mw_module, mw_classname = middleware_path[:dot], middleware_path[dot+1:]
try:
mod = import_module(mw_module)
except ImportError, e:
raise exceptions.ImproperlyConfigured('Error importing middleware %s: "%s"' % (mw_module, e))
try:
mw_class = getattr(mod, mw_classname)
except AttributeError:
raise exceptions.ImproperlyConfigured('Middleware module "%s" does not define a "%s" class' % (mw_module, mw_classname))
try:
mw_instance = mw_class()
except exceptions.MiddlewareNotUsed:
continue
if hasattr(mw_instance, 'process_request'):
request_middleware.append(mw_instance.process_request)
if hasattr(mw_instance, 'process_view'):
self._view_middleware.append(mw_instance.process_view)
if hasattr(mw_instance, 'process_response'):
self._response_middleware.insert(0, mw_instance.process_response)
if hasattr(mw_instance, 'process_exception'):
self._exception_middleware.insert(0, mw_instance.process_exception)
# We only assign to this when initialization is complete as it is used
# as a flag for initialization being complete.
self._request_middleware = request_middleware
def get_response(self, request):
"Returns an HttpResponse object for the given HttpRequest"
from django.core import exceptions, urlresolvers
from django.conf import settings
try:
try:
# Setup default url resolver for this thread.
urlconf = settings.ROOT_URLCONF
urlresolvers.set_urlconf(urlconf)
resolver = urlresolvers.RegexURLResolver(r'^/', urlconf)
# Apply request middleware
for middleware_method in self._request_middleware:
response = middleware_method(request)
if response:
return response
if hasattr(request, "urlconf"):
# Reset url resolver with a custom urlconf.
urlconf = request.urlconf
urlresolvers.set_urlconf(urlconf)
resolver = urlresolvers.RegexURLResolver(r'^/', urlconf)
callback, callback_args, callback_kwargs = resolver.resolve(
request.path_info)
# Apply view middleware
for middleware_method in self._view_middleware:
response = middleware_method(request, callback, callback_args, callback_kwargs)
if response:
return response
try:
response = callback(request, *callback_args, **callback_kwargs)
except Exception, e:
# If the view raised an exception, run it through exception
# middleware, and if the exception middleware returns a
# response, use that. Otherwise, reraise the exception.
for middleware_method in self._exception_middleware:
response = middleware_method(request, e)
if response:
return response
raise
# Complain if the view returned None (a common error).
if response is None:
try:
view_name = callback.func_name # If it's a function
except AttributeError:
view_name = callback.__class__.__name__ + '.__call__' # If it's a class
raise ValueError("The view %s.%s didn't return an HttpResponse object." % (callback.__module__, view_name))
return response
except http.Http404, e:
if settings.DEBUG:
from django.views import debug
return debug.technical_404_response(request, e)
else:
try:
callback, param_dict = resolver.resolve404()
return callback(request, **param_dict)
except:
try:
return self.handle_uncaught_exception(request, resolver, sys.exc_info())
finally:
receivers = signals.got_request_exception.send(sender=self.__class__, request=request)
except exceptions.PermissionDenied:
return http.HttpResponseForbidden('<h1>Permission denied</h1>')
except SystemExit:
# Allow sys.exit() to actually exit. See tickets #1023 and #4701
raise
except: # Handle everything else, including SuspiciousOperation, etc.
# Get the exception info now, in case another exception is thrown later.
receivers = signals.got_request_exception.send(sender=self.__class__, request=request)
return self.handle_uncaught_exception(request, resolver, sys.exc_info())
finally:
# Reset URLconf for this thread on the way out for complete
# isolation of request.urlconf
urlresolvers.set_urlconf(None)
def handle_uncaught_exception(self, request, resolver, exc_info):
"""
Processing for any otherwise uncaught exceptions (those that will
generate HTTP 500 responses). Can be overridden by subclasses who want
customised 500 handling.
Be *very* careful when overriding this because the error could be
caused by anything, so assuming something like the database is always
available would be an error.
"""
from django.conf import settings
from django.core.mail import mail_admins
if settings.DEBUG_PROPAGATE_EXCEPTIONS:
raise
if settings.DEBUG:
from django.views import debug
return debug.technical_500_response(request, *exc_info)
# When DEBUG is False, send an error message to the admins.
subject = 'Error (%s IP): %s' % ((request.META.get('REMOTE_ADDR') in settings.INTERNAL_IPS and 'internal' or 'EXTERNAL'), request.path)
try:
request_repr = repr(request)
except:
request_repr = "Request repr() unavailable"
message = "%s\n\n%s" % (self._get_traceback(exc_info), request_repr)
mail_admins(subject, message, fail_silently=True)
# If Http500 handler is not installed, re-raise last exception
if resolver.urlconf_module is None:
raise exc_info[1], None, exc_info[2]
# Return an HttpResponse that displays a friendly error message.
callback, param_dict = resolver.resolve500()
return callback(request, **param_dict)
def _get_traceback(self, exc_info=None):
"Helper function to return the traceback as a string"
import traceback
return '\n'.join(traceback.format_exception(*(exc_info or sys.exc_info())))
def apply_response_fixes(self, request, response):
"""
Applies each of the functions in self.response_fixes to the request and
response, modifying the response in the process. Returns the new
response.
"""
for func in self.response_fixes:
response = func(request, response)
return response
def get_script_name(environ):
"""
Returns the equivalent of the HTTP request's SCRIPT_NAME environment
variable. If Apache mod_rewrite has been used, returns what would have been
the script name prior to any rewriting (so it's the script name as seen
from the client's perspective), unless DJANGO_USE_POST_REWRITE is set (to
anything).
"""
from django.conf import settings
if settings.FORCE_SCRIPT_NAME is not None:
return force_unicode(settings.FORCE_SCRIPT_NAME)
# If Apache's mod_rewrite had a whack at the URL, Apache set either
# SCRIPT_URL or REDIRECT_URL to the full resource URL before applying any
# rewrites. Unfortunately not every Web server (lighttpd!) passes this
# information through all the time, so FORCE_SCRIPT_NAME, above, is still
# needed.
script_url = environ.get('SCRIPT_URL', u'')
if not script_url:
script_url = environ.get('REDIRECT_URL', u'')
if script_url:
return force_unicode(script_url[:-len(environ.get('PATH_INFO', ''))])
return force_unicode(environ.get('SCRIPT_NAME', u''))
| gpl-3.0 |
KristFoundation/Programs | luaide/Documentation/networking/cxacru-cf.py | 14668 | 1626 | #!/usr/bin/env python
# Copyright 2009 Simon Arlott
#
# This program is free software; you can redistribute it and/or modify it
# under the terms of the GNU General Public License as published by the Free
# Software Foundation; either version 2 of the License, or (at your option)
# any later version.
#
# This program is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
# FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
# more details.
#
# You should have received a copy of the GNU General Public License along with
# this program; if not, write to the Free Software Foundation, Inc., 59
# Temple Place - Suite 330, Boston, MA 02111-1307, USA.
#
# Usage: cxacru-cf.py < cxacru-cf.bin
# Output: values string suitable for the sysfs adsl_config attribute
#
# Warning: cxacru-cf.bin with MD5 hash cdbac2689969d5ed5d4850f117702110
# contains mis-aligned values which will stop the modem from being able
# to make a connection. If the first and last two bytes are removed then
# the values become valid, but the modulation will be forced to ANSI
# T1.413 only which may not be appropriate.
#
# The original binary format is a packed list of le32 values.
import sys
import struct
i = 0
while True:
buf = sys.stdin.read(4)
if len(buf) == 0:
break
elif len(buf) != 4:
sys.stdout.write("\n")
sys.stderr.write("Error: read {0} not 4 bytes\n".format(len(buf)))
sys.exit(1)
if i > 0:
sys.stdout.write(" ")
sys.stdout.write("{0:x}={1}".format(i, struct.unpack("<I", buf)[0]))
i += 1
sys.stdout.write("\n")
| mit |
ARM-software/mbed-beetle | tools/host_tests/host_tests_plugins/module_copy_smart.py | 2 | 4378 | """
mbed SDK
Copyright (c) 2011-2013 ARM Limited
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
"""
import os
import sys
from os.path import join, basename, exists, abspath, dirname
from time import sleep
from host_test_plugins import HostTestPluginBase
sys.path.append(abspath(join(dirname(__file__), "../../../")))
from tools.test_api import get_autodetected_MUTS_list
class HostTestPluginCopyMethod_Smart(HostTestPluginBase):
# Plugin interface
name = 'HostTestPluginCopyMethod_Smart'
type = 'CopyMethod'
stable = True
capabilities = ['smart']
required_parameters = ['image_path', 'destination_disk', 'target_mcu']
def setup(self, *args, **kwargs):
""" Configure plugin, this function should be called before plugin execute() method is used.
"""
return True
def execute(self, capability, *args, **kwargs):
""" Executes capability by name.
Each capability may directly just call some command line
program or execute building pythonic function
"""
result = False
if self.check_parameters(capability, *args, **kwargs) is True:
image_path = kwargs['image_path']
destination_disk = kwargs['destination_disk']
target_mcu = kwargs['target_mcu']
# Wait for mount point to be ready
self.check_mount_point_ready(destination_disk) # Blocking
# Prepare correct command line parameter values
image_base_name = basename(image_path)
destination_path = join(destination_disk, image_base_name)
if capability == 'smart':
if os.name == 'posix':
cmd = ['cp', image_path, destination_path]
result = self.run_command(cmd, shell=False)
cmd = ['sync']
result = self.run_command(cmd, shell=False)
elif os.name == 'nt':
cmd = ['copy', image_path, destination_path]
result = self.run_command(cmd, shell=True)
# Give the OS and filesystem time to settle down
sleep(3)
platform_name_filter = [target_mcu]
muts_list = {}
remount_complete = False
for i in range(0, 60):
print('Looking for %s with MBEDLS' % target_mcu)
muts_list = get_autodetected_MUTS_list(platform_name_filter=platform_name_filter)
if 1 in muts_list:
mut = muts_list[1]
destination_disk = mut['disk']
destination_path = join(destination_disk, image_base_name)
if mut['mcu'] == 'LPC1768' or mut['mcu'] == 'LPC11U24':
if exists(destination_disk) and exists(destination_path):
remount_complete = True
break;
else:
if exists(destination_disk) and not exists(destination_path):
remount_complete = True
break;
sleep(1)
if remount_complete:
print('Remount complete')
else:
print('Remount FAILED')
if exists(destination_disk):
print('Disk exists')
else:
print('Disk does not exist')
if exists(destination_path):
print('Image exists')
else:
print('Image does not exist')
result = None
return result
def load_plugin():
""" Returns plugin available in this module
"""
return HostTestPluginCopyMethod_Smart()
| apache-2.0 |
ahmadio/edx-platform | lms/lib/courseware_search/lms_filter_generator.py | 58 | 5634 | """
This file contains implementation override of SearchFilterGenerator which will allow
* Filter by all courses in which the user is enrolled in
"""
from microsite_configuration import microsite
from student.models import CourseEnrollment
from opaque_keys import InvalidKeyError
from opaque_keys.edx.keys import CourseKey
from opaque_keys.edx.locations import SlashSeparatedCourseKey
from xmodule.modulestore.django import modulestore
from search.filter_generator import SearchFilterGenerator
from openedx.core.djangoapps.user_api.partition_schemes import RandomUserPartitionScheme
from openedx.core.djangoapps.course_groups.partition_scheme import CohortPartitionScheme
from courseware.access import get_user_role
INCLUDE_SCHEMES = [CohortPartitionScheme, RandomUserPartitionScheme, ]
SCHEME_SUPPORTS_ASSIGNMENT = [RandomUserPartitionScheme, ]
class LmsSearchFilterGenerator(SearchFilterGenerator):
""" SearchFilterGenerator for LMS Search """
_user_enrollments = {}
def _enrollments_for_user(self, user):
""" Return the specified user's course enrollments """
if user not in self._user_enrollments:
self._user_enrollments[user] = CourseEnrollment.enrollments_for_user(user)
return self._user_enrollments[user]
def filter_dictionary(self, **kwargs):
""" LMS implementation, adds filtering by user partition, course id and user """
def get_group_for_user_partition(user_partition, course_key, user):
""" Returns the specified user's group for user partition """
if user_partition.scheme in SCHEME_SUPPORTS_ASSIGNMENT:
return user_partition.scheme.get_group_for_user(
course_key,
user,
user_partition,
assign=False,
)
else:
return user_partition.scheme.get_group_for_user(
course_key,
user,
user_partition,
)
def get_group_ids_for_user(course, user):
""" Collect user partition group ids for user for this course """
partition_groups = []
for user_partition in course.user_partitions:
if user_partition.scheme in INCLUDE_SCHEMES:
group = get_group_for_user_partition(user_partition, course.id, user)
if group:
partition_groups.append(group)
partition_group_ids = [unicode(partition_group.id) for partition_group in partition_groups]
return partition_group_ids if partition_group_ids else None
filter_dictionary = super(LmsSearchFilterGenerator, self).filter_dictionary(**kwargs)
if 'user' in kwargs:
user = kwargs['user']
if 'course_id' in kwargs and kwargs['course_id']:
try:
course_key = CourseKey.from_string(kwargs['course_id'])
except InvalidKeyError:
course_key = SlashSeparatedCourseKey.from_deprecated_string(kwargs['course_id'])
# Staff user looking at course as staff user
if get_user_role(user, course_key) in ('instructor', 'staff'):
return filter_dictionary
# Need to check course exist (if course gets deleted enrollments don't get cleaned up)
course = modulestore().get_course(course_key)
if course:
filter_dictionary['content_groups'] = get_group_ids_for_user(course, user)
else:
user_enrollments = self._enrollments_for_user(user)
content_groups = []
for enrollment in user_enrollments:
course = modulestore().get_course(enrollment.course_id)
if course:
enrollment_group_ids = get_group_ids_for_user(course, user)
if enrollment_group_ids:
content_groups.extend(enrollment_group_ids)
filter_dictionary['content_groups'] = content_groups if content_groups else None
return filter_dictionary
def field_dictionary(self, **kwargs):
""" add course if provided otherwise add courses in which the user is enrolled in """
field_dictionary = super(LmsSearchFilterGenerator, self).field_dictionary(**kwargs)
if not kwargs.get('user'):
field_dictionary['course'] = []
elif not kwargs.get('course_id'):
user_enrollments = self._enrollments_for_user(kwargs['user'])
field_dictionary['course'] = [unicode(enrollment.course_id) for enrollment in user_enrollments]
# if we have an org filter, only include results for this org filter
course_org_filter = microsite.get_value('course_org_filter')
if course_org_filter:
field_dictionary['org'] = course_org_filter
return field_dictionary
def exclude_dictionary(self, **kwargs):
""" If we are not on a microsite, then exclude any microsites that are defined """
exclude_dictionary = super(LmsSearchFilterGenerator, self).exclude_dictionary(**kwargs)
course_org_filter = microsite.get_value('course_org_filter')
# If we have a course filter we are ensuring that we only get those courses above
if not course_org_filter:
org_filter_out_set = microsite.get_all_orgs()
if org_filter_out_set:
exclude_dictionary['org'] = list(org_filter_out_set)
return exclude_dictionary
| agpl-3.0 |
goliate/sarakha63-persomov | couchpotato/core/media/movie/providers/trailer/youtube_dl/extractor/twentyfourvideo.py | 32 | 3892 | # coding: utf-8
from __future__ import unicode_literals
from .common import InfoExtractor
from ..utils import (
parse_iso8601,
int_or_none,
)
class TwentyFourVideoIE(InfoExtractor):
IE_NAME = '24video'
_VALID_URL = r'https?://(?:www\.)?24video\.net/(?:video/(?:view|xml)/|player/new24_play\.swf\?id=)(?P<id>\d+)'
_TESTS = [
{
'url': 'http://www.24video.net/video/view/1044982',
'md5': '48dd7646775690a80447a8dca6a2df76',
'info_dict': {
'id': '1044982',
'ext': 'mp4',
'title': 'Эротика каменного века',
'description': 'Как смотрели порно в каменном веке.',
'thumbnail': 're:^https?://.*\.jpg$',
'uploader': 'SUPERTELO',
'duration': 31,
'timestamp': 1275937857,
'upload_date': '20100607',
'age_limit': 18,
'like_count': int,
'dislike_count': int,
},
},
{
'url': 'http://www.24video.net/player/new24_play.swf?id=1044982',
'only_matching': True,
}
]
def _real_extract(self, url):
video_id = self._match_id(url)
webpage = self._download_webpage(
'http://www.24video.net/video/view/%s' % video_id, video_id)
title = self._og_search_title(webpage)
description = self._html_search_regex(
r'<span itemprop="description">([^<]+)</span>', webpage, 'description', fatal=False)
thumbnail = self._og_search_thumbnail(webpage)
duration = int_or_none(self._og_search_property(
'duration', webpage, 'duration', fatal=False))
timestamp = parse_iso8601(self._search_regex(
r'<time id="video-timeago" datetime="([^"]+)" itemprop="uploadDate">',
webpage, 'upload date'))
uploader = self._html_search_regex(
r'Загрузил\s*<a href="/jsecUser/movies/[^"]+" class="link">([^<]+)</a>',
webpage, 'uploader', fatal=False)
view_count = int_or_none(self._html_search_regex(
r'<span class="video-views">(\d+) просмотр',
webpage, 'view count', fatal=False))
comment_count = int_or_none(self._html_search_regex(
r'<div class="comments-title" id="comments-count">(\d+) комментари',
webpage, 'comment count', fatal=False))
formats = []
pc_video = self._download_xml(
'http://www.24video.net/video/xml/%s?mode=play' % video_id,
video_id, 'Downloading PC video URL').find('.//video')
formats.append({
'url': pc_video.attrib['url'],
'format_id': 'pc',
'quality': 1,
})
like_count = int_or_none(pc_video.get('ratingPlus'))
dislike_count = int_or_none(pc_video.get('ratingMinus'))
age_limit = 18 if pc_video.get('adult') == 'true' else 0
mobile_video = self._download_xml(
'http://www.24video.net/video/xml/%s' % video_id,
video_id, 'Downloading mobile video URL').find('.//video')
formats.append({
'url': mobile_video.attrib['url'],
'format_id': 'mobile',
'quality': 0,
})
self._sort_formats(formats)
return {
'id': video_id,
'title': title,
'description': description,
'thumbnail': thumbnail,
'uploader': uploader,
'duration': duration,
'timestamp': timestamp,
'view_count': view_count,
'comment_count': comment_count,
'like_count': like_count,
'dislike_count': dislike_count,
'age_limit': age_limit,
'formats': formats,
}
| gpl-3.0 |
longman694/youtube-dl | youtube_dl/extractor/watchbox.py | 14 | 5539 | # coding: utf-8
from __future__ import unicode_literals
import re
from .common import InfoExtractor
from ..compat import compat_str
from ..utils import (
int_or_none,
js_to_json,
strip_or_none,
try_get,
unified_timestamp,
)
class WatchBoxIE(InfoExtractor):
_VALID_URL = r'https?://(?:www\.)?watchbox\.de/(?P<kind>serien|filme)/(?:[^/]+/)*[^/]+-(?P<id>\d+)'
_TESTS = [{
# film
'url': 'https://www.watchbox.de/filme/free-jimmy-12325.html',
'info_dict': {
'id': '341368',
'ext': 'mp4',
'title': 'Free Jimmy',
'description': 'md5:bcd8bafbbf9dc0ef98063d344d7cc5f6',
'thumbnail': r're:^https?://.*\.jpg$',
'duration': 4890,
'age_limit': 16,
'release_year': 2009,
},
'params': {
'format': 'bestvideo',
'skip_download': True,
},
'expected_warnings': ['Failed to download m3u8 information'],
}, {
# episode
'url': 'https://www.watchbox.de/serien/ugly-americans-12231/staffel-1/date-in-der-hoelle-328286.html',
'info_dict': {
'id': '328286',
'ext': 'mp4',
'title': 'S01 E01 - Date in der Hölle',
'description': 'md5:2f31c74a8186899f33cb5114491dae2b',
'thumbnail': r're:^https?://.*\.jpg$',
'duration': 1291,
'age_limit': 12,
'release_year': 2010,
'series': 'Ugly Americans',
'season_number': 1,
'episode': 'Date in der Hölle',
'episode_number': 1,
},
'params': {
'format': 'bestvideo',
'skip_download': True,
},
'expected_warnings': ['Failed to download m3u8 information'],
}, {
'url': 'https://www.watchbox.de/serien/ugly-americans-12231/staffel-2/der-ring-des-powers-328270',
'only_matching': True,
}]
def _real_extract(self, url):
mobj = re.match(self._VALID_URL, url)
kind, video_id = mobj.group('kind', 'id')
webpage = self._download_webpage(url, video_id)
source = self._parse_json(
self._search_regex(
r'(?s)source\s*:\s*({.+?})\s*,\s*\n', webpage, 'source',
default='{}'),
video_id, transform_source=js_to_json, fatal=False) or {}
video_id = compat_str(source.get('videoId') or video_id)
devapi = self._download_json(
'http://api.watchbox.de/devapi/id/%s' % video_id, video_id, query={
'format': 'json',
'apikey': 'hbbtv',
}, fatal=False)
item = try_get(devapi, lambda x: x['items'][0], dict) or {}
title = item.get('title') or try_get(
item, lambda x: x['movie']['headline_movie'],
compat_str) or source['title']
formats = []
hls_url = item.get('media_videourl_hls') or source.get('hls')
if hls_url:
formats.extend(self._extract_m3u8_formats(
hls_url, video_id, 'mp4', entry_protocol='m3u8_native',
m3u8_id='hls', fatal=False))
dash_url = item.get('media_videourl_wv') or source.get('dash')
if dash_url:
formats.extend(self._extract_mpd_formats(
dash_url, video_id, mpd_id='dash', fatal=False))
mp4_url = item.get('media_videourl')
if mp4_url:
formats.append({
'url': mp4_url,
'format_id': 'mp4',
'width': int_or_none(item.get('width')),
'height': int_or_none(item.get('height')),
'tbr': int_or_none(item.get('bitrate')),
})
self._sort_formats(formats)
description = strip_or_none(item.get('descr'))
thumbnail = item.get('media_content_thumbnail_large') or source.get('poster') or item.get('media_thumbnail')
duration = int_or_none(item.get('media_length') or source.get('length'))
timestamp = unified_timestamp(item.get('pubDate'))
view_count = int_or_none(item.get('media_views'))
age_limit = int_or_none(try_get(item, lambda x: x['movie']['fsk']))
release_year = int_or_none(try_get(item, lambda x: x['movie']['rel_year']))
info = {
'id': video_id,
'title': title,
'description': description,
'thumbnail': thumbnail,
'duration': duration,
'timestamp': timestamp,
'view_count': view_count,
'age_limit': age_limit,
'release_year': release_year,
'formats': formats,
}
if kind.lower() == 'serien':
series = try_get(
item, lambda x: x['special']['title'],
compat_str) or source.get('format')
season_number = int_or_none(self._search_regex(
r'^S(\d{1,2})\s*E\d{1,2}', title, 'season number',
default=None) or self._search_regex(
r'/staffel-(\d+)/', url, 'season number', default=None))
episode = source.get('title')
episode_number = int_or_none(self._search_regex(
r'^S\d{1,2}\s*E(\d{1,2})', title, 'episode number',
default=None))
info.update({
'series': series,
'season_number': season_number,
'episode': episode,
'episode_number': episode_number,
})
return info
| unlicense |
mesocentrefc/easybuild-framework | easybuild/tools/version.py | 2 | 2926 | ##
# Copyright 2009-2014 Ghent University
#
# This file is part of EasyBuild,
# originally created by the HPC team of Ghent University (http://ugent.be/hpc/en),
# with support of Ghent University (http://ugent.be/hpc),
# the Flemish Supercomputer Centre (VSC) (https://vscentrum.be/nl/en),
# the Hercules foundation (http://www.herculesstichting.be/in_English)
# and the Department of Economy, Science and Innovation (EWI) (http://www.ewi-vlaanderen.be/en).
#
# http://github.com/hpcugent/easybuild
#
# EasyBuild 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 v2.
#
# EasyBuild 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 EasyBuild. If not, see <http://www.gnu.org/licenses/>.
##
"""
Module that takes control of versioning.
@author: Stijn De Weirdt (Ghent University)
@author: Dries Verdegem (Ghent University)
@author: Kenneth Hoste (Ghent University)
@author: Pieter De Baets (Ghent University)
@author: Jens Timmerman (Ghent University)
"""
import os
from distutils.version import LooseVersion
from socket import gethostname
# note: release candidates should be versioned as a pre-release, e.g. "1.1rc1"
# 1.1-rc1 would indicate a post-release, i.e., and update of 1.1, so beware!
VERSION = LooseVersion("1.14.0")
UNKNOWN = "UNKNOWN"
def get_git_revision():
"""
Returns the git revision (e.g. aab4afc016b742c6d4b157427e192942d0e131fe),
or UNKNOWN is getting the git revision fails
relies on GitPython (see http://gitorious.org/git-python)
"""
try:
import git
except ImportError:
return UNKNOWN
try:
path = os.path.dirname(__file__)
gitrepo = git.Git(path)
return gitrepo.rev_list("HEAD").splitlines()[0]
except git.GitCommandError:
return UNKNOWN
git_rev = get_git_revision()
if git_rev == UNKNOWN:
VERBOSE_VERSION = VERSION
else:
VERBOSE_VERSION = LooseVersion("%s-r%s" % (VERSION, get_git_revision()))
# alias
FRAMEWORK_VERSION = VERBOSE_VERSION
# EasyBlock version
try:
from easybuild.easyblocks import VERBOSE_VERSION as EASYBLOCKS_VERSION
except:
EASYBLOCKS_VERSION = '0.0.UNKNOWN.EASYBLOCKS' # make sure it is smaller then anything
def this_is_easybuild():
"""Standard starting message"""
top_version = max(FRAMEWORK_VERSION, EASYBLOCKS_VERSION)
# !!! bootstrap_eb.py script checks hard on the string below, so adjust with sufficient care !!!
msg = "This is EasyBuild %s (framework: %s, easyblocks: %s) on host %s." \
% (top_version, FRAMEWORK_VERSION, EASYBLOCKS_VERSION, gethostname())
return msg
| gpl-2.0 |
kinghaitao/git-core | scripts/rt-tester/rt-tester.py | 904 | 5366 | #!/usr/bin/env python
#
# rt-mutex tester
#
# (C) 2006 Thomas Gleixner <tglx@linutronix.de>
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License version 2 as
# published by the Free Software Foundation.
#
import os
import sys
import getopt
import shutil
import string
# Globals
quiet = 0
test = 0
comments = 0
sysfsprefix = "/sys/devices/system/rttest/rttest"
statusfile = "/status"
commandfile = "/command"
# Command opcodes
cmd_opcodes = {
"schedother" : "1",
"schedfifo" : "2",
"lock" : "3",
"locknowait" : "4",
"lockint" : "5",
"lockintnowait" : "6",
"lockcont" : "7",
"unlock" : "8",
"lockbkl" : "9",
"unlockbkl" : "10",
"signal" : "11",
"resetevent" : "98",
"reset" : "99",
}
test_opcodes = {
"prioeq" : ["P" , "eq" , None],
"priolt" : ["P" , "lt" , None],
"priogt" : ["P" , "gt" , None],
"nprioeq" : ["N" , "eq" , None],
"npriolt" : ["N" , "lt" , None],
"npriogt" : ["N" , "gt" , None],
"unlocked" : ["M" , "eq" , 0],
"trylock" : ["M" , "eq" , 1],
"blocked" : ["M" , "eq" , 2],
"blockedwake" : ["M" , "eq" , 3],
"locked" : ["M" , "eq" , 4],
"opcodeeq" : ["O" , "eq" , None],
"opcodelt" : ["O" , "lt" , None],
"opcodegt" : ["O" , "gt" , None],
"eventeq" : ["E" , "eq" , None],
"eventlt" : ["E" , "lt" , None],
"eventgt" : ["E" , "gt" , None],
}
# Print usage information
def usage():
print "rt-tester.py <-c -h -q -t> <testfile>"
print " -c display comments after first command"
print " -h help"
print " -q quiet mode"
print " -t test mode (syntax check)"
print " testfile: read test specification from testfile"
print " otherwise from stdin"
return
# Print progress when not in quiet mode
def progress(str):
if not quiet:
print str
# Analyse a status value
def analyse(val, top, arg):
intval = int(val)
if top[0] == "M":
intval = intval / (10 ** int(arg))
intval = intval % 10
argval = top[2]
elif top[0] == "O":
argval = int(cmd_opcodes.get(arg, arg))
else:
argval = int(arg)
# progress("%d %s %d" %(intval, top[1], argval))
if top[1] == "eq" and intval == argval:
return 1
if top[1] == "lt" and intval < argval:
return 1
if top[1] == "gt" and intval > argval:
return 1
return 0
# Parse the commandline
try:
(options, arguments) = getopt.getopt(sys.argv[1:],'chqt')
except getopt.GetoptError, ex:
usage()
sys.exit(1)
# Parse commandline options
for option, value in options:
if option == "-c":
comments = 1
elif option == "-q":
quiet = 1
elif option == "-t":
test = 1
elif option == '-h':
usage()
sys.exit(0)
# Select the input source
if arguments:
try:
fd = open(arguments[0])
except Exception,ex:
sys.stderr.write("File not found %s\n" %(arguments[0]))
sys.exit(1)
else:
fd = sys.stdin
linenr = 0
# Read the test patterns
while 1:
linenr = linenr + 1
line = fd.readline()
if not len(line):
break
line = line.strip()
parts = line.split(":")
if not parts or len(parts) < 1:
continue
if len(parts[0]) == 0:
continue
if parts[0].startswith("#"):
if comments > 1:
progress(line)
continue
if comments == 1:
comments = 2
progress(line)
cmd = parts[0].strip().lower()
opc = parts[1].strip().lower()
tid = parts[2].strip()
dat = parts[3].strip()
try:
# Test or wait for a status value
if cmd == "t" or cmd == "w":
testop = test_opcodes[opc]
fname = "%s%s%s" %(sysfsprefix, tid, statusfile)
if test:
print fname
continue
while 1:
query = 1
fsta = open(fname, 'r')
status = fsta.readline().strip()
fsta.close()
stat = status.split(",")
for s in stat:
s = s.strip()
if s.startswith(testop[0]):
# Seperate status value
val = s[2:].strip()
query = analyse(val, testop, dat)
break
if query or cmd == "t":
break
progress(" " + status)
if not query:
sys.stderr.write("Test failed in line %d\n" %(linenr))
sys.exit(1)
# Issue a command to the tester
elif cmd == "c":
cmdnr = cmd_opcodes[opc]
# Build command string and sys filename
cmdstr = "%s:%s" %(cmdnr, dat)
fname = "%s%s%s" %(sysfsprefix, tid, commandfile)
if test:
print fname
continue
fcmd = open(fname, 'w')
fcmd.write(cmdstr)
fcmd.close()
except Exception,ex:
sys.stderr.write(str(ex))
sys.stderr.write("\nSyntax error in line %d\n" %(linenr))
if not test:
fd.close()
sys.exit(1)
# Normal exit pass
print "Pass"
sys.exit(0)
| gpl-2.0 |
broferek/ansible | test/units/modules/network/f5/test_bigip_service_policy.py | 38 | 4128 | # -*- coding: utf-8 -*-
#
# Copyright: (c) 2017, F5 Networks Inc.
# GNU General Public License v3.0 (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
from __future__ import (absolute_import, division, print_function)
__metaclass__ = type
import os
import json
import pytest
import sys
if sys.version_info < (2, 7):
pytestmark = pytest.mark.skip("F5 Ansible modules require Python >= 2.7")
from ansible.module_utils.basic import AnsibleModule
try:
from library.modules.bigip_service_policy import ApiParameters
from library.modules.bigip_service_policy import ModuleParameters
from library.modules.bigip_service_policy import ModuleManager
from library.modules.bigip_service_policy import ArgumentSpec
# In Ansible 2.8, Ansible changed import paths.
from test.units.compat import unittest
from test.units.compat.mock import Mock
from test.units.compat.mock import patch
from test.units.modules.utils import set_module_args
except ImportError:
from ansible.modules.network.f5.bigip_service_policy import ApiParameters
from ansible.modules.network.f5.bigip_service_policy import ModuleParameters
from ansible.modules.network.f5.bigip_service_policy import ModuleManager
from ansible.modules.network.f5.bigip_service_policy import ArgumentSpec
# Ansible 2.8 imports
from units.compat import unittest
from units.compat.mock import Mock
from units.compat.mock import patch
from units.modules.utils import set_module_args
fixture_path = os.path.join(os.path.dirname(__file__), 'fixtures')
fixture_data = {}
def load_fixture(name):
path = os.path.join(fixture_path, name)
if path in fixture_data:
return fixture_data[path]
with open(path) as f:
data = f.read()
try:
data = json.loads(data)
except Exception:
pass
fixture_data[path] = data
return data
class TestParameters(unittest.TestCase):
def test_module_parameters(self):
args = dict(
name='foo',
description='my description',
timer_policy='timer1',
port_misuse_policy='misuse1',
)
p = ModuleParameters(params=args)
assert p.name == 'foo'
assert p.description == 'my description'
assert p.timer_policy == '/Common/timer1'
assert p.port_misuse_policy == '/Common/misuse1'
def test_api_parameters(self):
args = load_fixture('load_net_service_policy_1.json')
p = ApiParameters(params=args)
assert p.name == 'baz'
assert p.description == 'my description'
assert p.timer_policy == '/Common/foo'
assert p.port_misuse_policy == '/Common/bar'
class TestManager(unittest.TestCase):
def setUp(self):
self.spec = ArgumentSpec()
try:
self.p1 = patch('library.modules.bigip_service_policy.module_provisioned')
self.m1 = self.p1.start()
self.m1.return_value = True
except Exception:
self.p1 = patch('ansible.modules.network.f5.bigip_service_policy.module_provisioned')
self.m1 = self.p1.start()
self.m1.return_value = True
def test_create_selfip(self, *args):
set_module_args(dict(
name='foo',
description='my description',
timer_policy='timer1',
port_misuse_policy='misuse1',
partition='Common',
state='present',
provider=dict(
server='localhost',
password='password',
user='admin'
)
))
module = AnsibleModule(
argument_spec=self.spec.argument_spec,
supports_check_mode=self.spec.supports_check_mode
)
mm = ModuleManager(module=module)
# Override methods to force specific logic in the module to happen
mm.exists = Mock(side_effect=[False, True])
mm.create_on_device = Mock(return_value=True)
mm.module_provisioned = Mock(return_value=True)
results = mm.exec_module()
assert results['changed'] is True
| gpl-3.0 |
wavelets/zipline | zipline/examples/dual_ema_talib.py | 2 | 3230 | #!/usr/bin/env python
#
# Copyright 2013 Quantopian, 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 matplotlib.pyplot as plt
from zipline.algorithm import TradingAlgorithm
from zipline.utils.factory import load_from_yahoo
# Import exponential moving average from talib wrapper
from zipline.transforms.ta import EMA
from datetime import datetime
import pytz
class DualEMATaLib(TradingAlgorithm):
"""Dual Moving Average Crossover algorithm.
This algorithm buys apple once its short moving average crosses
its long moving average (indicating upwards momentum) and sells
its shares once the averages cross again (indicating downwards
momentum).
"""
def initialize(self, short_window=20, long_window=40):
# Add 2 mavg transforms, one with a long window, one
# with a short window.
self.short_ema_trans = EMA(timeperiod=short_window)
self.long_ema_trans = EMA(timeperiod=long_window)
# To keep track of whether we invested in the stock or not
self.invested = False
def handle_data(self, data):
self.short_ema = self.short_ema_trans.handle_data(data)
self.long_ema = self.long_ema_trans.handle_data(data)
if self.short_ema is None or self.long_ema is None:
return
self.buy = False
self.sell = False
if (self.short_ema > self.long_ema).all() and not self.invested:
self.order('AAPL', 100)
self.invested = True
self.buy = True
elif (self.short_ema < self.long_ema).all() and self.invested:
self.order('AAPL', -100)
self.invested = False
self.sell = True
self.record(AAPL=data['AAPL'].price,
short_ema=self.short_ema['AAPL'],
long_ema=self.long_ema['AAPL'],
buy=self.buy,
sell=self.sell)
if __name__ == '__main__':
start = datetime(1990, 1, 1, 0, 0, 0, 0, pytz.utc)
end = datetime(1991, 1, 1, 0, 0, 0, 0, pytz.utc)
data = load_from_yahoo(stocks=['AAPL'], indexes={}, start=start,
end=end)
dma = DualEMATaLib()
results = dma.run(data).dropna()
fig = plt.figure()
ax1 = fig.add_subplot(211, ylabel='portfolio value')
results.portfolio_value.plot(ax=ax1)
ax2 = fig.add_subplot(212)
results[['AAPL', 'short_ema', 'long_ema']].plot(ax=ax2)
ax2.plot(results.ix[results.buy].index, results.short_ema[results.buy],
'^', markersize=10, color='m')
ax2.plot(results.ix[results.sell].index, results.short_ema[results.sell],
'v', markersize=10, color='k')
plt.legend(loc=0)
plt.gcf().set_size_inches(18, 8)
| apache-2.0 |
crmccreary/openerp_server | openerp/addons/account_bank_statement_extensions/account_bank_statement.py | 9 | 6553 | # -*- encoding: utf-8 -*-
##############################################################################
#
# OpenERP, Open Source Management Solution
#
# Copyright (c) 2011 Noviat nv/sa (www.noviat.be). All rights reserved.
#
# 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 osv import osv, fields
import decimal_precision as dp
import netsvc
from tools.translate import _
class account_bank_statement(osv.osv):
_inherit = 'account.bank.statement'
def write(self, cr, uid, ids, vals, context=None):
if context is None:
context = {}
# bypass obsolete statement line resequencing
if vals.get('line_ids', False) or context.get('ebanking_import', False):
res = super(osv.osv, self).write(cr, uid, ids, vals, context=context)
else:
res = super(account_bank_statement, self).write(cr, uid, ids, vals, context=context)
return res
def button_confirm_bank(self, cr, uid, ids, context=None):
super(account_bank_statement, self).button_confirm_bank(cr, uid, ids, context=context)
for st in self.browse(cr, uid, ids, context=context):
cr.execute("UPDATE account_bank_statement_line \
SET state='confirm' WHERE id in %s ",
(tuple([x.id for x in st.line_ids]),))
return True
def button_cancel(self, cr, uid, ids, context=None):
super(account_bank_statement, self).button_cancel(cr, uid, ids, context=context)
for st in self.browse(cr, uid, ids, context=context):
if st.line_ids:
cr.execute("UPDATE account_bank_statement_line \
SET state='draft' WHERE id in %s ",
(tuple([x.id for x in st.line_ids]),))
return True
account_bank_statement()
class account_bank_statement_line_global(osv.osv):
_name = 'account.bank.statement.line.global'
_description = 'Batch Payment Info'
_columns = {
'name': fields.char('Communication', size=128, required=True),
'code': fields.char('Code', size=64, required=True),
'parent_id': fields.many2one('account.bank.statement.line.global', 'Parent Code', ondelete='cascade'),
'child_ids': fields.one2many('account.bank.statement.line.global', 'parent_id', 'Child Codes'),
'type': fields.selection([
('iso20022', 'ISO 20022'),
('coda', 'CODA'),
('manual', 'Manual'),
], 'Type', required=True),
'amount': fields.float('Amount', digits_compute=dp.get_precision('Account')),
'bank_statement_line_ids': fields.one2many('account.bank.statement.line', 'globalisation_id', 'Bank Statement Lines'),
}
_rec_name = 'code'
_defaults = {
'code': lambda s,c,u,ctx={}: s.pool.get('ir.sequence').get(c, u, 'account.bank.statement.line.global'),
'name': '/',
}
_sql_constraints = [
('code_uniq', 'unique (code)', 'The code must be unique !'),
]
def name_search(self, cr, user, name, args=None, operator='ilike', context=None, limit=100):
if not args:
args = []
ids = []
if name:
ids = self.search(cr, user, [('code', 'ilike', name)] + args, limit=limit)
if not ids:
ids = self.search(cr, user, [('name', operator, name)] + args, limit=limit)
if not ids and len(name.split()) >= 2:
#Separating code and name for searching
operand1, operand2 = name.split(' ', 1) #name can contain spaces
ids = self.search(cr, user, [('code', 'like', operand1), ('name', operator, operand2)] + args, limit=limit)
else:
ids = self.search(cr, user, args, context=context, limit=limit)
return self.name_get(cr, user, ids, context=context)
account_bank_statement_line_global()
class account_bank_statement_line(osv.osv):
_inherit = 'account.bank.statement.line'
_columns = {
'date': fields.date('Entry Date', required=True, states={'confirm': [('readonly', True)]}),
'val_date': fields.date('Valuta Date', states={'confirm': [('readonly', True)]}),
'globalisation_id': fields.many2one('account.bank.statement.line.global', 'Globalisation ID',
states={'confirm': [('readonly', True)]},
help="Code to identify transactions belonging to the same globalisation level within a batch payment"),
'globalisation_amount': fields.related('globalisation_id', 'amount', type='float',
relation='account.bank.statement.line.global', string='Glob. Amount', readonly=True),
'journal_id': fields.related('statement_id', 'journal_id', type='many2one', relation='account.journal', string='Journal', store=True, readonly=True),
'state': fields.selection([('draft', 'Draft'), ('confirm', 'Confirmed')],
'State', required=True, readonly=True),
'counterparty_name': fields.char('Counterparty Name', size=35),
'counterparty_bic': fields.char('Counterparty BIC', size=11),
'counterparty_number': fields.char('Counterparty Number', size=34),
'counterparty_currency': fields.char('Counterparty Currency', size=3),
}
_defaults = {
'state': 'draft',
}
def unlink(self, cr, uid, ids, context=None):
if context is None:
context = {}
if context.get('block_statement_line_delete', False):
raise osv.except_osv(_('Warning'), _('Delete operation not allowed ! \
Please go to the associated bank statement in order to delete and/or modify this bank statement line'))
return super(account_bank_statement_line, self).unlink(cr, uid, ids, context=context)
account_bank_statement_line()
# vim:expandtab:smartindent:tabstop=4:softtabstop=4:shiftwidth=4: | agpl-3.0 |
ProfessionalIT/maxigenios-website | sdk/google_appengine/lib/django-1.2/django/db/models/sql/datastructures.py | 396 | 1157 | """
Useful auxilliary data structures for query construction. Not useful outside
the SQL domain.
"""
class EmptyResultSet(Exception):
pass
class FullResultSet(Exception):
pass
class MultiJoin(Exception):
"""
Used by join construction code to indicate the point at which a
multi-valued join was attempted (if the caller wants to treat that
exceptionally).
"""
def __init__(self, level):
self.level = level
class Empty(object):
pass
class RawValue(object):
def __init__(self, value):
self.value = value
class Date(object):
"""
Add a date selection column.
"""
def __init__(self, col, lookup_type):
self.col = col
self.lookup_type = lookup_type
def relabel_aliases(self, change_map):
c = self.col
if isinstance(c, (list, tuple)):
self.col = (change_map.get(c[0], c[0]), c[1])
def as_sql(self, qn, connection):
if isinstance(self.col, (list, tuple)):
col = '%s.%s' % tuple([qn(c) for c in self.col])
else:
col = self.col
return connection.ops.date_trunc_sql(self.lookup_type, col)
| mit |
wuga214/Django-Wuga | env/lib/python2.7/site-packages/pip/_vendor/distlib/markers.py | 1261 | 6282 | # -*- coding: utf-8 -*-
#
# Copyright (C) 2012-2013 Vinay Sajip.
# Licensed to the Python Software Foundation under a contributor agreement.
# See LICENSE.txt and CONTRIBUTORS.txt.
#
"""Parser for the environment markers micro-language defined in PEP 345."""
import ast
import os
import sys
import platform
from .compat import python_implementation, string_types
from .util import in_venv
__all__ = ['interpret']
class Evaluator(object):
"""
A limited evaluator for Python expressions.
"""
operators = {
'eq': lambda x, y: x == y,
'gt': lambda x, y: x > y,
'gte': lambda x, y: x >= y,
'in': lambda x, y: x in y,
'lt': lambda x, y: x < y,
'lte': lambda x, y: x <= y,
'not': lambda x: not x,
'noteq': lambda x, y: x != y,
'notin': lambda x, y: x not in y,
}
allowed_values = {
'sys_platform': sys.platform,
'python_version': '%s.%s' % sys.version_info[:2],
# parsing sys.platform is not reliable, but there is no other
# way to get e.g. 2.7.2+, and the PEP is defined with sys.version
'python_full_version': sys.version.split(' ', 1)[0],
'os_name': os.name,
'platform_in_venv': str(in_venv()),
'platform_release': platform.release(),
'platform_version': platform.version(),
'platform_machine': platform.machine(),
'platform_python_implementation': python_implementation(),
}
def __init__(self, context=None):
"""
Initialise an instance.
:param context: If specified, names are looked up in this mapping.
"""
self.context = context or {}
self.source = None
def get_fragment(self, offset):
"""
Get the part of the source which is causing a problem.
"""
fragment_len = 10
s = '%r' % (self.source[offset:offset + fragment_len])
if offset + fragment_len < len(self.source):
s += '...'
return s
def get_handler(self, node_type):
"""
Get a handler for the specified AST node type.
"""
return getattr(self, 'do_%s' % node_type, None)
def evaluate(self, node, filename=None):
"""
Evaluate a source string or node, using ``filename`` when
displaying errors.
"""
if isinstance(node, string_types):
self.source = node
kwargs = {'mode': 'eval'}
if filename:
kwargs['filename'] = filename
try:
node = ast.parse(node, **kwargs)
except SyntaxError as e:
s = self.get_fragment(e.offset)
raise SyntaxError('syntax error %s' % s)
node_type = node.__class__.__name__.lower()
handler = self.get_handler(node_type)
if handler is None:
if self.source is None:
s = '(source not available)'
else:
s = self.get_fragment(node.col_offset)
raise SyntaxError("don't know how to evaluate %r %s" % (
node_type, s))
return handler(node)
def get_attr_key(self, node):
assert isinstance(node, ast.Attribute), 'attribute node expected'
return '%s.%s' % (node.value.id, node.attr)
def do_attribute(self, node):
if not isinstance(node.value, ast.Name):
valid = False
else:
key = self.get_attr_key(node)
valid = key in self.context or key in self.allowed_values
if not valid:
raise SyntaxError('invalid expression: %s' % key)
if key in self.context:
result = self.context[key]
else:
result = self.allowed_values[key]
return result
def do_boolop(self, node):
result = self.evaluate(node.values[0])
is_or = node.op.__class__ is ast.Or
is_and = node.op.__class__ is ast.And
assert is_or or is_and
if (is_and and result) or (is_or and not result):
for n in node.values[1:]:
result = self.evaluate(n)
if (is_or and result) or (is_and and not result):
break
return result
def do_compare(self, node):
def sanity_check(lhsnode, rhsnode):
valid = True
if isinstance(lhsnode, ast.Str) and isinstance(rhsnode, ast.Str):
valid = False
#elif (isinstance(lhsnode, ast.Attribute)
# and isinstance(rhsnode, ast.Attribute)):
# klhs = self.get_attr_key(lhsnode)
# krhs = self.get_attr_key(rhsnode)
# valid = klhs != krhs
if not valid:
s = self.get_fragment(node.col_offset)
raise SyntaxError('Invalid comparison: %s' % s)
lhsnode = node.left
lhs = self.evaluate(lhsnode)
result = True
for op, rhsnode in zip(node.ops, node.comparators):
sanity_check(lhsnode, rhsnode)
op = op.__class__.__name__.lower()
if op not in self.operators:
raise SyntaxError('unsupported operation: %r' % op)
rhs = self.evaluate(rhsnode)
result = self.operators[op](lhs, rhs)
if not result:
break
lhs = rhs
lhsnode = rhsnode
return result
def do_expression(self, node):
return self.evaluate(node.body)
def do_name(self, node):
valid = False
if node.id in self.context:
valid = True
result = self.context[node.id]
elif node.id in self.allowed_values:
valid = True
result = self.allowed_values[node.id]
if not valid:
raise SyntaxError('invalid expression: %s' % node.id)
return result
def do_str(self, node):
return node.s
def interpret(marker, execution_context=None):
"""
Interpret a marker and return a result depending on environment.
:param marker: The marker to interpret.
:type marker: str
:param execution_context: The context used for name lookup.
:type execution_context: mapping
"""
return Evaluator(execution_context).evaluate(marker.strip())
| apache-2.0 |
maniacx/android_kernel_htcleo-3.0 | Documentation/networking/cxacru-cf.py | 14668 | 1626 | #!/usr/bin/env python
# Copyright 2009 Simon Arlott
#
# This program is free software; you can redistribute it and/or modify it
# under the terms of the GNU General Public License as published by the Free
# Software Foundation; either version 2 of the License, or (at your option)
# any later version.
#
# This program is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
# FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
# more details.
#
# You should have received a copy of the GNU General Public License along with
# this program; if not, write to the Free Software Foundation, Inc., 59
# Temple Place - Suite 330, Boston, MA 02111-1307, USA.
#
# Usage: cxacru-cf.py < cxacru-cf.bin
# Output: values string suitable for the sysfs adsl_config attribute
#
# Warning: cxacru-cf.bin with MD5 hash cdbac2689969d5ed5d4850f117702110
# contains mis-aligned values which will stop the modem from being able
# to make a connection. If the first and last two bytes are removed then
# the values become valid, but the modulation will be forced to ANSI
# T1.413 only which may not be appropriate.
#
# The original binary format is a packed list of le32 values.
import sys
import struct
i = 0
while True:
buf = sys.stdin.read(4)
if len(buf) == 0:
break
elif len(buf) != 4:
sys.stdout.write("\n")
sys.stderr.write("Error: read {0} not 4 bytes\n".format(len(buf)))
sys.exit(1)
if i > 0:
sys.stdout.write(" ")
sys.stdout.write("{0:x}={1}".format(i, struct.unpack("<I", buf)[0]))
i += 1
sys.stdout.write("\n")
| gpl-2.0 |
paulgclark/rf_utilities | zmq_utils.py | 1 | 1239 | import zmq
import array
import time
import struct
import numpy as np
import pmt
import sys
class zmq_pull_socket():
def __init__(self, tcp_str, verbose=0):
self.context = zmq.Context()
self.receiver = self.context.socket(zmq.PULL)
self.receiver.connect(tcp_str)
def poll(self, type_str='f', verbose=0):
raw_data = self.receiver.recv()
a = array.array(type_str, raw_data)
return a
def poll_message(self):
msg = self.receiver.recv()
# this is a binary string, convert it to a list of ints
byte_list = []
for byte in msg:
byte_list.append(ord(byte))
return byte_list
# incomplete attempt to optimize data flow by
# sending bytes instead of floats; flowgraph
# changes needed to support this, as well
# as all downstream code reworked to use
# bytes
def poll_short(self, type_str='h', verbose=0):
raw_data = self.receiver.recv()
a = array.array(type_str, raw_data)
npa_s = np.asarray(a)
npa_f = npa_s.astype(float)
npa_f *= (1.0/10000.0)
#fmt = "<%dI" % (len(raw_data) //4)
#a = list(struct.unpack(fmt, raw_data))
return list(npa_f)
| mit |
kcpawan/django | tests/many_to_one/models.py | 215 | 2785 | """
Many-to-one relationships
To define a many-to-one relationship, use ``ForeignKey()``.
"""
from __future__ import unicode_literals
from django.db import models
from django.utils.encoding import python_2_unicode_compatible
@python_2_unicode_compatible
class Reporter(models.Model):
first_name = models.CharField(max_length=30)
last_name = models.CharField(max_length=30)
email = models.EmailField()
def __str__(self):
return "%s %s" % (self.first_name, self.last_name)
@python_2_unicode_compatible
class Article(models.Model):
headline = models.CharField(max_length=100)
pub_date = models.DateField()
reporter = models.ForeignKey(Reporter, models.CASCADE)
def __str__(self):
return self.headline
class Meta:
ordering = ('headline',)
# If ticket #1578 ever slips back in, these models will not be able to be
# created (the field names being lower-cased versions of their opposite
# classes is important here).
class First(models.Model):
second = models.IntegerField()
class Second(models.Model):
first = models.ForeignKey(First, models.CASCADE, related_name='the_first')
# Protect against repetition of #1839, #2415 and #2536.
class Third(models.Model):
name = models.CharField(max_length=20)
third = models.ForeignKey('self', models.SET_NULL, null=True, related_name='child_set')
class Parent(models.Model):
name = models.CharField(max_length=20, unique=True)
bestchild = models.ForeignKey('Child', models.SET_NULL, null=True, related_name='favored_by')
class Child(models.Model):
name = models.CharField(max_length=20)
parent = models.ForeignKey(Parent, models.CASCADE)
class ToFieldChild(models.Model):
parent = models.ForeignKey(Parent, models.CASCADE, to_field='name')
# Multiple paths to the same model (#7110, #7125)
@python_2_unicode_compatible
class Category(models.Model):
name = models.CharField(max_length=20)
def __str__(self):
return self.name
class Record(models.Model):
category = models.ForeignKey(Category, models.CASCADE)
@python_2_unicode_compatible
class Relation(models.Model):
left = models.ForeignKey(Record, models.CASCADE, related_name='left_set')
right = models.ForeignKey(Record, models.CASCADE, related_name='right_set')
def __str__(self):
return "%s - %s" % (self.left.category.name, self.right.category.name)
# Test related objects visibility.
class SchoolManager(models.Manager):
def get_queryset(self):
return super(SchoolManager, self).get_queryset().filter(is_public=True)
class School(models.Model):
is_public = models.BooleanField(default=False)
objects = SchoolManager()
class Student(models.Model):
school = models.ForeignKey(School, models.CASCADE)
| bsd-3-clause |
shikigit/python-phonenumbers | python/phonenumbers/data/region_PM.py | 11 | 1604 | """Auto-generated file, do not edit by hand. PM metadata"""
from ..phonemetadata import NumberFormat, PhoneNumberDesc, PhoneMetadata
PHONE_METADATA_PM = PhoneMetadata(id='PM', country_code=508, international_prefix='00',
general_desc=PhoneNumberDesc(national_number_pattern='[45]\\d{5}', possible_number_pattern='\\d{6}'),
fixed_line=PhoneNumberDesc(national_number_pattern='41\\d{4}', possible_number_pattern='\\d{6}', example_number='411234'),
mobile=PhoneNumberDesc(national_number_pattern='55\\d{4}', possible_number_pattern='\\d{6}', example_number='551234'),
toll_free=PhoneNumberDesc(national_number_pattern='NA', possible_number_pattern='NA'),
premium_rate=PhoneNumberDesc(national_number_pattern='NA', possible_number_pattern='NA'),
shared_cost=PhoneNumberDesc(national_number_pattern='NA', possible_number_pattern='NA'),
personal_number=PhoneNumberDesc(national_number_pattern='NA', possible_number_pattern='NA'),
voip=PhoneNumberDesc(national_number_pattern='NA', possible_number_pattern='NA'),
pager=PhoneNumberDesc(national_number_pattern='NA', possible_number_pattern='NA'),
uan=PhoneNumberDesc(national_number_pattern='NA', possible_number_pattern='NA'),
voicemail=PhoneNumberDesc(national_number_pattern='NA', possible_number_pattern='NA'),
no_international_dialling=PhoneNumberDesc(national_number_pattern='NA', possible_number_pattern='NA'),
national_prefix='0',
national_prefix_for_parsing='0',
number_format=[NumberFormat(pattern='([45]\\d)(\\d{2})(\\d{2})', format='\\1 \\2 \\3', national_prefix_formatting_rule='0\\1')])
| apache-2.0 |
xguse/ggplot | ggplot/geoms/geom_abline.py | 12 | 1487 | from __future__ import (absolute_import, division, print_function,
unicode_literals)
import numpy as np
from ggplot.utils import make_iterable_ntimes
from .geom import geom
# Note when documenting
# slope and intercept can be functions that compute the slope
# and intercept using the data. If that is the case then the
# x and y aesthetics must be mapped
class geom_abline(geom):
DEFAULT_AES = {'color': 'black', 'linetype': 'solid',
'alpha': None, 'size': 1.0, 'x': None,
'y': None}
REQUIRED_AES = {'slope', 'intercept'}
DEFAULT_PARAMS = {'stat': 'abline', 'position': 'identity'}
_aes_renames = {'linetype': 'linestyle', 'size': 'linewidth'}
def _plot_unit(self, pinfo, ax):
slope = pinfo['slope']
intercept = pinfo['intercept']
n = len(slope)
linewidth = make_iterable_ntimes(pinfo['linewidth'], n)
linestyle = make_iterable_ntimes(pinfo['linestyle'], n)
alpha = make_iterable_ntimes(pinfo['alpha'], n)
color = make_iterable_ntimes(pinfo['color'], n)
ax.set_autoscale_on(False)
xlim = ax.get_xlim()
_x = np.array([np.min(xlim), np.max(xlim)])
for i in range(len(slope)):
_y = _x * slope[i] + intercept[i]
ax.plot(_x, _y,
linewidth=linewidth[i],
linestyle=linestyle[i],
alpha=alpha[i],
color=color[i])
| bsd-2-clause |
Vegasvikk/django-cms | cms/models/static_placeholder.py | 49 | 3452 | import uuid
from django.contrib.auth import get_permission_codename
from django.contrib.sites.models import Site
from django.core.exceptions import ValidationError
from django.db import models
from django.utils.encoding import python_2_unicode_compatible
from django.utils.translation import ugettext_lazy as _
from cms.models.fields import PlaceholderField
from cms.utils.copy_plugins import copy_plugins_to
def static_slotname(instance):
"""
Returns a string to be used as the slot
for the static placeholder field.
"""
return instance.code
@python_2_unicode_compatible
class StaticPlaceholder(models.Model):
CREATION_BY_TEMPLATE = 'template'
CREATION_BY_CODE = 'code'
CREATION_METHODS = (
(CREATION_BY_TEMPLATE, _('by template')),
(CREATION_BY_CODE, _('by code')),
)
name = models.CharField(
verbose_name=_(u'static placeholder name'), max_length=255, blank=True, default='',
help_text=_(u'Descriptive name to identify this static placeholder. Not displayed to users.'))
code = models.CharField(
verbose_name=_(u'placeholder code'), max_length=255, blank=True,
help_text=_(u'To render the static placeholder in templates.'))
draft = PlaceholderField(static_slotname, verbose_name=_(u'placeholder content'), related_name='static_draft')
public = PlaceholderField(static_slotname, editable=False, related_name='static_public')
dirty = models.BooleanField(default=False, editable=False)
creation_method = models.CharField(
verbose_name=_('creation_method'), choices=CREATION_METHODS,
default=CREATION_BY_CODE, max_length=20, blank=True,
)
site = models.ForeignKey(Site, null=True, blank=True)
class Meta:
verbose_name = _(u'static placeholder')
verbose_name_plural = _(u'static placeholders')
app_label = 'cms'
unique_together = (('code', 'site'),)
def __str__(self):
return self.name
def clean(self):
# TODO: check for clashes if the random code is already taken
if not self.code:
self.code = u'static-%s' % uuid.uuid4()
if not self.site:
placeholders = StaticPlaceholder.objects.filter(code=self.code, site__isnull=True)
if self.pk:
placeholders = placeholders.exclude(pk=self.pk)
if placeholders.exists():
raise ValidationError(_("A static placeholder with the same site and code already exists"))
def publish(self, request, language, force=False):
if force or self.has_publish_permission(request):
self.public.clear(language=language)
plugins = self.draft.get_plugins_list(language=language)
copy_plugins_to(plugins, self.public, no_signals=True)
self.dirty = False
self.save()
return True
return False
def has_change_permission(self, request):
if request.user.is_superuser:
return True
opts = self._meta
return request.user.has_perm(opts.app_label + '.' + get_permission_codename('change', opts))
def has_publish_permission(self, request):
if request.user.is_superuser:
return True
opts = self._meta
return request.user.has_perm(opts.app_label + '.' + get_permission_codename('change', opts)) and \
request.user.has_perm(opts.app_label + '.' + 'publish_page')
| bsd-3-clause |
home-assistant/home-assistant | tests/components/hisense_aehw4a1/test_init.py | 5 | 2927 | """Tests for the Hisense AEH-W4A1 init file."""
from unittest.mock import patch
from pyaehw4a1 import exceptions
from homeassistant import config_entries, data_entry_flow
from homeassistant.components import hisense_aehw4a1
from homeassistant.setup import async_setup_component
async def test_creating_entry_sets_up_climate_discovery(hass):
"""Test setting up Hisense AEH-W4A1 loads the climate component."""
with patch(
"homeassistant.components.hisense_aehw4a1.config_flow.AehW4a1.discovery",
return_value=["1.2.3.4"],
), patch(
"homeassistant.components.hisense_aehw4a1.climate.async_setup_entry",
return_value=True,
) as mock_setup:
result = await hass.config_entries.flow.async_init(
hisense_aehw4a1.DOMAIN, context={"source": config_entries.SOURCE_USER}
)
# Confirmation form
assert result["type"] == data_entry_flow.RESULT_TYPE_FORM
result = await hass.config_entries.flow.async_configure(result["flow_id"], {})
assert result["type"] == data_entry_flow.RESULT_TYPE_CREATE_ENTRY
await hass.async_block_till_done()
assert len(mock_setup.mock_calls) == 1
async def test_configuring_hisense_w4a1_create_entry(hass):
"""Test that specifying config will create an entry."""
with patch(
"homeassistant.components.hisense_aehw4a1.config_flow.AehW4a1.check",
return_value=True,
), patch(
"homeassistant.components.hisense_aehw4a1.async_setup_entry",
return_value=True,
) as mock_setup:
await async_setup_component(
hass,
hisense_aehw4a1.DOMAIN,
{"hisense_aehw4a1": {"ip_address": ["1.2.3.4"]}},
)
await hass.async_block_till_done()
assert len(mock_setup.mock_calls) == 1
async def test_configuring_hisense_w4a1_not_creates_entry_for_device_not_found(hass):
"""Test that specifying config will not create an entry."""
with patch(
"homeassistant.components.hisense_aehw4a1.config_flow.AehW4a1.check",
side_effect=exceptions.ConnectionError,
), patch(
"homeassistant.components.hisense_aehw4a1.async_setup_entry",
return_value=True,
) as mock_setup:
await async_setup_component(
hass,
hisense_aehw4a1.DOMAIN,
{"hisense_aehw4a1": {"ip_address": ["1.2.3.4"]}},
)
await hass.async_block_till_done()
assert len(mock_setup.mock_calls) == 0
async def test_configuring_hisense_w4a1_not_creates_entry_for_empty_import(hass):
"""Test that specifying config will not create an entry."""
with patch(
"homeassistant.components.hisense_aehw4a1.async_setup_entry",
return_value=True,
) as mock_setup:
await async_setup_component(hass, hisense_aehw4a1.DOMAIN, {})
await hass.async_block_till_done()
assert len(mock_setup.mock_calls) == 0
| apache-2.0 |
ChanChiChoi/scikit-learn | examples/model_selection/plot_roc.py | 146 | 3697 | """
=======================================
Receiver Operating Characteristic (ROC)
=======================================
Example of Receiver Operating Characteristic (ROC) metric to evaluate
classifier output quality.
ROC curves typically feature true positive rate on the Y axis, and false
positive rate on the X axis. This means that the top left corner of the plot is
the "ideal" point - a false positive rate of zero, and a true positive rate of
one. This is not very realistic, but it does mean that a larger area under the
curve (AUC) is usually better.
The "steepness" of ROC curves is also important, since it is ideal to maximize
the true positive rate while minimizing the false positive rate.
ROC curves are typically used in binary classification to study the output of
a classifier. In order to extend ROC curve and ROC area to multi-class
or multi-label classification, it is necessary to binarize the output. One ROC
curve can be drawn per label, but one can also draw a ROC curve by considering
each element of the label indicator matrix as a binary prediction
(micro-averaging).
.. note::
See also :func:`sklearn.metrics.roc_auc_score`,
:ref:`example_model_selection_plot_roc_crossval.py`.
"""
print(__doc__)
import numpy as np
import matplotlib.pyplot as plt
from sklearn import svm, datasets
from sklearn.metrics import roc_curve, auc
from sklearn.cross_validation import train_test_split
from sklearn.preprocessing import label_binarize
from sklearn.multiclass import OneVsRestClassifier
# Import some data to play with
iris = datasets.load_iris()
X = iris.data
y = iris.target
# Binarize the output
y = label_binarize(y, classes=[0, 1, 2])
n_classes = y.shape[1]
# Add noisy features to make the problem harder
random_state = np.random.RandomState(0)
n_samples, n_features = X.shape
X = np.c_[X, random_state.randn(n_samples, 200 * n_features)]
# shuffle and split training and test sets
X_train, X_test, y_train, y_test = train_test_split(X, y, test_size=.5,
random_state=0)
# Learn to predict each class against the other
classifier = OneVsRestClassifier(svm.SVC(kernel='linear', probability=True,
random_state=random_state))
y_score = classifier.fit(X_train, y_train).decision_function(X_test)
# Compute ROC curve and ROC area for each class
fpr = dict()
tpr = dict()
roc_auc = dict()
for i in range(n_classes):
fpr[i], tpr[i], _ = roc_curve(y_test[:, i], y_score[:, i])
roc_auc[i] = auc(fpr[i], tpr[i])
# Compute micro-average ROC curve and ROC area
fpr["micro"], tpr["micro"], _ = roc_curve(y_test.ravel(), y_score.ravel())
roc_auc["micro"] = auc(fpr["micro"], tpr["micro"])
# Plot of a ROC curve for a specific class
plt.figure()
plt.plot(fpr[2], tpr[2], label='ROC curve (area = %0.2f)' % roc_auc[2])
plt.plot([0, 1], [0, 1], 'k--')
plt.xlim([0.0, 1.0])
plt.ylim([0.0, 1.05])
plt.xlabel('False Positive Rate')
plt.ylabel('True Positive Rate')
plt.title('Receiver operating characteristic example')
plt.legend(loc="lower right")
plt.show()
# Plot ROC curve
plt.figure()
plt.plot(fpr["micro"], tpr["micro"],
label='micro-average ROC curve (area = {0:0.2f})'
''.format(roc_auc["micro"]))
for i in range(n_classes):
plt.plot(fpr[i], tpr[i], label='ROC curve of class {0} (area = {1:0.2f})'
''.format(i, roc_auc[i]))
plt.plot([0, 1], [0, 1], 'k--')
plt.xlim([0.0, 1.0])
plt.ylim([0.0, 1.05])
plt.xlabel('False Positive Rate')
plt.ylabel('True Positive Rate')
plt.title('Some extension of Receiver operating characteristic to multi-class')
plt.legend(loc="lower right")
plt.show()
| bsd-3-clause |
difro/kubernetes | examples/cluster-dns/images/backend/server.py | 468 | 1313 | #!/usr/bin/env python
# Copyright 2015 The Kubernetes 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.
from BaseHTTPServer import BaseHTTPRequestHandler, HTTPServer
PORT_NUMBER = 8000
# This class will handles any incoming request.
class HTTPHandler(BaseHTTPRequestHandler):
# Handler for the GET requests
def do_GET(self):
self.send_response(200)
self.send_header('Content-type','text/html')
self.end_headers()
self.wfile.write("Hello World!")
try:
# Create a web server and define the handler to manage the incoming request.
server = HTTPServer(('', PORT_NUMBER), HTTPHandler)
print 'Started httpserver on port ' , PORT_NUMBER
server.serve_forever()
except KeyboardInterrupt:
print '^C received, shutting down the web server'
server.socket.close()
| apache-2.0 |
vipulkanade/EventbriteDjango | lib/python2.7/site-packages/django/middleware/clickjacking.py | 284 | 1989 | """
Clickjacking Protection Middleware.
This module provides a middleware that implements protection against a
malicious site loading resources from your site in a hidden frame.
"""
from django.conf import settings
class XFrameOptionsMiddleware(object):
"""
Middleware that sets the X-Frame-Options HTTP header in HTTP responses.
Does not set the header if it's already set or if the response contains
a xframe_options_exempt value set to True.
By default, sets the X-Frame-Options header to 'SAMEORIGIN', meaning the
response can only be loaded on a frame within the same site. To prevent the
response from being loaded in a frame in any site, set X_FRAME_OPTIONS in
your project's Django settings to 'DENY'.
Note: older browsers will quietly ignore this header, thus other
clickjacking protection techniques should be used if protection in those
browsers is required.
https://en.wikipedia.org/wiki/Clickjacking#Server_and_client
"""
def process_response(self, request, response):
# Don't set it if it's already in the response
if response.get('X-Frame-Options') is not None:
return response
# Don't set it if they used @xframe_options_exempt
if getattr(response, 'xframe_options_exempt', False):
return response
response['X-Frame-Options'] = self.get_xframe_options_value(request,
response)
return response
def get_xframe_options_value(self, request, response):
"""
Gets the value to set for the X_FRAME_OPTIONS header.
By default this uses the value from the X_FRAME_OPTIONS Django
settings. If not found in settings, defaults to 'SAMEORIGIN'.
This method can be overridden if needed, allowing it to vary based on
the request or response.
"""
return getattr(settings, 'X_FRAME_OPTIONS', 'SAMEORIGIN').upper()
| mit |
rcolasanti/CompaniesHouseScraper | DVLACompanyNmeMatchCoHoAPIFindMissing.py | 1 | 5174 |
import requests
import json
import numpy as np
import pandas as pd
import CoHouseToken
from difflib import SequenceMatcher
# In[3]:
def exactMatch(line1, line2):
line1=line1.upper().rstrip()
line2=line2.upper().rstrip()
#print("|"+line1+"|"+line2+"|",line1==line2)
return line1==line2
def aStopWord(word):
return word.upper().replace("COMPANY","CO").replace("LIMITED","LTD").replace("&","AND").rstrip()
def spaces(word):
w = word.upper().replace("/"," ")
w = w.replace("."," ").replace(","," ").replace("-"," ").rstrip()
return w
def removeAStopWord(word):
w = word.upper().replace("LTD"," ").replace("CO"," ").replace("AND"," ").replace("("," ").replace("/"," ")
w = w.replace(")"," ").replace("."," ").replace(","," ").replace("-"," ").rstrip()
return w
def removeABlank(word):
w = word.replace(" ","")
return w
def removeABracket (line):
flag = False
word=""
for a in line:
if a=="(":
flag = True
a=""
if a==")":
a=""
flag = False
if flag:
a=""
word+=a
return word
def stopWord(line1, line2):
line1=aStopWord(line1)
line2=aStopWord(line2)
#print("|"+line1+"|"+line2+"|",line1==line2)
return line1==line2
def removeStopWord(line1, line2):
line1=spaces(line1)
line2=spaces(line2)
line1=aStopWord(line1)
line2=aStopWord(line2)
line1=removeAStopWord(line1)
line2=removeAStopWord(line2)
#print("|"+line1+"|"+line2+"|",line1==line2)
return line1==line2
def removeBlanks(line1, line2):
line1=spaces(line1)
line2=spaces(line2)
line1=aStopWord(line1)
line2=aStopWord(line2)
line1=removeAStopWord(line1)
line2=removeAStopWord(line2)
line1=removeABlank(line1)
line2=removeABlank(line2)
return line1==line2
def removeBrackets(line1, line2):
line1=removeABracket(line1)
line2=removeABracket(line2)
line1=spaces(line1)
line2=spaces(line2)
line1=aStopWord(line1)
line2=aStopWord(line2)
line1=removeAStopWord(line1)
line2=removeAStopWord(line2)
line1=removeABlank(line1)
line2=removeABlank(line2)
#print("|"+line1+"|"+line2+"|",line1==line2)
return line1==line2
def strip(line1, line2):
line1=removeABracket(line1)
line2=removeABracket(line2)
line1=spaces(line1)
line2=spaces(line2)
line1=aStopWord(line1)
line2=aStopWord(line2)
line1=removeAStopWord(line1)
line2=removeAStopWord(line2)
line1=removeABlank(line1)
line2=removeABlank(line2)
return line1,line2
def match(company,results):
for i in results['items']:
line = i['title']
number = i['company_number']
if(exactMatch(company,line)):
return True,line,number
for i in results['items']:
line = i['title']
number = i['company_number']
if(stopWord(company,line)):
return True,line,number
for i in results['items']:
line = i['title']
number = i['company_number']
if(removeStopWord(company,line)):
return True,line,number
for i in results['items']:
line = i['title']
number = i['company_number']
if(removeBlanks(company,line)):
return True,line,number
for i in results['items']:
line = i['title']
number = i['company_number']
if(removeBrackets(company,line)):
return True,line,number
#old_match(company,results)
return False,"",""
def main(args):
print(args[0])
search_url ="https://api.companieshouse.gov.uk/search/companies?q="
token = CoHouseToken.getToken()
pw = ''
base_url = 'https://api.companieshouse.gov.uk'
file = args[1]
print(file)
df = pd.read_csv(file,names=['Organisation'])
companies = df.Organisation
count=0
found = open("found2.csv",'w')
missing = open("missing2.csv",'w')
for c in companies:
c =c.upper().replace("&","AND")
c = c.split(" T/A ")[0]
c = c.split("WAS ")[0]
c= spaces(c)
url=search_url+c
results = json.loads(requests.get(url, auth=(token,pw)).text)
for i , key in enumerate(results['items']):
a,b = strip(c, key['title'])
r = SequenceMatcher(None, a, b).ratio()
print("%s \t %s\t %.2f \t %s \t %s"%(i,c,r,key['company_number'],key['title']))
v = input('type number or return to reject: ')
if v =="":
print("reject")
missing.write("%s\n"%(c))
else:
key = results['items'][int(v)]
print("%s \t %s\t %.2f \t %s \t %s"%(v,c,r,key['company_number'],key['title']))
print("*************************")
found.write("%s,%s,%s,\n"%(c,key['title'],key['company_number']))
print()
#print(count/len(companies))
return 0
if __name__ == '__main__':
import sys
sys.exit(main(sys.argv))
| gpl-3.0 |
lyft/incubator-airflow | airflow/kubernetes/pod_generator.py | 2 | 22063 | # Licensed to the Apache Software Foundation (ASF) under one
# or more contributor license agreements. See the NOTICE file
# distributed with this work for additional information
# regarding copyright ownership. The ASF licenses this file
# to you under the Apache License, Version 2.0 (the
# "License"); you may not use this file except in compliance
# with the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing,
# software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
# KIND, either express or implied. See the License for the
# specific language governing permissions and limitations
# under the License.
"""
This module provides an interface between the previous Pod
API and outputs a kubernetes.client.models.V1Pod.
The advantage being that the full Kubernetes API
is supported and no serialization need be written.
"""
import copy
import inspect
import os
import uuid
from functools import reduce
from typing import Dict, List, Optional, Union
import kubernetes.client.models as k8s
import yaml
from kubernetes.client.api_client import ApiClient
from airflow.exceptions import AirflowConfigException
from airflow.version import version as airflow_version
MAX_POD_ID_LEN = 253
class PodDefaults:
"""
Static defaults for Pods
"""
XCOM_MOUNT_PATH = '/airflow/xcom'
SIDECAR_CONTAINER_NAME = 'airflow-xcom-sidecar'
XCOM_CMD = 'trap "exit 0" INT; while true; do sleep 30; done;'
VOLUME_MOUNT = k8s.V1VolumeMount(
name='xcom',
mount_path=XCOM_MOUNT_PATH
)
VOLUME = k8s.V1Volume(
name='xcom',
empty_dir=k8s.V1EmptyDirVolumeSource()
)
SIDECAR_CONTAINER = k8s.V1Container(
name=SIDECAR_CONTAINER_NAME,
command=['sh', '-c', XCOM_CMD],
image='alpine',
volume_mounts=[VOLUME_MOUNT],
resources=k8s.V1ResourceRequirements(
requests={
"cpu": "1m",
}
),
)
class PodGenerator:
"""
Contains Kubernetes Airflow Worker configuration logic
Represents a kubernetes pod and manages execution of a single pod.
Any configuration that is container specific gets applied to
the first container in the list of containers.
:param image: The docker image
:type image: Optional[str]
:param name: name in the metadata section (not the container name)
:type name: Optional[str]
:param namespace: pod namespace
:type namespace: Optional[str]
:param volume_mounts: list of kubernetes volumes mounts
:type volume_mounts: Optional[List[Union[k8s.V1VolumeMount, dict]]]
:param envs: A dict containing the environment variables
:type envs: Optional[Dict[str, str]]
:param cmds: The command to be run on the first container
:type cmds: Optional[List[str]]
:param args: The arguments to be run on the pod
:type args: Optional[List[str]]
:param labels: labels for the pod metadata
:type labels: Optional[Dict[str, str]]
:param node_selectors: node selectors for the pod
:type node_selectors: Optional[Dict[str, str]]
:param ports: list of ports. Applies to the first container.
:type ports: Optional[List[Union[k8s.V1ContainerPort, dict]]]
:param volumes: Volumes to be attached to the first container
:type volumes: Optional[List[Union[k8s.V1Volume, dict]]]
:param image_pull_policy: Specify a policy to cache or always pull an image
:type image_pull_policy: str
:param restart_policy: The restart policy of the pod
:type restart_policy: str
:param image_pull_secrets: Any image pull secrets to be given to the pod.
If more than one secret is required, provide a comma separated list:
secret_a,secret_b
:type image_pull_secrets: str
:param init_containers: A list of init containers
:type init_containers: Optional[List[k8s.V1Container]]
:param service_account_name: Identity for processes that run in a Pod
:type service_account_name: Optional[str]
:param resources: Resource requirements for the first containers
:type resources: Optional[Union[k8s.V1ResourceRequirements, dict]]
:param annotations: annotations for the pod
:type annotations: Optional[Dict[str, str]]
:param affinity: A dict containing a group of affinity scheduling rules
:type affinity: Optional[dict]
:param hostnetwork: If True enable host networking on the pod
:type hostnetwork: bool
:param tolerations: A list of kubernetes tolerations
:type tolerations: Optional[list]
:param security_context: A dict containing the security context for the pod
:type security_context: Optional[Union[k8s.V1PodSecurityContext, dict]]
:param configmaps: Any configmap refs to envfrom.
If more than one configmap is required, provide a comma separated list
configmap_a,configmap_b
:type configmaps: List[str]
:param dnspolicy: Specify a dnspolicy for the pod
:type dnspolicy: Optional[str]
:param schedulername: Specify a schedulername for the pod
:type schedulername: Optional[str]
:param pod: The fully specified pod. Mutually exclusive with `path_or_string`
:type pod: Optional[kubernetes.client.models.V1Pod]
:param pod_template_file: Path to YAML file. Mutually exclusive with `pod`
:type pod_template_file: Optional[str]
:param extract_xcom: Whether to bring up a container for xcom
:type extract_xcom: bool
"""
def __init__( # pylint: disable=too-many-arguments,too-many-locals
self,
image: Optional[str] = None,
name: Optional[str] = None,
namespace: Optional[str] = None,
volume_mounts: Optional[List[Union[k8s.V1VolumeMount, dict]]] = None,
envs: Optional[Dict[str, str]] = None,
cmds: Optional[List[str]] = None,
args: Optional[List[str]] = None,
labels: Optional[Dict[str, str]] = None,
node_selectors: Optional[Dict[str, str]] = None,
ports: Optional[List[Union[k8s.V1ContainerPort, dict]]] = None,
volumes: Optional[List[Union[k8s.V1Volume, dict]]] = None,
image_pull_policy: Optional[str] = None,
restart_policy: Optional[str] = None,
image_pull_secrets: Optional[str] = None,
init_containers: Optional[List[k8s.V1Container]] = None,
service_account_name: Optional[str] = None,
resources: Optional[Union[k8s.V1ResourceRequirements, dict]] = None,
annotations: Optional[Dict[str, str]] = None,
affinity: Optional[dict] = None,
hostnetwork: bool = False,
tolerations: Optional[list] = None,
security_context: Optional[Union[k8s.V1PodSecurityContext, dict]] = None,
configmaps: Optional[List[str]] = None,
dnspolicy: Optional[str] = None,
schedulername: Optional[str] = None,
pod: Optional[k8s.V1Pod] = None,
pod_template_file: Optional[str] = None,
extract_xcom: bool = False,
):
self.validate_pod_generator_args(locals())
if pod_template_file:
self.ud_pod = self.deserialize_model_file(pod_template_file)
else:
self.ud_pod = pod
self.pod = k8s.V1Pod()
self.pod.api_version = 'v1'
self.pod.kind = 'Pod'
# Pod Metadata
self.metadata = k8s.V1ObjectMeta()
self.metadata.labels = labels
self.metadata.name = name
self.metadata.namespace = namespace
self.metadata.annotations = annotations
# Pod Container
self.container = k8s.V1Container(name='base')
self.container.image = image
self.container.env = []
if envs:
if isinstance(envs, dict):
for key, val in envs.items():
self.container.env.append(k8s.V1EnvVar(
name=key,
value=val
))
elif isinstance(envs, list):
self.container.env.extend(envs)
configmaps = configmaps or []
self.container.env_from = []
for configmap in configmaps:
self.container.env_from.append(k8s.V1EnvFromSource(
config_map_ref=k8s.V1ConfigMapEnvSource(
name=configmap
)
))
self.container.command = cmds or []
self.container.args = args or []
self.container.image_pull_policy = image_pull_policy
self.container.ports = ports or []
self.container.resources = resources
self.container.volume_mounts = volume_mounts or []
# Pod Spec
self.spec = k8s.V1PodSpec(containers=[])
self.spec.security_context = security_context
self.spec.tolerations = tolerations
self.spec.dns_policy = dnspolicy
self.spec.scheduler_name = schedulername
self.spec.host_network = hostnetwork
self.spec.affinity = affinity
self.spec.service_account_name = service_account_name
self.spec.init_containers = init_containers
self.spec.volumes = volumes or []
self.spec.node_selector = node_selectors
self.spec.restart_policy = restart_policy
self.spec.image_pull_secrets = []
if image_pull_secrets:
for image_pull_secret in image_pull_secrets.split(','):
self.spec.image_pull_secrets.append(k8s.V1LocalObjectReference(
name=image_pull_secret
))
# Attach sidecar
self.extract_xcom = extract_xcom
def gen_pod(self) -> k8s.V1Pod:
"""Generates pod"""
result = self.ud_pod
if result is None:
result = self.pod
result.spec = self.spec
result.metadata = self.metadata
result.spec.containers = [self.container]
result.metadata.name = self.make_unique_pod_id(result.metadata.name)
if self.extract_xcom:
result = self.add_sidecar(result)
return result
@staticmethod
def add_sidecar(pod: k8s.V1Pod) -> k8s.V1Pod:
"""Adds sidecar"""
pod_cp = copy.deepcopy(pod)
pod_cp.spec.volumes = pod.spec.volumes or []
pod_cp.spec.volumes.insert(0, PodDefaults.VOLUME)
pod_cp.spec.containers[0].volume_mounts = pod_cp.spec.containers[0].volume_mounts or []
pod_cp.spec.containers[0].volume_mounts.insert(0, PodDefaults.VOLUME_MOUNT)
pod_cp.spec.containers.append(PodDefaults.SIDECAR_CONTAINER)
return pod_cp
@staticmethod
def from_obj(obj) -> Optional[k8s.V1Pod]:
"""Converts to pod from obj"""
if obj is None:
return None
if isinstance(obj, PodGenerator):
return obj.gen_pod()
if not isinstance(obj, dict):
raise TypeError(
'Cannot convert a non-dictionary or non-PodGenerator '
'object into a KubernetesExecutorConfig')
# We do not want to extract constant here from ExecutorLoader because it is just
# A name in dictionary rather than executor selection mechanism and it causes cyclic import
namespaced = obj.get("KubernetesExecutor", {})
if not namespaced:
return None
resources = namespaced.get('resources')
if resources is None:
requests = {
'cpu': namespaced.get('request_cpu'),
'memory': namespaced.get('request_memory')
}
limits = {
'cpu': namespaced.get('limit_cpu'),
'memory': namespaced.get('limit_memory')
}
all_resources = list(requests.values()) + list(limits.values())
if all(r is None for r in all_resources):
resources = None
else:
resources = k8s.V1ResourceRequirements(
requests=requests,
limits=limits
)
namespaced['resources'] = resources
return PodGenerator(**namespaced).gen_pod()
@staticmethod
def reconcile_pods(base_pod: k8s.V1Pod, client_pod: Optional[k8s.V1Pod]) -> k8s.V1Pod:
"""
:param base_pod: has the base attributes which are overwritten if they exist
in the client pod and remain if they do not exist in the client_pod
:type base_pod: k8s.V1Pod
:param client_pod: the pod that the client wants to create.
:type client_pod: k8s.V1Pod
:return: the merged pods
This can't be done recursively as certain fields some overwritten, and some concatenated.
"""
if client_pod is None:
return base_pod
client_pod_cp = copy.deepcopy(client_pod)
client_pod_cp.spec = PodGenerator.reconcile_specs(base_pod.spec, client_pod_cp.spec)
client_pod_cp.metadata = merge_objects(base_pod.metadata, client_pod_cp.metadata)
client_pod_cp = merge_objects(base_pod, client_pod_cp)
return client_pod_cp
@staticmethod
def reconcile_specs(base_spec: Optional[k8s.V1PodSpec],
client_spec: Optional[k8s.V1PodSpec]) -> Optional[k8s.V1PodSpec]:
"""
:param base_spec: has the base attributes which are overwritten if they exist
in the client_spec and remain if they do not exist in the client_spec
:type base_spec: k8s.V1PodSpec
:param client_spec: the spec that the client wants to create.
:type client_spec: k8s.V1PodSpec
:return: the merged specs
"""
if base_spec and not client_spec:
return base_spec
if not base_spec and client_spec:
return client_spec
elif client_spec and base_spec:
client_spec.containers = PodGenerator.reconcile_containers(
base_spec.containers, client_spec.containers
)
merged_spec = extend_object_field(base_spec, client_spec, 'volumes')
return merge_objects(base_spec, merged_spec)
return None
@staticmethod
def reconcile_containers(base_containers: List[k8s.V1Container],
client_containers: List[k8s.V1Container]) -> List[k8s.V1Container]:
"""
:param base_containers: has the base attributes which are overwritten if they exist
in the client_containers and remain if they do not exist in the client_containers
:type base_containers: List[k8s.V1Container]
:param client_containers: the containers that the client wants to create.
:type client_containers: List[k8s.V1Container]
:return: the merged containers
The runs recursively over the list of containers.
"""
if not base_containers:
return client_containers
if not client_containers:
return base_containers
client_container = client_containers[0]
base_container = base_containers[0]
client_container = extend_object_field(base_container, client_container, 'volume_mounts')
client_container = extend_object_field(base_container, client_container, 'env')
client_container = extend_object_field(base_container, client_container, 'env_from')
client_container = extend_object_field(base_container, client_container, 'ports')
client_container = extend_object_field(base_container, client_container, 'volume_devices')
client_container = merge_objects(base_container, client_container)
return [client_container] + PodGenerator.reconcile_containers(
base_containers[1:], client_containers[1:]
)
@staticmethod
def construct_pod(
dag_id: str,
task_id: str,
pod_id: str,
try_number: int,
date: str,
command: List[str],
kube_executor_config: Optional[k8s.V1Pod],
worker_config: k8s.V1Pod,
namespace: str,
worker_uuid: str
) -> k8s.V1Pod:
"""
Construct a pod by gathering and consolidating the configuration from 3 places:
- airflow.cfg
- executor_config
- dynamic arguments
"""
dynamic_pod = PodGenerator(
namespace=namespace,
labels={
'airflow-worker': worker_uuid,
'dag_id': dag_id,
'task_id': task_id,
'execution_date': date,
'try_number': str(try_number),
'airflow_version': airflow_version.replace('+', '-'),
'kubernetes_executor': 'True',
},
cmds=command,
name=pod_id
).gen_pod()
# Reconcile the pods starting with the first chronologically,
# Pod from the airflow.cfg -> Pod from executor_config arg -> Pod from the K8s executor
pod_list = [worker_config, kube_executor_config, dynamic_pod]
return reduce(PodGenerator.reconcile_pods, pod_list)
@staticmethod
def deserialize_model_file(path: str) -> k8s.V1Pod:
"""
:param path: Path to the file
:return: a kubernetes.client.models.V1Pod
Unfortunately we need access to the private method
``_ApiClient__deserialize_model`` from the kubernetes client.
This issue is tracked here; https://github.com/kubernetes-client/python/issues/977.
"""
api_client = ApiClient()
if os.path.exists(path):
with open(path) as stream:
pod = yaml.safe_load(stream)
else:
pod = yaml.safe_load(path)
# pylint: disable=protected-access
return api_client._ApiClient__deserialize_model(pod, k8s.V1Pod)
@staticmethod
def make_unique_pod_id(dag_id):
"""
Kubernetes pod names must be <= 253 chars and must pass the following regex for
validation
``^[a-z0-9]([-a-z0-9]*[a-z0-9])?(\\.[a-z0-9]([-a-z0-9]*[a-z0-9])?)*$``
:param dag_id: a dag_id with only alphanumeric characters
:return: ``str`` valid Pod name of appropriate length
"""
if not dag_id:
return None
safe_uuid = uuid.uuid4().hex
safe_pod_id = dag_id[:MAX_POD_ID_LEN - len(safe_uuid) - 1] + "-" + safe_uuid
return safe_pod_id
@staticmethod
def validate_pod_generator_args(given_args):
"""
:param given_args: The arguments passed to the PodGenerator constructor.
:type given_args: dict
:return: None
Validate that if `pod` or `pod_template_file` are set that the user is not attempting
to configure the pod with the other arguments.
"""
pod_args = list(inspect.signature(PodGenerator).parameters.items())
def predicate(k, v):
"""
:param k: an arg to PodGenerator
:type k: string
:param v: the parameter of the given arg
:type v: inspect.Parameter
:return: bool
returns True if the PodGenerator argument has no default arguments
or the default argument is None, and it is not one of the listed field
in `non_empty_fields`.
"""
non_empty_fields = {
'pod', 'pod_template_file', 'extract_xcom', 'service_account_name', 'image_pull_policy',
'restart_policy'
}
return (v.default is None or v.default is v.empty) and k not in non_empty_fields
args_without_defaults = {k: given_args[k] for k, v in pod_args if predicate(k, v) and given_args[k]}
if given_args['pod'] and given_args['pod_template_file']:
raise AirflowConfigException("Cannot pass both `pod` and `pod_template_file` arguments")
if args_without_defaults and (given_args['pod'] or given_args['pod_template_file']):
raise AirflowConfigException(
"Cannot configure pod and pass either `pod` or `pod_template_file`. Fields {} passed.".format(
list(args_without_defaults.keys())
)
)
def merge_objects(base_obj, client_obj):
"""
:param base_obj: has the base attributes which are overwritten if they exist
in the client_obj and remain if they do not exist in the client_obj
:param client_obj: the object that the client wants to create.
:return: the merged objects
"""
if not base_obj:
return client_obj
if not client_obj:
return base_obj
client_obj_cp = copy.deepcopy(client_obj)
for base_key in base_obj.to_dict().keys():
base_val = getattr(base_obj, base_key, None)
if not getattr(client_obj, base_key, None) and base_val:
setattr(client_obj_cp, base_key, base_val)
return client_obj_cp
def extend_object_field(base_obj, client_obj, field_name):
"""
:param base_obj: an object which has a property `field_name` that is a list
:param client_obj: an object which has a property `field_name` that is a list.
A copy of this object is returned with `field_name` modified
:param field_name: the name of the list field
:type field_name: str
:return: the client_obj with the property `field_name` being the two properties appended
"""
client_obj_cp = copy.deepcopy(client_obj)
base_obj_field = getattr(base_obj, field_name, None)
client_obj_field = getattr(client_obj, field_name, None)
if (not isinstance(base_obj_field, list) and base_obj_field is not None) or \
(not isinstance(client_obj_field, list) and client_obj_field is not None):
raise ValueError("The chosen field must be a list.")
if not base_obj_field:
return client_obj_cp
if not client_obj_field:
setattr(client_obj_cp, field_name, base_obj_field)
return client_obj_cp
appended_fields = base_obj_field + client_obj_field
setattr(client_obj_cp, field_name, appended_fields)
return client_obj_cp
| apache-2.0 |
rochoa85/pyMIC | examples/data_map/data_map.py | 1 | 1674 | #!/usr/bin/python
# Copyright (c) 2014, Intel Corporation All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are
# met:
#
# 1. Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
#
# 2. Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
#
# 3. Neither the name of the copyright holder nor the names of its
# contributors may be used to endorse or promote products derived from
# this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
# IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
# TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
# PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
# HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
# TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
# PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
# LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
# NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
# SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
import pyMIC as mic
import numpy as np
device = mic.devices[0]
a = device.zeros((8,8))
| bsd-3-clause |
javierTerry/odoo | addons/email_template/html2text.py | 440 | 14143 | #!/usr/bin/env python
"""html2text: Turn HTML into equivalent Markdown-structured text."""
__version__ = "2.36"
__author__ = "Aaron Swartz (me@aaronsw.com)"
__copyright__ = "(C) 2004-2008 Aaron Swartz. GNU GPL 3."
__contributors__ = ["Martin 'Joey' Schulze", "Ricardo Reyes", "Kevin Jay North"]
# TODO:
# Support decoded entities with unifiable.
if not hasattr(__builtins__, 'True'): True, False = 1, 0
import re, sys, urllib, htmlentitydefs, codecs
import sgmllib
import urlparse
sgmllib.charref = re.compile('&#([xX]?[0-9a-fA-F]+)[^0-9a-fA-F]')
try: from textwrap import wrap
except: pass
# Use Unicode characters instead of their ascii psuedo-replacements
UNICODE_SNOB = 0
# Put the links after each paragraph instead of at the end.
LINKS_EACH_PARAGRAPH = 0
# Wrap long lines at position. 0 for no wrapping. (Requires Python 2.3.)
BODY_WIDTH = 78
# Don't show internal links (href="#local-anchor") -- corresponding link targets
# won't be visible in the plain text file anyway.
SKIP_INTERNAL_LINKS = False
### Entity Nonsense ###
def name2cp(k):
if k == 'apos': return ord("'")
if hasattr(htmlentitydefs, "name2codepoint"): # requires Python 2.3
return htmlentitydefs.name2codepoint[k]
else:
k = htmlentitydefs.entitydefs[k]
if k.startswith("&#") and k.endswith(";"): return int(k[2:-1]) # not in latin-1
return ord(codecs.latin_1_decode(k)[0])
unifiable = {'rsquo':"'", 'lsquo':"'", 'rdquo':'"', 'ldquo':'"',
'copy':'(C)', 'mdash':'--', 'nbsp':' ', 'rarr':'->', 'larr':'<-', 'middot':'*',
'ndash':'-', 'oelig':'oe', 'aelig':'ae',
'agrave':'a', 'aacute':'a', 'acirc':'a', 'atilde':'a', 'auml':'a', 'aring':'a',
'egrave':'e', 'eacute':'e', 'ecirc':'e', 'euml':'e',
'igrave':'i', 'iacute':'i', 'icirc':'i', 'iuml':'i',
'ograve':'o', 'oacute':'o', 'ocirc':'o', 'otilde':'o', 'ouml':'o',
'ugrave':'u', 'uacute':'u', 'ucirc':'u', 'uuml':'u'}
unifiable_n = {}
for k in unifiable.keys():
unifiable_n[name2cp(k)] = unifiable[k]
def charref(name):
if name[0] in ['x','X']:
c = int(name[1:], 16)
else:
c = int(name)
if not UNICODE_SNOB and c in unifiable_n.keys():
return unifiable_n[c]
else:
return unichr(c)
def entityref(c):
if not UNICODE_SNOB and c in unifiable.keys():
return unifiable[c]
else:
try: name2cp(c)
except KeyError: return "&" + c
else: return unichr(name2cp(c))
def replaceEntities(s):
s = s.group(1)
if s[0] == "#":
return charref(s[1:])
else: return entityref(s)
r_unescape = re.compile(r"&(#?[xX]?(?:[0-9a-fA-F]+|\w{1,8}));")
def unescape(s):
return r_unescape.sub(replaceEntities, s)
def fixattrs(attrs):
# Fix bug in sgmllib.py
if not attrs: return attrs
newattrs = []
for attr in attrs:
newattrs.append((attr[0], unescape(attr[1])))
return newattrs
### End Entity Nonsense ###
def onlywhite(line):
"""Return true if the line does only consist of whitespace characters."""
for c in line:
if c is not ' ' and c is not ' ':
return c is ' '
return line
def optwrap(text):
"""Wrap all paragraphs in the provided text."""
if not BODY_WIDTH:
return text
assert wrap, "Requires Python 2.3."
result = ''
newlines = 0
for para in text.split("\n"):
if len(para) > 0:
if para[0] is not ' ' and para[0] is not '-' and para[0] is not '*':
for line in wrap(para, BODY_WIDTH):
result += line + "\n"
result += "\n"
newlines = 2
else:
if not onlywhite(para):
result += para + "\n"
newlines = 1
else:
if newlines < 2:
result += "\n"
newlines += 1
return result
def hn(tag):
if tag[0] == 'h' and len(tag) == 2:
try:
n = int(tag[1])
if n in range(1, 10): return n
except ValueError: return 0
class _html2text(sgmllib.SGMLParser):
def __init__(self, out=sys.stdout.write, baseurl=''):
sgmllib.SGMLParser.__init__(self)
if out is None: self.out = self.outtextf
else: self.out = out
self.outtext = u''
self.quiet = 0
self.p_p = 0
self.outcount = 0
self.start = 1
self.space = 0
self.a = []
self.astack = []
self.acount = 0
self.list = []
self.blockquote = 0
self.pre = 0
self.startpre = 0
self.lastWasNL = 0
self.abbr_title = None # current abbreviation definition
self.abbr_data = None # last inner HTML (for abbr being defined)
self.abbr_list = {} # stack of abbreviations to write later
self.baseurl = baseurl
def outtextf(self, s):
self.outtext += s
def close(self):
sgmllib.SGMLParser.close(self)
self.pbr()
self.o('', 0, 'end')
return self.outtext
def handle_charref(self, c):
self.o(charref(c))
def handle_entityref(self, c):
self.o(entityref(c))
def unknown_starttag(self, tag, attrs):
self.handle_tag(tag, attrs, 1)
def unknown_endtag(self, tag):
self.handle_tag(tag, None, 0)
def previousIndex(self, attrs):
""" returns the index of certain set of attributes (of a link) in the
self.a list
If the set of attributes is not found, returns None
"""
if not attrs.has_key('href'): return None
i = -1
for a in self.a:
i += 1
match = 0
if a.has_key('href') and a['href'] == attrs['href']:
if a.has_key('title') or attrs.has_key('title'):
if (a.has_key('title') and attrs.has_key('title') and
a['title'] == attrs['title']):
match = True
else:
match = True
if match: return i
def handle_tag(self, tag, attrs, start):
attrs = fixattrs(attrs)
if hn(tag):
self.p()
if start: self.o(hn(tag)*"#" + ' ')
if tag in ['p', 'div']: self.p()
if tag == "br" and start: self.o(" \n")
if tag == "hr" and start:
self.p()
self.o("* * *")
self.p()
if tag in ["head", "style", 'script']:
if start: self.quiet += 1
else: self.quiet -= 1
if tag in ["body"]:
self.quiet = 0 # sites like 9rules.com never close <head>
if tag == "blockquote":
if start:
self.p(); self.o('> ', 0, 1); self.start = 1
self.blockquote += 1
else:
self.blockquote -= 1
self.p()
if tag in ['em', 'i', 'u']: self.o("_")
if tag in ['strong', 'b']: self.o("**")
if tag == "code" and not self.pre: self.o('`') #TODO: `` `this` ``
if tag == "abbr":
if start:
attrsD = {}
for (x, y) in attrs: attrsD[x] = y
attrs = attrsD
self.abbr_title = None
self.abbr_data = ''
if attrs.has_key('title'):
self.abbr_title = attrs['title']
else:
if self.abbr_title != None:
self.abbr_list[self.abbr_data] = self.abbr_title
self.abbr_title = None
self.abbr_data = ''
if tag == "a":
if start:
attrsD = {}
for (x, y) in attrs: attrsD[x] = y
attrs = attrsD
if attrs.has_key('href') and not (SKIP_INTERNAL_LINKS and attrs['href'].startswith('#')):
self.astack.append(attrs)
self.o("[")
else:
self.astack.append(None)
else:
if self.astack:
a = self.astack.pop()
if a:
i = self.previousIndex(a)
if i is not None:
a = self.a[i]
else:
self.acount += 1
a['count'] = self.acount
a['outcount'] = self.outcount
self.a.append(a)
self.o("][" + `a['count']` + "]")
if tag == "img" and start:
attrsD = {}
for (x, y) in attrs: attrsD[x] = y
attrs = attrsD
if attrs.has_key('src'):
attrs['href'] = attrs['src']
alt = attrs.get('alt', '')
i = self.previousIndex(attrs)
if i is not None:
attrs = self.a[i]
else:
self.acount += 1
attrs['count'] = self.acount
attrs['outcount'] = self.outcount
self.a.append(attrs)
self.o("![")
self.o(alt)
self.o("]["+`attrs['count']`+"]")
if tag == 'dl' and start: self.p()
if tag == 'dt' and not start: self.pbr()
if tag == 'dd' and start: self.o(' ')
if tag == 'dd' and not start: self.pbr()
if tag in ["ol", "ul"]:
if start:
self.list.append({'name':tag, 'num':0})
else:
if self.list: self.list.pop()
self.p()
if tag == 'li':
if start:
self.pbr()
if self.list: li = self.list[-1]
else: li = {'name':'ul', 'num':0}
self.o(" "*len(self.list)) #TODO: line up <ol><li>s > 9 correctly.
if li['name'] == "ul": self.o("* ")
elif li['name'] == "ol":
li['num'] += 1
self.o(`li['num']`+". ")
self.start = 1
else:
self.pbr()
if tag in ["table", "tr"] and start: self.p()
if tag == 'td': self.pbr()
if tag == "pre":
if start:
self.startpre = 1
self.pre = 1
else:
self.pre = 0
self.p()
def pbr(self):
if self.p_p == 0: self.p_p = 1
def p(self):
self.p_p = 2
def o(self, data, puredata=0, force=0):
if self.abbr_data is not None: self.abbr_data += data
if not self.quiet:
if puredata and not self.pre:
data = re.sub('\s+', ' ', data)
if data and data[0] == ' ':
self.space = 1
data = data[1:]
if not data and not force: return
if self.startpre:
#self.out(" :") #TODO: not output when already one there
self.startpre = 0
bq = (">" * self.blockquote)
if not (force and data and data[0] == ">") and self.blockquote: bq += " "
if self.pre:
bq += " "
data = data.replace("\n", "\n"+bq)
if self.start:
self.space = 0
self.p_p = 0
self.start = 0
if force == 'end':
# It's the end.
self.p_p = 0
self.out("\n")
self.space = 0
if self.p_p:
self.out(('\n'+bq)*self.p_p)
self.space = 0
if self.space:
if not self.lastWasNL: self.out(' ')
self.space = 0
if self.a and ((self.p_p == 2 and LINKS_EACH_PARAGRAPH) or force == "end"):
if force == "end": self.out("\n")
newa = []
for link in self.a:
if self.outcount > link['outcount']:
self.out(" ["+`link['count']`+"]: " + urlparse.urljoin(self.baseurl, link['href']))
if link.has_key('title'): self.out(" ("+link['title']+")")
self.out("\n")
else:
newa.append(link)
if self.a != newa: self.out("\n") # Don't need an extra line when nothing was done.
self.a = newa
if self.abbr_list and force == "end":
for abbr, definition in self.abbr_list.items():
self.out(" *[" + abbr + "]: " + definition + "\n")
self.p_p = 0
self.out(data)
self.lastWasNL = data and data[-1] == '\n'
self.outcount += 1
def handle_data(self, data):
if r'\/script>' in data: self.quiet -= 1
self.o(data, 1)
def unknown_decl(self, data):
pass
def wrapwrite(text): sys.stdout.write(text.encode('utf8'))
def html2text_file(html, out=wrapwrite, baseurl=''):
h = _html2text(out, baseurl)
h.feed(html)
h.feed("")
return h.close()
def html2text(html, baseurl=''):
return optwrap(html2text_file(html, None, baseurl))
if __name__ == "__main__":
baseurl = ''
if sys.argv[1:]:
arg = sys.argv[1]
if arg.startswith('http://'):
baseurl = arg
j = urllib.urlopen(baseurl)
try:
from feedparser import _getCharacterEncoding as enc
except ImportError:
enc = lambda x, y: ('utf-8', 1)
text = j.read()
encoding = enc(j.headers, text)[0]
if encoding == 'us-ascii': encoding = 'utf-8'
data = text.decode(encoding)
else:
encoding = 'utf8'
if len(sys.argv) > 2:
encoding = sys.argv[2]
f = open(arg, 'r')
try:
data = f.read().decode(encoding)
finally:
f.close()
else:
data = sys.stdin.read().decode('utf8')
wrapwrite(html2text(data, baseurl))
# vim:expandtab:smartindent:tabstop=4:softtabstop=4:shiftwidth=4:
| agpl-3.0 |
saguila/AlgoritmoA | pqdict.py | 2 | 16450 | """Copyright (c) 2012 Nezar Abdennur
This module contains code adapted from the Python implementation of the heapq
module, which was written by Kevin O'Connor and augmented by Tim Peters and
Raymond Hettinger.
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.
"""
"""Priority Queue Dictionary -- An indexed priority queue data structure.
Stores a set of prioritized hashable elements. Can be used as an updatable
schedule.
The priority queue is implemented as a binary heap, which supports:
- O(1) access to the top priority element
- O(log n) removal of the top priority element
- O(log n) insertion of a new element
In addition, an internal dictionary or "index" maps elements to their position
in the heap array. This index is kept up-to-date when the heap is manipulated.
As a result, PQD also supports:
- O(1) lookup of an arbitrary element's priority key
- O(log n) removal of an arbitrary element
- O(log n) updating of an arbitrary element's priority key
The standard heap operations used internally (here, called "sink" and "swim")
are based on the code in the python heapq module.* These operations are extended
to preserve correctness of the internal dictionary.
* The names of the methods in heapq (sift up/down) seem to refer to the motion
of the items being compared to, rather than the item being operated on as is
normally done in textbooks (i.e. bubble down/up, instead). I stuck to the
textbook convention, but using the sink/swim nomenclature from Sedgewick et al:
the way I see it, an item that is too "heavy" (low-priority) should sink down
the tree, while one that is too "light" should float or swim up. Note, however,
that the sink implementation is non-conventional. See heapq for details about
why.
"""
__author__ = ('Nezar Abdennur', 'nabdennur@gmail.com')
__all__ = ['PQDict', 'PQDictEntry', 'heapsort_by_value']
from collections import Mapping, MutableMapping
from abc import ABCMeta, abstractmethod
class PQDictEntry(object):
__metaclass__ = ABCMeta
def __init__(self, dkey, pkey):
self.dkey = dkey
self.pkey = pkey
@abstractmethod
def __lt__(self, other):
return NotImplemented
# def set_pkey(self, pkey):
# pass
def __eq__(self, other):
return self.pkey == other.pkey
def __repr__(self):
return self.__class__.__name__ + \
"(%s: %s)" % (repr(self.dkey), self.pkey)
class MinPQDEntry(PQDictEntry):
__init__ = PQDictEntry.__init__
__eq__ = PQDictEntry.__eq__
def __lt__(self, other):
return self.pkey < other.pkey
class MaxPQDEntry(PQDictEntry):
__init__ = PQDictEntry.__init__
__eq__ = PQDictEntry.__eq__
def __lt__(self, other):
return self.pkey > other.pkey
class PQDict(MutableMapping):
"""
Maps dictionary keys (keys) to priority keys (values). Maintains an
internal heap so that the highest priority item can always be obtained in
constant time. The mapping is mutable so items may be added, removed and
have their priorities updated.
"""
# Implementation details:
# - heap (list): stores (dkey,pkey)-pairs as "entries" (PQDEntry objects).
# - nodefinder (dict): maps each dkey to the position of its entry in the
# heap
# - the < comparator is used to rank entries
__slots__ = ('nodefinder', 'heap', 'create_entry')
create_entry = MinPQDEntry
__eq__ = MutableMapping.__eq__
__ne__ = MutableMapping.__ne__
keys = MutableMapping.keys
values = MutableMapping.values
items = MutableMapping.items
get = MutableMapping.get
clear = MutableMapping.clear
update = MutableMapping.update
setdefault = MutableMapping.setdefault
#fromkeys
def __init__(self, *args, **kwargs):
"""
Mimics the standard dict constructor:
Accepts a sequence/iterator of (dkey, pkey) pairs.
Accepts named arguments or an unpacked dictionary.
Also accepts a single mapping object to convert it to a pqdict.
The default priority ranking for entries is in decreasing pkey value
(i.e., a min-pq: LOWER pkey values have a HIGHER rank). This is typical
for a scheduler, where the higher ranked tasks have earlier times.
"""
if len(args) > 1:
raise TypeError
self.heap = []
self.nodefinder = {}
pos = 0
if args:
if isinstance(args[0], Mapping):
seq = args[0].items()
else:
seq = args[0]
try:
for dkey, pkey in seq:
entry = self.create_entry(dkey, pkey)
self.heap.append(entry)
self.nodefinder[dkey] = pos
pos += 1
except TypeError:
raise ValueError
if kwargs:
for dkey, pkey in kwargs.items():
entry = self.create_entry(dkey, pkey)
self.heap.append(entry)
self.nodefinder[dkey] = pos
pos += 1
self._heapify()
@classmethod
def minpq(cls, *args, **kwargs):
pq = cls()
pq.create_entry = MinPQDEntry
pq.__init__(*args, **kwargs)
return pq
@classmethod
def maxpq(cls, *args, **kwargs):
pq = cls()
pq.create_entry = MaxPQDEntry
pq.__init__(*args, **kwargs)
return pq
@classmethod
def custompq(cls, entrytype, *args, **kwargs):
pq = cls()
if issubclass(entrytype, PQDictEntry):
pq.create_entry = entrytype
else:
raise TypeError('Custom entry class must be a subclass of' \
'PQDictEntry')
pq.__init__(*args, **kwargs)
return pq
@classmethod
def fromfunction(cls, iterable, pkeygen): #instead of fromkeys
"""
Provide a key function that determines priorities by which to heapify
the elements of an iterable into a PQD.
"""
return cls( (dkey, pkeygen(dkey)) for dkey in iterable )
def __len__(self):
"""
Return number of items in the PQD.
"""
return len(self.nodefinder)
def __contains__(self, dkey):
"""
Return True if dkey is in the PQD else return False.
"""
return dkey in self.nodefinder
def __iter__(self):
"""
Return an iterator over the dictionary keys of the PQD. The order
of iteration is undefined! Use iterkeys() to iterate over dictionary
keys sorted by priority.
"""
for entry in self.heap:
yield entry.dkey
def __getitem__(self, dkey):
"""
Return the priority of dkey. Raises a KeyError if not in the PQD.
"""
return self.heap[self.nodefinder[dkey]].pkey #raises KeyError
def __setitem__(self, dkey, pkey):
"""
Assign priority to dictionary key.
"""
heap = self.heap
finder = self.nodefinder
try:
pos = finder[dkey]
except KeyError:
# add new entry
n = len(self.heap)
self.heap.append(self.create_entry(dkey, pkey))
self.nodefinder[dkey] = n
self._swim(n)
else:
# update existing entry
heap[pos].pkey = pkey
parent_pos = (pos - 1) >> 1
child_pos = 2*pos + 1
if parent_pos > 0 and heap[pos] < heap[parent_pos]:
self._swim(pos)
elif child_pos < len(heap):
right_pos = child_pos + 1
if (right_pos < len(heap)
and not heap[child_pos] < heap[right_pos]):
child_pos = right_pos
if heap[child_pos] < heap[pos]:
self._sink(pos)
def __delitem__(self, dkey):
"""
Remove item. Raises a KeyError if dkey is not in the PQD.
"""
heap = self.heap
finder = self.nodefinder
# Remove very last item and place in vacant spot. Let the new item
# sink until it reaches its new resting place.
try:
pos = finder.pop(dkey)
except KeyError:
raise
else:
entry = heap[pos]
last = heap.pop(-1)
if entry is not last:
heap[pos] = last
finder[last.dkey] = pos
parent_pos = (pos - 1) >> 1
child_pos = 2*pos + 1
if parent_pos > 0 and heap[pos] < heap[parent_pos]:
self._swim(pos)
elif child_pos < len(heap):
right_pos = child_pos + 1
if (right_pos < len(heap)
and not heap[child_pos] < heap[right_pos]):
child_pos = right_pos
if heap[child_pos] < heap[pos]:
self._sink(pos)
del entry
def __copy__(self):
"""
Return a new PQD with the same dkeys associated with the same priority
keys.
"""
# We want the two PQDs to behave as different schedules on the same
# set of dkeys. As a result:
# - The new heap list contains copies of all entries because PQDEntry
# objects are mutable and should not be shared by two PQDicts.
# - The new nodefinder dict (dkey->heap positions) must be a copy of
# the old nodefinder dict since it maps the same dkeys to positions
# in a different list.
from copy import copy
other = self.__class__()
other.heap = [copy(entry) for entry in self.heap]
other.nodefinder = copy(self.nodefinder)
return other
copy = __copy__
def __repr__(self):
things = ', '.join(['%s: %s' % (repr(entry.dkey), entry.pkey)
for entry in self.heap])
return self.__class__.__name__ + '({' + things + '})'
__marker = object()
def pop(self, dkey, default=__marker):
"""
If dkey is in the PQD, remove it and return its priority key, else
return default. If default is not given and dkey is not in the PQD, a
KeyError is raised.
"""
heap = self.heap
finder = self.nodefinder
try:
pos = finder.pop(dkey)
except KeyError:
if default is self.__marker:
raise
return default
else:
delentry = heap[pos]
last = heap.pop(-1)
if delentry is not last:
heap[pos] = last
finder[last.dkey] = pos
parent_pos = (pos - 1) >> 1
child_pos = 2*pos + 1
if parent_pos > 0 and heap[pos] < heap[parent_pos]:
self._swim(pos)
elif child_pos < len(heap):
right_pos = child_pos + 1
if (right_pos < len(heap)
and not heap[child_pos] < heap[right_pos]):
child_pos = right_pos
if heap[child_pos] < heap[pos]:
self._sink(pos)
pkey = delentry.pkey
del delentry
return pkey
def popitem(self):
"""
Extract top priority item. Raises KeyError if PQD is empty.
"""
try:
last = self.heap.pop(-1)
except IndexError:
raise KeyError
else:
if self.heap:
entry = self.heap[0]
self.heap[0] = last
self.nodefinder[last.dkey] = 0
self._sink(0)
else:
entry = last
self.nodefinder.pop(entry.dkey)
return entry.dkey, entry.pkey
def additem(self, dkey, pkey):
"""
Add a new item. Raises KeyError if item is already in the PQD.
"""
if dkey in self.nodefinder:
raise KeyError
self[dkey] = pkey
def updateitem(self, dkey, new_pkey):
"""
Update the priority key of an existing item. Raises KeyError if item is
not in the PQD.
"""
if dkey not in self.nodefinder:
raise KeyError
self[dkey] = new_pkey
def peek(self):
"""
Get top priority item.
"""
try:
entry = self.heap[0]
except IndexError:
raise KeyError
return entry.dkey, entry.pkey
def iterkeys(self):
"""
Destructive heapsort iterator over dictionary keys, ordered by priority
key.
"""
try:
while True:
yield self.popitem()[0]
except KeyError:
return
def itervalues(self):
"""
Destructive heapsort iterator over priority keys.
"""
try:
while True:
yield self.popitem()[1]
except KeyError:
return
def iteritems(self):
"""
Destructive heapsort iterator over items, ordered by priority key.
"""
try:
while True:
yield self.popitem()
except KeyError:
return
def _heapify(self):
n = len(self.heap)
for pos in reversed(range(n//2)):
self._sink(pos)
def _sink(self, top=0):
heap = self.heap
finder = self.nodefinder
# Peel off top item
pos = top
entry = heap[pos]
# Sift up a trail of child nodes
child_pos = 2*pos + 1
while child_pos < len(heap):
# Choose the index of smaller child.
right_pos = child_pos + 1
if right_pos < len(heap) and not heap[child_pos] < heap[right_pos]:
child_pos = right_pos
# Move the smaller child up.
child_entry = heap[child_pos]
heap[pos] = child_entry
finder[child_entry.dkey] = pos
pos = child_pos
child_pos = 2*pos + 1
# We are now at a leaf. Put item there and let it swim until it reaches
# its new resting place.
heap[pos] = entry
finder[entry.dkey] = pos
self._swim(pos, top)
def _swim(self, pos, top=0):
heap = self.heap
finder = self.nodefinder
# Remove item from its place
entry = heap[pos]
# Bubble item up by sifting parents down until finding a place it fits.
while pos > top:
parent_pos = (pos - 1) >> 1
parent_entry = heap[parent_pos]
if entry < parent_entry:
heap[pos] = parent_entry
finder[parent_entry.dkey] = pos
pos = parent_pos
continue
break
# Put item in its new place
heap[pos] = entry
finder[entry.dkey] = pos
def heapsorted_by_value(mapping, maxheap=False):
"""
Takes an arbitrary mapping and, treating the values as priority keys, sorts
its items by priority via heapsort using a PQDict.
Returns:
a list of the dictionary items sorted by value
"""
if maxheap:
pq = PQDict.maxpq(mapping)
else:
pq = PQDict(mapping)
return [item for item in pq.iteritems()] | mit |
ashwinikd/xhprof-dataextract | lib/sql.py | 1 | 1165 | DROP_TBL_PERFDATA = "DROP TABLE perfdata"
CREATE_TBL_PERFDATA = """CREATE TABLE `perfdata` (
`pk` int(11) NOT NULL AUTO_INCREMENT,
`id` varchar(16) NOT NULL,
`fn` varchar(256) NOT NULL,
`wt` int(11) NOT NULL,
`ct` int(11) NOT NULL,
`pmu` int(11) NOT NULL,
`mu` int(11) NOT NULL,
`cpu` int(11) NOT NULL,
`rec_on` datetime NOT NULL,
PRIMARY KEY (`pk`)
)"""
CREATE_TBL_PARENT_CHILD = """CREATE TABLE IF NOT EXISTS `parent_child` (
`id` int(11) NOT NULL AUTO_INCREMENT,
`run` varchar(32) NOT NULL,
`parent` varchar(128) DEFAULT NULL,
`child` varchar(128) NOT NULL,
`wt` int(11) NOT NULL,
`pmu` int(11) NOT NULL,
`mu` int(11) NOT NULL,
`cpu` int(11) NOT NULL,
`ct` int(11) NOT NULL,
`rec_on` datetime NOT NULL,
PRIMARY KEY (`id`)
)""";
SELECT_DETAILS = "select id, get, post, cookie, perfdata, `timestamp` from details"
INSERT_INTO_PC = """insert into parent_child (run, parent, child, ct, wt, cpu, mu, pmu, rec_on) values
(
%(run_id)s,
%(parent)s,
%(child)s,
%(callnum)s,
%(walltime)s,
%(proc)s,
%(mem)s,
%(peakmem)s,
%(rec_on)s
)""";
| bsd-3-clause |
laurent-george/weboob | modules/barclays/pages.py | 6 | 10301 | # -*- coding: utf-8 -*-
# Copyright(C) 2012 Romain Bignon
#
# This file is part of weboob.
#
# weboob 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.
#
# weboob 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 weboob. If not, see <http://www.gnu.org/licenses/>.
import datetime
from decimal import Decimal
import re
from weboob.deprecated.browser import Page
from weboob.capabilities.bank import Account
from weboob.tools.capabilities.bank.transactions import FrenchTransaction
class LoginPage(Page):
def login(self, login, passwd):
self.browser.select_form(name='frmLogin')
self.browser['username'] = login.encode(self.browser.ENCODING)
self.browser['password'] = passwd.encode(self.browser.ENCODING)
self.browser.submit(nologin=True)
def has_redirect(self):
if len(self.document.getroot().xpath('//form')) > 0:
return False
else:
return True
class Login2Page(Page):
def login(self, secret):
label = self.document.xpath('//span[@class="PF_LABEL"]')[0].text.strip()
letters = ''
for n in re.findall('(\d+)', label):
letters += secret[int(n) - 1]
self.browser.select_form(name='frmControl')
self.browser['word'] = letters
self.browser.submit(name='valider', nologin=True)
class IndexPage(Page):
pass
class AccountsPage(Page):
ACCOUNT_TYPES = {u'Epargne': Account.TYPE_SAVINGS,
u'Liquidités': Account.TYPE_CHECKING,
u'Titres': Account.TYPE_MARKET,
u'Prêts': Account.TYPE_LOAN,
}
def get_list(self):
accounts = []
for block in self.document.xpath('//div[@class="pave"]/div'):
head_type = block.xpath('./div/span[@class="accGroupLabel"]')[0].text.strip()
account_type = self.ACCOUNT_TYPES.get(head_type, Account.TYPE_UNKNOWN)
for tr in block.cssselect('ul li.tbord_account'):
id = tr.attrib.get('id', '')
if id.find('contratId') != 0:
self.logger.warning('Unable to parse contract ID: %r' % id)
continue
id = id[id.find('contratId')+len('contratId'):]
link = tr.cssselect('span.accountLabel a')[0]
balance = Decimal(FrenchTransaction.clean_amount(tr.cssselect('span.accountTotal')[0].text))
if id.endswith('CRT'):
account = accounts[-1]
account._card_links.append(link.attrib['href'])
if not account.coming:
account.coming = Decimal('0.0')
account.coming += balance
continue
account = Account()
account.id = id
account.label = unicode(link.text.strip())
account.type = account_type
account.balance = balance
account.currency = account.get_currency(tr.cssselect('span.accountDev')[0].text)
account._link = link.attrib['href']
account._card_links = []
accounts.append(account)
if len(accounts) == 0:
# Sometimes, accounts are only in javascript...
for script in self.document.xpath('//script'):
text = script.text
if text is None:
continue
if 'remotePerso' not in text:
continue
account = None
attribs = {}
account_type = Account.TYPE_UNKNOWN
for line in text.split('\n'):
line = line.strip()
m = re.match("data.libelle = '(.*)';", line)
if m:
account_type = self.ACCOUNT_TYPES.get(m.group(1), Account.TYPE_UNKNOWN)
elif line == 'var remotePerso = new Object;':
account = Account()
elif account is not None:
m = re.match("remotePerso.(\w+) = '?(.*?)'?;", line)
if m:
attribs[m.group(1)] = m.group(2)
elif line.startswith('listProduitsGroup'):
account.id = attribs['refContrat']
account.label = attribs['libelle']
account.type = account_type
account.balance = Decimal(FrenchTransaction.clean_amount(attribs['soldeDateOpeValeurFormatted']))
account.currency = account.get_currency(attribs['codeDevise'])
account._link = 'tbord.do?id=%s' % attribs['id']
account._card_links = []
if account.id.endswith('CRT'):
a = accounts[-1]
a._card_links.append(account._link)
if not a.coming:
a.coming = Decimal('0.0')
a.coming += account.balance
else:
accounts.append(account)
account = None
return accounts
class Transaction(FrenchTransaction):
PATTERNS = [(re.compile('^RET DAB (?P<text>.*?) RETRAIT DU (?P<dd>\d{2})(?P<mm>\d{2})(?P<yy>\d{2}).*'),
FrenchTransaction.TYPE_WITHDRAWAL),
(re.compile('^RET DAB (?P<text>.*?) CARTE ?:.*'),
FrenchTransaction.TYPE_WITHDRAWAL),
(re.compile('^RET DAB (?P<dd>\d{2})/(?P<mm>\d{2})/(?P<yy>\d{2}) (?P<text>.*?) CARTE .*'),
FrenchTransaction.TYPE_WITHDRAWAL),
(re.compile('^(?P<text>.*) RETRAIT DU (?P<dd>\d{2})(?P<mm>\d{2})(?P<yy>\d{2}) .*'),
FrenchTransaction.TYPE_WITHDRAWAL),
(re.compile('(\w+) (?P<dd>\d{2})(?P<mm>\d{2})(?P<yy>\d{2}) CB[:\*][^ ]+ (?P<text>.*)'),
FrenchTransaction.TYPE_CARD),
(re.compile('^(?P<category>VIR(EMEN)?T? (SEPA)?(RECU|FAVEUR)?)( /FRM)?(?P<text>.*)'),
FrenchTransaction.TYPE_TRANSFER),
(re.compile('^PRLV (?P<text>.*) (REF \w+)?$'),FrenchTransaction.TYPE_ORDER),
(re.compile('^CHEQUE.*? (REF \w+)?$'), FrenchTransaction.TYPE_CHECK),
(re.compile('^(AGIOS /|FRAIS) (?P<text>.*)'), FrenchTransaction.TYPE_BANK),
(re.compile('^(CONVENTION \d+ )?COTIS(ATION)? (?P<text>.*)'),
FrenchTransaction.TYPE_BANK),
(re.compile('^REMISE (?P<text>.*)'), FrenchTransaction.TYPE_DEPOSIT),
(re.compile('^(?P<text>.*)( \d+)? QUITTANCE .*'),
FrenchTransaction.TYPE_ORDER),
(re.compile('^.* LE (?P<dd>\d{2})/(?P<mm>\d{2})/(?P<yy>\d{2})$'),
FrenchTransaction.TYPE_UNKNOWN),
]
class HistoryBasePage(Page):
def get_history(self):
self.logger.warning('Do not support account of type %s' % type(self).__name__)
return iter([])
class TransactionsPage(HistoryBasePage):
def get_history(self):
for tr in self.document.xpath('//table[@id="operation"]/tbody/tr'):
tds = tr.findall('td')
if len(tds) < 5:
continue
t = Transaction(tds[-1].findall('img')[-1].attrib.get('id', ''))
date = u''.join([txt.strip() for txt in tds[0].itertext()])
raw = u' '.join([txt.strip() for txt in tds[1].itertext()])
debit = u''.join([txt.strip() for txt in tds[-3].itertext()])
credit = u''.join([txt.strip() for txt in tds[-2].itertext()])
t.parse(date, re.sub(r'[ ]+', ' ', raw))
t.set_amount(credit, debit)
t._coming = False
if t.raw.startswith('ACHAT CARTE -DEBIT DIFFERE'):
continue
yield t
class CardPage(HistoryBasePage):
def get_history(self):
debit_date = None
coming = True
for tr in self.document.xpath('//table[@class="report"]/tbody/tr'):
tds = tr.findall('td')
if len(tds) == 2:
# headers
m = re.match('.* (\d+)/(\d+)/(\d+)', tds[0].text.strip())
debit_date = datetime.date(int(m.group(3)), int(m.group(2)), int(m.group(1)))
if debit_date < datetime.date.today():
coming = False
if len(tds) != 3:
continue
t = Transaction(0)
date = u''.join([txt.strip() for txt in tds[0].itertext()])
raw = u' '.join([txt.strip() for txt in tds[1].itertext()])
amount = u''.join([txt.strip() for txt in tds[-1].itertext()])
t.parse(date, re.sub(r'[ ]+', ' ', raw))
if debit_date is not None:
t.date = debit_date
t.label = unicode(tds[1].find('span').text.strip())
t.type = t.TYPE_CARD
t._coming = coming
t.set_amount(amount)
yield t
class ValuationPage(HistoryBasePage):
pass
class LoanPage(HistoryBasePage):
pass
class MarketPage(HistoryBasePage):
pass
class AssurancePage(HistoryBasePage):
pass
| agpl-3.0 |
nash-x/hws | neutron/service.py | 3 | 10505 | # Copyright 2011 VMware, 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.
import inspect
import logging as std_logging
import os
import random
from oslo.config import cfg
from oslo.messaging import server as rpc_server
from neutron.common import config
from neutron.common import rpc as n_rpc
from neutron import context
from neutron.db import api as session
from neutron import manager
from neutron.openstack.common import excutils
from neutron.openstack.common import importutils
from neutron.openstack.common import log as logging
from neutron.openstack.common import loopingcall
from neutron.openstack.common import service as common_service
from neutron import wsgi
service_opts = [
cfg.IntOpt('periodic_interval',
default=40,
help=_('Seconds between running periodic tasks')),
cfg.IntOpt('api_workers',
default=0,
help=_('Number of separate API worker processes for service')),
cfg.IntOpt('rpc_workers',
default=0,
help=_('Number of RPC worker processes for service')),
cfg.IntOpt('periodic_fuzzy_delay',
default=5,
help=_('Range of seconds to randomly delay when starting the '
'periodic task scheduler to reduce stampeding. '
'(Disable by setting to 0)')),
]
CONF = cfg.CONF
CONF.register_opts(service_opts)
LOG = logging.getLogger(__name__)
class WsgiService(object):
"""Base class for WSGI based services.
For each api you define, you must also define these flags:
:<api>_listen: The address on which to listen
:<api>_listen_port: The port on which to listen
"""
def __init__(self, app_name):
self.app_name = app_name
self.wsgi_app = None
def start(self):
self.wsgi_app = _run_wsgi(self.app_name)
def wait(self):
self.wsgi_app.wait()
class NeutronApiService(WsgiService):
"""Class for neutron-api service."""
@classmethod
def create(cls, app_name='neutron'):
# Setup logging early, supplying both the CLI options and the
# configuration mapping from the config file
# We only update the conf dict for the verbose and debug
# flags. Everything else must be set up in the conf file...
# Log the options used when starting if we're in debug mode...
config.setup_logging()
# Dump the initial option values
cfg.CONF.log_opt_values(LOG, std_logging.DEBUG)
service = cls(app_name)
return service
def serve_wsgi(cls):
try:
service = cls.create()
service.start()
except Exception:
with excutils.save_and_reraise_exception():
LOG.exception(_('Unrecoverable error: please check log '
'for details.'))
return service
class RpcWorker(object):
"""Wraps a worker to be handled by ProcessLauncher"""
def __init__(self, plugin):
self._plugin = plugin
self._servers = []
def start(self):
# We may have just forked from parent process. A quick disposal of the
# existing sql connections avoids producing errors later when they are
# discovered to be broken.
session.get_engine().pool.dispose()
self._servers = self._plugin.start_rpc_listeners()
def wait(self):
for server in self._servers:
if isinstance(server, rpc_server.MessageHandlingServer):
server.wait()
def stop(self):
for server in self._servers:
if isinstance(server, rpc_server.MessageHandlingServer):
server.kill()
self._servers = []
def serve_rpc():
plugin = manager.NeutronManager.get_plugin()
# If 0 < rpc_workers then start_rpc_listeners would be called in a
# subprocess and we cannot simply catch the NotImplementedError. It is
# simpler to check this up front by testing whether the plugin supports
# multiple RPC workers.
if not plugin.rpc_workers_supported():
LOG.debug(_("Active plugin doesn't implement start_rpc_listeners"))
if 0 < cfg.CONF.rpc_workers:
msg = _("'rpc_workers = %d' ignored because start_rpc_listeners "
"is not implemented.")
LOG.error(msg, cfg.CONF.rpc_workers)
raise NotImplementedError()
try:
rpc = RpcWorker(plugin)
if cfg.CONF.rpc_workers < 1:
rpc.start()
return rpc
else:
launcher = common_service.ProcessLauncher(wait_interval=1.0)
launcher.launch_service(rpc, workers=cfg.CONF.rpc_workers)
return launcher
except Exception:
with excutils.save_and_reraise_exception():
LOG.exception(_('Unrecoverable error: please check log '
'for details.'))
def _run_wsgi(app_name):
app = config.load_paste_app(app_name)
if not app:
LOG.error(_('No known API applications configured.'))
return
server = wsgi.Server("Neutron")
server.start(app, cfg.CONF.bind_port, cfg.CONF.bind_host,
workers=cfg.CONF.api_workers)
# Dump all option values here after all options are parsed
cfg.CONF.log_opt_values(LOG, std_logging.DEBUG)
LOG.info(_("Neutron service started, listening on %(host)s:%(port)s"),
{'host': cfg.CONF.bind_host,
'port': cfg.CONF.bind_port})
return server
class Service(n_rpc.Service):
"""Service object for binaries running on hosts.
A service takes a manager and enables rpc by listening to queues based
on topic. It also periodically runs tasks on the manager.
"""
def __init__(self, host, binary, topic, manager, report_interval=None,
periodic_interval=None, periodic_fuzzy_delay=None,
*args, **kwargs):
self.binary = binary
self.manager_class_name = manager
manager_class = importutils.import_class(self.manager_class_name)
self.manager = manager_class(host=host, *args, **kwargs)
self.report_interval = report_interval
self.periodic_interval = periodic_interval
self.periodic_fuzzy_delay = periodic_fuzzy_delay
self.saved_args, self.saved_kwargs = args, kwargs
self.timers = []
super(Service, self).__init__(host, topic, manager=self.manager)
def start(self):
self.manager.init_host()
super(Service, self).start()
if self.report_interval:
pulse = loopingcall.FixedIntervalLoopingCall(self.report_state)
pulse.start(interval=self.report_interval,
initial_delay=self.report_interval)
self.timers.append(pulse)
if self.periodic_interval:
if self.periodic_fuzzy_delay:
initial_delay = random.randint(0, self.periodic_fuzzy_delay)
else:
initial_delay = None
periodic = loopingcall.FixedIntervalLoopingCall(
self.periodic_tasks)
periodic.start(interval=self.periodic_interval,
initial_delay=initial_delay)
self.timers.append(periodic)
self.manager.after_start()
def __getattr__(self, key):
manager = self.__dict__.get('manager', None)
return getattr(manager, key)
@classmethod
def create(cls, host=None, binary=None, topic=None, manager=None,
report_interval=None, periodic_interval=None,
periodic_fuzzy_delay=None):
"""Instantiates class and passes back application object.
:param host: defaults to CONF.host
:param binary: defaults to basename of executable
:param topic: defaults to bin_name - 'nova-' part
:param manager: defaults to CONF.<topic>_manager
:param report_interval: defaults to CONF.report_interval
:param periodic_interval: defaults to CONF.periodic_interval
:param periodic_fuzzy_delay: defaults to CONF.periodic_fuzzy_delay
"""
if not host:
host = CONF.host
if not binary:
binary = os.path.basename(inspect.stack()[-1][1])
if not topic:
topic = binary.rpartition('neutron-')[2]
topic = topic.replace("-", "_")
if not manager:
manager = CONF.get('%s_manager' % topic, None)
if report_interval is None:
report_interval = CONF.report_interval
if periodic_interval is None:
periodic_interval = CONF.periodic_interval
if periodic_fuzzy_delay is None:
periodic_fuzzy_delay = CONF.periodic_fuzzy_delay
service_obj = cls(host, binary, topic, manager,
report_interval=report_interval,
periodic_interval=periodic_interval,
periodic_fuzzy_delay=periodic_fuzzy_delay)
return service_obj
def kill(self):
"""Destroy the service object."""
self.stop()
def stop(self):
super(Service, self).stop()
for x in self.timers:
try:
x.stop()
except Exception:
LOG.exception(_("Exception occurs when timer stops"))
pass
self.timers = []
def wait(self):
super(Service, self).wait()
for x in self.timers:
try:
x.wait()
except Exception:
LOG.exception(_("Exception occurs when waiting for timer"))
pass
def periodic_tasks(self, raise_on_error=False):
"""Tasks to be run at a periodic interval."""
ctxt = context.get_admin_context()
self.manager.periodic_tasks(ctxt, raise_on_error=raise_on_error)
def report_state(self):
"""Update the state of this service."""
# Todo(gongysh) report state to neutron server
pass
| apache-2.0 |
mclaughlin6464/pasta | pasta/ising.py | 1 | 5474 | '''
This is a dummy file for me to get started making an Ising model. I'll get this 2-D Ising running, then generalize.
'''
import argparse
from itertools import izip
import numpy as np
from matplotlib import pyplot as plt
import seaborn as sns
sns.set()
def run_ising(N, d, K, J,h, n_steps, plot = False):
'''
:param N:
:param d:
:param K:
:param J:
:param h:
:param n_steps:
:param plot:
:return:
'''
if plot:
try:
assert d <= 2
except AssertionError:
raise AssertionError("Can only plot in one or two dimensions.")
#TODO wrap these better
assert N >0 and N < 1000
assert d > 0
assert n_steps > 0
np.random.seed(0)
size = tuple(N for i in xrange(d))
lattice = np.ones(size)
#make a random initial state
lattice-= np.random.randint(0,2, size =size)*2
# do different initialization
E_0 = energy(lattice, potential, K, h)
if plot:
plt.ion()
for step in xrange(n_steps):
if step%1000 == 0:
print step
site = tuple(np.random.randint(0, N, size=d))
# consider flipping this site
lattice[site] *= -1
E_f = energy(lattice, potential, K, h)
# if E_F < E_0, keep
# if E_F > E_0, keep randomly given change of energies
if E_f >= E_0:
keep = np.random.uniform() < np.exp(K / J * (E_0 - E_f))
else:
keep = True
if keep:
E_0 = E_f
else:
lattice[site] *= -1
# fig = plt.figure()
if plot and step % 100 == 0:
if d == 1:
plt.imshow(lattice.reshape((1, -1)),interpolation='none')
else:
plt.imshow(lattice, interpolation='none')
plt.title(correlation(lattice, N/2))
plt.pause(0.01)
plt.clf()
return np.array([correlation(lattice, r) for r in xrange(1, N/2+1)])
def get_NN(site, N, d, r= 1):
'''
The NN of the site. Will only return those UP in index (east, south, and down) to avoid double counting.
Accounts for PBC
:param site:
(d,) array of coordinates in the lattice
:param N:
Size of one side of the lattice
:param d:
dimension of the lattice
:return:
dxd numpy array where each row corresponds to the nearest neighbors.
'''
mult_sites = np.r_[ [site for i in xrange(d)]]
adjustment = np.eye(d)*r
return ((mult_sites+adjustment)%N).astype(int)
def potential(s1, s2, K, h):
'''
Basic Ising potential
:param s1:
First spin (-1 or 1)
:param s2:
Second spin
:param K:
Coupling constant
:return:
Energy of this particular bond
'''
return -1*K*s1*s2 - h/2*(s1+s2)#should this be abstracted to call the NN function?
def energy(lattice, potential, K, h = 0):
'''
Calculate the energy of a lattice
:param lattice:
Lattice to calculate the energy on
:param potential:
Function defining the potential of a given site.
:return:
Energy of the lattice
'''
N = lattice.shape[0]
d = len(lattice.shape)
dim_slices = np.meshgrid(*(xrange(N) for i in xrange(d)), indexing = 'ij')
all_sites = izip(*[slice.flatten() for slice in dim_slices])
E = 0
for site in all_sites:
nn = get_NN(site, N, d)
for neighbor in nn:
E+=potential(lattice[site], lattice[tuple(neighbor)],K = K, h = h)
return E
def magnetization(lattice):
return lattice.mean()
def correlation(lattice, r):
'''
The average spin correlation at distance r.
:param lattice:
The lattice to calculate the statistic on.
:param r:
Distance to measure correlation
:return:
'''
N = lattice.shape[0]
d = len(lattice.shape)
dim_slices = np.meshgrid(*(xrange(N) for i in xrange(d)), indexing='ij')
all_sites = izip(*[slice.flatten() for slice in dim_slices])
xi = 0
for site in all_sites:
nn = get_NN(site, N, d, r)
for neighbor in nn:
xi += lattice[site]*lattice[tuple(neighbor)]
return xi/((N**d)*d)
if __name__ == '__main__':
parser = argparse.ArgumentParser(description='Simulate an ising model')
parser.add_argument('N', type = int, help = 'Length of one side of the cube.')
parser.add_argument('d', type = int, help = 'Number of dimensions of the cube.')
#parser.add_argument('K', type = float, help ='Bond coupling strength.')
parser.add_argument('J', type = float, default = 1.0, nargs = '?',\
help = 'Energy of bond strength. Optional, default is 1.')
parser.add_argument('h', type = float, default=0.0, nargs = '?',\
help = 'Magnetic field strength. Optional, default is 0.')
parser.add_argument('n_steps', type = int, default = 1000, nargs = '?',\
help = 'Number of steps to simulate. Default is 1e5')
parser.add_argument('--plot', action = 'store_true',\
help = 'Whether or not to plot results. Only allowed with d = 1 or 2.')
args = parser.parse_args()
spins = []
Ks = [ 0.5,0.6,0.65, 0.7,0.8, 0.9]
for K in Ks:
print K
spins.append(run_ising(K = K, **vars(args)))
for K, spin in izip(Ks, spins):
plt.plot(spin, label = K )
plt.legend(loc = 'best')
plt.ylim([-0.1, 1.1])
plt.show() | mit |
benoitsteiner/tensorflow-opencl | tensorflow/python/client/session_test.py | 11 | 71617 | # Copyright 2015 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 tensorflow.python.client.session.Session."""
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
import collections
import os
import sys
import threading
import time
import numpy as np
import six
from six.moves import xrange # pylint: disable=redefined-builtin
from tensorflow.core.lib.core import error_codes_pb2
from tensorflow.core.protobuf import config_pb2
from tensorflow.core.protobuf import rewriter_config_pb2
from tensorflow.python.client import session
from tensorflow.python.framework import common_shapes
from tensorflow.python.framework import constant_op
from tensorflow.python.framework import dtypes
from tensorflow.python.framework import errors
from tensorflow.python.framework import function
from tensorflow.python.framework import ops
from tensorflow.python.framework import sparse_tensor
from tensorflow.python.framework import tensor_util
from tensorflow.python.framework import test_util
from tensorflow.python.framework import versions
from tensorflow.python.ops import array_ops
from tensorflow.python.ops import control_flow_ops
from tensorflow.python.ops import data_flow_ops
from tensorflow.python.ops import math_ops
from tensorflow.python.ops import random_ops
# Import resource_variable_ops for the variables-to-tensor implicit conversion.
from tensorflow.python.ops import resource_variable_ops # pylint: disable=unused-import
from tensorflow.python.ops import state_ops
from tensorflow.python.ops import variables
from tensorflow.python.platform import googletest
from tensorflow.python.training import server_lib
from tensorflow.python.util import compat
ops._USE_C_API = True
# NOTE(mrry): Dummy shape registration for ops used in the tests, since they
# don't have C++ op registrations on which to attach C++ shape fns.
ops.RegisterShape('ConstructionFails')(common_shapes.unknown_shape)
class SessionTest(test_util.TensorFlowTestCase):
def testUseExistingGraph(self):
with ops.Graph().as_default() as g, ops.device('/cpu:0'):
a = constant_op.constant(6.0, shape=[1, 1])
b = constant_op.constant(7.0, shape=[1, 1])
c = math_ops.matmul(a, b, name='matmul')
with session.Session(graph=g):
result = c.eval()
self.assertAllEqual(result, [[42.0]])
def testUseDefaultGraph(self):
with ops.Graph().as_default(), ops.device('/cpu:0'):
a = constant_op.constant(6.0, shape=[1, 1])
b = constant_op.constant(7.0, shape=[1, 1])
c = math_ops.matmul(a, b, name='matmul')
with session.Session():
result = c.eval()
self.assertAllEqual(result, [[42.0]])
def testCreate(self):
with session.Session():
inp = constant_op.constant(10.0, shape=[2, 3], name='W1')
copy = array_ops.identity(inp)
# Test with feed.
# TODO(mrry): Investigate why order='F' didn't work.
arr = np.asarray([[0, 1, 2], [3, 4, 5]], dtype=np.float32, order='C')
copy_val = copy.eval({'W1:0': arr})
self.assertAllEqual(arr, copy_val)
# Test without feed.
copy_val = copy.eval()
self.assertAllEqual(np.asarray([[10.0, 10.0, 10.0], [10.0, 10.0, 10.0]],
dtype=np.float32), copy_val)
def testManyCPUs(self):
# TODO(keveman): Implement ListDevices and test for the number of
# devices returned by ListDevices.
with session.Session(
config=config_pb2.ConfigProto(device_count={'CPU': 2})):
inp = constant_op.constant(10.0, name='W1')
self.assertAllEqual(inp.eval(), 10.0)
def testPerSessionThreads(self):
# TODO(keveman): Implement ListDevices and test for the number of
# devices returned by ListDevices.
with session.Session(
config=config_pb2.ConfigProto(use_per_session_threads=True)):
inp = constant_op.constant(10.0, name='W1')
self.assertAllEqual(inp.eval(), 10.0)
def testSessionInterOpThreadPool(self):
config = config_pb2.ConfigProto()
pool = config.session_inter_op_thread_pool.add()
with session.Session(config=config) as s:
inp = constant_op.constant(10.0, name='W1')
results = s.run([inp])
self.assertAllEqual([10.0], results)
pool = config.session_inter_op_thread_pool.add()
pool.num_threads = 1
with session.Session(config=config) as s:
inp = constant_op.constant(20.0, name='W2')
results = s.run([inp])
self.assertAllEqual([20.0], results)
pool = config.session_inter_op_thread_pool.add()
pool.num_threads = 1
pool.global_name = 't1'
run_options = config_pb2.RunOptions()
run_options.inter_op_thread_pool = (
len(config.session_inter_op_thread_pool) - 1)
with session.Session(config=config) as s:
inp = constant_op.constant(30.0, name='W2')
results = s.run([inp], options=run_options)
self.assertAllEqual([30.0], results)
def testErrorsReported(self):
with session.Session() as s:
constant_op.constant(10.0, name='W1')
with self.assertRaises(ValueError):
s.run('foo:0')
def testErrorPayload(self):
with session.Session():
a = array_ops.placeholder(dtypes.float32)
with self.assertRaisesOpError(lambda e: e.op == a.op):
a.eval()
def testErrorCodeWithNoNodeDef(self):
with session.Session() as s:
a = array_ops.placeholder(dtypes.float32, shape=[])
b = array_ops.placeholder(dtypes.float32, shape=[])
r1 = math_ops.add(a, b)
def exc_predicate(e):
return (e.op is None and e.node_def is None and
e.error_code == error_codes_pb2.INVALID_ARGUMENT)
with self.assertRaisesOpError(exc_predicate):
# Run with a bogus handle.
s.partial_run('foo', r1, feed_dict={a: 1, b: 2})
@test_util.disable_c_api # No shape registration for 'ConstructionFails'
def testOpConstructionErrorPayload(self):
with session.Session():
failing_op = ops.get_default_graph().create_op(
'ConstructionFails', [], [], name='f')
def exc_predicate(e):
return (e.op == failing_op
and e.error_code == error_codes_pb2.INVALID_ARGUMENT)
with self.assertRaisesOpError(exc_predicate):
failing_op.run()
def testErrorBasedOn(self):
with session.Session() as sess:
a = constant_op.constant(0.0, shape=[2, 3])
# NOTE(mrry): The original_op is nonsense, but used here to test that the
# errors are reported correctly.
# pylint: disable=protected-access
with sess.graph._original_op(a.op):
b = array_ops.identity(a, name='id')
with sess.graph._original_op(b.op):
c = array_ops.placeholder(dtypes.float32)
# pylint: enable=protected-access
def exc_predicate(e):
return (e.op == c.op
and e.op._original_op == b.op
and e.op._original_op._original_op == a.op)
with self.assertRaisesOpError(exc_predicate):
c.eval()
def testFetchNone(self):
with session.Session() as s:
a = constant_op.constant(1.0)
with self.assertRaises(TypeError):
s.run(None)
with self.assertRaises(TypeError):
s.run([None])
with self.assertRaises(TypeError):
s.run({'b': None})
with self.assertRaises(TypeError):
s.run({'a': a, 'b': None})
@test_util.disable_c_api # session.make_callable() doesn't work with C API
def testFetchSingleton(self):
with session.Session() as sess:
a = constant_op.constant(42.0)
res = sess.run(a)
self.assertEqual(42.0, res)
res = sess.run(a.op) # An op, not a tensor.
self.assertEqual(None, res)
tensor_runner = sess.make_callable(a)
res = tensor_runner()
self.assertEqual(42.0, res)
op_runner = sess.make_callable(a.op)
res = op_runner()
self.assertEqual(None, res)
def testFetchSingletonByName(self):
with session.Session() as sess:
a = constant_op.constant(42.0)
res = sess.run(a.name)
self.assertEqual(42.0, res)
res = sess.run(a.op) # An op, not a tensor.
self.assertEqual(None, res)
@test_util.disable_c_api # session.make_callable() doesn't work with C API
def testFetchList(self):
with session.Session() as sess:
a = constant_op.constant(42.0)
b = control_flow_ops.no_op() # An op, not a tensor.
c = constant_op.constant(44.0)
v = variables.Variable([54.0])
assign = v.assign([63.0])
res = sess.run([a, b, c, a.name, assign.op])
self.assertTrue(isinstance(res, list))
self.assertEqual([42.0, None, 44.0, 42.0, None], res)
list_runner = sess.make_callable([a, b, c, a.name, assign.op])
res = list_runner()
self.assertTrue(isinstance(res, list))
self.assertEqual([42.0, None, 44.0, 42.0, None], res)
@test_util.disable_c_api # session.make_callable() doesn't work with C API
def testFetchTuple(self):
with session.Session() as sess:
a = constant_op.constant(42.0)
b = control_flow_ops.no_op() # An op, not a tensor.
c = constant_op.constant(44.0)
res = sess.run((a, b, c, a.name))
self.assertTrue(isinstance(res, tuple))
self.assertEqual((42.0, None, 44.0, 42.0), res)
tuple_runner = sess.make_callable((a, b, c, a.name))
res = tuple_runner()
self.assertTrue(isinstance(res, tuple))
self.assertEqual((42.0, None, 44.0, 42.0), res)
@test_util.disable_c_api # session.make_callable() doesn't work with C API
def testFetchNamedTuple(self):
# pylint: disable=invalid-name
ABC = collections.namedtuple('ABC', ['a', 'b', 'c'])
# pylint: enable=invalid-name
with session.Session() as sess:
a = constant_op.constant(42.0)
b = control_flow_ops.no_op() # An op, not a tensor.
c = constant_op.constant(44.0)
res = sess.run(ABC(a, b, c))
self.assertTrue(isinstance(res, ABC))
self.assertEqual(42.0, res.a)
self.assertEqual(None, res.b)
self.assertEqual(44.0, res.c)
namedtuple_runner = sess.make_callable(ABC(a, b, c))
res = namedtuple_runner()
self.assertTrue(isinstance(res, ABC))
self.assertEqual(42.0, res.a)
self.assertEqual(None, res.b)
self.assertEqual(44.0, res.c)
def testFetchDict(self):
with session.Session() as sess:
a = constant_op.constant(42.0)
b = control_flow_ops.no_op() # An op, not a tensor.
c = constant_op.constant(44.0)
res = sess.run({'a': a, 'b': b, 'c': c})
self.assertTrue(isinstance(res, dict))
self.assertEqual(42.0, res['a'])
self.assertEqual(None, res['b'])
self.assertEqual(44.0, res['c'])
def testFetchOrderedDict(self):
with session.Session() as sess:
a = constant_op.constant(42.0)
b = control_flow_ops.no_op() # An op, not a tensor.
c = constant_op.constant(44.0)
res = sess.run(collections.OrderedDict([(3, a), (2, b), (1, c)]))
self.assertTrue(isinstance(res, collections.OrderedDict))
self.assertEqual([3, 2, 1], list(res.keys()))
self.assertEqual(42.0, res[3])
self.assertEqual(None, res[2])
self.assertEqual(44.0, res[1])
def testFetchNestingEmptyOneLevel(self):
with session.Session() as sess:
a_val = 11.0
a = constant_op.constant(a_val)
res = sess.run([[], tuple(), {}])
self.assertTrue(isinstance(res, list))
self.assertEquals(3, len(res))
self.assertTrue(isinstance(res[0], list))
self.assertEqual(0, len(res[0]))
self.assertTrue(isinstance(res[1], tuple))
self.assertEqual(0, len(res[1]))
self.assertTrue(isinstance(res[2], dict))
self.assertEqual(0, len(res[2]))
res = sess.run([[], tuple(), {}, a])
self.assertTrue(isinstance(res, list))
self.assertEquals(4, len(res))
self.assertTrue(isinstance(res[0], list))
self.assertEqual(0, len(res[0]))
self.assertTrue(isinstance(res[1], tuple))
self.assertEqual(0, len(res[1]))
self.assertTrue(isinstance(res[2], dict))
self.assertEqual(0, len(res[2]))
self.assertEqual(a_val, res[3])
def testFetchNestingOneLevel(self):
with session.Session() as sess:
# pylint: disable=invalid-name
ABC = collections.namedtuple('ABC', ['a', 'b', 'c'])
DEFG = collections.namedtuple('DEFG', ['d', 'e', 'f', 'g'])
# pylint: enable=invalid-name
a_val = 42.0
b_val = None
c_val = 44.0
a = constant_op.constant(a_val)
b = control_flow_ops.no_op() # An op, not a tensor.
c = constant_op.constant(c_val)
# List of lists, tuples, namedtuple, and dict
res = sess.run([[a, b, c], (a, b, c), ABC(a=a, b=b, c=c),
{'a': a.name, 'c': c, 'b': b}])
self.assertTrue(isinstance(res, list))
self.assertEqual(4, len(res))
self.assertTrue(isinstance(res[0], list))
self.assertEqual(3, len(res[0]))
self.assertEqual(a_val, res[0][0])
self.assertEqual(b_val, res[0][1])
self.assertEqual(c_val, res[0][2])
self.assertTrue(isinstance(res[1], tuple))
self.assertEqual(3, len(res[1]))
self.assertEqual(a_val, res[1][0])
self.assertEqual(b_val, res[1][1])
self.assertEqual(c_val, res[1][2])
self.assertTrue(isinstance(res[2], ABC))
self.assertEqual(a_val, res[2].a)
self.assertEqual(b_val, res[2].b)
self.assertEqual(c_val, res[2].c)
self.assertTrue(isinstance(res[3], dict))
self.assertEqual(3, len(res[3]))
self.assertEqual(a_val, res[3]['a'])
self.assertEqual(b_val, res[3]['b'])
self.assertEqual(c_val, res[3]['c'])
# Tuple of lists, tuples, namedtuple, and dict
res = sess.run(([a, b, c], (a.name, b, c), ABC(a=a, b=b, c=c),
{'a': a, 'c': c, 'b': b}))
self.assertTrue(isinstance(res, tuple))
self.assertEqual(4, len(res))
self.assertTrue(isinstance(res[0], list))
self.assertEqual(3, len(res[0]))
self.assertEqual(a_val, res[0][0])
self.assertEqual(b_val, res[0][1])
self.assertEqual(c_val, res[0][2])
self.assertTrue(isinstance(res[1], tuple))
self.assertEqual(3, len(res[1]))
self.assertEqual(a_val, res[1][0])
self.assertEqual(b_val, res[1][1])
self.assertEqual(c_val, res[1][2])
self.assertTrue(isinstance(res[2], ABC))
self.assertEqual(a_val, res[2].a)
self.assertEqual(b_val, res[2].b)
self.assertEqual(c_val, res[2].c)
self.assertTrue(isinstance(res[3], dict))
self.assertEqual(3, len(res[3]))
self.assertEqual(a_val, res[3]['a'])
self.assertEqual(b_val, res[3]['b'])
self.assertEqual(c_val, res[3]['c'])
# Namedtuple of lists, tuples, namedtuples, and dict
res = sess.run(DEFG(d=[a, b, c],
e=(a, b, c),
f=ABC(a=a.name, b=b, c=c),
g={'a': a, 'c': c, 'b': b}))
self.assertTrue(isinstance(res, DEFG))
self.assertTrue(isinstance(res.d, list))
self.assertEqual(3, len(res.d))
self.assertEqual(a_val, res.d[0])
self.assertEqual(b_val, res.d[1])
self.assertEqual(c_val, res.d[2])
self.assertTrue(isinstance(res.e, tuple))
self.assertEqual(3, len(res.e))
self.assertEqual(a_val, res.e[0])
self.assertEqual(b_val, res.e[1])
self.assertEqual(c_val, res.e[2])
self.assertTrue(isinstance(res.f, ABC))
self.assertEqual(a_val, res.f.a)
self.assertEqual(b_val, res.f.b)
self.assertEqual(c_val, res.f.c)
self.assertTrue(isinstance(res.g, dict))
self.assertEqual(3, len(res.g))
self.assertEqual(a_val, res.g['a'])
self.assertEqual(b_val, res.g['b'])
self.assertEqual(c_val, res.g['c'])
# Dict of lists, tuples, namedtuples, and dict
res = sess.run({'d': [a, b, c],
'e': (a, b, c),
'f': ABC(a=a, b=b, c=c),
'g': {'a': a.name, 'c': c, 'b': b}})
self.assertTrue(isinstance(res, dict))
self.assertEqual(4, len(res))
self.assertTrue(isinstance(res['d'], list))
self.assertEqual(3, len(res['d']))
self.assertEqual(a_val, res['d'][0])
self.assertEqual(b_val, res['d'][1])
self.assertEqual(c_val, res['d'][2])
self.assertTrue(isinstance(res['e'], tuple))
self.assertEqual(3, len(res['e']))
self.assertEqual(a_val, res['e'][0])
self.assertEqual(b_val, res['e'][1])
self.assertEqual(c_val, res['e'][2])
self.assertTrue(isinstance(res['f'], ABC))
self.assertEqual(a_val, res['f'].a)
self.assertEqual(b_val, res['f'].b)
self.assertEqual(c_val, res['f'].c)
self.assertTrue(isinstance(res['g'], dict))
self.assertEqual(3, len(res['g']))
self.assertEqual(a_val, res['g']['a'])
self.assertEqual(b_val, res['g']['b'])
self.assertEqual(c_val, res['g']['c'])
def testFetchTensorObject(self):
with session.Session() as s:
a = constant_op.constant(1.0, shape=[1, 2])
b = constant_op.constant(2.0, shape=[2, 3])
c = math_ops.matmul(a, b)
results_with_list = s.run([c])
self.assertAllEqual([[4.0, 4.0, 4.0]], results_with_list[0])
results_with_single = s.run(c)
self.assertAllEqual([[4.0, 4.0, 4.0]], results_with_single)
results_with_get = c.eval()
self.assertAllEqual([[4.0, 4.0, 4.0]], results_with_get)
a_val, b_val = s.run([a, b]) # Test multiple fetches.
self.assertAllEqual([[1.0, 1.0]], a_val)
self.assertAllEqual([[2.0, 2.0, 2.0], [2.0, 2.0, 2.0]], b_val)
results_with_dict = s.run({'a': [a], 'b': b, 'z': [a, b]})
self.assertAllEqual([[1.0, 1.0]], results_with_dict['a'][0])
self.assertAllEqual([[2.0, 2.0, 2.0], [2.0, 2.0, 2.0]],
results_with_dict['b'])
self.assertAllEqual(results_with_dict['a'][0], results_with_dict['z'][0])
self.assertAllEqual(results_with_dict['b'], results_with_dict['z'][1])
# Test nested structures
results_with_nested_list = s.run([[[a, b], b], a, [a, b]])
self.assertAllEqual([[1.0, 1.0]], results_with_nested_list[0][0][0])
self.assertAllEqual([[2.0, 2.0, 2.0], [2.0, 2.0, 2.0]],
results_with_nested_list[0][0][1])
self.assertAllEqual(results_with_nested_list[0][0][0],
results_with_nested_list[1])
self.assertAllEqual(results_with_nested_list[1],
results_with_nested_list[2][0])
self.assertAllEqual(results_with_nested_list[0][0][1],
results_with_nested_list[0][1])
self.assertAllEqual(results_with_nested_list[0][1],
results_with_nested_list[2][1])
def testFetchScalar(self):
with session.Session() as s:
for scalar in np.int32, np.int64, np.float16, np.float32, np.float64:
x = scalar(7)
y = scalar(8)
tf_x = constant_op.constant(x, shape=[])
tf_y = constant_op.constant(y)
tf_xy = math_ops.add(tf_x, tf_y)
# Single fetch
xy = s.run(tf_xy)
self.assertEqual(scalar, type(xy))
self.assertEqual(x + y, xy)
# List fetch
xy, = s.run([tf_xy])
self.assertEqual(scalar, type(xy))
self.assertEqual(x + y, xy)
# Dict fetch
xy = s.run({'xy': tf_xy})['xy']
self.assertEqual(scalar, type(xy))
self.assertEqual(x + y, xy)
# Nested list fetch
xy = s.run([[[tf_xy]], tf_xy, [tf_xy]])
self.assertAllEqual(xy, [[[x + y]], x + y, [x + y]])
self.assertEqual(scalar, type(xy[0][0][0]))
self.assertEqual(scalar, type(xy[1]))
self.assertEqual(scalar, type(xy[2][0]))
def testFetchOperationObject(self):
with session.Session() as s:
a = constant_op.constant(1.0, shape=[1, 2])
v = variables.Variable(a, name='testFetchOperationObject_v')
s.run(v.initializer)
v_val = s.run(v)
self.assertAllEqual([[1.0, 1.0]], v_val)
def testFetchSparseTensor(self):
with session.Session() as s:
indices = np.array([[3, 2, 0], [4, 5, 1]]).astype(np.int64)
values = np.array([1.0, 2.0]).astype(np.float32)
shape = np.array([7, 9, 2]).astype(np.int64)
sp = sparse_tensor.SparseTensor(
constant_op.constant(indices),
constant_op.constant(values),
constant_op.constant(shape))
# Single fetch, use as tuple
sp_out = s.run(sp)
indices_out, values_out, shape_out = sp_out
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(values_out, values)
self.assertAllEqual(shape_out, shape)
# Single fetch, use as SparseTensorValue
sp_out = s.run(sp)
self.assertAllEqual(sp_out.indices, indices)
self.assertAllEqual(sp_out.values, values)
self.assertAllEqual(sp_out.dense_shape, shape)
# Tuple fetch, use as tuple
indices_out, values_out, shape_out = s.run(sp)
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(values_out, values)
self.assertAllEqual(shape_out, shape)
# List fetch, use as tuple
(indices_out, values_out, shape_out), = s.run([sp])
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(values_out, values)
self.assertAllEqual(shape_out, shape)
# List fetch, use as SparseTensorValue
sp_out, = s.run([sp])
self.assertAllEqual(sp_out.indices, indices)
self.assertAllEqual(sp_out.values, values)
self.assertAllEqual(sp_out.dense_shape, shape)
# Dict fetch (single value), use as tuple
indices_out, values_out, shape_out = s.run({'sp': sp})['sp']
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(values_out, values)
self.assertAllEqual(shape_out, shape)
# Dict fetch (list value), use as tuple
(indices_out, values_out, shape_out), = s.run({'sp': [sp]})['sp']
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(values_out, values)
self.assertAllEqual(shape_out, shape)
# Dict fetch, use as SparseTensorValue
sp_out = s.run({'sp': sp})['sp']
self.assertAllEqual(sp_out.indices, indices)
self.assertAllEqual(sp_out.values, values)
self.assertAllEqual(sp_out.dense_shape, shape)
# Nested list fetch use as tuple
sp_out = s.run([[[sp]], sp])
indices_out, values_out, shape_out = sp_out[0][0][0]
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(values_out, values)
self.assertAllEqual(shape_out, shape)
indices_out, values_out, shape_out = sp_out[1]
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(values_out, values)
self.assertAllEqual(shape_out, shape)
# Nested list fetch, use as SparseTensorValue
sp_out = s.run([[[sp]], sp])
self.assertAllEqual(sp_out[0][0][0].indices, indices)
self.assertAllEqual(sp_out[0][0][0].values, values)
self.assertAllEqual(sp_out[0][0][0].dense_shape, shape)
self.assertAllEqual(sp_out[1].indices, indices)
self.assertAllEqual(sp_out[1].values, values)
self.assertAllEqual(sp_out[1].dense_shape, shape)
def testFeedSparseTensor(self):
with session.Session() as s:
indices = np.array([[3, 2, 0], [4, 5, 1]]).astype(np.int64)
values = np.array([1.0, 2.0]).astype(np.float32)
shape = np.array([7, 9, 2]).astype(np.int64)
sp = sparse_tensor.SparseTensor(
array_ops.placeholder(dtype=np.int64, shape=(2, 3)),
array_ops.placeholder(dtype=np.float32, shape=(2,)),
array_ops.placeholder(dtype=np.int64, shape=(3,)),)
sp_indices = array_ops.identity(sp.indices)
sp_values = array_ops.identity(sp.values)
sp_shape = array_ops.identity(sp.dense_shape)
sp2 = sparse_tensor.SparseTensor(sp_indices, sp_values, sp_shape)
# Feed with tuple
indices_out, values_out, shape_out = s.run(
[sp_indices, sp_values, sp_shape], {sp: (indices, values, shape)})
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(values_out, values)
self.assertAllEqual(shape_out, shape)
# Feed with tuple, fetch sp directly
sp_out = s.run(sp, {sp: (indices, values, shape)})
self.assertAllEqual(sp_out.indices, indices)
self.assertAllEqual(sp_out.values, values)
self.assertAllEqual(sp_out.dense_shape, shape)
# Feed with SparseTensorValue
indices_out, values_out, shape_out = s.run(
[sp_indices, sp_values, sp_shape],
{sp: sparse_tensor.SparseTensorValue(indices, values, shape)})
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(values_out, values)
self.assertAllEqual(shape_out, shape)
# Feed with SparseTensorValue, fetch SparseTensorValue
sp2_out = s.run(
sp2, {sp: sparse_tensor.SparseTensorValue(indices, values, shape)})
self.assertAllEqual(sp2_out.indices, indices)
self.assertAllEqual(sp2_out.values, values)
self.assertAllEqual(sp2_out.dense_shape, shape)
# Feed SparseTensorValue and fetch sp directly.
sp_out = s.run(
sp, {sp: sparse_tensor.SparseTensorValue(indices, values, shape)})
self.assertAllEqual(sp_out.indices, indices)
self.assertAllEqual(sp_out.values, values)
self.assertAllEqual(sp_out.dense_shape, shape)
def testFeedSparsePlaceholder(self):
with session.Session() as s:
indices = np.array([[3, 2, 0], [4, 5, 1]]).astype(np.int64)
values = np.array([1.0, 2.0]).astype(np.float32)
shape = np.array([7, 9, 2]).astype(np.int64)
sp = array_ops.sparse_placeholder(dtype=np.float32, name='placeholder1')
sp_indices = array_ops.identity(sp.indices)
sp_values = array_ops.identity(sp.values)
sp_shape = array_ops.identity(sp.dense_shape)
sp2 = sparse_tensor.SparseTensor(sp_indices, sp_values, sp_shape)
# Feed with tuple
indices_out, values_out, shape_out = s.run(
[sp_indices, sp_values, sp_shape], {sp: (indices, values, shape)})
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(values_out, values)
self.assertAllEqual(shape_out, shape)
# Feed with SparseTensorValue
indices_out, values_out, shape_out = s.run(
[sp_indices, sp_values, sp_shape],
{sp: sparse_tensor.SparseTensorValue(indices, values, shape)})
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(values_out, values)
self.assertAllEqual(shape_out, shape)
# Feed with SparseTensorValue, fetch SparseTensorValue
sp2_out = s.run(
sp2, {sp: sparse_tensor.SparseTensorValue(indices, values, shape)})
self.assertAllEqual(sp2_out.indices, indices)
self.assertAllEqual(sp2_out.values, values)
self.assertAllEqual(sp2_out.dense_shape, shape)
def testFeedSparsePlaceholderPartialShape(self):
with session.Session() as s:
indices = np.array([[3, 2, 0], [4, 5, 1]]).astype(np.int64)
values = np.array([1.0, 2.0]).astype(np.float32)
shape = np.array([7, 9, 2]).astype(np.int64)
sp = array_ops.sparse_placeholder(
shape=[None, 9, 2], dtype=np.float32, name='placeholder1')
sp_indices = array_ops.identity(sp.indices)
sp_values = array_ops.identity(sp.values)
sp_shape = array_ops.identity(sp.dense_shape)
sp2 = sparse_tensor.SparseTensor(sp_indices, sp_values, sp_shape)
# Feed with tuple
indices_out, values_out, shape_out = s.run(
[sp_indices, sp_values, sp_shape], {sp: (indices, values, shape)})
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(values_out, values)
self.assertAllEqual(shape_out, shape)
# Feed with SparseTensorValue
indices_out, values_out, shape_out = s.run(
[sp_indices, sp_values, sp_shape],
{sp: sparse_tensor.SparseTensorValue(indices, values, shape)})
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(values_out, values)
self.assertAllEqual(shape_out, shape)
# Feed with SparseTensorValue, fetch SparseTensorValue
sp2_out = s.run(
sp2, {sp: sparse_tensor.SparseTensorValue(indices, values, shape)})
self.assertAllEqual(sp2_out.indices, indices)
self.assertAllEqual(sp2_out.values, values)
self.assertAllEqual(sp2_out.dense_shape, shape)
def testFeedSparsePlaceholderConstantShape(self):
with session.Session() as s:
indices = np.array([[3, 2, 0], [4, 5, 1]]).astype(np.int64)
values = np.array([1.0, 2.0]).astype(np.float32)
shape = np.array([7, 9, 2]).astype(np.int64)
sp = array_ops.sparse_placeholder(dtype=np.float32,
shape=shape,
name='placeholder1')
self.assertAllEqual(sp.dense_shape.eval(session=s), shape)
self.assertAllEqual(tensor_util.constant_value(sp.dense_shape), shape)
sp_indices = array_ops.identity(sp.indices)
sp_values = array_ops.identity(sp.values)
sp_shape = array_ops.identity(sp.dense_shape)
# Feed with tuple
indices_out, values_out, shape_out = s.run(
[sp_indices, sp_values, sp_shape], {sp: (indices, values)})
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(values_out, values)
self.assertAllEqual(shape_out, shape)
def testFetchIndexedSlices(self):
with session.Session() as s:
indices = np.array([[3, 2, 0], [4, 5, 1]]).astype(np.int64)
values = np.array([1.0, 2.0]).astype(np.float32)
dense_shape = np.array([7, 9, 2]).astype(np.int64)
ind = ops.IndexedSlices(
constant_op.constant(values), constant_op.constant(indices),
constant_op.constant(dense_shape))
# Single fetch, use as tuple
ind_out = s.run(ind)
values_out, indices_out, dense_shape_out = ind_out
self.assertAllEqual(values_out, values)
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(dense_shape_out, dense_shape)
# Single fetch, use as IndexedSlicesValue
ind_out = s.run(ind)
self.assertAllEqual(ind_out.values, values)
self.assertAllEqual(ind_out.indices, indices)
self.assertAllEqual(ind_out.dense_shape, dense_shape)
# Tuple fetch, use as tuple
values_out, indices_out, dense_shape_out = s.run(ind)
self.assertAllEqual(values_out, values)
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(dense_shape_out, dense_shape)
# List fetch, use as tuple
(values_out, indices_out, dense_shape_out), = s.run([ind])
self.assertAllEqual(values_out, values)
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(dense_shape_out, dense_shape)
# List fetch, use as IndexedSlicesValue
ind_out, = s.run([ind])
self.assertAllEqual(ind_out.values, values)
self.assertAllEqual(ind_out.indices, indices)
self.assertAllEqual(ind_out.dense_shape, dense_shape)
def testFeedIndexedSlices(self):
with session.Session() as s:
values = np.array([1.0, 2.0]).astype(np.float32)
indices = np.array([[3, 2, 0], [4, 5, 1]]).astype(np.int64)
dense_shape = np.array([7, 9, 2]).astype(np.int64)
ind = ops.IndexedSlices(
array_ops.placeholder(dtype=np.float32,
shape=(2,)),
array_ops.placeholder(dtype=np.int64,
shape=(2, 3)),
array_ops.placeholder(dtype=np.int64,
shape=(3,)),)
ind_values = array_ops.identity(ind.values)
ind_indices = array_ops.identity(ind.indices)
ind_dense_shape = array_ops.identity(ind.dense_shape)
ind2 = ops.IndexedSlices(ind_values, ind_indices, ind_dense_shape)
# Feed with tuple
values_out, indices_out, dense_shape_out = s.run(
[ind_values, ind_indices, ind_dense_shape],
{ind: (values, indices, dense_shape)})
self.assertAllEqual(values_out, values)
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(dense_shape_out, dense_shape)
# Feed with IndexedSlicesValue
values_out, indices_out, dense_shape_out = s.run(
[ind_values, ind_indices, ind_dense_shape],
{ind: ops.IndexedSlicesValue(values, indices, dense_shape)})
self.assertAllEqual(values_out, values)
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(dense_shape_out, dense_shape)
# Feed with IndexedSlicesValue, fetch IndexedSlicesValue
ind2_out = s.run(ind2, {ind: ops.IndexedSlicesValue(values, indices,
dense_shape)})
self.assertAllEqual(ind2_out.values, values)
self.assertAllEqual(ind2_out.indices, indices)
self.assertAllEqual(ind2_out.dense_shape, dense_shape)
def testFetchIndexedSlicesWithoutDenseShape(self):
with session.Session() as s:
indices = np.array([[3, 2, 0], [4, 5, 1]]).astype(np.int64)
values = np.array([1.0, 2.0]).astype(np.float32)
dense_shape = None
ind = ops.IndexedSlices(
constant_op.constant(values), constant_op.constant(indices), None)
# Single fetch, use as tuple
ind_out = s.run(ind)
values_out, indices_out, dense_shape_out = ind_out
self.assertAllEqual(values_out, values)
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(dense_shape_out, dense_shape)
# Single fetch, use as IndexedSlicesValue
ind_out = s.run(ind)
self.assertAllEqual(ind_out.values, values)
self.assertAllEqual(ind_out.indices, indices)
self.assertAllEqual(ind_out.dense_shape, dense_shape)
# Tuple fetch, use as tuple
values_out, indices_out, dense_shape_out = s.run(ind)
self.assertAllEqual(values_out, values)
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(dense_shape_out, dense_shape)
# List fetch, use as tuple
(values_out, indices_out, dense_shape_out), = s.run([ind])
self.assertAllEqual(values_out, values)
self.assertAllEqual(indices_out, indices)
self.assertAllEqual(dense_shape_out, dense_shape)
# List fetch, use as IndexedSlicesValue
ind_out, = s.run([ind])
self.assertAllEqual(ind_out.values, values)
self.assertAllEqual(ind_out.indices, indices)
self.assertAllEqual(ind_out.dense_shape, dense_shape)
def testFeedIndexedSlicesWithoutDenseShape(self):
with session.Session() as s:
values = np.array([1.0, 2.0]).astype(np.float32)
indices = np.array([[3, 2, 0], [4, 5, 1]]).astype(np.int64)
dense_shape = None
ind = ops.IndexedSlices(
array_ops.placeholder(dtype=np.float32,
shape=(2,)),
array_ops.placeholder(dtype=np.int64,
shape=(2, 3)),
None)
ind_values = array_ops.identity(ind.values)
ind_indices = array_ops.identity(ind.indices)
ind2 = ops.IndexedSlices(ind_values, ind_indices)
# Feed with tuple
values_out, indices_out = s.run(
[ind_values, ind_indices], {ind: (values, indices)})
self.assertAllEqual(values_out, values)
self.assertAllEqual(indices_out, indices)
# Feed with IndexedSlicesValue
values_out, indices_out = s.run(
[ind_values, ind_indices],
{ind: ops.IndexedSlicesValue(values, indices, dense_shape)})
self.assertAllEqual(values_out, values)
self.assertAllEqual(indices_out, indices)
# Feed with IndexedSlicesValue, fetch IndexedSlicesValue
ind2_out = s.run(ind2, {ind: ops.IndexedSlicesValue(values, indices,
dense_shape)})
self.assertAllEqual(ind2_out.values, values)
self.assertAllEqual(ind2_out.indices, indices)
self.assertAllEqual(ind2_out.dense_shape, dense_shape)
def testExtendWithStatelessOperations(self):
with session.Session() as s:
a = constant_op.constant(1.0, shape=[1, 2])
b = constant_op.constant(2.0, shape=[2, 3])
c = math_ops.matmul(a, b)
c_val = s.run(c)
self.assertAllEqual([[4.0, 4.0, 4.0]], c_val)
d = constant_op.constant([1.0, 2.0, 3.0], shape=[3, 1])
e = math_ops.matmul(c, d)
# Extend will happen here.
e_val = s.run(e)
self.assertAllEqual([[24.0]], e_val)
def testExtendWithStatefulOperations(self):
with session.Session() as s:
a = constant_op.constant(1.0, shape=[1, 2])
b = constant_op.constant(2.0, shape=[2, 3])
c = math_ops.matmul(a, b)
v = variables.Variable(c, name='testExtendWithStatefulOperations_v')
v.initializer.run()
v_val = v.eval()
self.assertAllEqual([[4.0, 4.0, 4.0]], v_val)
d = constant_op.constant(3.0, shape=[2, 3])
e = math_ops.matmul(a, d)
assign_e_to_v = state_ops.assign(v, e)
# Extend will happen here.
e_val = e.eval()
self.assertAllEqual([[6.0, 6.0, 6.0]], e_val)
v_val = v.eval()
self.assertAllEqual([[4.0, 4.0, 4.0]], v_val)
s.run(assign_e_to_v)
v_val = v.eval()
self.assertAllEqual([[6.0, 6.0, 6.0]], v_val)
def testExtendWithGroupBy(self):
with session.Session() as s:
a = constant_op.constant(1.0, shape=[1, 2])
p = variables.Variable(a, name='testExtendWithGroupBy_p')
a_val = a.eval() # Force an Extend after this op.
self.assertAllEqual([[1.0, 1.0]], a_val)
b = constant_op.constant(2.0, shape=[1, 2])
q = variables.Variable(b, name='testExtendWithGroupBy_q')
# Extend will happen here.
init = control_flow_ops.group(p.initializer, q.initializer)
s.run(init)
p_val, q_val = s.run([p, q])
self.assertAllEqual([[1.0, 1.0]], p_val)
self.assertAllEqual([[2.0, 2.0]], q_val)
def testTensorGetMethod(self):
with session.Session():
a = constant_op.constant(1.0, shape=[1, 2])
b = constant_op.constant(2.0, shape=[2, 3])
c = math_ops.matmul(a, b)
c_val = c.eval()
self.assertAllEqual([[4.0, 4.0, 4.0]], c_val)
fed_c_val = c.eval(feed_dict={a.name: [[4.0, 4.0]]})
self.assertAllEqual([[16.0, 16.0, 16.0]], fed_c_val)
def testOperationRunMethod(self):
with session.Session():
a = constant_op.constant(1.0, shape=[1, 2])
b = constant_op.constant(2.0, shape=[1, 2], name='b')
v = variables.Variable(a, a.dtype)
assign_a_to_v = state_ops.assign(v, a)
assign_a_to_v.eval()
v_val = v.eval()
self.assertAllEqual([[1.0, 1.0]], v_val)
assign_b_to_v = state_ops.assign(v, b)
assign_b_to_v.eval()
v_val = v.eval()
self.assertAllEqual([[2.0, 2.0]], v_val)
assign_b_to_v.eval(feed_dict={'b:0': [[3.0, 3.0]]})
v_val = v.eval()
self.assertAllEqual([[3.0, 3.0]], v_val)
def testDefaultGraph(self):
with session.Session() as s:
self.assertEqual(ops.get_default_graph(), s.graph)
a = constant_op.constant(1.0, shape=[1, 2])
b = constant_op.constant(2.0, shape=[2, 3])
self.assertEqual(ops.get_default_graph(), a.graph)
self.assertEqual(ops.get_default_graph(), b.graph)
c = math_ops.matmul(a, b)
v = variables.Variable(c, name='testDefaultGraph_v')
v.initializer.run()
v_val = v.eval()
self.assertAllEqual([[4.0, 4.0, 4.0]], v_val)
d = constant_op.constant(3.0, shape=[2, 3])
e = math_ops.matmul(a, d)
assign_e_to_v = state_ops.assign(v, e)
e_val = e.eval()
self.assertAllEqual([[6.0, 6.0, 6.0]], e_val)
v_val = v.eval()
self.assertAllEqual([[4.0, 4.0, 4.0]], v_val)
s.run(assign_e_to_v)
v_val = v.eval()
self.assertAllEqual([[6.0, 6.0, 6.0]], v_val)
self.assertEqual(ops.get_default_graph(), s.graph)
def _testDefaultGraphInThread(self, constructed_event, continue_event, i):
with session.Session() as s:
self.assertEqual(ops.get_default_graph(), s.graph)
a = constant_op.constant(1.0, shape=[1, 2])
b = constant_op.constant(2.0, shape=[2, 3])
c = math_ops.matmul(a, b)
v = variables.Variable(c, name='var_%d' % i)
# Block here until all threads have constructed their graph.
constructed_event.set()
continue_event.wait()
assign_c_to_v = state_ops.assign(v, c)
v.initializer.run()
assign_c_to_v.eval()
v_val = v.eval()
self.assertAllEqual([[4.0, 4.0, 4.0]], v_val)
d = constant_op.constant(3.0, shape=[2, 3])
e = math_ops.matmul(a, d)
assign_e_to_v = state_ops.assign(v, e)
e_val = e.eval()
self.assertAllEqual([[6.0, 6.0, 6.0]], e_val)
v_val = v.eval()
self.assertAllEqual([[4.0, 4.0, 4.0]], v_val)
s.run(assign_e_to_v)
v_val = v.eval()
self.assertAllEqual([[6.0, 6.0, 6.0]], v_val)
self.assertEqual(ops.get_default_graph(), s.graph)
def testDefaultGraphWithThreads(self):
# Fork ten threads that use their thread-local default graph.
threads = []
constructed_events = [threading.Event() for _ in range(10)]
continue_event = threading.Event()
for i, constructed_event in enumerate(constructed_events):
t = self.checkedThread(target=self._testDefaultGraphInThread,
args=(constructed_event, continue_event, i))
threads.append(t)
for t in threads:
t.start()
for constructed_event in constructed_events:
constructed_event.wait()
continue_event.set()
for t in threads:
t.join()
def testParallelRun(self):
with session.Session() as sess:
c = constant_op.constant(5.0)
ev = threading.Event()
def run_step():
ev.wait()
val = c.eval(session=sess)
self.assertEqual(val, 5.0)
threads = [self.checkedThread(target=run_step) for _ in range(100)]
for t in threads:
t.start()
ev.set()
for t in threads:
t.join()
def testRunFeedDict(self):
with session.Session() as s:
x = array_ops.zeros([2])
y = s.run(2 * x, feed_dict={x: np.ones(2).astype(np.float32)})
self.assertAllEqual(y, 2 * np.ones(2))
y = s.run(2 * x, feed_dict={x.name: np.ones(2).astype(np.float32)})
self.assertAllEqual(y, 2 * np.ones(2))
y = s.run(2 * x, feed_dict={x: [1, 1]})
assert (y == 2 * np.ones(2)).all()
# Test nested tuple keys
z = (((array_ops.zeros([2]),),), array_ops.zeros([2]),
(array_ops.zeros([2]),))
result = [z[0][0][0] * 2, z[1] * 2, z[2][0] * 2]
values = (((np.array([1, 1]),),), np.array([2, 2]), (np.array([3, 3]),))
result_value = s.run(result, feed_dict={z: values})
self.assertAllEqual(result_value[0], 2 * np.ones(2))
self.assertAllEqual(result_value[1], 2 * np.array([2, 2]))
self.assertAllEqual(result_value[2], 2 * np.array([3, 3]))
def testGraphDef(self):
with session.Session() as sess:
self.assertProtoEquals(
'versions { producer: %d min_consumer: %d }' % (
versions.GRAPH_DEF_VERSION,
versions.GRAPH_DEF_VERSION_MIN_CONSUMER),
sess.graph_def)
c = constant_op.constant(5.0, name='c')
self.assertEquals(len(sess.graph_def.node), 1)
d = constant_op.constant(6.0, name='d')
self.assertEquals(len(sess.graph_def.node), 2)
self.assertAllEqual(c.eval(), 5.0)
self.assertAllEqual(d.eval(), 6.0)
e = constant_op.constant(7.0, name='e')
self.assertEquals(len(sess.graph_def.node), 3)
self.assertAllEqual(e.eval(), 7.0)
def testUseAfterClose(self):
with session.Session() as sess:
c = constant_op.constant(5.0)
self.assertAllEqual(sess.run(c), 5.0)
with self.assertRaisesWithPredicateMatch(
RuntimeError, lambda e: 'Attempted to use a closed Session.' in str(e)):
sess.run(c)
def testUseAfterCloseConcurrent(self):
with session.Session() as sess:
c = constant_op.constant(5.0)
self.assertAllEqual(sess.run(c), 5.0)
def update_thread():
with self.assertRaisesWithPredicateMatch(
RuntimeError,
lambda e: 'Attempted to use a closed Session.' in str(e)):
while True:
sess.run(c)
t = threading.Thread(target=update_thread)
t.start()
time.sleep(0.1)
sess.close()
t.join()
def testUseEmptyGraph(self):
with session.Session() as sess:
with self.assertRaisesRegexp(RuntimeError, 'The Session graph is empty.'):
sess.run([])
with self.assertRaisesRegexp(RuntimeError, 'The Session graph is empty.'):
sess.run(())
with self.assertRaisesRegexp(RuntimeError, 'The Session graph is empty.'):
sess.run({})
def testNotEntered(self):
# pylint: disable=protected-access
self.assertEqual(ops._default_session_stack.get_default(), None)
# pylint: enable=protected-access
with ops.device('/cpu:0'):
sess = session.Session()
c_1 = constant_op.constant(5.0)
with sess.graph.as_default():
c_2 = constant_op.constant(5.0)
self.assertEqual(c_1.graph, c_2.graph)
self.assertEqual(sess.run(c_2), 5.0)
with self.assertRaisesWithPredicateMatch(
ValueError, lambda e: 'No default session is registered.' in str(e)):
c_2.eval()
def testInteractive(self):
with ops.device('/cpu:0'):
sess = session.InteractiveSession()
a = constant_op.constant(1.0, shape=[1, 2])
b = constant_op.constant(2.0, shape=[2, 3])
c = math_ops.matmul(a, b)
self.assertAllEqual([[4.0, 4.0, 4.0]], c.eval())
d = constant_op.constant([1.0, 2.0, 3.0], shape=[3, 1])
e = math_ops.matmul(c, d)
self.assertAllEqual([[24.0]], e.eval())
sess.close()
def testInteractivePlacePrunedGraph(self):
sess = session.InteractiveSession()
# Build a graph that has a bad op in it (no kernel).
#
# This test currently does not link in any GPU kernels,
# which is why placing this is invalid. If at some point
# GPU kernels are added to this test, some other different
# op / device combo should be chosen.
with ops.device('/device:GPU:0'):
a = constant_op.constant(1.0, shape=[1, 2])
b = constant_op.constant(1.0, shape=[1, 2])
# Only run the valid op, this should work.
b.eval()
with self.assertRaises(errors.InvalidArgumentError):
a.eval()
sess.close()
def testDefaultSessionPlacePrunedGraph(self):
sess = session.Session()
# Build a graph that has a bad op in it (no kernel).
#
# This test currently does not link in any GPU kernels,
# which is why placing this is invalid. If at some point
# GPU kernels are added to this test, some other different
# op / device combo should be chosen.
with ops.device('/device:GPU:0'):
_ = constant_op.constant(1.0, shape=[1, 2])
b = constant_op.constant(1.0, shape=[1, 2])
with self.assertRaises(errors.InvalidArgumentError):
# Even though we don't run the bad op, we place the entire
# graph, which should fail with a non-interactive session.
sess.run(b)
sess.close()
def testSharedGraph(self):
with ops.Graph().as_default() as g, ops.device('/cpu:0'):
a = constant_op.constant(1.0, shape=[1, 2])
b = constant_op.constant(2.0, shape=[2, 3])
c = math_ops.matmul(a, b)
with session.Session(graph=g) as sess1:
with session.Session(graph=g) as sess2:
self.assertAllEqual(sess1.run(c), sess2.run(c))
def testDuplicatedInputs(self):
with session.Session() as sess:
a = constant_op.constant(1.0, shape=[1, 2])
b = constant_op.constant(2.0, shape=[1, 3])
a_val, b_val, a2_val = sess.run([a, b, a])
self.assertAllEqual(a_val, [[1.0, 1.0]])
self.assertAllEqual(b_val, [[2.0, 2.0, 2.0]])
self.assertAllEqual(a2_val, [[1.0, 1.0]])
@test_util.disable_c_api # session.make_callable() doesn't work with C API
def testFeedAndFetch(self):
with session.Session() as sess:
for dtype in [dtypes.float16,
dtypes.float32,
dtypes.float64,
dtypes.int32,
dtypes.uint8,
dtypes.int16,
dtypes.int8,
dtypes.int64,
dtypes.bool,
dtypes.complex64,
dtypes.complex128]:
for shape in [(32, 4, 128), (37,), (2, 0, 6), (0, 0, 0)]:
np_dtype = dtype.as_numpy_dtype
feed_t = array_ops.placeholder(dtype=dtype, shape=shape)
out_t = array_ops.identity(feed_t)
np_array = np.random.randint(-10, 10, shape)
if dtype == dtypes.bool:
np_array = np_array > 0
elif dtype == dtypes.complex64:
np_array = np.sqrt(np_array.astype(np_dtype))
elif dtype == dtypes.complex64:
np_array = np.sqrt(np_array.astype(np_dtype))
else:
np_array = np_array.astype(np_dtype)
self.assertAllEqual(np_array,
sess.run(out_t, feed_dict={feed_t: np_array}))
# Check that we can also get the feed back.
self.assertAllEqual(np_array,
sess.run(feed_t, feed_dict={feed_t: np_array}))
# Also check that we can get both back.
out_v, feed_v = sess.run([out_t, feed_t],
feed_dict={feed_t: np_array})
self.assertAllEqual(np_array, out_v)
self.assertAllEqual(np_array, feed_v)
feed_fetch_runner = sess.make_callable([out_t, feed_t], [feed_t])
out_v, feed_v = feed_fetch_runner(np_array)
self.assertAllEqual(np_array, out_v)
self.assertAllEqual(np_array, feed_v)
@test_util.disable_c_api # session.make_callable() doesn't work with C API
def testMakeCallableOnTensorWithRunOptions(self):
with session.Session() as sess:
a = constant_op.constant(42.0)
tensor_runner = sess.make_callable(a, accept_options=True)
run_options = config_pb2.RunOptions(
trace_level=config_pb2.RunOptions.FULL_TRACE)
run_metadata = config_pb2.RunMetadata()
self.assertEqual(0, len(run_metadata.step_stats.dev_stats))
res = tensor_runner(options=run_options, run_metadata=run_metadata)
self.assertEqual(42.0, res)
self.assertGreater(len(run_metadata.step_stats.dev_stats), 0)
@test_util.disable_c_api # session.make_callable() doesn't work with C API
def testMakeCallableOnOperationWithRunOptions(self):
with session.Session() as sess:
a = variables.Variable(42.0)
b = state_ops.assign_add(a, 1.0)
sess.run(a.initializer)
tensor_runner = sess.make_callable(b.op, accept_options=True)
run_options = config_pb2.RunOptions(
trace_level=config_pb2.RunOptions.FULL_TRACE)
run_metadata = config_pb2.RunMetadata()
self.assertEqual(0, len(run_metadata.step_stats.dev_stats))
tensor_runner(options=run_options, run_metadata=run_metadata)
self.assertEqual(43.0, sess.run(a))
self.assertGreater(len(run_metadata.step_stats.dev_stats), 0)
@test_util.disable_c_api # session.make_callable() doesn't work with C API
def testMakeCallableWithFeedListAndRunOptions(self):
with session.Session() as sess:
ph = array_ops.placeholder(dtypes.float32)
a = math_ops.add(ph, 1.0)
tensor_runner = sess.make_callable(
a, feed_list=[ph.name], accept_options=True)
run_options = config_pb2.RunOptions(
trace_level=config_pb2.RunOptions.FULL_TRACE)
run_metadata = config_pb2.RunMetadata()
self.assertEqual(0, len(run_metadata.step_stats.dev_stats))
self.assertAllClose(
42.0,
tensor_runner(41.0, options=run_options, run_metadata=run_metadata))
self.assertGreater(len(run_metadata.step_stats.dev_stats), 0)
def testFeedError(self):
with session.Session() as sess:
feed_t = array_ops.placeholder(dtype=dtypes.float32)
out_t = array_ops.identity(feed_t)
feed_val = constant_op.constant(5.0)
with self.assertRaisesRegexp(TypeError, 'cannot be a tf.Tensor object'):
sess.run(out_t, feed_dict={feed_t: feed_val})
with self.assertRaisesRegexp(TypeError, 'cannot be a tf.Tensor object'):
out_t.eval(feed_dict={feed_t: feed_val})
with self.assertRaisesRegexp(TypeError, 'cannot be a tf.Tensor object'):
out_t.op.run(feed_dict={feed_t: feed_val})
def testFeedPrecisionLossError(self):
with session.Session() as sess:
largest_int64 = np.iinfo(np.int64).max
feed_int_implicit_int32 = constant_op.constant(1)
feed_int_explicit_int32 = constant_op.constant(1, dtype=dtypes.int32)
out_t = constant_op.constant(1.0)
with self.assertRaisesRegexp(TypeError,
'is not compatible with Tensor type'):
sess.run(out_t, feed_dict={feed_int_implicit_int32: largest_int64})
with self.assertRaisesRegexp(TypeError,
'is not compatible with Tensor type'):
sess.run(out_t, feed_dict={feed_int_explicit_int32: largest_int64})
def testStringFetch(self):
with session.Session():
for shape in [(32, 4, 128), (37,), (2, 0, 6), (0, 0, 0)]:
size = 1
for s in shape:
size *= s
c_list = np.array([compat.as_bytes(str(i)) for i in xrange(size)],
dtype=np.object).reshape(shape) if size > 0 else []
c = constant_op.constant(c_list)
self.assertAllEqual(c.eval(), c_list)
def testStringFeed(self):
with session.Session() as sess:
for shape in [(32, 4, 128), (37,), (2, 0, 6), (0, 0, 0)]:
size = 1
for s in shape:
size *= s
c_list = np.array([compat.as_bytes(str(i)) for i in xrange(size)],
dtype=np.object).reshape(shape)
feed_t = array_ops.placeholder(dtype=dtypes.string, shape=shape)
c = array_ops.identity(feed_t)
self.assertAllEqual(sess.run(c, feed_dict={feed_t: c_list}), c_list)
self.assertAllEqual(sess.run(feed_t, feed_dict={feed_t: c_list}),
c_list)
c_v, feed_v = sess.run([c, feed_t], feed_dict={feed_t: c_list})
self.assertAllEqual(c_v, c_list)
self.assertAllEqual(feed_v, c_list)
def testStringFeedWithNullCharacters(self):
with session.Session():
c_list = [b'\n\x01\x00', b'\n\x00\x01']
feed_t = array_ops.placeholder(dtype=dtypes.string, shape=[2])
c = array_ops.identity(feed_t)
out = c.eval(feed_dict={feed_t: c_list})
self.assertEqual(c_list[0], out[0])
self.assertEqual(c_list[1], out[1])
def testStringFeedWithUnicode(self):
with session.Session():
c_list = [u'\n\x01\x00', u'\n\x00\x01',
u'\u26a3 unicode', u'\U0001f60e deal with it']
feed_t = array_ops.placeholder(dtype=dtypes.string, shape=[len(c_list)])
c = array_ops.identity(feed_t)
out = c.eval(feed_dict={feed_t: c_list})
for i in range(len(c_list)):
self.assertEqual(c_list[i], out[i].decode('utf-8'))
out = c.eval(feed_dict={feed_t: np.array(c_list, dtype=np.object)})
for i in range(len(c_list)):
self.assertEqual(c_list[i], out[i].decode('utf-8'))
def testInvalidTargetFails(self):
with self.assertRaisesRegexp(
errors.NotFoundError,
'No session factory registered for the given session options'):
session.Session('INVALID_TARGET')
def testFetchByNameDifferentStringTypes(self):
with session.Session() as sess:
c = constant_op.constant(42.0, name='c')
d = constant_op.constant(43.0, name=u'd')
e = constant_op.constant(44.0, name=b'e')
f = constant_op.constant(45.0, name=r'f')
self.assertTrue(isinstance(c.name, six.text_type))
self.assertTrue(isinstance(d.name, six.text_type))
self.assertTrue(isinstance(e.name, six.text_type))
self.assertTrue(isinstance(f.name, six.text_type))
self.assertEqual(42.0, sess.run('c:0'))
self.assertEqual(42.0, sess.run(u'c:0'))
self.assertEqual(42.0, sess.run(b'c:0'))
self.assertEqual(42.0, sess.run(r'c:0'))
self.assertEqual(43.0, sess.run('d:0'))
self.assertEqual(43.0, sess.run(u'd:0'))
self.assertEqual(43.0, sess.run(b'd:0'))
self.assertEqual(43.0, sess.run(r'd:0'))
self.assertEqual(44.0, sess.run('e:0'))
self.assertEqual(44.0, sess.run(u'e:0'))
self.assertEqual(44.0, sess.run(b'e:0'))
self.assertEqual(44.0, sess.run(r'e:0'))
self.assertEqual(45.0, sess.run('f:0'))
self.assertEqual(45.0, sess.run(u'f:0'))
self.assertEqual(45.0, sess.run(b'f:0'))
self.assertEqual(45.0, sess.run(r'f:0'))
def testIncorrectGraph(self):
with ops.Graph().as_default() as g_1:
c_1 = constant_op.constant(1.0, name='c')
with ops.Graph().as_default() as g_2:
c_2 = constant_op.constant(2.0, name='c')
self.assertEqual('c', c_1.op.name)
self.assertEqual('c', c_2.op.name)
with session.Session(graph=g_1) as sess_1:
self.assertEqual(1.0, sess_1.run(c_1))
with self.assertRaises(ValueError):
sess_1.run(c_2)
with self.assertRaises(ValueError):
sess_1.run(c_2.op)
with session.Session(graph=g_2) as sess_2:
with self.assertRaises(ValueError):
sess_2.run(c_1)
with self.assertRaises(ValueError):
sess_2.run(c_1.op)
self.assertEqual(2.0, sess_2.run(c_2))
def testFeedDictKeyException(self):
with session.Session() as sess:
a = constant_op.constant(1.0, dtypes.float32, name='a')
with self.assertRaisesRegexp(TypeError, 'Cannot interpret feed_dict'):
sess.run(a, feed_dict={'a': [2.0]})
def testPerStepTrace(self):
run_options = config_pb2.RunOptions(
trace_level=config_pb2.RunOptions.FULL_TRACE)
run_metadata = config_pb2.RunMetadata()
with ops.device('/cpu:0'):
with session.Session() as sess:
sess.run(constant_op.constant(1.0))
self.assertTrue(not run_metadata.HasField('step_stats'))
sess.run(constant_op.constant(1.0), run_metadata=run_metadata)
self.assertTrue(not run_metadata.HasField('step_stats'))
sess.run(constant_op.constant(1.0),
options=run_options,
run_metadata=run_metadata)
self.assertTrue(run_metadata.HasField('step_stats'))
self.assertEquals(len(run_metadata.step_stats.dev_stats), 1)
def testRunOptionsRunMetadata(self):
run_options = config_pb2.RunOptions(
trace_level=config_pb2.RunOptions.FULL_TRACE)
run_metadata = config_pb2.RunMetadata()
with ops.device('/cpu:0'):
with session.Session() as sess:
# all combinations are valid
sess.run(constant_op.constant(1.0), options=None, run_metadata=None)
sess.run(constant_op.constant(1.0), options=None,
run_metadata=run_metadata)
self.assertTrue(not run_metadata.HasField('step_stats'))
sess.run(constant_op.constant(1.0), options=run_options,
run_metadata=None)
self.assertTrue(not run_metadata.HasField('step_stats'))
sess.run(constant_op.constant(1.0), options=run_options,
run_metadata=run_metadata)
self.assertTrue(run_metadata.HasField('step_stats'))
self.assertEquals(len(run_metadata.step_stats.dev_stats), 1)
def testFeedShapeCompatibility(self):
with session.Session() as sess:
some_tensor = constant_op.constant([2.0, 2.0, 2.0, 2.0])
new_shape = constant_op.constant([2, 2])
reshaped_tensor = array_ops.reshape(some_tensor, new_shape)
with self.assertRaisesRegexp(ValueError, 'Cannot feed value of shape'):
sess.run(reshaped_tensor, feed_dict={some_tensor: [1.0, 2.0, 3.0]})
with self.assertRaisesRegexp(ValueError, 'may not be fed'):
sess.run(reshaped_tensor, feed_dict={new_shape: [3, 7]})
def testInferShapesFalse(self):
with ops.Graph().as_default(), ops.device('/cpu:0'):
a = constant_op.constant([[1, 2]])
sess = session.Session()
self.assertFalse('_output_shapes' in sess.graph_def.node[0].attr)
# Avoid lint error regarding 'unused' var a.
self.assertTrue(a == a)
def testInferShapesTrue(self):
config = config_pb2.ConfigProto(
graph_options=config_pb2.GraphOptions(infer_shapes=True))
with ops.Graph().as_default(), ops.device('/cpu:0'):
a = constant_op.constant([[1, 2]])
sess = session.Session(config=config)
self.assertTrue('_output_shapes' in sess.graph_def.node[0].attr)
# Avoid lint error regarding 'unused' var a.
self.assertTrue(a == a)
def testBuildCostModel(self):
run_options = config_pb2.RunOptions()
config = config_pb2.ConfigProto(
allow_soft_placement=True,
graph_options=config_pb2.GraphOptions(build_cost_model=100))
with session.Session(config=config) as sess:
with ops.device('/device:GPU:0'):
a = array_ops.placeholder(dtypes.float32, shape=[])
b = math_ops.add(a, a)
c = array_ops.identity(b)
d = math_ops.multiply(c, c)
for step in xrange(120):
run_metadata = config_pb2.RunMetadata()
sess.run(d, feed_dict={a: 1.0},
options=run_options, run_metadata=run_metadata)
if step == 99:
self.assertTrue(run_metadata.HasField('cost_graph'))
else:
self.assertFalse(run_metadata.HasField('cost_graph'))
def runTestOutputPartitionGraphs(self, sess):
run_options = config_pb2.RunOptions(output_partition_graphs=True)
a = constant_op.constant(1)
run_metadata = config_pb2.RunMetadata()
sess.run(a, options=run_options, run_metadata=run_metadata)
self.assertGreater(len(run_metadata.partition_graphs), 0)
sess.run(a, run_metadata=run_metadata)
self.assertEqual(len(run_metadata.partition_graphs), 0)
def testOutputPartitionGraphsDirect(self):
self.runTestOutputPartitionGraphs(session.Session())
def testOutputPartitionGraphsDistributed(self):
server = server_lib.Server.create_local_server()
self.runTestOutputPartitionGraphs(session.Session(server.target))
def testNonInteractiveSessionNesting(self):
sess1 = session.Session()
sess1_controller = sess1.as_default()
sess1_controller.__enter__()
sess2 = session.Session()
sess2_controller = sess2.as_default()
sess2_controller.__enter__()
with self.assertRaisesRegexp(AssertionError, 'Nesting violated'):
sess1_controller.__exit__(None, None, None)
ops._default_session_stack.reset()
def testInteractiveSessionNesting(self):
sess1 = session.InteractiveSession()
sess2 = session.InteractiveSession()
del sess1
del sess2
def testAsDefault(self):
c = constant_op.constant(37)
sess = session.Session()
with sess.as_default():
self.assertEqual(37, c.eval())
# Ensure that the session remains valid even when it is not captured.
with session.Session().as_default():
self.assertEqual(37, c.eval())
def testReentry(self):
sess = session.Session()
with self.assertRaisesRegexp(RuntimeError, 'not re-entrant'):
with sess:
with sess:
pass
def testInvalidArgument(self):
with self.assertRaisesRegexp(TypeError, 'target must be a string'):
session.Session(37)
with self.assertRaisesRegexp(TypeError, 'config must be a tf.ConfigProto'):
session.Session(config=37)
with self.assertRaisesRegexp(TypeError, 'graph must be a tf.Graph'):
session.Session(graph=37)
def testTimeoutWithShortOperations(self):
num_epochs = 5
q = data_flow_ops.FIFOQueue(
capacity=50, dtypes=[dtypes.int32], shapes=[()])
enqueue_op = q.enqueue_many(constant_op.constant([1, 2]))
# Use a 10-second timeout, which should be longer than any
# non-blocking enqueue_many op.
config = config_pb2.ConfigProto(operation_timeout_in_ms=10000)
with session.Session(config=config) as sess:
for _ in range(num_epochs):
sess.run(enqueue_op)
self.assertEqual(sess.run(q.size()), num_epochs * 2)
@test_util.disable_c_api # set_device does not work with C API
def testRegisterFetchAndFeedConversionFunctions(self):
class SquaredTensor(object):
def __init__(self, tensor):
self.sq = math_ops.square(tensor)
fetch_fn = lambda squared_tensor: ([squared_tensor.sq], lambda val: val[0])
feed_fn1 = lambda feed, feed_val: [(feed.sq, feed_val)]
feed_fn2 = lambda feed: [feed.sq]
session.register_session_run_conversion_functions(SquaredTensor, fetch_fn,
feed_fn1, feed_fn2)
with self.assertRaises(ValueError):
session.register_session_run_conversion_functions(SquaredTensor,
fetch_fn, feed_fn1, feed_fn2)
with self.test_session() as sess:
np1 = np.array([1.0, 1.5, 2.0, 2.5])
np2 = np.array([3.0, 3.5, 4.0, 4.5])
squared_tensor = SquaredTensor(np2)
squared_eval = sess.run(squared_tensor)
self.assertAllClose(np2 * np2, squared_eval)
squared_eval = sess.run(squared_tensor, feed_dict={
squared_tensor : np1 * np1})
self.assertAllClose(np1 * np1, squared_eval)
partial_run = sess.partial_run_setup([squared_tensor], [])
squared_eval = sess.partial_run(partial_run, squared_tensor)
self.assertAllClose(np2 * np2, squared_eval)
def testDefaultLogDevicePlacement(self):
class CaptureStderr(str):
"""Class to capture stderr from C++ shared library."""
def __enter__(self):
self._esc = compat.as_str('\b')
self._output = compat.as_str('')
self._stderr = sys.stderr
self._fd = self._stderr.fileno()
self._out_pipe, in_pipe = os.pipe()
# Save the original io stream.
self._dup_fd = os.dup(self._fd)
# Replace the original io stream with in pipe.
os.dup2(in_pipe, self._fd)
return self
def __exit__(self, *args):
self._stderr.write(self._esc)
self._stderr.flush()
self.read()
os.close(self._out_pipe)
# Restore the original io stream.
os.dup2(self._dup_fd, self._fd)
def read(self):
while True:
data = os.read(self._out_pipe, 1)
if not data or compat.as_str(data) == self._esc:
break
self._output += compat.as_str(data)
def __str__(self):
return self._output
# Passing the config to the server, but not the session should still result
# in logging device placement.
config = config_pb2.ConfigProto(log_device_placement=True)
server = server_lib.Server.create_local_server(config=config)
a = constant_op.constant(1)
b = constant_op.constant(2)
c = a + b
with session.Session(server.target) as sess:
with CaptureStderr() as log:
sess.run(c)
# Ensure that we did log device placement.
self.assertTrue('/job:local/replica:0/task:0/device:CPU:0' in str(log),
str(log))
def testLocalMasterSessionTimeout(self):
# Test that the timeout passed in a config to the session works correctly.
config = config_pb2.ConfigProto(operation_timeout_in_ms=1000)
server = server_lib.Server.create_local_server()
q = data_flow_ops.FIFOQueue(1, dtypes.float32)
dequeued_t = q.dequeue()
with session.Session(server.target, config=config) as sess:
# Intentionally do not run any enqueue_ops so that dequeue will block
# until operation_timeout_in_ms.
with self.assertRaises(errors.DeadlineExceededError):
sess.run(dequeued_t)
def testDefaultServerTimeout(self):
# Test that the default server config timeout gets used when no Session
# config is provided.
config = config_pb2.ConfigProto(operation_timeout_in_ms=1000)
server = server_lib.Server.create_local_server(config=config)
q = data_flow_ops.FIFOQueue(1, dtypes.float32)
dequeued_t = q.dequeue()
with session.Session(server.target) as sess:
# Intentionally do not run any enqueue_ops so that dequeue will block
# until operation_timeout_in_ms.
with self.assertRaises(errors.DeadlineExceededError):
sess.run(dequeued_t)
def runTestBuildGraphError(self, sess):
# Ensure that errors from building the graph get propagated.
data = array_ops.placeholder(dtypes.float32, shape=[])
enter_1 = control_flow_ops.enter(data, 'foo_1', False)
enter_2 = control_flow_ops.enter(data, 'foo_2', False)
res = math_ops.add(enter_1, enter_2)
with self.assertRaisesOpError('has inputs from different frames'):
sess.run(res, feed_dict={data: 1.0})
def testBuildGraphErrorDirect(self):
self.runTestBuildGraphError(session.Session())
def testBuildGraphErrorDist(self):
server = server_lib.Server.create_local_server()
self.runTestBuildGraphError(session.Session(server.target))
def testDeviceAttributes(self):
attrs = session._DeviceAttributes(
'/job:worker/replica:0/task:3/device:CPU:2', 'TYPE', 1337)
self.assertEqual(1337, attrs.memory_limit_bytes)
self.assertEqual('/job:worker/replica:0/task:3/device:CPU:2', attrs.name)
self.assertEqual('TYPE', attrs.device_type)
str_repr = '%s' % attrs
self.assertTrue(str_repr.startswith('_DeviceAttributes'), str_repr)
def testDeviceAttributesCanonicalization(self):
attrs = session._DeviceAttributes('/job:worker/replica:0/task:3/cpu:1',
'TYPE', 1337)
self.assertEqual(1337, attrs.memory_limit_bytes)
self.assertEqual('/job:worker/replica:0/task:3/device:CPU:1', attrs.name)
self.assertEqual('TYPE', attrs.device_type)
str_repr = '%s' % attrs
self.assertTrue(str_repr.startswith('_DeviceAttributes'), str_repr)
def runTestAddFunctionToSession(self, target=''):
"""Add a function to a session after the graph has already been run."""
@function.Defun(dtypes.float32)
def foo(x):
return x + 1
x = constant_op.constant(1.0)
with session.Session(target=target) as sess:
sess.run(x)
f = foo(x)
result = sess.run(f)
self.assertEqual(result, 2.0)
@test_util.disable_c_api # functions don't work with C API
def testAddFunctionToSession(self):
self.runTestAddFunctionToSession()
@test_util.disable_c_api # functions don't work with C API
def testAddFunctionToGrpcSession(self):
server = server_lib.Server.create_local_server()
self.runTestAddFunctionToSession(server.target)
if __name__ == '__main__':
googletest.main()
| apache-2.0 |
mhnatiuk/phd_sociology_of_religion | scrapper/lib/python2.7/site-packages/scrapy/contrib/linkextractors/htmlparser.py | 11 | 2468 | """
HTMLParser-based link extractor
"""
from HTMLParser import HTMLParser
from urlparse import urljoin
from w3lib.url import safe_url_string
from scrapy.link import Link
from scrapy.utils.python import unique as unique_list
class HtmlParserLinkExtractor(HTMLParser):
def __init__(self, tag="a", attr="href", process=None, unique=False):
HTMLParser.__init__(self)
self.scan_tag = tag if callable(tag) else lambda t: t == tag
self.scan_attr = attr if callable(attr) else lambda a: a == attr
self.process_attr = process if callable(process) else lambda v: v
self.unique = unique
def _extract_links(self, response_text, response_url, response_encoding):
self.reset()
self.feed(response_text)
self.close()
links = unique_list(self.links, key=lambda link: link.url) if self.unique else self.links
ret = []
base_url = urljoin(response_url, self.base_url) if self.base_url else response_url
for link in links:
if isinstance(link.url, unicode):
link.url = link.url.encode(response_encoding)
link.url = urljoin(base_url, link.url)
link.url = safe_url_string(link.url, response_encoding)
link.text = link.text.decode(response_encoding)
ret.append(link)
return ret
def extract_links(self, response):
# wrapper needed to allow to work directly with text
return self._extract_links(response.body, response.url, response.encoding)
def reset(self):
HTMLParser.reset(self)
self.base_url = None
self.current_link = None
self.links = []
def handle_starttag(self, tag, attrs):
if tag == 'base':
self.base_url = dict(attrs).get('href')
if self.scan_tag(tag):
for attr, value in attrs:
if self.scan_attr(attr):
url = self.process_attr(value)
link = Link(url=url)
self.links.append(link)
self.current_link = link
def handle_endtag(self, tag):
if self.scan_tag(tag):
self.current_link = None
def handle_data(self, data):
if self.current_link:
self.current_link.text = self.current_link.text + data
def matches(self, url):
"""This extractor matches with any url, since
it doesn't contain any patterns"""
return True
| gpl-2.0 |
Cynary/distro6.01 | arch/6.01Soft/lib601-F13-4/build/lib/soar/io/io_useif.py | 2 | 3114 | #
# soar
# io.py - object-oriented interface to the robot
#
# This io file makes use of the "official" soar interface
# (sonarDistances, etc), and it is still ugly, since it relies on having
# a handle on the brain environment, but it is arguably neater than
# the io.py file. However it seems to introduce some kind of lag that
# makes the really complicated labs with localization stuff work poorly
import soar.util
from soar.util import *
robotRadius = 0.2
def configure_io(namespace):
# need to use global 'cause we don't want to accidentally overwrite
# the brain environ by setting it to None when io.py is imported
global io_environ
io_environ = namespace
class SensorInput():
global io_environ
"""
Represents one set of sensor readings from the robot, incluing
sonars, odometry, and readings from the analogInputs
"""
def __init__(self, cheat=False):
self.sonars = io_environ['sonarDistances']()
if cheat:
p = io_environ['cheatPose']()
else:
p = io_environ['pose']()
self.odometry = valueListToPose(p)
self.analogInputs = io_environ['analogInputs']()
def __str__(self):
return 'Sonar: ' + util.prettyString(self.sonars) + \
"; Odo: " + util.prettyString(self.odometry) +\
"; Analog: " + util.prettyString(self.analogInputs)
referenceVoltage = 5.0
class Action:
"""
One set of commands to send to the robot
"""
def __init__(self, fvel = 0.0, rvel = 0.0,
voltage = referenceVoltage,
discreteStepLength = None):
"""
@param fvel: signed number indicating forward velocity in m/s
@param rvel: signed number indicating rotational velocity in
rad/sec (?) positive is left, negative is right
@param voltage: voltage to send to analog input port of
control board; should be between 0 and 10v ??
@param discreteStepLength: if C{None}, then the robot
continues driving at the last commanded velocity until a new
action command is received; if set to a positive value, the
robot will drive at the last commanded velocity until
C{discreteStepLength} seconds have passed, and then stop.
Setting the step length to, e.g., 0.1, is useful when the
brain is doing so much computation that the robot drives too
far between steps.
"""
self.fvel = fvel
self.rvel = rvel
self.voltage = voltage
self.discreteStepLength = discreteStepLength
def execute(self):
if self.discreteStepLength:
io_environ['discreteMotorOutput'](self.fvel, self.rvel,
self.discreteStepLength)
else:
io_environ['motorOutput'](self.fvel, self.rvel)
io_environ['analogOutput'](self.voltage)
def __str__(self):
return 'Act: ' + \
util.prettyString([self.fvel, self.rvel, self.voltage])
def registerUserFunction(type, f):
io_environ['registerUserFunction'](type, f)
| mit |
wanghaoran1988/origin | cmd/cluster-capacity/go/src/github.com/kubernetes-incubator/cluster-capacity/vendor/k8s.io/kubernetes/cluster/juju/layers/kubernetes-e2e/reactive/kubernetes_e2e.py | 100 | 7192 | #!/usr/bin/env python
# Copyright 2015 The Kubernetes 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.
import os
from charms import layer
from charms.reactive import hook
from charms.reactive import is_state
from charms.reactive import remove_state
from charms.reactive import set_state
from charms.reactive import when
from charms.reactive import when_not
from charmhelpers.core import hookenv
from shlex import split
from subprocess import call
from subprocess import check_call
from subprocess import check_output
@hook('upgrade-charm')
def reset_delivery_states():
''' Remove the state set when resources are unpacked. '''
remove_state('kubernetes-e2e.installed')
@when('kubernetes-e2e.installed')
def messaging():
''' Probe our relations to determine the propper messaging to the
end user '''
missing_services = []
if not is_state('kubernetes-master.available'):
missing_services.append('kubernetes-master')
if not is_state('certificates.available'):
missing_services.append('certificates')
if missing_services:
if len(missing_services) > 1:
subject = 'relations'
else:
subject = 'relation'
services = ','.join(missing_services)
message = 'Missing {0}: {1}'.format(subject, services)
hookenv.status_set('blocked', message)
return
hookenv.status_set('active', 'Ready to test.')
@when_not('kubernetes-e2e.installed')
def install_kubernetes_e2e():
''' Deliver the e2e and kubectl components from the binary resource stream
packages declared in the charm '''
charm_dir = os.getenv('CHARM_DIR')
arch = determine_arch()
# Get the resource via resource_get
resource = 'e2e_{}'.format(arch)
try:
archive = hookenv.resource_get(resource)
except Exception:
message = 'Error fetching the {} resource.'.format(resource)
hookenv.log(message)
hookenv.status_set('blocked', message)
return
if not archive:
hookenv.log('Missing {} resource.'.format(resource))
hookenv.status_set('blocked', 'Missing {} resource.'.format(resource))
return
# Handle null resource publication, we check if filesize < 1mb
filesize = os.stat(archive).st_size
if filesize < 1000000:
hookenv.status_set('blocked',
'Incomplete {} resource.'.format(resource))
return
hookenv.status_set('maintenance',
'Unpacking {} resource.'.format(resource))
unpack_path = '{}/files/kubernetes'.format(charm_dir)
os.makedirs(unpack_path, exist_ok=True)
cmd = ['tar', 'xfvz', archive, '-C', unpack_path]
hookenv.log(cmd)
check_call(cmd)
services = ['e2e.test', 'ginkgo', 'kubectl']
for service in services:
unpacked = '{}/{}'.format(unpack_path, service)
app_path = '/usr/local/bin/{}'.format(service)
install = ['install', '-v', unpacked, app_path]
call(install)
set_state('kubernetes-e2e.installed')
@when('tls_client.ca.saved', 'tls_client.client.certificate.saved',
'tls_client.client.key.saved', 'kubernetes-master.available',
'kubernetes-e2e.installed')
@when_not('kubeconfig.ready')
def prepare_kubeconfig_certificates(master):
''' Prepare the data to feed to create the kubeconfig file. '''
layer_options = layer.options('tls-client')
# Get all the paths to the tls information required for kubeconfig.
ca = layer_options.get('ca_certificate_path')
key = layer_options.get('client_key_path')
cert = layer_options.get('client_certificate_path')
servers = get_kube_api_servers(master)
# pedantry
kubeconfig_path = '/home/ubuntu/.kube/config'
# Create kubernetes configuration in the default location for ubuntu.
create_kubeconfig('/root/.kube/config', servers[0], ca, key, cert,
user='root')
create_kubeconfig(kubeconfig_path, servers[0], ca, key, cert,
user='ubuntu')
# Set permissions on the ubuntu users kubeconfig to ensure a consistent UX
cmd = ['chown', 'ubuntu:ubuntu', kubeconfig_path]
check_call(cmd)
set_state('kubeconfig.ready')
@when('kubernetes-e2e.installed', 'kubeconfig.ready')
def set_app_version():
''' Declare the application version to juju '''
cmd = ['kubectl', 'version', '--client']
from subprocess import CalledProcessError
try:
version = check_output(cmd).decode('utf-8')
except CalledProcessError:
message = "Missing kubeconfig causes errors. Skipping version set."
hookenv.log(message)
return
git_version = version.split('GitVersion:"v')[-1]
version_from = git_version.split('",')[0]
hookenv.application_version_set(version_from.rstrip())
def create_kubeconfig(kubeconfig, server, ca, key, certificate, user='ubuntu',
context='juju-context', cluster='juju-cluster'):
'''Create a configuration for Kubernetes based on path using the supplied
arguments for values of the Kubernetes server, CA, key, certificate, user
context and cluster.'''
# Create the config file with the address of the master server.
cmd = 'kubectl config --kubeconfig={0} set-cluster {1} ' \
'--server={2} --certificate-authority={3} --embed-certs=true'
check_call(split(cmd.format(kubeconfig, cluster, server, ca)))
# Create the credentials using the client flags.
cmd = 'kubectl config --kubeconfig={0} set-credentials {1} ' \
'--client-key={2} --client-certificate={3} --embed-certs=true'
check_call(split(cmd.format(kubeconfig, user, key, certificate)))
# Create a default context with the cluster.
cmd = 'kubectl config --kubeconfig={0} set-context {1} ' \
'--cluster={2} --user={3}'
check_call(split(cmd.format(kubeconfig, context, cluster, user)))
# Make the config use this new context.
cmd = 'kubectl config --kubeconfig={0} use-context {1}'
check_call(split(cmd.format(kubeconfig, context)))
def get_kube_api_servers(master):
'''Return the kubernetes api server address and port for this
relationship.'''
hosts = []
# Iterate over every service from the relation object.
for service in master.services():
for unit in service['hosts']:
hosts.append('https://{0}:{1}'.format(unit['hostname'],
unit['port']))
return hosts
def determine_arch():
''' dpkg wrapper to surface the architecture we are tied to'''
cmd = ['dpkg', '--print-architecture']
output = check_output(cmd).decode('utf-8')
return output.rstrip()
| apache-2.0 |
darryncampbell/KerrieWorking-Angular | app/bower_components/bootstrap/test-infra/s3_cache.py | 1700 | 3523 | #!/usr/bin/env python2.7
from __future__ import absolute_import, unicode_literals, print_function, division
from sys import argv
from os import environ, stat, remove as _delete_file
from os.path import isfile, dirname, basename, abspath
from hashlib import sha256
from subprocess import check_call as run
from boto.s3.connection import S3Connection
from boto.s3.key import Key
from boto.exception import S3ResponseError
NEED_TO_UPLOAD_MARKER = '.need-to-upload'
BYTES_PER_MB = 1024 * 1024
try:
BUCKET_NAME = environ['TWBS_S3_BUCKET']
except KeyError:
raise SystemExit("TWBS_S3_BUCKET environment variable not set!")
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 _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))
run(['tar', '-czf', _tarball_filename_for(directory), '-C', dirname(directory), basename(directory)])
def _extract_tarball(directory):
print("Extracting tarball of {}...".format(directory))
run(['tar', '-xzf', _tarball_filename_for(directory), '-C', dirname(directory)])
def download(directory):
_delete_file_quietly(NEED_TO_UPLOAD_MARKER)
try:
print("Downloading {} tarball from S3...".format(friendly_name))
key.get_contents_to_filename(_tarball_filename_for(directory))
except S3ResponseError as err:
open(NEED_TO_UPLOAD_MARKER, 'a').close()
print(err)
raise SystemExit("Cached {} download failed!".format(friendly_name))
print("Downloaded {}.".format(_tarball_size(directory)))
_extract_tarball(directory)
print("{} successfully installed from cache.".format(friendly_name))
def upload(directory):
_create_tarball(directory)
print("Uploading {} tarball to S3... ({})".format(friendly_name, _tarball_size(directory)))
key.set_contents_from_filename(_tarball_filename_for(directory))
print("{} cache successfully updated.".format(friendly_name))
_delete_file_quietly(NEED_TO_UPLOAD_MARKER)
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) != 4:
raise SystemExit("USAGE: s3_cache.py <download | upload> <friendly name> <dependencies file> <directory>")
mode, friendly_name, dependencies_file, directory = argv
conn = S3Connection()
bucket = conn.lookup(BUCKET_NAME, validate=False)
if bucket is None:
raise SystemExit("Could not access bucket!")
dependencies_file_hash = _sha256_of_file(dependencies_file)
key = Key(bucket, dependencies_file_hash)
key.storage_class = 'REDUCED_REDUNDANCY'
if mode == 'download':
download(directory)
elif mode == 'upload':
if isfile(NEED_TO_UPLOAD_MARKER): # FIXME
upload(directory)
else:
print("No need to upload anything.")
else:
raise SystemExit("Unrecognized mode {!r}".format(mode))
| mit |
njvack/ge-mri-rtafni | scanner-console/vendor/dicom/contrib/imViewer_Simple.py | 4 | 12358 | #==========================================================================
# imViewer-Simple.py
#
# An example program that opens uncompressed DICOM images and
# converts them via numPy and PIL to be viewed in wxWidgets GUI
# apps. The conversion is currently:
#
# pydicom->NumPy->PIL->wxPython.Image->wxPython.Bitmap
#
# Gruesome but it mostly works. Surely there is at least one
# of these steps that could be eliminated (probably PIL) but
# haven't tried that yet and I may want some of the PIL manipulation
# functions.
#
# This won't handle RLE, embedded JPEG-Lossy, JPEG-lossless,
# JPEG2000, old ACR/NEMA files, or anything wierd. Also doesn't
# handle some RGB images that I tried.
#
# Have added Adit Panchal's LUT code. It helps a lot, but needs
# to be further generalized. Added test for window and/or level
# as 'list' type - crude, but it worked for a bunch of old MR and
# CT slices I have.
#
# Testing: minimal
# Tried only on WinXP sp2 using numpy 1.3.0
# and PIL 1.1.7b1, Python 2.6.4, and wxPython 2.8.10.1
#
# Dave Witten: Nov. 11, 2009
#==========================================================================
import os
import os.path
import sys
import dicom
import wx
have_PIL = True
try:
import PIL.Image
except:
have_PIL = False
have_numpy = True
try:
import numpy as np
except:
have_numpy = False
#----------------------------------------------------------------
# Initialize image capabilities.
#----------------------------------------------------------------
wx.InitAllImageHandlers()
def MsgDlg(window, string, caption='OFAImage', style=wx.YES_NO | wx.CANCEL):
"""Common MessageDialog."""
dlg = wx.MessageDialog(window, string, caption, style)
result = dlg.ShowModal()
dlg.Destroy()
return result
class ImFrame(wx.Frame):
"""Class for main window."""
def __init__(self, parent, title):
"""Create the pydicom image example's main frame window."""
wx.Frame.__init__(self, parent, id=-1, title="", pos=wx.DefaultPosition,
size=wx.Size(w=1024, h=768),
style=wx.DEFAULT_FRAME_STYLE | wx.SUNKEN_BORDER | wx.CLIP_CHILDREN)
#--------------------------------------------------------
# Set up the menubar.
#--------------------------------------------------------
self.mainmenu = wx.MenuBar()
# Make the 'File' menu.
menu = wx.Menu()
item = menu.Append(wx.ID_ANY, '&Open', 'Open file for editing')
self.Bind(wx.EVT_MENU, self.OnFileOpen, item)
item = menu.Append(wx.ID_ANY, 'E&xit', 'Exit Program')
self.Bind(wx.EVT_MENU, self.OnFileExit, item)
self.mainmenu.Append(menu, '&File')
# Attach the menu bar to the window.
self.SetMenuBar(self.mainmenu)
#--------------------------------------------------------
# Set up the main splitter window.
#--------------------------------------------------------
self.mainSplitter = wx.SplitterWindow(self, style=wx.NO_3D | wx.SP_3D)
self.mainSplitter.SetMinimumPaneSize(1)
#-------------------------------------------------------------
# Create the folderTreeView on the left.
#-------------------------------------------------------------
self.dsTreeView = wx.TreeCtrl(self.mainSplitter, style=wx.TR_LINES_AT_ROOT | wx.TR_HAS_BUTTONS)
#--------------------------------------------------------
# Create the ImageView on the right pane.
#--------------------------------------------------------
self.imView = wx.Panel(self.mainSplitter, style=wx.VSCROLL | wx.HSCROLL | wx.CLIP_CHILDREN)
self.imView.Bind(wx.EVT_PAINT, self.OnPaint)
self.imView.Bind(wx.EVT_ERASE_BACKGROUND, self.OnEraseBackground)
self.imView.Bind(wx.EVT_SIZE, self.OnSize)
#--------------------------------------------------------
# Install the splitter panes.
#--------------------------------------------------------
self.mainSplitter.SplitVertically(self.dsTreeView, self.imView)
self.mainSplitter.SetSashPosition(300, True)
#--------------------------------------------------------
# Initialize some values
#--------------------------------------------------------
self.dcmdsRoot = False
self.foldersRoot = False
self.loadCentered = True
self.bitmap = None
self.Show(True)
def OnFileExit(self, event):
"""Exits the program."""
self.Destroy()
event.Skip()
def OnSize(self, event):
"Window 'size' event."
self.Refresh()
def OnEraseBackground(self, event):
"Window 'erase background' event."
pass
def populateTree(self, ds):
""" Populate the tree in the left window with the [desired]
dataset values"""
if not self.dcmdsRoot:
self.dcmdsRoot = self.dsTreeView.AddRoot(text="DICOM Objects")
else:
self.dsTreeView.DeleteChildren(self.dcmdsRoot)
self.recurse_tree(ds, self.dcmdsRoot)
self.dsTreeView.ExpandAll()
def recurse_tree(self, ds, parent, hide=False):
""" order the dicom tags """
for data_element in ds:
if isinstance(data_element.value, unicode):
ip = self.dsTreeView.AppendItem(parent, text=unicode(data_element))
else:
ip = self.dsTreeView.AppendItem(parent, text=str(data_element))
if data_element.VR == "SQ":
for i, ds in enumerate(data_element.value):
sq_item_description = data_element.name.replace(" Sequence", "")
item_text = "%s %d" % (sq_item_description, i + 1)
parentNodeID = self.dsTreeView.AppendItem(ip, text=item_text.rjust(128))
self.recurse_tree(ds, parentNodeID)
## --- Most of what is important happens below this line ---------------------
def OnFileOpen(self, event):
"""Opens a selected file."""
dlg = wx.FileDialog(self, 'Choose a file to add.', '', '', '*.*', wx.OPEN)
if dlg.ShowModal() == wx.ID_OK:
fullPath = dlg.GetPath()
imageFile = dlg.GetFilename()
#checkDICMHeader()
self.show_file(imageFile, fullPath)
def OnPaint(self, event):
"Window 'paint' event."
dc = wx.PaintDC(self.imView)
dc = wx.BufferedDC(dc)
# paint a background just so it isn't *so* boring.
dc.SetBackground(wx.Brush("WHITE"))
dc.Clear()
dc.SetBrush(wx.Brush("GREY", wx.CROSSDIAG_HATCH))
windowsize = self.imView.GetSizeTuple()
dc.DrawRectangle(0, 0, windowsize[0], windowsize[1])
bmpX0 = 0
bmpY0 = 0
if self.bitmap is not None:
if self.loadCentered:
bmpX0 = (windowsize[0] - self.bitmap.Width) / 2
bmpY0 = (windowsize[1] - self.bitmap.Height) / 2
dc.DrawBitmap(self.bitmap, bmpX0, bmpY0, False)
#------------------------------------------------------------
# ImFrame.ConvertWXToPIL()
# Expropriated from Andrea Gavana's
# ShapedButton.py in the wxPython dist
#------------------------------------------------------------
def ConvertWXToPIL(self, bmp):
""" Convert wx.Image Into PIL Image. """
width = bmp.GetWidth()
height = bmp.GetHeight()
im = wx.EmptyImage(width, height)
im.fromarray("RGBA", (width, height), bmp.GetData())
return img
#------------------------------------------------------------
# ImFrame.ConvertPILToWX()
# Expropriated from Andrea Gavana's
# ShapedButton.py in the wxPython dist
#------------------------------------------------------------
def ConvertPILToWX(self, pil, alpha=True):
""" Convert PIL Image Into wx.Image. """
if alpha:
image = apply(wx.EmptyImage, pil.size)
image.SetData(pil.convert("RGB").tostring())
image.SetAlphaData(pil.convert("RGBA").tostring()[3::4])
else:
image = wx.EmptyImage(pil.size[0], pil.size[1])
new_image = pil.convert('RGB')
data = new_image.tostring()
image.SetData(data)
return image
def get_LUT_value(self, data, window, level):
"""Apply the RGB Look-Up Table for the given data and window/level value."""
if not have_numpy:
raise ImportError("Numpy is not available. See http://numpy.scipy.org/ to download and install")
if isinstance(window, list):
window = window[0]
if isinstance(level, list):
level = level[0]
return np.piecewise(data,
[data <= (level - 0.5 - (window - 1) / 2),
data > (level - 0.5 + (window - 1) / 2)],
[0, 255, lambda data: ((data - (level - 0.5)) / (window - 1) + 0.5) * (255 - 0)]
)
#-----------------------------------------------------------
# ImFrame.loadPIL_LUT(dataset)
# Display an image using the Python Imaging Library (PIL)
#-----------------------------------------------------------
def loadPIL_LUT(self, dataset):
if not have_PIL:
raise ImportError("Python Imaging Library is not available. See http://www.pythonware.com/products/pil/ to download and install")
if('PixelData' not in dataset):
raise TypeError("Cannot show image -- DICOM dataset does not have pixel data")
if('WindowWidth' not in dataset) or ('WindowCenter' not in dataset): # can only apply LUT if these values exist
bits = dataset.BitsAllocated
samples = dataset.SamplesPerPixel
if bits == 8 and samples == 1:
mode = "L"
elif bits == 8 and samples == 3:
mode = "RGB"
elif bits == 16: # not sure about this -- PIL source says is 'experimental' and no documentation.
mode = "I;16" # Also, should bytes swap depending on endian of file and system??
else:
raise TypeError("Don't know PIL mode for %d BitsAllocated and %d SamplesPerPixel" % (bits, samples))
size = (dataset.Columns, dataset.Rows)
im = PIL.Image.frombuffer(mode, size, dataset.PixelData, "raw", mode, 0, 1) # Recommended to specify all details by http://www.pythonware.com/library/pil/handbook/image.htm
else:
image = self.get_LUT_value(dataset.pixel_array, dataset.WindowWidth, dataset.WindowCenter)
im = PIL.Image.fromarray(image).convert('L') # Convert mode to L since LUT has only 256 values: http://www.pythonware.com/library/pil/handbook/image.htm
return im
def show_file(self, imageFile, fullPath):
""" Load the DICOM file, make sure it contains at least one
image, and set it up for display by OnPaint(). ** be
careful not to pass a unicode string to read_file or it will
give you 'fp object does not have a defer_size attribute,
or some such."""
ds = dicom.read_file(str(fullPath))
ds.decode() # change strings to unicode
self.populateTree(ds)
if 'PixelData' in ds:
self.dImage = self.loadPIL_LUT(ds)
if self.dImage is not None:
tmpImage = self.ConvertPILToWX(self.dImage, False)
self.bitmap = wx.BitmapFromImage(tmpImage)
self.Refresh()
##------ This is just the initialization of the App -------------------------
#=======================================================
# The main App Class.
#=======================================================
class App(wx.App):
"""Image Application."""
def OnInit(self):
"""Create the Image Application."""
frame = ImFrame(None, 'wxImage Example')
return True
#---------------------------------------------------------------------
# If this file is running as main or a standalone test, begin execution here.
#---------------------------------------------------------------------
if __name__ == '__main__':
app = App(0)
app.MainLoop()
| mit |
vadimtk/chrome4sdp | tools/telemetry/third_party/gsutilz/third_party/pyasn1/test/type/test_constraint.py | 53 | 8746 | from pyasn1.type import constraint, error
from pyasn1.error import PyAsn1Error
from sys import version_info
if version_info[0:2] < (2, 7) or \
version_info[0:2] in ( (3, 0), (3, 1) ):
try:
import unittest2 as unittest
except ImportError:
import unittest
else:
import unittest
class SingleValueConstraintTestCase(unittest.TestCase):
def setUp(self):
self.c1 = constraint.SingleValueConstraint(1,2)
self.c2 = constraint.SingleValueConstraint(3,4)
def testCmp(self): assert self.c1 == self.c1, 'comparation fails'
def testHash(self): assert hash(self.c1) != hash(self.c2), 'hash() fails'
def testGoodVal(self):
try:
self.c1(1)
except error.ValueConstraintError:
assert 0, 'constraint check fails'
def testBadVal(self):
try:
self.c1(4)
except error.ValueConstraintError:
pass
else:
assert 0, 'constraint check fails'
class ContainedSubtypeConstraintTestCase(unittest.TestCase):
def setUp(self):
self.c1 = constraint.ContainedSubtypeConstraint(
constraint.SingleValueConstraint(12)
)
def testGoodVal(self):
try:
self.c1(12)
except error.ValueConstraintError:
assert 0, 'constraint check fails'
def testBadVal(self):
try:
self.c1(4)
except error.ValueConstraintError:
pass
else:
assert 0, 'constraint check fails'
class ValueRangeConstraintTestCase(unittest.TestCase):
def setUp(self):
self.c1 = constraint.ValueRangeConstraint(1,4)
def testGoodVal(self):
try:
self.c1(1)
except error.ValueConstraintError:
assert 0, 'constraint check fails'
def testBadVal(self):
try:
self.c1(-5)
except error.ValueConstraintError:
pass
else:
assert 0, 'constraint check fails'
class ValueSizeConstraintTestCase(unittest.TestCase):
def setUp(self):
self.c1 = constraint.ValueSizeConstraint(1,2)
def testGoodVal(self):
try:
self.c1('a')
except error.ValueConstraintError:
assert 0, 'constraint check fails'
def testBadVal(self):
try:
self.c1('abc')
except error.ValueConstraintError:
pass
else:
assert 0, 'constraint check fails'
class PermittedAlphabetConstraintTestCase(SingleValueConstraintTestCase):
def setUp(self):
self.c1 = constraint.PermittedAlphabetConstraint('A', 'B', 'C')
self.c2 = constraint.PermittedAlphabetConstraint('DEF')
def testGoodVal(self):
try:
self.c1('A')
except error.ValueConstraintError:
assert 0, 'constraint check fails'
def testBadVal(self):
try:
self.c1('E')
except error.ValueConstraintError:
pass
else:
assert 0, 'constraint check fails'
class ConstraintsIntersectionTestCase(unittest.TestCase):
def setUp(self):
self.c1 = constraint.ConstraintsIntersection(
constraint.SingleValueConstraint(4),
constraint.ValueRangeConstraint(2, 4)
)
def testCmp1(self):
assert constraint.SingleValueConstraint(4) in self.c1, '__cmp__() fails'
def testCmp2(self):
assert constraint.SingleValueConstraint(5) not in self.c1, \
'__cmp__() fails'
def testCmp3(self):
c = constraint.ConstraintsUnion(constraint.ConstraintsIntersection(
constraint.SingleValueConstraint(4),
constraint.ValueRangeConstraint(2, 4)
))
assert self.c1 in c, '__cmp__() fails'
def testCmp4(self):
c = constraint.ConstraintsUnion(
constraint.ConstraintsIntersection(constraint.SingleValueConstraint(5))
)
assert self.c1 not in c, '__cmp__() fails'
def testGoodVal(self):
try:
self.c1(4)
except error.ValueConstraintError:
assert 0, 'constraint check fails'
def testBadVal(self):
try:
self.c1(-5)
except error.ValueConstraintError:
pass
else:
assert 0, 'constraint check fails'
class InnerTypeConstraintTestCase(unittest.TestCase):
def testConst1(self):
c = constraint.InnerTypeConstraint(
constraint.SingleValueConstraint(4)
)
try:
c(4, 32)
except error.ValueConstraintError:
assert 0, 'constraint check fails'
try:
c(5, 32)
except error.ValueConstraintError:
pass
else:
assert 0, 'constraint check fails'
def testConst2(self):
c = constraint.InnerTypeConstraint(
(0, constraint.SingleValueConstraint(4), 'PRESENT'),
(1, constraint.SingleValueConstraint(4), 'ABSENT')
)
try:
c(4, 0)
except error.ValueConstraintError:
raise
assert 0, 'constraint check fails'
try:
c(4, 1)
except error.ValueConstraintError:
pass
else:
assert 0, 'constraint check fails'
try:
c(3, 0)
except error.ValueConstraintError:
pass
else:
assert 0, 'constraint check fails'
# Constraints compositions
class ConstraintsIntersectionTestCase(unittest.TestCase):
def setUp(self):
self.c1 = constraint.ConstraintsIntersection(
constraint.ValueRangeConstraint(1, 9),
constraint.ValueRangeConstraint(2, 5)
)
def testGoodVal(self):
try:
self.c1(3)
except error.ValueConstraintError:
assert 0, 'constraint check fails'
def testBadVal(self):
try:
self.c1(0)
except error.ValueConstraintError:
pass
else:
assert 0, 'constraint check fails'
class ConstraintsUnionTestCase(unittest.TestCase):
def setUp(self):
self.c1 = constraint.ConstraintsUnion(
constraint.SingleValueConstraint(5),
constraint.ValueRangeConstraint(1, 3)
)
def testGoodVal(self):
try:
self.c1(2)
self.c1(5)
except error.ValueConstraintError:
assert 0, 'constraint check fails'
def testBadVal(self):
try:
self.c1(-5)
except error.ValueConstraintError:
pass
else:
assert 0, 'constraint check fails'
class ConstraintsExclusionTestCase(unittest.TestCase):
def setUp(self):
self.c1 = constraint.ConstraintsExclusion(
constraint.ValueRangeConstraint(2, 4)
)
def testGoodVal(self):
try:
self.c1(6)
except error.ValueConstraintError:
assert 0, 'constraint check fails'
def testBadVal(self):
try:
self.c1(2)
except error.ValueConstraintError:
pass
else:
assert 0, 'constraint check fails'
# Constraints derivations
class DirectDerivationTestCase(unittest.TestCase):
def setUp(self):
self.c1 = constraint.SingleValueConstraint(5)
self.c2 = constraint.ConstraintsUnion(
self.c1, constraint.ValueRangeConstraint(1, 3)
)
def testGoodVal(self):
assert self.c1.isSuperTypeOf(self.c2), 'isSuperTypeOf failed'
assert not self.c1.isSubTypeOf(self.c2) , 'isSubTypeOf failed'
def testBadVal(self):
assert not self.c2.isSuperTypeOf(self.c1) , 'isSuperTypeOf failed'
assert self.c2.isSubTypeOf(self.c1) , 'isSubTypeOf failed'
class IndirectDerivationTestCase(unittest.TestCase):
def setUp(self):
self.c1 = constraint.ConstraintsIntersection(
constraint.ValueRangeConstraint(1, 30)
)
self.c2 = constraint.ConstraintsIntersection(
self.c1, constraint.ValueRangeConstraint(1, 20)
)
self.c2 = constraint.ConstraintsIntersection(
self.c2, constraint.ValueRangeConstraint(1, 10)
)
def testGoodVal(self):
assert self.c1.isSuperTypeOf(self.c2), 'isSuperTypeOf failed'
assert not self.c1.isSubTypeOf(self.c2) , 'isSubTypeOf failed'
def testBadVal(self):
assert not self.c2.isSuperTypeOf(self.c1) , 'isSuperTypeOf failed'
assert self.c2.isSubTypeOf(self.c1) , 'isSubTypeOf failed'
if __name__ == '__main__': unittest.main()
# how to apply size constriants to constructed types?
| bsd-3-clause |
pschmitt/home-assistant | homeassistant/components/tof/sensor.py | 11 | 3309 | """Platform for Time of Flight sensor VL53L1X from STMicroelectronics."""
import asyncio
from functools import partial
import logging
from VL53L1X2 import VL53L1X # pylint: disable=import-error
import voluptuous as vol
from homeassistant.components import rpi_gpio
from homeassistant.components.sensor import PLATFORM_SCHEMA
from homeassistant.const import CONF_NAME
import homeassistant.helpers.config_validation as cv
from homeassistant.helpers.entity import Entity
_LOGGER = logging.getLogger(__name__)
LENGTH_MILLIMETERS = "mm"
CONF_I2C_ADDRESS = "i2c_address"
CONF_I2C_BUS = "i2c_bus"
CONF_XSHUT = "xshut"
DEFAULT_NAME = "VL53L1X"
DEFAULT_I2C_ADDRESS = 0x29
DEFAULT_I2C_BUS = 1
DEFAULT_XSHUT = 16
DEFAULT_RANGE = 2
PLATFORM_SCHEMA = PLATFORM_SCHEMA.extend(
{
vol.Optional(CONF_NAME, default=DEFAULT_NAME): cv.string,
vol.Optional(CONF_I2C_ADDRESS, default=DEFAULT_I2C_ADDRESS): vol.Coerce(int),
vol.Optional(CONF_I2C_BUS, default=DEFAULT_I2C_BUS): vol.Coerce(int),
vol.Optional(CONF_XSHUT, default=DEFAULT_XSHUT): cv.positive_int,
}
)
def init_tof_0(xshut, sensor):
"""XSHUT port LOW resets the device."""
sensor.open()
rpi_gpio.setup_output(xshut)
rpi_gpio.write_output(xshut, 0)
def init_tof_1(xshut):
"""XSHUT port HIGH enables the device."""
rpi_gpio.setup_output(xshut)
rpi_gpio.write_output(xshut, 1)
async def async_setup_platform(hass, config, async_add_entities, discovery_info=None):
"""Reset and initialize the VL53L1X ToF Sensor from STMicroelectronics."""
name = config.get(CONF_NAME)
bus_number = config.get(CONF_I2C_BUS)
i2c_address = config.get(CONF_I2C_ADDRESS)
unit = LENGTH_MILLIMETERS
xshut = config.get(CONF_XSHUT)
sensor = await hass.async_add_executor_job(partial(VL53L1X, bus_number))
await hass.async_add_executor_job(init_tof_0, xshut, sensor)
await asyncio.sleep(0.01)
await hass.async_add_executor_job(init_tof_1, xshut)
await asyncio.sleep(0.01)
dev = [VL53L1XSensor(sensor, name, unit, i2c_address)]
async_add_entities(dev, True)
class VL53L1XSensor(Entity):
"""Implementation of VL53L1X sensor."""
def __init__(self, vl53l1x_sensor, name, unit, i2c_address):
"""Initialize the sensor."""
self._name = name
self._unit_of_measurement = unit
self.vl53l1x_sensor = vl53l1x_sensor
self.i2c_address = i2c_address
self._state = None
self.init = True
@property
def name(self) -> str:
"""Return the name of the sensor."""
return self._name
@property
def state(self) -> int:
"""Return the state of the sensor."""
return self._state
@property
def unit_of_measurement(self) -> str:
"""Return the unit of measurement."""
return self._unit_of_measurement
def update(self):
"""Get the latest measurement and update state."""
if self.init:
self.vl53l1x_sensor.add_sensor(self.i2c_address, self.i2c_address)
self.init = False
self.vl53l1x_sensor.start_ranging(self.i2c_address, DEFAULT_RANGE)
self.vl53l1x_sensor.update(self.i2c_address)
self.vl53l1x_sensor.stop_ranging(self.i2c_address)
self._state = self.vl53l1x_sensor.distance
| apache-2.0 |
claneys/shinken | test/test_servicetpl_no_hostname.py | 18 | 2049 | #!/usr/bin/env python
# Copyright (C) 2009-2014:
# Gabes Jean, naparuba@gmail.com
# Gerhard Lausser, Gerhard.Lausser@consol.de
#
# This file is part of Shinken.
#
# Shinken 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.
#
# Shinken 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 Shinken. If not, see <http://www.gnu.org/licenses/>.
#
# This file is used to test reading and processing of config files
#
from shinken_test import *
class TestsericeTplNoHostname(ShinkenTest):
def setUp(self):
self.setup_with_file('etc/shinken_servicetpl_no_hostname.cfg')
def test_dummy(self):
#
# Config is not correct because of a wrong relative path
# in the main config file
#
print "Get the hosts and services"
now = time.time()
host = self.sched.hosts.find_by_name("test_host_0")
host.checks_in_progress = []
host.act_depend_of = [] # ignore the router
router = self.sched.hosts.find_by_name("test_router_0")
router.checks_in_progress = []
router.act_depend_of = [] # ignore the router
svc = self.sched.services.find_srv_by_name_and_hostname("test_host_0", "test_ok_0")
svc.checks_in_progress = []
svc.act_depend_of = [] # no hostchecks on critical checkresults
self.scheduler_loop(2, [[host, 0, 'UP | value1=1 value2=2'], [router, 0, 'UP | rtt=10'], [svc, 2, 'BAD | value1=0 value2=0']])
self.assertEqual('UP', host.state)
self.assertEqual('HARD', host.state_type)
if __name__ == '__main__':
unittest.main()
| agpl-3.0 |
hovsepm/AutoRest | src/generator/AutoRest.Python.Tests/Expected/AcceptanceTests/BodyDateTime/autorestdatetimetestservice/auto_rest_date_time_test_service.py | 3 | 2116 | # coding=utf-8
# --------------------------------------------------------------------------
# Copyright (c) Microsoft Corporation. All rights reserved.
# Licensed under the MIT License. See License.txt in the project root for
# license information.
#
# Code generated by Microsoft (R) AutoRest Code Generator.
# Changes may cause incorrect behavior and will be lost if the code is
# regenerated.
# --------------------------------------------------------------------------
from msrest.service_client import ServiceClient
from msrest import Configuration, Serializer, Deserializer
from .version import VERSION
from .operations.datetime_model_operations import DatetimeModelOperations
from . import models
class AutoRestDateTimeTestServiceConfiguration(Configuration):
"""Configuration for AutoRestDateTimeTestService
Note that all parameters used to create this instance are saved as instance
attributes.
:param str base_url: Service URL
"""
def __init__(
self, base_url=None):
if not base_url:
base_url = 'https://localhost'
super(AutoRestDateTimeTestServiceConfiguration, self).__init__(base_url)
self.add_user_agent('autorestdatetimetestservice/{}'.format(VERSION))
class AutoRestDateTimeTestService(object):
"""Test Infrastructure for AutoRest
:ivar config: Configuration for client.
:vartype config: AutoRestDateTimeTestServiceConfiguration
:ivar datetime_model: DatetimeModel operations
:vartype datetime_model: .operations.DatetimeModelOperations
:param str base_url: Service URL
"""
def __init__(
self, base_url=None):
self.config = AutoRestDateTimeTestServiceConfiguration(base_url)
self._client = ServiceClient(None, self.config)
client_models = {k: v for k, v in models.__dict__.items() if isinstance(v, type)}
self._serialize = Serializer(client_models)
self._deserialize = Deserializer(client_models)
self.datetime_model = DatetimeModelOperations(
self._client, self.config, self._serialize, self._deserialize)
| mit |
LibreSoftTeam/2016-uml-miner | phase3-outputs/scripts/umlfiles2table_images.py | 1 | 2885 | #!/usr/bin/python3
import csv
import pymysql
singleList = []
multipleList = []
# Connect to the database
connection = pymysql.connect(
host='localhost',
user='operator',
passwd='operator',
db='chunk4_images',
charset='utf8mb4',
cursorclass=pymysql.cursors.DictCursor)
with open('updated4_images.csv', 'r') as csvfile:
for myupdatedCSV in csv.reader(csvfile):
if myupdatedCSV[3] == "UML":
updatedCSV = myupdatedCSV[2].split('/')
repo = updatedCSV[3] + "/" + updatedCSV[4]
fileurl = myupdatedCSV[2]
filename = fileurl.split('/')[-1]
filepath = '/'.join(fileurl.split('/')[6:])
if 'https://raw.githubusercontent.com/' not in fileurl:
continue
# Get repo id from database
cursor = connection.cursor()
sql = 'SELECT id FROM repositories WHERE uri="'
sql += 'https://github.com/{0}"'.format(repo)
# print(sql)
cursor.execute(sql)
result = cursor.fetchone()
try:
repo_id = result['id']
# print(repo_id)
except:
#print("# Error", result, repo)
continue
# Get file id from database
sql = 'SELECT id FROM files WHERE repository_id={0} and file_name="{1}"'.format(repo_id, filename)
# print(sql)
cursor.execute(sql)
if cursor.rowcount == 1:
result = cursor.fetchone()
file_id = result['id']
singleList.append((file_id, repo_id, fileurl.replace("'", "\\'"), filepath.replace("'", "\\'")))
else:
result = cursor.fetchall()
# print("Warning:", result, filepath)
found = 0
for file in result:
sql = 'SELECT file_path from file_links WHERE file_id={0}'.format(file['id'])
# print(sql)
cursor.execute(sql)
result = cursor.fetchone()
db_path = result['file_path']
if db_path == filepath:
singleList.append((file['id'], repo_id, fileurl.replace("'", "\\'"), filepath.replace("'", "\\'")))
found = 1
break
#if not found:
#print("# ERROR:", filepath, "not found")
connection.close()
# Write data into database
create = """
USE chunk4_images;
CREATE TABLE uml_files (
id int,
repository_id int,
file_url VARCHAR(255),
file_path VARCHAR(255)
);
"""
print(create)
for entry in singleList:
print("INSERT INTO uml_files (id, repository_id, file_url, file_path) VALUES ({0}, {1}, '{2}', '{3}');".format(*entry))
| gpl-3.0 |
IBM/differential-privacy-library | tests/mechanisms/test_ExponentialCategorical.py | 1 | 4894 | import numpy as np
from unittest import TestCase
from diffprivlib.mechanisms import ExponentialCategorical
from diffprivlib.utils import global_seed
class TestExponential(TestCase):
def setup_method(self, method):
if method.__name__ .endswith("prob"):
global_seed(314159)
self.mech = ExponentialCategorical
def teardown_method(self, method):
del self.mech
def test_class(self):
from diffprivlib.mechanisms import DPMechanism
self.assertTrue(issubclass(ExponentialCategorical, DPMechanism))
def test_inf_epsilon(self):
utility_list = [
["A", "B", 1],
["A", "C", 2],
["B", "C", 2]
]
mech = self.mech(epsilon=float("inf"), utility_list=utility_list)
# print(_mech.randomise("A"))
for i in range(1000):
self.assertEqual(mech.randomise("A"), "A")
def test_nonzero_delta(self):
utility_list = [
["A", "B", 1],
["A", "C", 2],
["B", "C", 2]
]
mech = self.mech(epsilon=1, utility_list=utility_list)
mech.delta = 0.1
with self.assertRaises(ValueError):
mech.randomise("A")
def test_non_string_hierarchy(self):
utility_list = [
["A", "B", 1],
["A", 2, 2],
["B", 2, 2]
]
with self.assertRaises(TypeError):
self.mech(epsilon=1, utility_list=utility_list)
def test_missing_utilities(self):
utility_list = [
["A", "B", 1],
["A", "C", 2]
]
with self.assertRaises(ValueError):
self.mech(epsilon=1, utility_list=utility_list)
def test_wrong_utilities(self):
utility_list = (
["A", "B", 1],
["A", "C", 2],
["B", "C", 2]
)
with self.assertRaises(TypeError):
self.mech(epsilon=1, utility_list=utility_list)
utility_list = [
["A", "B", 1],
["A", "C", 2],
["B", "C", "2"]
]
with self.assertRaises(TypeError):
self.mech(epsilon=1, utility_list=utility_list)
utility_list = [
["A", "B", 1],
["A", "C", 2],
["B", "C", -2]
]
with self.assertRaises(ValueError):
self.mech(epsilon=1, utility_list=utility_list)
def test_non_string_input(self):
utility_list = [
["A", "B", 1],
["A", "C", 2],
["B", "C", 2]
]
mech = self.mech(epsilon=1, utility_list=utility_list)
with self.assertRaises(TypeError):
mech.randomise(2)
def test_outside_domain(self):
utility_list = [
["A", "B", 1],
["A", "C", 2],
["B", "C", 2]
]
mech = self.mech(epsilon=1, utility_list=utility_list)
with self.assertRaises(ValueError):
mech.randomise("D")
def test_get_utility_list(self):
utility_list = [
["A", "B", 1],
["A", "C", 2],
["C", "B", 2]
]
mech = self.mech(epsilon=1, utility_list=utility_list)
_utility_list = mech.utility_list
self.assertEqual(len(_utility_list), len(utility_list))
def test_self_in_utility(self):
utility_list = [
["A", "B", 1],
["A", "C", 2],
["B", "C", 2],
["A", "A", 5]
]
mech = self.mech(epsilon=1, utility_list=utility_list)
_utility_list = mech.utility_list
self.assertEqual(len(_utility_list) + 1, len(utility_list))
self.assertEqual(mech._get_utility("A", "A"), 0)
def test_distrib_prob(self):
epsilon = np.log(2)
runs = 20000
utility_list = [
["A", "B", 1],
["A", "C", 2],
["B", "C", 2]
]
mech = self.mech(epsilon=epsilon, utility_list=utility_list)
count = [0, 0, 0]
for i in range(runs):
val = mech.randomise("A")
if val == "A":
count[0] += 1
elif val == "B":
count[1] += 1
elif val == "C":
count[2] += 1
# print("A: %d, B: %d, C: %d" % (count[0], count[1], count[2]))
self.assertLessEqual(count[0] / runs, np.exp(epsilon) * count[2] / runs + 0.05)
self.assertAlmostEqual(count[0] / count[1], count[1] / count[2], delta=0.15)
def test_repr(self):
repr_ = repr(self.mech(epsilon=1, utility_list=[]))
self.assertIn(".ExponentialCategorical(", repr_)
def test_bias(self):
self.assertRaises(NotImplementedError, self.mech(epsilon=1, utility_list=[]).bias, 0)
def test_variance(self):
self.assertRaises(NotImplementedError, self.mech(epsilon=1, utility_list=[]).variance, 0)
| mit |
lewisc/spark-tk | python/sparktk/models/timeseries/arx.py | 7 | 16906 | # vim: set encoding=utf-8
# Copyright (c) 2016 Intel Corporation
#
# 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.
#
"""
ARX (autoregressive exogenous) Model
"""
from sparktk.loggers import log_load; log_load(__name__); del log_load
from sparktk import TkContext
from sparktk.propobj import PropertiesObject
__all__ = ["train", "load", "ArxModel"]
def train(frame, ts_column, x_columns, y_max_lag, x_max_lag, no_intercept=False):
"""
Creates a ARX model by training on the given frame. Fit an autoregressive model with additional
exogenous variables.
Parameters
----------
:param frame: (Frame) Frame used for training
:param ts_column: (str) Name of the column that contains the time series values.
:param x_columns: (List(str)) Names of the column(s) that contain the values of exogenous regressors.
:param y_max_lag: (int) The maximum lag order for the dependent (time series) variable.
:param x_max_lag: (int) The maximum lag order for exogenous variables.
:param no_intercept: (bool) A boolean flag indicating if the intercept should be dropped. Default is false.
:return: (ArxModel) Trained ARX model
Notes
-----
1. Dataset being trained must be small enough to be worked with on a single node.
+ If the specified set of exogenous variables is not invertible, an exception is
thrown stating that the "matrix is singular". This happens when there are
certain patterns in the dataset or columns of all zeros. In order to work
around the singular matrix issue, try selecting a different set of columns for
exogenous variables, or use a different time window for training.
"""
# check parameter/types
if not isinstance(ts_column, basestring):
raise TypeError("'ts_column' should be a string (name of the column that has the timeseries value).")
if not isinstance(x_columns, list) or not all(isinstance(c, str) for c in x_columns):
raise TypeError("'x_columns' should be a list of strings (names of the exogenous columns).")
elif len(x_columns) <= 0:
raise ValueError("'x_columns' should not be empty.")
if not isinstance(x_max_lag, int):
raise TypeError("'x_max_lag' should be an integer.")
if not isinstance(y_max_lag, int):
raise TypeError("'y_max_lag' should be an integer.")
if not isinstance(no_intercept, bool):
raise TypeError("'no_intercept' should be a boolean.")
tc = frame._tc
_scala_obj = get_scala_obj(tc)
scala_x_columns = tc.jutils.convert.to_scala_vector_string(x_columns)
scala_model = _scala_obj.train(frame._scala, ts_column, scala_x_columns, y_max_lag, x_max_lag, no_intercept)
return ArxModel(tc, scala_model)
def load(path, tc=TkContext.implicit):
"""load ArxModel from given path"""
TkContext.validate(tc)
return tc.load(path, ArxModel)
def get_scala_obj(tc):
"""Gets reference to the ArxModel scala object"""
return tc.sc._jvm.org.trustedanalytics.sparktk.models.timeseries.arx.ArxModel
class ArxModel(PropertiesObject):
"""
A trained ARX model.
Example
-------
Consider the following model trained and tested on the sample data set in *frame* 'frame'.
The frame has a snippet of air quality data from:
https://archive.ics.uci.edu/ml/datasets/Air+Quality.
Lichman, M. (2013). UCI Machine Learning Repository [http://archive.ics.uci.edu/ml].
Irvine, CA: University of California, School of Information and Computer Science.
<hide>
>>> schema = [('Date', str),('Time', str),('CO_GT', float),('PT08_S1_CO', int),('NMHC_GT', int),
... ('C6H6_GT', float),('PT08_S2_NMHC', int),('NOx_GT', int),('PT08_S3_NOx', int),('NO2_GT', int),
... ('PT08_S4_NO2', int),('PT08_S5_O3_', int),('T', float),('RH', float),('AH', float)]
>>> frame = tc.frame.create([["10/03/2004","18.00.00",2.6,1360,150,11.9,1046,166,1056,113,1692,1268,13.6,48.9,0.7578],
... ["10/03/2004","19.00.00",2,1292,112,9.4,955,103,1174,92,1559,972,13.3,47.7,0.7255],
... ["10/03/2004","20.00.00",2.2,1402,88,9.0,939,131,1140,114,1555,1074,11.9,54.0,0.7502],
... ["10/03/2004","21.00.00",2.2,1376,80,9.2,948,172,1092,122,1584,1203,11.0,60.0,0.7867],
... ["10/03/2004","22.00.00",1.6,1272,51,6.5,836,131,1205,116,1490,1110,11.2,59.6,0.7888],
... ["10/03/2004","23.00.00",1.2,1197,38,4.7,750,89,1337,96,1393,949,11.2,59.2,0.7848],
... ["11/03/2004","00.00.00",1.2,1185,31,3.6,690,62,1462,77,1333,733,11.3,56.8,0.7603],
... ["11/03/2004","01.00.00",1,1136,31,3.3,672,62,1453,76,1333,730,10.7,60.0,0.7702],
... ["11/03/2004","02.00.00",0.9,1094,24,2.3,609,45,1579,60,1276,620,10.7,59.7,0.7648],
... ["11/03/2004","03.00.00",0.6,1010,19,1.7,561,-200,1705,-200,1235,501,10.3,60.2,0.7517],
... ["11/03/2004","04.00.00",-200,1011,14,1.3,527,21,1818,34,1197,445,10.1,60.5,0.7465],
... ["11/03/2004","05.00.00",0.7,1066,8,1.1,512,16,1918,28,1182,422,11.0,56.2,0.7366],
... ["11/03/2004","06.00.00",0.7,1052,16,1.6,553,34,1738,48,1221,472,10.5,58.1,0.7353],
... ["11/03/2004","07.00.00",1.1,1144,29,3.2,667,98,1490,82,1339,730,10.2,59.6,0.7417],
... ["11/03/2004","08.00.00",2,1333,64,8.0,900,174,1136,112,1517,1102,10.8,57.4,0.7408],
... ["11/03/2004","09.00.00",2.2,1351,87,9.5,960,129,1079,101,1583,1028,10.5,60.6,0.7691],
... ["11/03/2004","10.00.00",1.7,1233,77,6.3,827,112,1218,98,1446,860,10.8,58.4,0.7552],
... ["11/03/2004","11.00.00",1.5,1179,43,5.0,762,95,1328,92,1362,671,10.5,57.9,0.7352],
... ["11/03/2004","12.00.00",1.6,1236,61,5.2,774,104,1301,95,1401,664,9.5,66.8,0.7951],
... ["11/03/2004","13.00.00",1.9,1286,63,7.3,869,146,1162,112,1537,799,8.3,76.4,0.8393],
... ["11/03/2004","14.00.00",2.9,1371,164,11.5,1034,207,983,128,1730,1037,8.0,81.1,0.8736],
... ["11/03/2004","15.00.00",2.2,1310,79,8.8,933,184,1082,126,1647,946,8.3,79.8,0.8778],
... ["11/03/2004","16.00.00",2.2,1292,95,8.3,912,193,1103,131,1591,957,9.7,71.2,0.8569],
... ["11/03/2004","17.00.00",2.9,1383,150,11.2,1020,243,1008,135,1719,1104,9.8,67.6,0.8185]],
... schema=schema, validate_schema=True)
-etc-
</hide>
>>> frame.inspect()
[#] Date Time CO_GT PT08_S1_CO NMHC_GT C6H6_GT PT08_S2_NMHC
============================================================================
[0] 10/03/2004 18.00.00 2.6 1360 150 11.9 1046
[1] 10/03/2004 19.00.00 2.0 1292 112 9.4 955
[2] 10/03/2004 20.00.00 2.2 1402 88 9.0 939
[3] 10/03/2004 21.00.00 2.2 1376 80 9.2 948
[4] 10/03/2004 22.00.00 1.6 1272 51 6.5 836
[5] 10/03/2004 23.00.00 1.2 1197 38 4.7 750
[6] 11/03/2004 00.00.00 1.2 1185 31 3.6 690
[7] 11/03/2004 01.00.00 1.0 1136 31 3.3 672
[8] 11/03/2004 02.00.00 0.9 1094 24 2.3 609
[9] 11/03/2004 03.00.00 0.6 1010 19 1.7 561
<BLANKLINE>
[#] NOx_GT PT08_S3_NOx NO2_GT PT08_S4_NO2 PT08_S5_O3_ T RH AH
==============================================================================
[0] 166 1056 113 1692 1268 13.6 48.9 0.7578
[1] 103 1174 92 1559 972 13.3 47.7 0.7255
[2] 131 1140 114 1555 1074 11.9 54.0 0.7502
[3] 172 1092 122 1584 1203 11.0 60.0 0.7867
[4] 131 1205 116 1490 1110 11.2 59.6 0.7888
[5] 89 1337 96 1393 949 11.2 59.2 0.7848
[6] 62 1462 77 1333 733 11.3 56.8 0.7603
[7] 62 1453 76 1333 730 10.7 60.0 0.7702
[8] 45 1579 60 1276 620 10.7 59.7 0.7648
[9] -200 1705 -200 1235 501 10.3 60.2 0.7517
We will be using the column "T" (temperature) as our time series value:
>>> y = "T"
The sensor values will be used as our exogenous variables:
>>> x = ['CO_GT','PT08_S1_CO','NMHC_GT','C6H6_GT','PT08_S2_NMHC','NOx_GT','PT08_S3_NOx','NO2_GT','PT08_S4_NO2','PT08_S5_O3_']
Train the model and then take a look at the model properties and coefficients:
>>> model = tc.models.timeseries.arx.train(frame, y, x, 0, 0, True)
<progress>
>>> model
c = 0.0
coefficients = [0.005567992923907625, -0.010969068059453009, 0.012556586798371176, -0.39792503380811506, 0.04289162879826746, -0.012253952164677924, 0.01192148525581035, 0.014100699808650077, -0.021091473795935345, 0.007622676727420039]
no_intercept = True
x_max_lag = 0
y_max_lag = 0
In this example, we will call predict using the same frame that was used for training, again specifying the name
of the time series column and the names of the columns that contain exogenous regressors.
>>> predicted_frame = model.predict(frame, y, x)
<progress>
The predicted_frame that's return has a new column called *predicted_y*. This column contains the predicted
time series values.
>>> predicted_frame.column_names
[u'Date',
u'Time',
u'CO_GT',
u'PT08_S1_CO',
u'NMHC_GT',
u'C6H6_GT',
u'PT08_S2_NMHC',
u'NOx_GT',
u'PT08_S3_NOx',
u'NO2_GT',
u'PT08_S4_NO2',
u'PT08_S5_O3_',
u'T',
u'RH',
u'AH',
u'predicted_y']
>>> predicted_frame.inspect(n=15, columns=["T","predicted_y"])
[##] T predicted_y
=========================
[0] 13.6 13.236459938
[1] 13.3 13.0250130899
[2] 11.9 11.4147282294
[3] 11.0 11.3157457822
[4] 11.2 11.3982074883
[5] 11.2 11.7079198051
[6] 11.3 10.7879916472
[7] 10.7 10.527428478
[8] 10.7 10.4439615476
[9] 10.3 10.276662138
[10] 10.1 10.0999996581
[11] 11.0 11.2849327784
[12] 10.5 10.5726885589
[13] 10.2 10.1984619512
[14] 10.8 11.0063774234
The trained model can be saved to be used later:
>>> model_path = "sandbox/savedArxModel"
>>> model.save(model_path)
The saved model can be loaded through the tk context and then used for forecasting values the same way
that the original model was used.
>>> loaded_model = tc.load(model_path)
>>> predicted_frame = loaded_model.predict(frame, y, x)
>>> predicted_frame.inspect(n=15,columns=["T","predicted_y"])
[##] T predicted_y
=========================
[0] 13.6 13.236459938
[1] 13.3 13.0250130899
[2] 11.9 11.4147282294
[3] 11.0 11.3157457822
[4] 11.2 11.3982074883
[5] 11.2 11.7079198051
[6] 11.3 10.7879916472
[7] 10.7 10.527428478
[8] 10.7 10.4439615476
[9] 10.3 10.276662138
[10] 10.1 10.0999996581
[11] 11.0 11.2849327784
[12] 10.5 10.5726885589
[13] 10.2 10.1984619512
[14] 10.8 11.0063774234
The trained model can also be exported to a .mar file, to be used with the scoring engine:
>>> canonical_path = model.export_to_mar("sandbox/arx.mar")
<hide>
>>> import os
>>> assert(os.path.isfile(canonical_path))
</hide>
"""
def __init__(self, tc, scala_model):
self._tc = tc
tc.jutils.validate_is_jvm_instance_of(scala_model, get_scala_obj(tc))
self._scala = scala_model
@staticmethod
def _from_scala(tc, scala_model):
"""
Load an ARX model
:param tc: (TkContext) Active TkContext
:param scala_model: (scala ArxModel) Scala model to load
:return: (ArxModel) ArxModel object
"""
return ArxModel(tc, scala_model)
@property
def y_max_lag(self):
"""
The maximum lag order for the dependent (time series) values.
"""
return self._scala.yMaxLag()
@property
def x_max_lag(self):
"""
The maximum lag order for exogenous variables.
"""
return self._scala.xMaxLag()
@property
def c(self):
"""
An intercept term (zero if none desired), from the trained model.
"""
return self._scala.c()
@property
def coefficients(self):
"""
Coefficient values from the trained model.
"""
return list(self._tc.jutils.convert.from_scala_seq(self._scala.coefficients()))
@property
def no_intercept(self):
"""
A boolean flag indicating if the intercept should be dropped.
"""
return self._scala.noIntercept()
def predict(self, frame, ts_column, x_columns):
"""
New frame with column of predicted y values
Predict the time series values for a test frame, based on the specified x values. Creates a new frame
revision with the existing columns and a new predicted_y column.
Parameters
----------
:param frame: (Frame) Frame used for predicting the ts values
:param ts_column: (str) Name of the time series column
:param x_columns: (List[str]) Names of the column(s) that contain the values of the exogenous inputs.
:return: (Frame) A new frame containing the original frame's columns and a column *predictied_y*
"""
if not isinstance(frame, self._tc.frame.Frame):
raise TypeError("'frame' parameter should be a spark-tk Frame object.")
if not isinstance(ts_column, basestring):
raise TypeError("'ts_column' parameter should be a string (name of the column that has the timeseries value).")
if not isinstance(x_columns, list) or not all(isinstance(c, str) for c in x_columns):
raise TypeError("'x_columns' parameter should be a list of strings (names of the exogenous columns).")
elif len(x_columns) <= 0:
raise ValueError("'x_columns' should not be empty.")
scala_x_columns = self._tc.jutils.convert.to_scala_vector_string(x_columns)
from sparktk.frame.frame import Frame
return Frame(self._tc, self._scala.predict(frame._scala, ts_column, scala_x_columns))
def save(self, path):
"""
Save the trained model to the specified path.
Parameters
----------
:param path: (str) Path to save
"""
self._scala.save(self._tc._scala_sc, path)
def export_to_mar(self, path):
"""
Exports the trained model as a model archive (.mar) to the specified path.
Parameters
----------
:param path: (str) Path to save the trained model
:returns (str) Full path to the saved .mar file
"""
if not isinstance(path, basestring):
raise TypeError("path parameter must be a str, but received %s" % type(path))
return self._scala.exportToMar(self._tc._scala_sc, path)
del PropertiesObject
| apache-2.0 |
wederw/bitcoin | qa/rpc-tests/mempool_spendcoinbase.py | 6 | 2762 | #!/usr/bin/env python2
# Copyright (c) 2014 The Bitcoin Core developers
# Distributed under the MIT software license, see the accompanying
# file COPYING or http://www.opensource.org/licenses/mit-license.php.
#
# Test spending coinbase transactions.
# The coinbase transaction in block N can appear in block
# N+100... so is valid in the mempool when the best block
# height is N+99.
# This test makes sure coinbase spends that will be mature
# in the next block are accepted into the memory pool,
# but less mature coinbase spends are NOT.
#
from test_framework import BitcoinTestFramework
from bitcoinrpc.authproxy import AuthServiceProxy, JSONRPCException
from util import *
import os
import shutil
# Create one-input, one-output, no-fee transaction:
class MempoolSpendCoinbaseTest(BitcoinTestFramework):
def setup_network(self):
# Just need one node for this test
args = ["-checkmempool", "-debug=mempool"]
self.nodes = []
self.nodes.append(start_node(0, self.options.tmpdir, args))
self.is_network_split = False
def create_tx(self, from_txid, to_address, amount):
inputs = [{ "txid" : from_txid, "vout" : 0}]
outputs = { to_address : amount }
rawtx = self.nodes[0].createrawtransaction(inputs, outputs)
signresult = self.nodes[0].signrawtransaction(rawtx)
assert_equal(signresult["complete"], True)
return signresult["hex"]
def run_test(self):
chain_height = self.nodes[0].getblockcount()
assert_equal(chain_height, 200)
node0_address = self.nodes[0].getnewaddress()
# Coinbase at height chain_height-100+1 ok in mempool, should
# get mined. Coinbase at height chain_height-100+2 is
# is too immature to spend.
b = [ self.nodes[0].getblockhash(n) for n in range(101, 103) ]
coinbase_txids = [ self.nodes[0].getblock(h)['tx'][0] for h in b ]
spends_raw = [ self.create_tx(txid, node0_address, 50) for txid in coinbase_txids ]
spend_101_id = self.nodes[0].sendrawtransaction(spends_raw[0])
# coinbase at height 102 should be too immature to spend
assert_raises(JSONRPCException, self.nodes[0].sendrawtransaction, spends_raw[1])
# mempool should have just spend_101:
assert_equal(self.nodes[0].getrawmempool(), [ spend_101_id ])
# mine a block, spend_101 should get confirmed
self.nodes[0].generate(1)
assert_equal(set(self.nodes[0].getrawmempool()), set())
# ... and now height 102 can be spent:
spend_102_id = self.nodes[0].sendrawtransaction(spends_raw[1])
assert_equal(self.nodes[0].getrawmempool(), [ spend_102_id ])
if __name__ == '__main__':
MempoolSpendCoinbaseTest().main()
| mit |
danilo-massa/honeyd | webserver/htdocs/index.py | 2 | 1445 | import honeyd
import time
import support
from htmltmpl import TemplateManager, TemplateProcessor
global counter
self.send_response(200)
self.send_header("Content-Type", "text/html")
self.send_nocache()
self.end_headers()
# Compile or load already precompiled template.
template = TemplateManager().prepare(self.root+"/templates/index.tmpl")
tproc = TemplateProcessor(0)
# Process commands given to us
message = support.parse_query(self.query)
# Set the title.
tproc.set("title", "Honeyd Administration Interface")
# Test
try:
counter += 1
except:
counter = 1
greeting = ("Welcome to the Honeyd Administration Interface."
"You are visitor %d.<p>") % counter
content = support.interface_table()
content += "<p>" + support.stats_table(self.root) + "</p>\n"
content += "<p>" + support.status_connections(self.root, "tcp") + "</p>\n"
content += "<p>" + support.status_connections(self.root, "udp") + "</p>\n"
side_content = ("<div class=graphs>"
"<img height=155 width=484 src=/graphs/traffic_hourly.gif><br>"
"<img height=155 width=484 src=/graphs/traffic_daily.gif>"
"</div>")
support.security_check(tproc)
if message:
tproc.set("message", message)
tproc.set("greeting", greeting)
tproc.set("content", content)
tproc.set("side_content", side_content)
tproc.set("uptime", support.uptime())
# Print the processed template.
self.wfile.write(tproc.process(template))
| gpl-2.0 |
lmregus/Portfolio | python/design_patterns/env/lib/python3.7/site-packages/pip/_vendor/chardet/escsm.py | 289 | 10510 | ######################## BEGIN LICENSE BLOCK ########################
# The Original Code is mozilla.org code.
#
# The Initial Developer of the Original Code is
# Netscape Communications Corporation.
# Portions created by the Initial Developer are Copyright (C) 1998
# the Initial Developer. All Rights Reserved.
#
# Contributor(s):
# Mark Pilgrim - port to Python
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
#
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA
# 02110-1301 USA
######################### END LICENSE BLOCK #########################
from .enums import MachineState
HZ_CLS = (
1,0,0,0,0,0,0,0, # 00 - 07
0,0,0,0,0,0,0,0, # 08 - 0f
0,0,0,0,0,0,0,0, # 10 - 17
0,0,0,1,0,0,0,0, # 18 - 1f
0,0,0,0,0,0,0,0, # 20 - 27
0,0,0,0,0,0,0,0, # 28 - 2f
0,0,0,0,0,0,0,0, # 30 - 37
0,0,0,0,0,0,0,0, # 38 - 3f
0,0,0,0,0,0,0,0, # 40 - 47
0,0,0,0,0,0,0,0, # 48 - 4f
0,0,0,0,0,0,0,0, # 50 - 57
0,0,0,0,0,0,0,0, # 58 - 5f
0,0,0,0,0,0,0,0, # 60 - 67
0,0,0,0,0,0,0,0, # 68 - 6f
0,0,0,0,0,0,0,0, # 70 - 77
0,0,0,4,0,5,2,0, # 78 - 7f
1,1,1,1,1,1,1,1, # 80 - 87
1,1,1,1,1,1,1,1, # 88 - 8f
1,1,1,1,1,1,1,1, # 90 - 97
1,1,1,1,1,1,1,1, # 98 - 9f
1,1,1,1,1,1,1,1, # a0 - a7
1,1,1,1,1,1,1,1, # a8 - af
1,1,1,1,1,1,1,1, # b0 - b7
1,1,1,1,1,1,1,1, # b8 - bf
1,1,1,1,1,1,1,1, # c0 - c7
1,1,1,1,1,1,1,1, # c8 - cf
1,1,1,1,1,1,1,1, # d0 - d7
1,1,1,1,1,1,1,1, # d8 - df
1,1,1,1,1,1,1,1, # e0 - e7
1,1,1,1,1,1,1,1, # e8 - ef
1,1,1,1,1,1,1,1, # f0 - f7
1,1,1,1,1,1,1,1, # f8 - ff
)
HZ_ST = (
MachineState.START,MachineState.ERROR, 3,MachineState.START,MachineState.START,MachineState.START,MachineState.ERROR,MachineState.ERROR,# 00-07
MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ITS_ME,MachineState.ITS_ME,MachineState.ITS_ME,MachineState.ITS_ME,# 08-0f
MachineState.ITS_ME,MachineState.ITS_ME,MachineState.ERROR,MachineState.ERROR,MachineState.START,MachineState.START, 4,MachineState.ERROR,# 10-17
5,MachineState.ERROR, 6,MachineState.ERROR, 5, 5, 4,MachineState.ERROR,# 18-1f
4,MachineState.ERROR, 4, 4, 4,MachineState.ERROR, 4,MachineState.ERROR,# 20-27
4,MachineState.ITS_ME,MachineState.START,MachineState.START,MachineState.START,MachineState.START,MachineState.START,MachineState.START,# 28-2f
)
HZ_CHAR_LEN_TABLE = (0, 0, 0, 0, 0, 0)
HZ_SM_MODEL = {'class_table': HZ_CLS,
'class_factor': 6,
'state_table': HZ_ST,
'char_len_table': HZ_CHAR_LEN_TABLE,
'name': "HZ-GB-2312",
'language': 'Chinese'}
ISO2022CN_CLS = (
2,0,0,0,0,0,0,0, # 00 - 07
0,0,0,0,0,0,0,0, # 08 - 0f
0,0,0,0,0,0,0,0, # 10 - 17
0,0,0,1,0,0,0,0, # 18 - 1f
0,0,0,0,0,0,0,0, # 20 - 27
0,3,0,0,0,0,0,0, # 28 - 2f
0,0,0,0,0,0,0,0, # 30 - 37
0,0,0,0,0,0,0,0, # 38 - 3f
0,0,0,4,0,0,0,0, # 40 - 47
0,0,0,0,0,0,0,0, # 48 - 4f
0,0,0,0,0,0,0,0, # 50 - 57
0,0,0,0,0,0,0,0, # 58 - 5f
0,0,0,0,0,0,0,0, # 60 - 67
0,0,0,0,0,0,0,0, # 68 - 6f
0,0,0,0,0,0,0,0, # 70 - 77
0,0,0,0,0,0,0,0, # 78 - 7f
2,2,2,2,2,2,2,2, # 80 - 87
2,2,2,2,2,2,2,2, # 88 - 8f
2,2,2,2,2,2,2,2, # 90 - 97
2,2,2,2,2,2,2,2, # 98 - 9f
2,2,2,2,2,2,2,2, # a0 - a7
2,2,2,2,2,2,2,2, # a8 - af
2,2,2,2,2,2,2,2, # b0 - b7
2,2,2,2,2,2,2,2, # b8 - bf
2,2,2,2,2,2,2,2, # c0 - c7
2,2,2,2,2,2,2,2, # c8 - cf
2,2,2,2,2,2,2,2, # d0 - d7
2,2,2,2,2,2,2,2, # d8 - df
2,2,2,2,2,2,2,2, # e0 - e7
2,2,2,2,2,2,2,2, # e8 - ef
2,2,2,2,2,2,2,2, # f0 - f7
2,2,2,2,2,2,2,2, # f8 - ff
)
ISO2022CN_ST = (
MachineState.START, 3,MachineState.ERROR,MachineState.START,MachineState.START,MachineState.START,MachineState.START,MachineState.START,# 00-07
MachineState.START,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,# 08-0f
MachineState.ERROR,MachineState.ERROR,MachineState.ITS_ME,MachineState.ITS_ME,MachineState.ITS_ME,MachineState.ITS_ME,MachineState.ITS_ME,MachineState.ITS_ME,# 10-17
MachineState.ITS_ME,MachineState.ITS_ME,MachineState.ITS_ME,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR, 4,MachineState.ERROR,# 18-1f
MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ITS_ME,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,# 20-27
5, 6,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,# 28-2f
MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ITS_ME,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,# 30-37
MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ITS_ME,MachineState.ERROR,MachineState.START,# 38-3f
)
ISO2022CN_CHAR_LEN_TABLE = (0, 0, 0, 0, 0, 0, 0, 0, 0)
ISO2022CN_SM_MODEL = {'class_table': ISO2022CN_CLS,
'class_factor': 9,
'state_table': ISO2022CN_ST,
'char_len_table': ISO2022CN_CHAR_LEN_TABLE,
'name': "ISO-2022-CN",
'language': 'Chinese'}
ISO2022JP_CLS = (
2,0,0,0,0,0,0,0, # 00 - 07
0,0,0,0,0,0,2,2, # 08 - 0f
0,0,0,0,0,0,0,0, # 10 - 17
0,0,0,1,0,0,0,0, # 18 - 1f
0,0,0,0,7,0,0,0, # 20 - 27
3,0,0,0,0,0,0,0, # 28 - 2f
0,0,0,0,0,0,0,0, # 30 - 37
0,0,0,0,0,0,0,0, # 38 - 3f
6,0,4,0,8,0,0,0, # 40 - 47
0,9,5,0,0,0,0,0, # 48 - 4f
0,0,0,0,0,0,0,0, # 50 - 57
0,0,0,0,0,0,0,0, # 58 - 5f
0,0,0,0,0,0,0,0, # 60 - 67
0,0,0,0,0,0,0,0, # 68 - 6f
0,0,0,0,0,0,0,0, # 70 - 77
0,0,0,0,0,0,0,0, # 78 - 7f
2,2,2,2,2,2,2,2, # 80 - 87
2,2,2,2,2,2,2,2, # 88 - 8f
2,2,2,2,2,2,2,2, # 90 - 97
2,2,2,2,2,2,2,2, # 98 - 9f
2,2,2,2,2,2,2,2, # a0 - a7
2,2,2,2,2,2,2,2, # a8 - af
2,2,2,2,2,2,2,2, # b0 - b7
2,2,2,2,2,2,2,2, # b8 - bf
2,2,2,2,2,2,2,2, # c0 - c7
2,2,2,2,2,2,2,2, # c8 - cf
2,2,2,2,2,2,2,2, # d0 - d7
2,2,2,2,2,2,2,2, # d8 - df
2,2,2,2,2,2,2,2, # e0 - e7
2,2,2,2,2,2,2,2, # e8 - ef
2,2,2,2,2,2,2,2, # f0 - f7
2,2,2,2,2,2,2,2, # f8 - ff
)
ISO2022JP_ST = (
MachineState.START, 3,MachineState.ERROR,MachineState.START,MachineState.START,MachineState.START,MachineState.START,MachineState.START,# 00-07
MachineState.START,MachineState.START,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,# 08-0f
MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ITS_ME,MachineState.ITS_ME,MachineState.ITS_ME,MachineState.ITS_ME,# 10-17
MachineState.ITS_ME,MachineState.ITS_ME,MachineState.ITS_ME,MachineState.ITS_ME,MachineState.ITS_ME,MachineState.ITS_ME,MachineState.ERROR,MachineState.ERROR,# 18-1f
MachineState.ERROR, 5,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR, 4,MachineState.ERROR,MachineState.ERROR,# 20-27
MachineState.ERROR,MachineState.ERROR,MachineState.ERROR, 6,MachineState.ITS_ME,MachineState.ERROR,MachineState.ITS_ME,MachineState.ERROR,# 28-2f
MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ITS_ME,MachineState.ITS_ME,# 30-37
MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ITS_ME,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,# 38-3f
MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ITS_ME,MachineState.ERROR,MachineState.START,MachineState.START,# 40-47
)
ISO2022JP_CHAR_LEN_TABLE = (0, 0, 0, 0, 0, 0, 0, 0, 0, 0)
ISO2022JP_SM_MODEL = {'class_table': ISO2022JP_CLS,
'class_factor': 10,
'state_table': ISO2022JP_ST,
'char_len_table': ISO2022JP_CHAR_LEN_TABLE,
'name': "ISO-2022-JP",
'language': 'Japanese'}
ISO2022KR_CLS = (
2,0,0,0,0,0,0,0, # 00 - 07
0,0,0,0,0,0,0,0, # 08 - 0f
0,0,0,0,0,0,0,0, # 10 - 17
0,0,0,1,0,0,0,0, # 18 - 1f
0,0,0,0,3,0,0,0, # 20 - 27
0,4,0,0,0,0,0,0, # 28 - 2f
0,0,0,0,0,0,0,0, # 30 - 37
0,0,0,0,0,0,0,0, # 38 - 3f
0,0,0,5,0,0,0,0, # 40 - 47
0,0,0,0,0,0,0,0, # 48 - 4f
0,0,0,0,0,0,0,0, # 50 - 57
0,0,0,0,0,0,0,0, # 58 - 5f
0,0,0,0,0,0,0,0, # 60 - 67
0,0,0,0,0,0,0,0, # 68 - 6f
0,0,0,0,0,0,0,0, # 70 - 77
0,0,0,0,0,0,0,0, # 78 - 7f
2,2,2,2,2,2,2,2, # 80 - 87
2,2,2,2,2,2,2,2, # 88 - 8f
2,2,2,2,2,2,2,2, # 90 - 97
2,2,2,2,2,2,2,2, # 98 - 9f
2,2,2,2,2,2,2,2, # a0 - a7
2,2,2,2,2,2,2,2, # a8 - af
2,2,2,2,2,2,2,2, # b0 - b7
2,2,2,2,2,2,2,2, # b8 - bf
2,2,2,2,2,2,2,2, # c0 - c7
2,2,2,2,2,2,2,2, # c8 - cf
2,2,2,2,2,2,2,2, # d0 - d7
2,2,2,2,2,2,2,2, # d8 - df
2,2,2,2,2,2,2,2, # e0 - e7
2,2,2,2,2,2,2,2, # e8 - ef
2,2,2,2,2,2,2,2, # f0 - f7
2,2,2,2,2,2,2,2, # f8 - ff
)
ISO2022KR_ST = (
MachineState.START, 3,MachineState.ERROR,MachineState.START,MachineState.START,MachineState.START,MachineState.ERROR,MachineState.ERROR,# 00-07
MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ITS_ME,MachineState.ITS_ME,MachineState.ITS_ME,MachineState.ITS_ME,# 08-0f
MachineState.ITS_ME,MachineState.ITS_ME,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR, 4,MachineState.ERROR,MachineState.ERROR,# 10-17
MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR, 5,MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,# 18-1f
MachineState.ERROR,MachineState.ERROR,MachineState.ERROR,MachineState.ITS_ME,MachineState.START,MachineState.START,MachineState.START,MachineState.START,# 20-27
)
ISO2022KR_CHAR_LEN_TABLE = (0, 0, 0, 0, 0, 0)
ISO2022KR_SM_MODEL = {'class_table': ISO2022KR_CLS,
'class_factor': 6,
'state_table': ISO2022KR_ST,
'char_len_table': ISO2022KR_CHAR_LEN_TABLE,
'name': "ISO-2022-KR",
'language': 'Korean'}
| mit |
openvapour/ryu | ryu/services/protocols/bgp/info_base/rtc.py | 52 | 2467 | # Copyright (C) 2014 Nippon Telegraph and Telephone Corporation.
#
# 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.
"""
Defines data types and models required specifically for RTC support.
"""
import logging
from ryu.lib.packet.bgp import RF_RTC_UC
from ryu.services.protocols.bgp.info_base.base import Destination
from ryu.services.protocols.bgp.info_base.base import NonVrfPathProcessingMixin
from ryu.services.protocols.bgp.info_base.base import Path
from ryu.services.protocols.bgp.info_base.base import Table
LOG = logging.getLogger('bgpspeaker.info_base.rtc')
class RtcTable(Table):
"""Global table to store RT membership information.
Uses `RtDest` to store destination information for each known RT NLRI path.
"""
ROUTE_FAMILY = RF_RTC_UC
def __init__(self, core_service, signal_bus):
Table.__init__(self, None, core_service, signal_bus)
def _table_key(self, rtc_nlri):
"""Return a key that will uniquely identify this RT NLRI inside
this table.
"""
return str(rtc_nlri.origin_as) + ':' + rtc_nlri.route_target
def _create_dest(self, nlri):
return RtcDest(self, nlri)
def __str__(self):
return 'RtcTable(scope_id: %s, rf: %s)' % (self.scope_id,
self.route_family)
class RtcDest(Destination, NonVrfPathProcessingMixin):
ROUTE_FAMILY = RF_RTC_UC
def _new_best_path(self, new_best_path):
NonVrfPathProcessingMixin._new_best_path(self, new_best_path)
def _best_path_lost(self):
NonVrfPathProcessingMixin._best_path_lost(self)
class RtcPath(Path):
ROUTE_FAMILY = RF_RTC_UC
def __init__(self, source, nlri, src_ver_num, pattrs=None,
nexthop='0.0.0.0', is_withdraw=False,
med_set_by_target_neighbor=False):
Path.__init__(self, source, nlri, src_ver_num, pattrs, nexthop,
is_withdraw, med_set_by_target_neighbor)
| apache-2.0 |
admcrae/tensorflow | tensorflow/contrib/learn/python/learn/ops/seq2seq_ops.py | 61 | 5870 | # 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.
# ==============================================================================
"""TensorFlow Ops for Sequence to Sequence models."""
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
from tensorflow.contrib import rnn
from tensorflow.python.framework import dtypes
from tensorflow.python.framework import ops
from tensorflow.python.ops import array_ops
from tensorflow.python.ops import math_ops
from tensorflow.python.ops import nn
from tensorflow.python.ops import variable_scope as vs
def sequence_classifier(decoding, labels, sampling_decoding=None, name=None):
"""Returns predictions and loss for sequence of predictions.
Args:
decoding: List of Tensors with predictions.
labels: List of Tensors with labels.
sampling_decoding: Optional, List of Tensor with predictions to be used
in sampling. E.g. they shouldn't have dependncy on outputs.
If not provided, decoding is used.
name: Operation name.
Returns:
Predictions and losses tensors.
"""
with ops.name_scope(name, "sequence_classifier", [decoding, labels]):
predictions, xent_list = [], []
for i, pred in enumerate(decoding):
xent_list.append(nn.softmax_cross_entropy_with_logits(
labels=labels[i], logits=pred,
name="sequence_loss/xent_raw{0}".format(i)))
if sampling_decoding:
predictions.append(nn.softmax(sampling_decoding[i]))
else:
predictions.append(nn.softmax(pred))
xent = math_ops.add_n(xent_list, name="sequence_loss/xent")
loss = math_ops.reduce_sum(xent, name="sequence_loss")
return array_ops.stack(predictions, axis=1), loss
def seq2seq_inputs(x, y, input_length, output_length, sentinel=None, name=None):
"""Processes inputs for Sequence to Sequence models.
Args:
x: Input Tensor [batch_size, input_length, embed_dim].
y: Output Tensor [batch_size, output_length, embed_dim].
input_length: length of input x.
output_length: length of output y.
sentinel: optional first input to decoder and final output expected.
If sentinel is not provided, zeros are used. Due to fact that y is not
available in sampling time, shape of sentinel will be inferred from x.
name: Operation name.
Returns:
Encoder input from x, and decoder inputs and outputs from y.
"""
with ops.name_scope(name, "seq2seq_inputs", [x, y]):
in_x = array_ops.unstack(x, axis=1)
y = array_ops.unstack(y, axis=1)
if not sentinel:
# Set to zeros of shape of y[0], using x for batch size.
sentinel_shape = array_ops.stack(
[array_ops.shape(x)[0], y[0].get_shape()[1]])
sentinel = array_ops.zeros(sentinel_shape)
sentinel.set_shape(y[0].get_shape())
in_y = [sentinel] + y
out_y = y + [sentinel]
return in_x, in_y, out_y
def rnn_decoder(decoder_inputs, initial_state, cell, scope=None):
"""RNN Decoder that creates training and sampling sub-graphs.
Args:
decoder_inputs: Inputs for decoder, list of tensors.
This is used only in training sub-graph.
initial_state: Initial state for the decoder.
cell: RNN cell to use for decoder.
scope: Scope to use, if None new will be produced.
Returns:
List of tensors for outputs and states for training and sampling sub-graphs.
"""
with vs.variable_scope(scope or "dnn_decoder"):
states, sampling_states = [initial_state], [initial_state]
outputs, sampling_outputs = [], []
with ops.name_scope("training", values=[decoder_inputs, initial_state]):
for i, inp in enumerate(decoder_inputs):
if i > 0:
vs.get_variable_scope().reuse_variables()
output, new_state = cell(inp, states[-1])
outputs.append(output)
states.append(new_state)
with ops.name_scope("sampling", values=[initial_state]):
for i, _ in enumerate(decoder_inputs):
if i == 0:
sampling_outputs.append(outputs[i])
sampling_states.append(states[i])
else:
sampling_output, sampling_state = cell(sampling_outputs[-1],
sampling_states[-1])
sampling_outputs.append(sampling_output)
sampling_states.append(sampling_state)
return outputs, states, sampling_outputs, sampling_states
def rnn_seq2seq(encoder_inputs,
decoder_inputs,
encoder_cell,
decoder_cell=None,
dtype=dtypes.float32,
scope=None):
"""RNN Sequence to Sequence model.
Args:
encoder_inputs: List of tensors, inputs for encoder.
decoder_inputs: List of tensors, inputs for decoder.
encoder_cell: RNN cell to use for encoder.
decoder_cell: RNN cell to use for decoder, if None encoder_cell is used.
dtype: Type to initialize encoder state with.
scope: Scope to use, if None new will be produced.
Returns:
List of tensors for outputs and states for trianing and sampling sub-graphs.
"""
with vs.variable_scope(scope or "rnn_seq2seq"):
_, last_enc_state = rnn.static_rnn(
encoder_cell, encoder_inputs, dtype=dtype)
return rnn_decoder(decoder_inputs, last_enc_state, decoder_cell or
encoder_cell)
| apache-2.0 |
pyblish/pyblish-starter | pyblish_starter/vendor/jsonschema/_reflect.py | 7 | 5008 | # -*- test-case-name: twisted.test.test_reflect -*-
# Copyright (c) Twisted Matrix Laboratories.
# See LICENSE for details.
"""
Standardized versions of various cool and/or strange things that you can do
with Python's reflection capabilities.
"""
import sys
from .compat import PY3
class _NoModuleFound(Exception):
"""
No module was found because none exists.
"""
class InvalidName(ValueError):
"""
The given name is not a dot-separated list of Python objects.
"""
class ModuleNotFound(InvalidName):
"""
The module associated with the given name doesn't exist and it can't be
imported.
"""
class ObjectNotFound(InvalidName):
"""
The object associated with the given name doesn't exist and it can't be
imported.
"""
if PY3:
def reraise(exception, traceback):
raise exception.with_traceback(traceback)
else:
exec("""def reraise(exception, traceback):
raise exception.__class__, exception, traceback""")
reraise.__doc__ = """
Re-raise an exception, with an optional traceback, in a way that is compatible
with both Python 2 and Python 3.
Note that on Python 3, re-raised exceptions will be mutated, with their
C{__traceback__} attribute being set.
@param exception: The exception instance.
@param traceback: The traceback to use, or C{None} indicating a new traceback.
"""
def _importAndCheckStack(importName):
"""
Import the given name as a module, then walk the stack to determine whether
the failure was the module not existing, or some code in the module (for
example a dependent import) failing. This can be helpful to determine
whether any actual application code was run. For example, to distiguish
administrative error (entering the wrong module name), from programmer
error (writing buggy code in a module that fails to import).
@param importName: The name of the module to import.
@type importName: C{str}
@raise Exception: if something bad happens. This can be any type of
exception, since nobody knows what loading some arbitrary code might
do.
@raise _NoModuleFound: if no module was found.
"""
try:
return __import__(importName)
except ImportError:
excType, excValue, excTraceback = sys.exc_info()
while excTraceback:
execName = excTraceback.tb_frame.f_globals["__name__"]
# in Python 2 execName is None when an ImportError is encountered,
# where in Python 3 execName is equal to the importName.
if execName is None or execName == importName:
reraise(excValue, excTraceback)
excTraceback = excTraceback.tb_next
raise _NoModuleFound()
def namedAny(name):
"""
Retrieve a Python object by its fully qualified name from the global Python
module namespace. The first part of the name, that describes a module,
will be discovered and imported. Each subsequent part of the name is
treated as the name of an attribute of the object specified by all of the
name which came before it. For example, the fully-qualified name of this
object is 'twisted.python.reflect.namedAny'.
@type name: L{str}
@param name: The name of the object to return.
@raise InvalidName: If the name is an empty string, starts or ends with
a '.', or is otherwise syntactically incorrect.
@raise ModuleNotFound: If the name is syntactically correct but the
module it specifies cannot be imported because it does not appear to
exist.
@raise ObjectNotFound: If the name is syntactically correct, includes at
least one '.', but the module it specifies cannot be imported because
it does not appear to exist.
@raise AttributeError: If an attribute of an object along the way cannot be
accessed, or a module along the way is not found.
@return: the Python object identified by 'name'.
"""
if not name:
raise InvalidName('Empty module name')
names = name.split('.')
# if the name starts or ends with a '.' or contains '..', the __import__
# will raise an 'Empty module name' error. This will provide a better error
# message.
if '' in names:
raise InvalidName(
"name must be a string giving a '.'-separated list of Python "
"identifiers, not %r" % (name,))
topLevelPackage = None
moduleNames = names[:]
while not topLevelPackage:
if moduleNames:
trialname = '.'.join(moduleNames)
try:
topLevelPackage = _importAndCheckStack(trialname)
except _NoModuleFound:
moduleNames.pop()
else:
if len(names) == 1:
raise ModuleNotFound("No module named %r" % (name,))
else:
raise ObjectNotFound('%r does not name an object' % (name,))
obj = topLevelPackage
for n in names[1:]:
obj = getattr(obj, n)
return obj
| mit |
gdimitris/ChessPuzzler | Virtual_Environment/lib/python2.7/site-packages/requests/packages/chardet/big5prober.py | 2931 | 1684 | ######################## BEGIN LICENSE BLOCK ########################
# The Original Code is Mozilla Communicator client code.
#
# The Initial Developer of the Original Code is
# Netscape Communications Corporation.
# Portions created by the Initial Developer are Copyright (C) 1998
# the Initial Developer. All Rights Reserved.
#
# Contributor(s):
# Mark Pilgrim - port to Python
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
#
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA
# 02110-1301 USA
######################### END LICENSE BLOCK #########################
from .mbcharsetprober import MultiByteCharSetProber
from .codingstatemachine import CodingStateMachine
from .chardistribution import Big5DistributionAnalysis
from .mbcssm import Big5SMModel
class Big5Prober(MultiByteCharSetProber):
def __init__(self):
MultiByteCharSetProber.__init__(self)
self._mCodingSM = CodingStateMachine(Big5SMModel)
self._mDistributionAnalyzer = Big5DistributionAnalysis()
self.reset()
def get_charset_name(self):
return "Big5"
| mit |
nive-cms/nive | nive/userdb/tests/test_app.py | 1 | 7136 | # -*- coding: utf-8 -*-
import time
import unittest
from nive.security import AdminUser, UserFound
from db_app import *
class ObjectTest(unittest.TestCase):
def setUp(self):
self.app = app()
def tearDown(self):
self.app.Close()
pass
def test_add(self):
a=self.app
root=a.root()
user = User("test")
# root
root.DeleteUser("user1")
root.DeleteUser("user2")
root.DeleteUser("user3")
data = {"password": "11111", "surname": "surname", "lastname": "lastname", "organistion": "organisation"}
data["name"] = "user1"
data["email"] = "user1@aaa.ccc"
o,r = root.AddUser(data, activate=1, generatePW=0, mail=None, notify=False, groups="", currentUser=user)
self.assert_(o,r)
o,r = root.AddUser(data, activate=1, generatePW=0, mail=None, notify=False, groups="", currentUser=user)
self.assertFalse(o,r)
data["name"] = "user2"
data["email"] = "user2@aaa.ccc"
o,r = root.AddUser(data, activate=1, generatePW=1, mail=None, notify=False, groups="group:author", currentUser=user)
self.assert_(o,r)
data["name"] = "user3"
data["email"] = "user3@aaa.ccc"
o,r = root.AddUser(data, activate=0, generatePW=1, mail=None, notify=False, groups="group:editor", currentUser=user)
self.assert_(o,r)
self.assert_("group:editor" in o.data.groups, o.data.groups)
self.assert_(o.data.password != "11111")
self.assertFalse(o.meta.pool_state)
root.MailUserPass(email = "user1", mailtmpl = None)
root.MailUserPass(email = "user2@aaa.ccc", mailtmpl = None, createNewPasswd=False)
root.MailUserPass(email = "user3@aaa.ccc", mailtmpl = None)
self.assert_(root.GetUserByName("user2", activeOnly=1))
self.assert_(root.GetUserByID(o.id, activeOnly=0))
self.assert_(root.GetUserByMail("user2@aaa.ccc", activeOnly=1))
self.assert_(root.LookupUser(name="user1", id=None, activeOnly=1))
self.assertFalse(root.LookupUser(name="user3", id=None, activeOnly=1))
self.assert_(root.LookupUser(name="user3", id=None, activeOnly=0))
self.assert_(len(root.GetUserInfos(["user1", "user2"], fields=["name", "email", "title"], activeOnly=True)))
self.assert_(len(root.GetUsersWithGroup("group:author", fields=["name"], activeOnly=True)))
self.assert_(len(root.GetUsersWithGroup("group:editor", fields=["name"], activeOnly=False)))
self.assertFalse(len(root.GetUsersWithGroup("group:editor", fields=["name"], activeOnly=True)))
self.assert_(len(root.GetUsers()))
root.DeleteUser("user1")
root.DeleteUser("user2")
root.DeleteUser("user3")
def test_login(self):
a=self.app
root=a.root()
root.identityField=u"name"
user = User("test")
# root
root.DeleteUser("user1")
root.DeleteUser("user2")
root.DeleteUser("user3")
data = {"password": "11111", "surname": "surname", "lastname": "lastname", "organistion": "organisation"}
data["name"] = "user1"
data["email"] = "user1@aaa.ccc"
o,r = root.AddUser(data, activate=1, generatePW=0, mail=None, notify=False, groups="", currentUser=user)
self.assert_(o,r)
l,r = root.Login("user1", "11111", raiseUnauthorized = 0)
self.assert_(l,r)
self.assert_(root.Logout("user1"))
l,r = root.Login("user1", "aaaaa", raiseUnauthorized = 0)
self.assertFalse(l,r)
l,r = root.Login("user1", "", raiseUnauthorized = 0)
self.assertFalse(l,r)
data["name"] = "user2"
data["email"] = "user2@aaa.ccc"
o,r = root.AddUser(data, activate=1, generatePW=1, mail=None, notify=False, groups="", currentUser=user)
self.assert_(o,r)
l,r = root.Login("user2", o.data.password, raiseUnauthorized = 0)
self.assertFalse(l,r)
self.assert_(root.Logout("user1"))
l,r = root.Login("user2", "11111", raiseUnauthorized = 0)
self.assertFalse(l,r)
data["name"] = "user3"
data["email"] = "user3@aaa.ccc"
o,r = root.AddUser(data, activate=0, generatePW=1, mail=None, notify=False, groups="group:author", currentUser=user)
self.assert_(o,r)
l,r = root.Login("user3", o.data.password, raiseUnauthorized = 0)
self.assertFalse(l,r)
self.assertFalse(root.Logout("user3"))
root.DeleteUser("user1")
root.DeleteUser("user2")
root.DeleteUser("user3")
def test_user(self):
a=self.app
root=a.root()
user = User("test")
# root
root.DeleteUser("user1")
data = {"password": "11111", "surname": "surname", "lastname": "lastname", "organistion": "organisation"}
data["name"] = "user1"
data["email"] = "user1@aaa.ccc"
o,r = root.AddUser(data, activate=1, generatePW=0, mail=None, notify=False, groups="", currentUser=user)
self.assert_(o.SecureUpdate(data, user))
self.assert_(o.UpdateGroups(["group:author"]))
self.assert_(o.GetGroups()==("group:author",), o.GetGroups())
self.assert_(o.AddGroup("group:editor", user))
self.assert_(o.GetGroups()==("group:author","group:editor"), o.GetGroups())
self.assert_(o.InGroups("group:editor"))
self.assert_(o.InGroups("group:author"))
self.assert_(o.ReadableName()=="surname lastname")
root.DeleteUser("user1")
class AdminuserTest(unittest.TestCase):
def setUp(self):
self.app = app()
self.app.configuration.unlock()
self.app.configuration.admin = {"name":"admin", "password":"11111", "email":"admin@aaa.ccc", "groups":("group:admin",)}
self.app.configuration.loginByEmail = True
self.app.configuration.lock()
def tearDown(self):
self.app.Close()
pass
def test_login(self):
user = User("test")
a=self.app
root=a.root()
root.identityField=u"name"
root.DeleteUser("adminXXXXX")
root.DeleteUser("admin")
data = {"password": "11111", "surname": "surname", "lastname": "lastname", "organistion": "organisation"}
data["name"] = "admin"
data["email"] = "admin@aaa.cccXXXXX"
o,r = root.AddUser(data, activate=1, generatePW=0, mail=None, notify=False, groups="", currentUser=user)
self.assertFalse(o,r)
data["name"] = "adminXXXXX"
data["email"] = "admin@aaa.ccc"
o,r = root.AddUser(data, activate=1, generatePW=0, mail=None, notify=False, groups="", currentUser=user)
self.assertFalse(o,r)
l,r = root.Login("admin", "11111", raiseUnauthorized = 0)
self.assert_(l,r)
self.assert_(root.Logout("admin"))
l,r = root.Login("admin", "aaaaa", raiseUnauthorized = 0)
self.assertFalse(l,r)
l,r = root.Login("admin", "", raiseUnauthorized = 0)
self.assertFalse(l,r)
| gpl-3.0 |
SwagColoredKitteh/servo | tests/wpt/web-platform-tests/tools/py/testing/root/test_py_imports.py | 163 | 1983 | import py
import types
import sys
def checksubpackage(name):
obj = getattr(py, name)
if hasattr(obj, '__map__'): # isinstance(obj, Module):
keys = dir(obj)
assert len(keys) > 0
print (obj.__map__)
for name in list(obj.__map__):
assert hasattr(obj, name), (obj, name)
def test_dir():
for name in dir(py):
if not name.startswith('_'):
yield checksubpackage, name
def test_virtual_module_identity():
from py import path as path1
from py import path as path2
assert path1 is path2
from py.path import local as local1
from py.path import local as local2
assert local1 is local2
def test_importall():
base = py._pydir
nodirs = [
]
if sys.version_info >= (3,0):
nodirs.append(base.join('_code', '_assertionold.py'))
else:
nodirs.append(base.join('_code', '_assertionnew.py'))
def recurse(p):
return p.check(dotfile=0) and p.basename != "attic"
for p in base.visit('*.py', recurse):
if p.basename == '__init__.py':
continue
relpath = p.new(ext='').relto(base)
if base.sep in relpath: # not py/*.py itself
for x in nodirs:
if p == x or p.relto(x):
break
else:
relpath = relpath.replace(base.sep, '.')
modpath = 'py.%s' % relpath
try:
check_import(modpath)
except py.test.skip.Exception:
pass
def check_import(modpath):
py.builtin.print_("checking import", modpath)
assert __import__(modpath)
def test_all_resolves():
seen = py.builtin.set([py])
lastlength = None
while len(seen) != lastlength:
lastlength = len(seen)
for item in py.builtin.frozenset(seen):
for value in item.__dict__.values():
if isinstance(value, type(py.test)):
seen.add(value)
| mpl-2.0 |
rbenson/orgmode | resolver/https.py | 2 | 2676 |
import re
import sys
import subprocess
import sublime
from .abstract import AbstractRegexLinkResolver
try:
import urllib.request, urllib.parse, urllib.error
except ImportError:
import urllib
PATTERN_SETTING = 'orgmode.open_link.resolver.https.pattern'
PATTERN_DEFAULT = r'^(https):(?P<url>.+)$'
URL_SETTING = 'orgmode.open_link.resolver.https.url'
URL_DEFAULT = 'https:%s'
DEFAULT_OPEN_HTTP_LINK_COMMANDS = dict(
darwin=['open'],
win32=['cmd', '/C'],
linux=['xdg-open'],
)
class Resolver(AbstractRegexLinkResolver):
def __init__(self, view):
super(Resolver, self).__init__(view)
get = self.settings.get
pattern = get(PATTERN_SETTING, PATTERN_DEFAULT)
self.regex = re.compile(pattern)
self.url = get(URL_SETTING, URL_DEFAULT)
self.link_commands = self.settings.get(
'orgmode.open_link.resolver.abstract.commands', DEFAULT_OPEN_HTTP_LINK_COMMANDS)
def replace(self, match):
return self.url % match.group('url')
def execute(self, content):
command = self.get_link_command()
if not command:
sublime.error_message(
'Could not get link opener command.\nNot yet supported.')
return None
# cmd.exe quote is needed, http://ss64.com/nt/syntax-esc.html
# escape these: ^\ ^& ^| ^> ^< ^^
if sys.platform == 'win32':
content = content.replace("^", "^^")
content = content.replace("&", "^&")
content = content.replace("\\", "^\\")
content = content.replace("|", "^|")
content = content.replace("<", "^<")
content = content.replace(">", "^>")
if sys.version_info[0] < 3:
content = content.encode(sys.getfilesystemencoding())
if sys.platform != 'win32':
cmd = command + [content]
else:
cmd = command + ['start ' + content]
print('HTTP*****')
print(repr(content), content)
print(repr(cmd))
print(cmd)
sublime.status_message('Executing: %s' % cmd)
if sys.platform != 'win32':
process = subprocess.Popen(
cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
else:
process = subprocess.Popen(
cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE, shell=True)
stdout, stderr = process.communicate()
if stdout:
stdout = str(stdout, sys.getfilesystemencoding())
sublime.status_message(stdout)
if stderr:
stderr = str(stderr, sys.getfilesystemencoding())
sublime.error_message(stderr)
| mit |
geosolutions-it/geonode | geonode/upload/tests/test_files.py | 11 | 1695 | # -*- coding: utf-8 -*-
#########################################################################
#
# Copyright (C) 2018 OSGeo
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
#########################################################################
"""unit tests for geonode.upload.files module"""
from geonode.tests.base import GeoNodeBaseTestSupport
from geonode.upload import files
class FilesTestCase(GeoNodeBaseTestSupport):
def test_scan_hint_kml_ground_overlay(self):
result = files.get_scan_hint(["kml", "other"])
kml_file_type = files.get_type("KML Ground Overlay")
self.assertEqual(result, kml_file_type.code)
def test_scan_hint_kmz_ground_overlay(self):
result = files.get_scan_hint(["kmz", "other"])
self.assertEqual(result, "kmz")
def test_get_type_non_existing_type(self):
self.assertIsNone(files.get_type("fake"))
def test_get_type_kml_ground_overlay(self):
file_type = files.get_type("KML Ground Overlay")
self.assertEqual(file_type.code, "kml-overlay")
self.assertIn("kmz", file_type.aliases)
| gpl-3.0 |
jfinkels/networkx | networkx/generators/tests/test_expanders.py | 55 | 2497 | # Copyright 2014 "cheebee7i".
# Copyright 2014 "alexbrc".
# Copyright 2014 Jeffrey Finkelstein <jeffrey.finkelstein@gmail.com>.
"""Unit tests for the :mod:`networkx.generators.expanders` module.
"""
try:
import scipy
is_scipy_available = True
except:
is_scipy_available = False
import networkx as nx
from networkx import adjacency_matrix
from networkx import number_of_nodes
from networkx.generators.expanders import chordal_cycle_graph
from networkx.generators.expanders import margulis_gabber_galil_graph
from nose import SkipTest
from nose.tools import assert_equal
from nose.tools import assert_less
from nose.tools import assert_raises
from nose.tools import assert_true
def test_margulis_gabber_galil_graph():
try:
# Scipy is required for conversion to an adjacency matrix.
# We also use scipy for computing the eigenvalues,
# but this second use could be done using only numpy.
import numpy as np
import scipy.linalg
has_scipy = True
except ImportError as e:
has_scipy = False
for n in 2, 3, 5, 6, 10:
g = margulis_gabber_galil_graph(n)
assert_equal(number_of_nodes(g), n*n)
for node in g:
assert_equal(g.degree(node), 8)
assert_equal(len(node), 2)
for i in node:
assert_equal(int(i), i)
assert_true(0 <= i < n)
if has_scipy:
# Eigenvalues are already sorted using the scipy eigvalsh,
# but the implementation in numpy does not guarantee order.
w = sorted(scipy.linalg.eigvalsh(adjacency_matrix(g).A))
assert_less(w[-2], 5*np.sqrt(2))
def test_chordal_cycle_graph():
"""Test for the :func:`networkx.chordal_cycle_graph` function."""
if not is_scipy_available:
raise SkipTest('SciPy is not available')
primes = [3, 5, 7, 11]
for p in primes:
G = chordal_cycle_graph(p)
assert_equal(len(G), p)
# TODO The second largest eigenvalue should be smaller than a constant,
# independent of the number of nodes in the graph:
#
# eigs = sorted(scipy.linalg.eigvalsh(adjacency_matrix(G).A))
# assert_less(eigs[-2], ...)
#
def test_margulis_gabber_galil_graph_badinput():
assert_raises(nx.NetworkXError, margulis_gabber_galil_graph, 3,
nx.DiGraph())
assert_raises(nx.NetworkXError, margulis_gabber_galil_graph, 3,
nx.Graph())
| bsd-3-clause |
hjanime/VisTrails | vistrails/gui/module_info.py | 1 | 13979 | ###############################################################################
##
## Copyright (C) 2014-2015, New York University.
## Copyright (C) 2011-2014, NYU-Poly.
## Copyright (C) 2006-2011, University of Utah.
## All rights reserved.
## Contact: contact@vistrails.org
##
## This file is part of VisTrails.
##
## "Redistribution and use in source and binary forms, with or without
## modification, are permitted provided that the following conditions are met:
##
## - Redistributions of source code must retain the above copyright notice,
## this list of conditions and the following disclaimer.
## - Redistributions in binary form must reproduce the above copyright
## notice, this list of conditions and the following disclaimer in the
## documentation and/or other materials provided with the distribution.
## - Neither the name of the New York University nor the names of its
## contributors may be used to endorse or promote products derived from
## this software without specific prior written permission.
##
## THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
## AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
## THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
## PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR
## CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
## EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
## PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
## OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
## WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
## OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
## ADVISED OF THE POSSIBILITY OF SUCH DAMAGE."
##
###############################################################################
from __future__ import division
from PyQt4 import QtCore, QtGui
from vistrails.core.configuration import get_vistrails_configuration, \
get_vistrails_persistent_configuration
from vistrails.core.system import systemType, vistrails_root_directory
from vistrails.core.utils import versions_increasing
from vistrails.gui.common_widgets import QDockPushButton
from vistrails.gui.module_annotation import QModuleAnnotationTable
from vistrails.gui.ports_pane import PortsList, letterIcon
from vistrails.gui.version_prop import QVersionProp
from vistrails.gui.vistrails_palette import QVistrailsPaletteInterface
import os
class QModuleInfo(QtGui.QWidget, QVistrailsPaletteInterface):
def __init__(self, parent=None, flags=QtCore.Qt.Widget):
QtGui.QWidget.__init__(self, parent, flags)
self.ports_visible = True
self.types_visible = True
self.build_widget()
self.controller = None
self.module = None
self.pipeline_view = None # pipeline_view
self.read_only = False
self.is_updating = False
self.addButtonsToToolbar()
def addButtonsToToolbar(self):
# button for toggling executions
eye_open_icon = \
QtGui.QIcon(os.path.join(vistrails_root_directory(),
'gui/resources/images/eye.png'))
self.portVisibilityAction = QtGui.QAction(eye_open_icon,
"Show/hide port visibility toggle buttons",
None,
triggered=self.showPortVisibility)
self.portVisibilityAction.setCheckable(True)
self.portVisibilityAction.setChecked(True)
self.toolWindow().toolbar.insertAction(self.toolWindow().pinAction,
self.portVisibilityAction)
self.showTypesAction = QtGui.QAction(letterIcon('T'),
"Show/hide type information",
None,
triggered=self.showTypes)
self.showTypesAction.setCheckable(True)
self.showTypesAction.setChecked(True)
self.toolWindow().toolbar.insertAction(self.toolWindow().pinAction,
self.showTypesAction)
self.showEditsAction = QtGui.QAction(
QtGui.QIcon(os.path.join(vistrails_root_directory(),
'gui/resources/images/pencil.png')),
"Show/hide parameter widgets",
None,
triggered=self.showEdits)
self.showEditsAction.setCheckable(True)
self.showEditsAction.setChecked(
get_vistrails_configuration().check('showInlineParameterWidgets'))
self.toolWindow().toolbar.insertAction(self.toolWindow().pinAction,
self.showEditsAction)
def showPortVisibility(self, checked):
self.ports_visible = checked
self.update_module(self.module)
def showTypes(self, checked):
self.types_visible = checked
self.update_module(self.module)
def showEdits(self, checked):
get_vistrails_configuration().showInlineParameterWidgets = checked
get_vistrails_persistent_configuration().showInlineParameterWidgets = checked
scene = self.controller.current_pipeline_scene
scene.setupScene(self.controller.current_pipeline)
def build_widget(self):
name_label = QtGui.QLabel("Name:")
self.name_edit = QtGui.QLineEdit()
self.connect(self.name_edit, QtCore.SIGNAL('editingFinished()'),
self.name_editing_finished)
self.name_edit.setMinimumSize(50, 22)
type_label = QtGui.QLabel("Type:")
self.type_edit = QtGui.QLabel("")
package_label = QtGui.QLabel("Package:")
self.package_edit = QtGui.QLabel("")
namespace_label = QtGui.QLabel("Namespace:")
self.namespace_edit = QtGui.QLabel("")
id = QtGui.QLabel("Id:")
self.module_id = QtGui.QLabel("")
self.configure_button = QDockPushButton("Configure")
self.connect(self.configure_button, QtCore.SIGNAL('clicked()'),
self.configure)
self.doc_button = QDockPushButton("Documentation")
self.connect(self.doc_button, QtCore.SIGNAL('clicked()'),
self.documentation)
layout = QtGui.QVBoxLayout()
layout.setMargin(2)
layout.setSpacing(4)
def add_line(left, right):
h_layout = QtGui.QHBoxLayout()
h_layout.setMargin(2)
h_layout.setSpacing(2)
h_layout.setAlignment(QtCore.Qt.AlignLeft)
h_layout.addWidget(left)
h_layout.addWidget(right)
h_widget = QtGui.QWidget()
h_widget.setLayout(h_layout)
h_widget.setSizePolicy(QtGui.QSizePolicy.Ignored,
QtGui.QSizePolicy.Preferred)
layout.addWidget(h_widget)
add_line(name_label, self.name_edit)
add_line(type_label, self.type_edit)
add_line(package_label, self.package_edit)
add_line(namespace_label, self.namespace_edit)
add_line(id, self.module_id)
h_layout = QtGui.QHBoxLayout()
h_layout.setMargin(2)
h_layout.setSpacing(5)
h_layout.setAlignment(QtCore.Qt.AlignCenter)
h_layout.addWidget(self.configure_button)
h_layout.addWidget(self.doc_button)
layout.addLayout(h_layout)
self.tab_widget = QtGui.QTabWidget()
# keep from overflowing on mac
if systemType in ['Darwin']:
self.tab_widget.tabBar().setStyleSheet('font-size: 12pt')
# this causes a crash when undocking the palette in Mac OS X
# see https://bugreports.qt-project.org/browse/QTBUG-16851
# self.tab_widget.setDocumentMode(True)
self.input_ports_list = PortsList('input')
self.tab_widget.addTab(self.input_ports_list, 'Inputs')
self.output_ports_list = PortsList('output')
self.tab_widget.addTab(self.output_ports_list, 'Outputs')
self.ports_lists = [self.input_ports_list,
self.output_ports_list]
self.annotations = QModuleAnnotationTable()
self.tab_widget.addTab(self.annotations, 'Annotations')
layout.addWidget(self.tab_widget, 1)
layout.setAlignment(QtCore.Qt.AlignTop)
self.setLayout(layout)
self.setWindowTitle('Module Info')
def setReadOnly(self, read_only):
if read_only != self.read_only:
self.read_only = read_only
for widget in self.ports_lists + [self.annotations]:
widget.setReadOnly(read_only)
def set_controller(self, controller):
if self.controller == controller:
return
self.controller = controller
for ports_list in self.ports_lists:
ports_list.set_controller(controller)
self.annotations.set_controller(controller)
if self.controller is not None:
scene = self.controller.current_pipeline_scene
selected_ids = scene.get_selected_module_ids()
modules = [self.controller.current_pipeline.modules[i]
for i in selected_ids]
if len(modules) == 1:
self.update_module(modules[0])
else:
self.update_module(None)
else:
self.update_module()
def set_visible(self, enabled):
if enabled and \
self.module is None and \
not self.toolWindow().isFloating() and \
not QVersionProp.instance().toolWindow().isFloating() and \
not self.toolWindow().visibleRegion().isEmpty():
QVersionProp.instance().set_visible(True)
else:
super(QModuleInfo, self).set_visible(enabled)
def update_module(self, module=None):
for plist in self.ports_lists:
plist.types_visible = self.types_visible
plist.ports_visible = self.ports_visible
self.module = module
for ports_list in self.ports_lists:
ports_list.update_module(module)
self.annotations.updateModule(module)
if module is None:
# We show the version properties tab if both are tabified and
# self is visible
if not self.toolWindow().isFloating() and \
not QVersionProp.instance().toolWindow().isFloating() and \
not self.toolWindow().visibleRegion().isEmpty():
QVersionProp.instance().set_visible(True)
self.name_edit.setText("")
if not versions_increasing(QtCore.QT_VERSION_STR, '4.7.0'):
self.name_edit.setPlaceholderText("")
# self.name_edit.setEnabled(False)
self.type_edit.setText("")
# self.type_edit.setEnabled(False)
self.package_edit.setText("")
self.namespace_edit.setText("")
self.module_id.setText("")
else:
# We show self if both are tabified and
# the version properties tab is visible
if not self.toolWindow().isFloating() and \
not QVersionProp.instance().toolWindow().isFloating() and \
not QVersionProp.instance().toolWindow().visibleRegion().isEmpty():
self.set_visible(True)
if module.has_annotation_with_key('__desc__'):
label = module.get_annotation_by_key('__desc__').value.strip()
else:
label = ''
self.name_edit.setText(label)
if not label and not versions_increasing(QtCore.QT_VERSION_STR,
'4.7.0'):
self.name_edit.setPlaceholderText(self.module.name)
self.type_edit.setText(self.module.name)
self.package_edit.setText(self.module.package)
if self.module.namespace is not None:
self.namespace_edit.setText(self.module.namespace.replace('|',
'/'))
else:
self.namespace_edit.setText('')
self.module_id.setText('%d' % self.module.id)
def name_editing_finished(self):
# updating module may trigger a second call so we check for that
if self.is_updating or self.module is None:
return
try:
self.is_updating = True
old_text = ''
if self.module.has_annotation_with_key('__desc__'):
old_text = self.module.get_annotation_by_key('__desc__').value
new_text = str(self.name_edit.text()).strip()
if not new_text:
if old_text:
self.controller.delete_annotation('__desc__',
self.module.id)
elif old_text != new_text:
self.controller.add_annotation(('__desc__', new_text),
self.module.id)
scene = self.controller.current_pipeline_scene
scene.recreate_module(self.controller.current_pipeline,
self.module.id)
finally:
self.is_updating = False
def configure(self):
from vistrails.gui.vistrails_window import _app
_app.configure_module()
def documentation(self):
from vistrails.gui.vistrails_window import _app
_app.show_documentation()
def update_entry_klass(self, entry_klass):
self.input_ports_list.set_entry_klass(entry_klass)
def show_annotations(self):
if self.module is not None:
self.tab_widget.setCurrentWidget(self.annotations)
self.annotations.editNextAvailableCell()
| bsd-3-clause |
xthirtyfive/gamemod | guiprovider.py | 1 | 2081 | # Copyright 2013 X35
#
# This file is part of gamemod.
#
# gamemod 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.
#
# gamemod 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 gamemod. If not, see <http:#www.gnu.org/licenses/>.
from requestcounter import requestcounter
from debug import debug
# provide the gamemod gui & server list
class guiprovider:
FILECHECK_INTERVAL = 60*60 # 1h
DBGTAG = "guiprovider"
DBGTAG_REQUEST = DBGTAG+"/request"
DBGTAG_REPLY = DBGTAG+"/reply"
LIST_REQUEST = "list"
READABLELIST_REQUEST = "readablelist"
def __init__(self, reqfunc):
self.reqfunc = reqfunc
self.counter = requestcounter()
def request(self, readable=False):
return self.reqfunc(readable)
def onrequest(self, line, addr, build): # return (reply, close)
if line == guiprovider.LIST_REQUEST:
debug.msg(guiprovider.DBGTAG_REQUEST, "%s request from %s:%d (%sbuild)" % ((line,)+addr+("" if build else "don't ",)))
self.counter.add(addr[0])
s = (self.request() if build else True)
debug.msg(guiprovider.DBGTAG_REQUEST, "sending reply to %s request to %s:%d" % ((line,)+addr))
return s, True
elif line == guiprovider.READABLELIST_REQUEST:
debug.msg(guiprovider.DBGTAG_REQUEST, "%s request from %s:%d (%sbuild)" % ((line,)+addr+("" if build else "don't ",)))
s = (self.request(True) if build else True)
debug.msg(guiprovider.DBGTAG_REQUEST, "sending reply to %s request to %s:%d" % ((line,)+addr))
return s, True
return None, False
def differentips(self):
return self.counter.differentips()
def requests(self):
return self.counter.requests()
| gpl-3.0 |
romankagan/DDBWorkbench | plugins/hg4idea/testData/bin/hgext/acl.py | 91 | 10362 | # acl.py - changeset access control for mercurial
#
# Copyright 2006 Vadim Gelfer <vadim.gelfer@gmail.com>
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
'''hooks for controlling repository access
This hook makes it possible to allow or deny write access to given
branches and paths of a repository when receiving incoming changesets
via pretxnchangegroup and pretxncommit.
The authorization is matched based on the local user name on the
system where the hook runs, and not the committer of the original
changeset (since the latter is merely informative).
The acl hook is best used along with a restricted shell like hgsh,
preventing authenticating users from doing anything other than pushing
or pulling. The hook is not safe to use if users have interactive
shell access, as they can then disable the hook. Nor is it safe if
remote users share an account, because then there is no way to
distinguish them.
The order in which access checks are performed is:
1) Deny list for branches (section ``acl.deny.branches``)
2) Allow list for branches (section ``acl.allow.branches``)
3) Deny list for paths (section ``acl.deny``)
4) Allow list for paths (section ``acl.allow``)
The allow and deny sections take key-value pairs.
Branch-based Access Control
---------------------------
Use the ``acl.deny.branches`` and ``acl.allow.branches`` sections to
have branch-based access control. Keys in these sections can be
either:
- a branch name, or
- an asterisk, to match any branch;
The corresponding values can be either:
- a comma-separated list containing users and groups, or
- an asterisk, to match anyone;
You can add the "!" prefix to a user or group name to invert the sense
of the match.
Path-based Access Control
-------------------------
Use the ``acl.deny`` and ``acl.allow`` sections to have path-based
access control. Keys in these sections accept a subtree pattern (with
a glob syntax by default). The corresponding values follow the same
syntax as the other sections above.
Groups
------
Group names must be prefixed with an ``@`` symbol. Specifying a group
name has the same effect as specifying all the users in that group.
You can define group members in the ``acl.groups`` section.
If a group name is not defined there, and Mercurial is running under
a Unix-like system, the list of users will be taken from the OS.
Otherwise, an exception will be raised.
Example Configuration
---------------------
::
[hooks]
# Use this if you want to check access restrictions at commit time
pretxncommit.acl = python:hgext.acl.hook
# Use this if you want to check access restrictions for pull, push,
# bundle and serve.
pretxnchangegroup.acl = python:hgext.acl.hook
[acl]
# Allow or deny access for incoming changes only if their source is
# listed here, let them pass otherwise. Source is "serve" for all
# remote access (http or ssh), "push", "pull" or "bundle" when the
# related commands are run locally.
# Default: serve
sources = serve
[acl.deny.branches]
# Everyone is denied to the frozen branch:
frozen-branch = *
# A bad user is denied on all branches:
* = bad-user
[acl.allow.branches]
# A few users are allowed on branch-a:
branch-a = user-1, user-2, user-3
# Only one user is allowed on branch-b:
branch-b = user-1
# The super user is allowed on any branch:
* = super-user
# Everyone is allowed on branch-for-tests:
branch-for-tests = *
[acl.deny]
# This list is checked first. If a match is found, acl.allow is not
# checked. All users are granted access if acl.deny is not present.
# Format for both lists: glob pattern = user, ..., @group, ...
# To match everyone, use an asterisk for the user:
# my/glob/pattern = *
# user6 will not have write access to any file:
** = user6
# Group "hg-denied" will not have write access to any file:
** = @hg-denied
# Nobody will be able to change "DONT-TOUCH-THIS.txt", despite
# everyone being able to change all other files. See below.
src/main/resources/DONT-TOUCH-THIS.txt = *
[acl.allow]
# if acl.allow is not present, all users are allowed by default
# empty acl.allow = no users allowed
# User "doc_writer" has write access to any file under the "docs"
# folder:
docs/** = doc_writer
# User "jack" and group "designers" have write access to any file
# under the "images" folder:
images/** = jack, @designers
# Everyone (except for "user6" and "@hg-denied" - see acl.deny above)
# will have write access to any file under the "resources" folder
# (except for 1 file. See acl.deny):
src/main/resources/** = *
.hgtags = release_engineer
Examples using the "!" prefix
.............................
Suppose there's a branch that only a given user (or group) should be able to
push to, and you don't want to restrict access to any other branch that may
be created.
The "!" prefix allows you to prevent anyone except a given user or group to
push changesets in a given branch or path.
In the examples below, we will:
1) Deny access to branch "ring" to anyone but user "gollum"
2) Deny access to branch "lake" to anyone but members of the group "hobbit"
3) Deny access to a file to anyone but user "gollum"
::
[acl.allow.branches]
# Empty
[acl.deny.branches]
# 1) only 'gollum' can commit to branch 'ring';
# 'gollum' and anyone else can still commit to any other branch.
ring = !gollum
# 2) only members of the group 'hobbit' can commit to branch 'lake';
# 'hobbit' members and anyone else can still commit to any other branch.
lake = !@hobbit
# You can also deny access based on file paths:
[acl.allow]
# Empty
[acl.deny]
# 3) only 'gollum' can change the file below;
# 'gollum' and anyone else can still change any other file.
/misty/mountains/cave/ring = !gollum
'''
from mercurial.i18n import _
from mercurial import util, match
import getpass, urllib
testedwith = 'internal'
def _getusers(ui, group):
# First, try to use group definition from section [acl.groups]
hgrcusers = ui.configlist('acl.groups', group)
if hgrcusers:
return hgrcusers
ui.debug('acl: "%s" not defined in [acl.groups]\n' % group)
# If no users found in group definition, get users from OS-level group
try:
return util.groupmembers(group)
except KeyError:
raise util.Abort(_("group '%s' is undefined") % group)
def _usermatch(ui, user, usersorgroups):
if usersorgroups == '*':
return True
for ug in usersorgroups.replace(',', ' ').split():
if ug.startswith('!'):
# Test for excluded user or group. Format:
# if ug is a user name: !username
# if ug is a group name: !@groupname
ug = ug[1:]
if not ug.startswith('@') and user != ug \
or ug.startswith('@') and user not in _getusers(ui, ug[1:]):
return True
# Test for user or group. Format:
# if ug is a user name: username
# if ug is a group name: @groupname
elif user == ug \
or ug.startswith('@') and user in _getusers(ui, ug[1:]):
return True
return False
def buildmatch(ui, repo, user, key):
'''return tuple of (match function, list enabled).'''
if not ui.has_section(key):
ui.debug('acl: %s not enabled\n' % key)
return None
pats = [pat for pat, users in ui.configitems(key)
if _usermatch(ui, user, users)]
ui.debug('acl: %s enabled, %d entries for user %s\n' %
(key, len(pats), user))
# Branch-based ACL
if not repo:
if pats:
# If there's an asterisk (meaning "any branch"), always return True;
# Otherwise, test if b is in pats
if '*' in pats:
return util.always
return lambda b: b in pats
return util.never
# Path-based ACL
if pats:
return match.match(repo.root, '', pats)
return util.never
def hook(ui, repo, hooktype, node=None, source=None, **kwargs):
if hooktype not in ['pretxnchangegroup', 'pretxncommit']:
raise util.Abort(_('config error - hook type "%s" cannot stop '
'incoming changesets nor commits') % hooktype)
if (hooktype == 'pretxnchangegroup' and
source not in ui.config('acl', 'sources', 'serve').split()):
ui.debug('acl: changes have source "%s" - skipping\n' % source)
return
user = None
if source == 'serve' and 'url' in kwargs:
url = kwargs['url'].split(':')
if url[0] == 'remote' and url[1].startswith('http'):
user = urllib.unquote(url[3])
if user is None:
user = getpass.getuser()
ui.debug('acl: checking access for user "%s"\n' % user)
cfg = ui.config('acl', 'config')
if cfg:
ui.readconfig(cfg, sections = ['acl.groups', 'acl.allow.branches',
'acl.deny.branches', 'acl.allow', 'acl.deny'])
allowbranches = buildmatch(ui, None, user, 'acl.allow.branches')
denybranches = buildmatch(ui, None, user, 'acl.deny.branches')
allow = buildmatch(ui, repo, user, 'acl.allow')
deny = buildmatch(ui, repo, user, 'acl.deny')
for rev in xrange(repo[node], len(repo)):
ctx = repo[rev]
branch = ctx.branch()
if denybranches and denybranches(branch):
raise util.Abort(_('acl: user "%s" denied on branch "%s"'
' (changeset "%s")')
% (user, branch, ctx))
if allowbranches and not allowbranches(branch):
raise util.Abort(_('acl: user "%s" not allowed on branch "%s"'
' (changeset "%s")')
% (user, branch, ctx))
ui.debug('acl: branch access granted: "%s" on branch "%s"\n'
% (ctx, branch))
for f in ctx.files():
if deny and deny(f):
raise util.Abort(_('acl: user "%s" denied on "%s"'
' (changeset "%s")') % (user, f, ctx))
if allow and not allow(f):
raise util.Abort(_('acl: user "%s" not allowed on "%s"'
' (changeset "%s")') % (user, f, ctx))
ui.debug('acl: path access granted: "%s"\n' % ctx)
| apache-2.0 |
jhu-lcsr-forks/ogre | Tools/Blender2.6Export/ogre_mesh_exporter/mesh_impl.py | 16 | 16080 | # ##### BEGIN MIT LICENSE BLOCK #####
# Copyright (C) 2011 by Lih-Hern Pang
# 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.
# ##### END MIT LICENSE BLOCK #####
# ########################################################################
# See mesh_exporter.py for explanation.
# ########################################################################
import bpy, mathutils
from ogre_mesh_exporter.log_manager import LogManager, Message
from operator import attrgetter
# Mesh export settings class to define how we are going to export the mesh.
class MeshExportSettings():
def __init__(self, fixUpAxisToY = True, requireMaterials = True, applyModifiers = False, skeletonNameFollowMesh = True, runOgreXMLConverter = True):
self.fixUpAxisToY = fixUpAxisToY
self.requireMaterials = requireMaterials
self.applyModifiers = applyModifiers
self.skeletonNameFollowMesh = skeletonNameFollowMesh
self.runOgreXMLConverter = runOgreXMLConverter
@classmethod
def fromRNA(cls, meshObject):
globalSettings = bpy.context.scene.ogre_mesh_exporter
meshSettings = meshObject.data.ogre_mesh_exporter
return MeshExportSettings(
fixUpAxisToY = globalSettings.fixUpAxisToY,
requireMaterials = meshSettings.requireMaterials if (meshSettings.requireMaterials_override) else globalSettings.requireMaterials,
applyModifiers = meshSettings.applyModifiers if (meshSettings.applyModifiers_override) else globalSettings.applyModifiers,
skeletonNameFollowMesh = meshSettings.skeletonNameFollowMesh if (meshSettings.skeletonNameFollowMesh_override) else globalSettings.skeletonNameFollowMesh,
runOgreXMLConverter = globalSettings.runOgreXMLConverter)
class BoneWeight():
def __init__(self, boneIndex, boneWeight):
self.mBoneIndex = boneIndex
self.mBoneWeight = boneWeight
class Vertex():
def __init__(self, pos, norm, uvs = list(), colors = list(), boneWeights = list()):
self.mPosition = pos
self.mNormal = norm
self.mUVs = uvs
self.mColors = colors
self.mBoneWeights = boneWeights
def match(self, norm, uvs, colors):
# Test normal.
if (self.mNormal != norm): return False;
# Test UVs.
if (len(self.mUVs) is not len(uvs)): return False
for uv1, uv2 in zip(self.mUVs, uvs):
if (uv1 != uv2): return False
# Test Colors.
if (len(self.mColors) is not len(colors)): return False
for color1, color2 in zip(self.mColors, colors):
if (color1 != color2): return False
return True
class VertexBuffer():
def __init__(self, uvLayers = 0, colorLayers = 0, hasBoneWeights = False):
# Vertex data.
self.mVertexData = list()
self.mUVLayers = uvLayers
self.mColorLayers = colorLayers
self.mHasBoneWeights = hasBoneWeights
# Blender mesh -> vertex index link.
# Only useful when exporting.
self.mMeshVertexIndexLink = dict()
def reset(self, uvLayers, colorLayers, hasBoneWeights = False):
self.mVertexData = list()
self.mUVLayers = uvLayers
self.mColorLayers = colorLayers
self.mHasBoneWeights = hasBoneWeights
def vertexCount(self):
return len(self.mVertexData)
# This method adds a vertex from the given blend mesh index into the buffer.
# If the uv information does not match the recorded vertex, it will automatically
# clone a new vertex for use.
def addVertex(self, index, pos, norm, uvs, colors, boneWeights = list(), fixUpAxisToY = True):
# Fix Up axis to Y (swap Y and Z and negate Z)
if (fixUpAxisToY):
pos = [pos[0], pos[2], -pos[1]]
norm = [norm[0], norm[2], -norm[1]]
# make sure uv layers and color layers matches as defined.
if (len(uvs) != self.mUVLayers or len(colors) != self.mColorLayers):
raise Exception("Invalid UV layer or Color layer count! Expecting uv(%d), color(%d). Got uv(%d), color(%d)" %
(self.mUVLayers, self.mColorLayers, len(uvs), len(colors)))
# try to find pre added vertex that matches criteria.
if (index in self.mMeshVertexIndexLink):
localIndexList = self.mMeshVertexIndexLink[index]
for localIndex in localIndexList:
if (self.mVertexData[localIndex].match(norm, uvs, colors)):
return localIndex
# nothing found. so we add a new vertex.
localIndex = len(self.mVertexData)
if (index not in self.mMeshVertexIndexLink): self.mMeshVertexIndexLink[index] = list()
self.mMeshVertexIndexLink[index].append(localIndex)
self.mVertexData.append(Vertex(pos, norm, uvs, colors, boneWeights))
return localIndex
def serialize(self, file, indent = ''):
extraAttributes = ''
uvLayerCount = 8 if (self.mUVLayers > 8) else self.mUVLayers
if (uvLayerCount > 0):
extraAttributes = ' texture_coords="%d"' % uvLayerCount
for i in range(uvLayerCount):
extraAttributes += ' texture_coord_dimensions_%d="float2"' % i
colorLayerCount = self.mColorLayers
if (colorLayerCount > 0): extraAttributes += ' colours_diffuse="true"'
if (colorLayerCount > 1): extraAttributes += ' colours_specular="true"'
file.write('%s<vertexbuffer positions="true" normals="true"%s>\n' % (indent, extraAttributes))
for vertex in self.mVertexData:
file.write('%s\t<vertex>\n' % indent)
# write position and normal.
file.write('%s\t\t<position x="%.6f" y="%.6f" z="%.6f" />\n' % (indent, vertex.mPosition[0], vertex.mPosition[1], vertex.mPosition[2]))
file.write('%s\t\t<normal x="%.6f" y="%.6f" z="%.6f" />\n' % (indent, vertex.mNormal[0], vertex.mNormal[1], vertex.mNormal[2]))
# write UV layers. (NOTE: Blender uses bottom left coord! Ogre uses top left! So we have to flip Y.)
for i in range(uvLayerCount):
uv = vertex.mUVs[i]
file.write('%s\t\t<texcoord u="%.6f" v="%.6f" />\n' % (indent, uv[0], (1.0 - uv[1])))
# write diffuse.
if (colorLayerCount > 0):
color = vertex.mColors[0]
file.write('%s\t\t<colour_diffuse value="%.6f %.6f %.6f" />\n' % (indent, color[0], color[1], color[2]))
# write specular.
if (colorLayerCount > 1):
color = vertex.mColors[1]
file.write('%s\t\t<colour_diffuse value="%.6f %.6f %.6f" />\n' % (indent, color[0], color[1], color[2]))
file.write('%s\t</vertex>\n' % indent)
file.write('%s</vertexbuffer>\n' % indent)
def serializeBoneAssignments(self, file, indent = ''):
file.write('%s\t<boneassignments>\n' % indent)
vertexWithNoBoneAssignements = 0;
for i, vertex in enumerate(self.mVertexData):
if (len(vertex.mBoneWeights) == 0): vertexWithNoBoneAssignements += 1
for boneWeight in vertex.mBoneWeights:
file.write('%s\t\t<vertexboneassignment vertexindex="%d" boneindex="%d" weight="%.6f" />\n' %
(indent, i, boneWeight.mBoneIndex, boneWeight.mBoneWeight))
if (vertexWithNoBoneAssignements > 0):
LogManager.logMessage("There are %d vertices with no bone assignements!" % vertexWithNoBoneAssignements, Message.LVL_WARNING)
file.write('%s\t</boneassignments>\n' % indent)
class SubMesh():
def __init__(self, vertexBuffer = None, meshVertexIndexLink = None, name = None):
# True if submesh is sharing vertex buffer.
self.mShareVertexBuffer = False
# Vertex buffer.
self.mVertexBuffer = vertexBuffer if (vertexBuffer) else VertexBuffer()
# Blender mesh -> local/shared vertex index link.
self.mMeshVertexIndexLink = meshVertexIndexLink if (meshVertexIndexLink) else dict()
# Face data.
self.mFaceData = list()
# Blender material.
self.mMaterial = None
# Name of submesh
self.mName = name
if ((vertexBuffer is not None) and (meshVertexIndexLink is not None)):
self.mShareVertexBuffer = True
def insertPolygon(self, blendMesh, polygon, blendVertexGroups = None, ogreSkeleton = None, fixUpAxisToY = True):
polygonVertices = polygon.vertices
polygonVertexCount = polygon.loop_total
# extract uv information.
# Here we convert blender uv data into our own
# uv information that lists uvs by vertices.
blendUVLoopLayers = blendMesh.uv_layers
# construct empty polygon vertex uv list.
polygonVertUVs = list()
for i in range(polygonVertexCount): polygonVertUVs.append(list())
for uvLoopLayer in blendUVLoopLayers:
for i, loopIndex in enumerate(polygon.loop_indices):
polygonVertUVs[i].append(uvLoopLayer.data[loopIndex].uv)
# extract color information.
# Here we convert blender color data into our own
# color information that lists colors by vertices.
blendColorLoopLayers = blendMesh.vertex_colors
# construct empty polygon vertex color list.
polygonVertColors = list()
for i in range(polygonVertexCount): polygonVertColors.append(list())
for colorLoopLayer in blendColorLoopLayers:
for i, loopIndex in enumerate(polygon.loop_indices):
polygonVertColors[i].append(colorLoopLayer.data[loopIndex].color)
# loop through the vertices and add to this submesh.
localIndices = list()
useSmooth = polygon.use_smooth
for index, uvs, colors in zip(polygonVertices, polygonVertUVs, polygonVertColors):
vertex = blendMesh.vertices[index]
norm = vertex.normal if (useSmooth) else polygon.normal
# grab bone weights.
boneWeights = list()
if (ogreSkeleton is not None):
for groupElement in vertex.groups:
groupName = blendVertexGroups[groupElement.group].name
boneIndex = ogreSkeleton.getBoneIndex(groupName)
if (boneIndex == -1 or abs(groupElement.weight) < 0.000001): continue
boneWeight = groupElement.weight
boneWeights.append(BoneWeight(boneIndex, boneWeight))
# trim bone weight count if too many defined.
if (len(boneWeights) > 4):
LogManager.logMessage("More than 4 bone weights are defined for a vertex! Best 4 will be used.", Message.LVL_WARNING)
boneWeights.sort(key=attrgetter('mBoneWeight'), reverse=True)
while (len(boneWeights) > 4): del boneWeights[-1]
localIndices.append(self.mVertexBuffer.addVertex(index, vertex.co, norm, uvs, colors, boneWeights, fixUpAxisToY))
# construct triangle index data.
if (polygonVertexCount is 3):
self.mFaceData.append(localIndices)
else:
# split quad into triangles.
self.mFaceData.append(localIndices[:3])
self.mFaceData.append([localIndices[0], localIndices[2], localIndices[3]])
def serialize(self, file):
vertexCount = self.mVertexBuffer.vertexCount()
materialAttribute = '' if (self.mMaterial is None) else ' material="%s"' % self.mMaterial.name
file.write('\t\t<submesh%s usesharedvertices="%s" use32bitindexes="%s">\n' %
(materialAttribute, 'true' if self.mShareVertexBuffer else 'false',
'true' if (vertexCount > 65536) else 'false'))
# write face data.
file.write('\t\t\t<faces count="%d">\n' % len(self.mFaceData))
for face in self.mFaceData:
file.write('\t\t\t\t<face v1="%d" v2="%d" v3="%d" />\n' % tuple(face))
file.write('\t\t\t</faces>\n')
# write submesh vertex buffer if not shared.
if (not self.mShareVertexBuffer):
file.write('\t\t\t<geometry vertexcount="%d">\n' % vertexCount)
self.mVertexBuffer.serialize(file, '\t\t\t\t')
file.write('\t\t\t</geometry>\n')
# write bone assignments
if (self.mShareVertexBuffer.mHasBoneWeights):
self.mSharedVertexBuffer.serializeBoneAssignments(file, '\t\t\t')
file.write('\t\t</submesh>\n')
class Mesh():
def __init__(self, blendMesh = None, blendVertexGroups = None, ogreSkeleton = None, exportSettings = MeshExportSettings()):
# shared vertex buffer.
self.mSharedVertexBuffer = VertexBuffer()
# Blender mesh -> shared vertex index link.
self.mSharedMeshVertexIndexLink = dict()
# collection of submeshes.
self.mSubMeshDict = dict()
# skip blend mesh conversion if no blend mesh passed in.
if (blendMesh is None): return
self.mOgreSkeleton = ogreSkeleton
hasBoneWeights = ogreSkeleton is not None
# Lets do some pre checking to show warnings if needed.
uvLayerCount = len(blendMesh.uv_layers)
colorLayerCount = len(blendMesh.vertex_colors)
if (uvLayerCount > 8): LogManager.logMessage("More than 8 UV layers in this mesh. Only 8 will be exported.", Message.LVL_WARNING)
if (colorLayerCount > 2): LogManager.logMessage("More than 2 color layers in this mesh. Only 2 will be exported.", Message.LVL_WARNING)
# setup shared vertex buffer.
self.mSharedVertexBuffer.reset(uvLayerCount, colorLayerCount, hasBoneWeights)
# split up the mesh into submeshes by materials.
# we first get sub mesh shared vertices option.
materialList = blendMesh.materials
materialCount = len(materialList)
subMeshProperties = blendMesh.ogre_mesh_exporter.subMeshProperties
while (len(subMeshProperties) < materialCount): subMeshProperties.add() # add more items if needed.
while (len(subMeshProperties) > materialCount): subMeshProperties.remove(0) # remove items if needed.
LogManager.logMessage("Material Count: %d" % len(materialList), Message.LVL_INFO)
for polygon in blendMesh.polygons:
# get or create submesh.
if (polygon.material_index in self.mSubMeshDict):
subMesh = self.mSubMeshDict[polygon.material_index]
else:
# instantiate submesh base on wether sharing vertices or not.
subMeshProperty = subMeshProperties[polygon.material_index]
if (subMeshProperty.useSharedVertices):
subMesh = SubMesh(self.mSharedVertexBuffer, self.mSharedMeshVertexIndexLink, subMeshProperty.name)
else:
subMesh = SubMesh(VertexBuffer(uvLayerCount, colorLayerCount, hasBoneWeights), name = subMeshProperty.name)
subMesh.mMaterial = None if (len(materialList) == 0) else materialList[polygon.material_index]
if (exportSettings.requireMaterials and subMesh.mMaterial == None):
LogManager.logMessage("Some faces are not assigned with a material!", Message.LVL_WARNING)
LogManager.logMessage("To hide this warning, please uncheck the 'Require Materials' option.", Message.LVL_WARNING)
self.mSubMeshDict[polygon.material_index] = subMesh
# insert polygon.
subMesh.insertPolygon(blendMesh, polygon, blendVertexGroups, ogreSkeleton, exportSettings.fixUpAxisToY)
def serialize(self, file):
file.write('<mesh>\n')
# write shared vertex buffer if available.
sharedVertexCount = self.mSharedVertexBuffer.vertexCount()
if (sharedVertexCount > 0):
file.write('\t<sharedgeometry vertexcount="%d">\n' % sharedVertexCount)
self.mSharedVertexBuffer.serialize(file, '\t\t')
file.write('\t</sharedgeometry>\n')
# write bone assignments
if (self.mSharedVertexBuffer.mHasBoneWeights):
self.mSharedVertexBuffer.serializeBoneAssignments(file, '\t\t')
subMeshNames = list()
# write submeshes.
file.write('\t<submeshes>\n')
for subMesh in self.mSubMeshDict.values():
name = subMesh.mName
if (name):
if (not name in subMeshNames):
subMeshNames.append(name)
else:
LogManager.logMessage("Mulitple submesh with same name defined: %s" % name, Message.LVL_WARNING)
subMesh.serialize(file)
file.write('\t</submeshes>\n')
# write submesh names
if (len(subMeshNames)):
file.write('\t<submeshnames>\n')
for index, name in enumerate(subMeshNames):
file.write('\t\t<submeshname name="%s" index="%d" />\n' % (name, index))
file.write('\t</submeshnames>\n')
# write skeleton link
if (self.mOgreSkeleton is not None):
file.write('\t<skeletonlink name="%s.skeleton" />\n' % self.mOgreSkeleton.mName)
file.write('</mesh>\n')
| mit |
Imaginashion/cloud-vision | .fr-d0BNfn/django-jquery-file-upload/venv/lib/python3.5/encodings/cp1255.py | 272 | 12466 | """ Python Character Mapping Codec cp1255 generated from 'MAPPINGS/VENDORS/MICSFT/WINDOWS/CP1255.TXT' with gencodec.py.
"""#"
import codecs
### Codec APIs
class Codec(codecs.Codec):
def encode(self,input,errors='strict'):
return codecs.charmap_encode(input,errors,encoding_table)
def decode(self,input,errors='strict'):
return codecs.charmap_decode(input,errors,decoding_table)
class IncrementalEncoder(codecs.IncrementalEncoder):
def encode(self, input, final=False):
return codecs.charmap_encode(input,self.errors,encoding_table)[0]
class IncrementalDecoder(codecs.IncrementalDecoder):
def decode(self, input, final=False):
return codecs.charmap_decode(input,self.errors,decoding_table)[0]
class StreamWriter(Codec,codecs.StreamWriter):
pass
class StreamReader(Codec,codecs.StreamReader):
pass
### encodings module API
def getregentry():
return codecs.CodecInfo(
name='cp1255',
encode=Codec().encode,
decode=Codec().decode,
incrementalencoder=IncrementalEncoder,
incrementaldecoder=IncrementalDecoder,
streamreader=StreamReader,
streamwriter=StreamWriter,
)
### Decoding Table
decoding_table = (
'\x00' # 0x00 -> NULL
'\x01' # 0x01 -> START OF HEADING
'\x02' # 0x02 -> START OF TEXT
'\x03' # 0x03 -> END OF TEXT
'\x04' # 0x04 -> END OF TRANSMISSION
'\x05' # 0x05 -> ENQUIRY
'\x06' # 0x06 -> ACKNOWLEDGE
'\x07' # 0x07 -> BELL
'\x08' # 0x08 -> BACKSPACE
'\t' # 0x09 -> HORIZONTAL TABULATION
'\n' # 0x0A -> LINE FEED
'\x0b' # 0x0B -> VERTICAL TABULATION
'\x0c' # 0x0C -> FORM FEED
'\r' # 0x0D -> CARRIAGE RETURN
'\x0e' # 0x0E -> SHIFT OUT
'\x0f' # 0x0F -> SHIFT IN
'\x10' # 0x10 -> DATA LINK ESCAPE
'\x11' # 0x11 -> DEVICE CONTROL ONE
'\x12' # 0x12 -> DEVICE CONTROL TWO
'\x13' # 0x13 -> DEVICE CONTROL THREE
'\x14' # 0x14 -> DEVICE CONTROL FOUR
'\x15' # 0x15 -> NEGATIVE ACKNOWLEDGE
'\x16' # 0x16 -> SYNCHRONOUS IDLE
'\x17' # 0x17 -> END OF TRANSMISSION BLOCK
'\x18' # 0x18 -> CANCEL
'\x19' # 0x19 -> END OF MEDIUM
'\x1a' # 0x1A -> SUBSTITUTE
'\x1b' # 0x1B -> ESCAPE
'\x1c' # 0x1C -> FILE SEPARATOR
'\x1d' # 0x1D -> GROUP SEPARATOR
'\x1e' # 0x1E -> RECORD SEPARATOR
'\x1f' # 0x1F -> UNIT SEPARATOR
' ' # 0x20 -> SPACE
'!' # 0x21 -> EXCLAMATION MARK
'"' # 0x22 -> QUOTATION MARK
'#' # 0x23 -> NUMBER SIGN
'$' # 0x24 -> DOLLAR SIGN
'%' # 0x25 -> PERCENT SIGN
'&' # 0x26 -> AMPERSAND
"'" # 0x27 -> APOSTROPHE
'(' # 0x28 -> LEFT PARENTHESIS
')' # 0x29 -> RIGHT PARENTHESIS
'*' # 0x2A -> ASTERISK
'+' # 0x2B -> PLUS SIGN
',' # 0x2C -> COMMA
'-' # 0x2D -> HYPHEN-MINUS
'.' # 0x2E -> FULL STOP
'/' # 0x2F -> SOLIDUS
'0' # 0x30 -> DIGIT ZERO
'1' # 0x31 -> DIGIT ONE
'2' # 0x32 -> DIGIT TWO
'3' # 0x33 -> DIGIT THREE
'4' # 0x34 -> DIGIT FOUR
'5' # 0x35 -> DIGIT FIVE
'6' # 0x36 -> DIGIT SIX
'7' # 0x37 -> DIGIT SEVEN
'8' # 0x38 -> DIGIT EIGHT
'9' # 0x39 -> DIGIT NINE
':' # 0x3A -> COLON
';' # 0x3B -> SEMICOLON
'<' # 0x3C -> LESS-THAN SIGN
'=' # 0x3D -> EQUALS SIGN
'>' # 0x3E -> GREATER-THAN SIGN
'?' # 0x3F -> QUESTION MARK
'@' # 0x40 -> COMMERCIAL AT
'A' # 0x41 -> LATIN CAPITAL LETTER A
'B' # 0x42 -> LATIN CAPITAL LETTER B
'C' # 0x43 -> LATIN CAPITAL LETTER C
'D' # 0x44 -> LATIN CAPITAL LETTER D
'E' # 0x45 -> LATIN CAPITAL LETTER E
'F' # 0x46 -> LATIN CAPITAL LETTER F
'G' # 0x47 -> LATIN CAPITAL LETTER G
'H' # 0x48 -> LATIN CAPITAL LETTER H
'I' # 0x49 -> LATIN CAPITAL LETTER I
'J' # 0x4A -> LATIN CAPITAL LETTER J
'K' # 0x4B -> LATIN CAPITAL LETTER K
'L' # 0x4C -> LATIN CAPITAL LETTER L
'M' # 0x4D -> LATIN CAPITAL LETTER M
'N' # 0x4E -> LATIN CAPITAL LETTER N
'O' # 0x4F -> LATIN CAPITAL LETTER O
'P' # 0x50 -> LATIN CAPITAL LETTER P
'Q' # 0x51 -> LATIN CAPITAL LETTER Q
'R' # 0x52 -> LATIN CAPITAL LETTER R
'S' # 0x53 -> LATIN CAPITAL LETTER S
'T' # 0x54 -> LATIN CAPITAL LETTER T
'U' # 0x55 -> LATIN CAPITAL LETTER U
'V' # 0x56 -> LATIN CAPITAL LETTER V
'W' # 0x57 -> LATIN CAPITAL LETTER W
'X' # 0x58 -> LATIN CAPITAL LETTER X
'Y' # 0x59 -> LATIN CAPITAL LETTER Y
'Z' # 0x5A -> LATIN CAPITAL LETTER Z
'[' # 0x5B -> LEFT SQUARE BRACKET
'\\' # 0x5C -> REVERSE SOLIDUS
']' # 0x5D -> RIGHT SQUARE BRACKET
'^' # 0x5E -> CIRCUMFLEX ACCENT
'_' # 0x5F -> LOW LINE
'`' # 0x60 -> GRAVE ACCENT
'a' # 0x61 -> LATIN SMALL LETTER A
'b' # 0x62 -> LATIN SMALL LETTER B
'c' # 0x63 -> LATIN SMALL LETTER C
'd' # 0x64 -> LATIN SMALL LETTER D
'e' # 0x65 -> LATIN SMALL LETTER E
'f' # 0x66 -> LATIN SMALL LETTER F
'g' # 0x67 -> LATIN SMALL LETTER G
'h' # 0x68 -> LATIN SMALL LETTER H
'i' # 0x69 -> LATIN SMALL LETTER I
'j' # 0x6A -> LATIN SMALL LETTER J
'k' # 0x6B -> LATIN SMALL LETTER K
'l' # 0x6C -> LATIN SMALL LETTER L
'm' # 0x6D -> LATIN SMALL LETTER M
'n' # 0x6E -> LATIN SMALL LETTER N
'o' # 0x6F -> LATIN SMALL LETTER O
'p' # 0x70 -> LATIN SMALL LETTER P
'q' # 0x71 -> LATIN SMALL LETTER Q
'r' # 0x72 -> LATIN SMALL LETTER R
's' # 0x73 -> LATIN SMALL LETTER S
't' # 0x74 -> LATIN SMALL LETTER T
'u' # 0x75 -> LATIN SMALL LETTER U
'v' # 0x76 -> LATIN SMALL LETTER V
'w' # 0x77 -> LATIN SMALL LETTER W
'x' # 0x78 -> LATIN SMALL LETTER X
'y' # 0x79 -> LATIN SMALL LETTER Y
'z' # 0x7A -> LATIN SMALL LETTER Z
'{' # 0x7B -> LEFT CURLY BRACKET
'|' # 0x7C -> VERTICAL LINE
'}' # 0x7D -> RIGHT CURLY BRACKET
'~' # 0x7E -> TILDE
'\x7f' # 0x7F -> DELETE
'\u20ac' # 0x80 -> EURO SIGN
'\ufffe' # 0x81 -> UNDEFINED
'\u201a' # 0x82 -> SINGLE LOW-9 QUOTATION MARK
'\u0192' # 0x83 -> LATIN SMALL LETTER F WITH HOOK
'\u201e' # 0x84 -> DOUBLE LOW-9 QUOTATION MARK
'\u2026' # 0x85 -> HORIZONTAL ELLIPSIS
'\u2020' # 0x86 -> DAGGER
'\u2021' # 0x87 -> DOUBLE DAGGER
'\u02c6' # 0x88 -> MODIFIER LETTER CIRCUMFLEX ACCENT
'\u2030' # 0x89 -> PER MILLE SIGN
'\ufffe' # 0x8A -> UNDEFINED
'\u2039' # 0x8B -> SINGLE LEFT-POINTING ANGLE QUOTATION MARK
'\ufffe' # 0x8C -> UNDEFINED
'\ufffe' # 0x8D -> UNDEFINED
'\ufffe' # 0x8E -> UNDEFINED
'\ufffe' # 0x8F -> UNDEFINED
'\ufffe' # 0x90 -> UNDEFINED
'\u2018' # 0x91 -> LEFT SINGLE QUOTATION MARK
'\u2019' # 0x92 -> RIGHT SINGLE QUOTATION MARK
'\u201c' # 0x93 -> LEFT DOUBLE QUOTATION MARK
'\u201d' # 0x94 -> RIGHT DOUBLE QUOTATION MARK
'\u2022' # 0x95 -> BULLET
'\u2013' # 0x96 -> EN DASH
'\u2014' # 0x97 -> EM DASH
'\u02dc' # 0x98 -> SMALL TILDE
'\u2122' # 0x99 -> TRADE MARK SIGN
'\ufffe' # 0x9A -> UNDEFINED
'\u203a' # 0x9B -> SINGLE RIGHT-POINTING ANGLE QUOTATION MARK
'\ufffe' # 0x9C -> UNDEFINED
'\ufffe' # 0x9D -> UNDEFINED
'\ufffe' # 0x9E -> UNDEFINED
'\ufffe' # 0x9F -> UNDEFINED
'\xa0' # 0xA0 -> NO-BREAK SPACE
'\xa1' # 0xA1 -> INVERTED EXCLAMATION MARK
'\xa2' # 0xA2 -> CENT SIGN
'\xa3' # 0xA3 -> POUND SIGN
'\u20aa' # 0xA4 -> NEW SHEQEL SIGN
'\xa5' # 0xA5 -> YEN SIGN
'\xa6' # 0xA6 -> BROKEN BAR
'\xa7' # 0xA7 -> SECTION SIGN
'\xa8' # 0xA8 -> DIAERESIS
'\xa9' # 0xA9 -> COPYRIGHT SIGN
'\xd7' # 0xAA -> MULTIPLICATION SIGN
'\xab' # 0xAB -> LEFT-POINTING DOUBLE ANGLE QUOTATION MARK
'\xac' # 0xAC -> NOT SIGN
'\xad' # 0xAD -> SOFT HYPHEN
'\xae' # 0xAE -> REGISTERED SIGN
'\xaf' # 0xAF -> MACRON
'\xb0' # 0xB0 -> DEGREE SIGN
'\xb1' # 0xB1 -> PLUS-MINUS SIGN
'\xb2' # 0xB2 -> SUPERSCRIPT TWO
'\xb3' # 0xB3 -> SUPERSCRIPT THREE
'\xb4' # 0xB4 -> ACUTE ACCENT
'\xb5' # 0xB5 -> MICRO SIGN
'\xb6' # 0xB6 -> PILCROW SIGN
'\xb7' # 0xB7 -> MIDDLE DOT
'\xb8' # 0xB8 -> CEDILLA
'\xb9' # 0xB9 -> SUPERSCRIPT ONE
'\xf7' # 0xBA -> DIVISION SIGN
'\xbb' # 0xBB -> RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK
'\xbc' # 0xBC -> VULGAR FRACTION ONE QUARTER
'\xbd' # 0xBD -> VULGAR FRACTION ONE HALF
'\xbe' # 0xBE -> VULGAR FRACTION THREE QUARTERS
'\xbf' # 0xBF -> INVERTED QUESTION MARK
'\u05b0' # 0xC0 -> HEBREW POINT SHEVA
'\u05b1' # 0xC1 -> HEBREW POINT HATAF SEGOL
'\u05b2' # 0xC2 -> HEBREW POINT HATAF PATAH
'\u05b3' # 0xC3 -> HEBREW POINT HATAF QAMATS
'\u05b4' # 0xC4 -> HEBREW POINT HIRIQ
'\u05b5' # 0xC5 -> HEBREW POINT TSERE
'\u05b6' # 0xC6 -> HEBREW POINT SEGOL
'\u05b7' # 0xC7 -> HEBREW POINT PATAH
'\u05b8' # 0xC8 -> HEBREW POINT QAMATS
'\u05b9' # 0xC9 -> HEBREW POINT HOLAM
'\ufffe' # 0xCA -> UNDEFINED
'\u05bb' # 0xCB -> HEBREW POINT QUBUTS
'\u05bc' # 0xCC -> HEBREW POINT DAGESH OR MAPIQ
'\u05bd' # 0xCD -> HEBREW POINT METEG
'\u05be' # 0xCE -> HEBREW PUNCTUATION MAQAF
'\u05bf' # 0xCF -> HEBREW POINT RAFE
'\u05c0' # 0xD0 -> HEBREW PUNCTUATION PASEQ
'\u05c1' # 0xD1 -> HEBREW POINT SHIN DOT
'\u05c2' # 0xD2 -> HEBREW POINT SIN DOT
'\u05c3' # 0xD3 -> HEBREW PUNCTUATION SOF PASUQ
'\u05f0' # 0xD4 -> HEBREW LIGATURE YIDDISH DOUBLE VAV
'\u05f1' # 0xD5 -> HEBREW LIGATURE YIDDISH VAV YOD
'\u05f2' # 0xD6 -> HEBREW LIGATURE YIDDISH DOUBLE YOD
'\u05f3' # 0xD7 -> HEBREW PUNCTUATION GERESH
'\u05f4' # 0xD8 -> HEBREW PUNCTUATION GERSHAYIM
'\ufffe' # 0xD9 -> UNDEFINED
'\ufffe' # 0xDA -> UNDEFINED
'\ufffe' # 0xDB -> UNDEFINED
'\ufffe' # 0xDC -> UNDEFINED
'\ufffe' # 0xDD -> UNDEFINED
'\ufffe' # 0xDE -> UNDEFINED
'\ufffe' # 0xDF -> UNDEFINED
'\u05d0' # 0xE0 -> HEBREW LETTER ALEF
'\u05d1' # 0xE1 -> HEBREW LETTER BET
'\u05d2' # 0xE2 -> HEBREW LETTER GIMEL
'\u05d3' # 0xE3 -> HEBREW LETTER DALET
'\u05d4' # 0xE4 -> HEBREW LETTER HE
'\u05d5' # 0xE5 -> HEBREW LETTER VAV
'\u05d6' # 0xE6 -> HEBREW LETTER ZAYIN
'\u05d7' # 0xE7 -> HEBREW LETTER HET
'\u05d8' # 0xE8 -> HEBREW LETTER TET
'\u05d9' # 0xE9 -> HEBREW LETTER YOD
'\u05da' # 0xEA -> HEBREW LETTER FINAL KAF
'\u05db' # 0xEB -> HEBREW LETTER KAF
'\u05dc' # 0xEC -> HEBREW LETTER LAMED
'\u05dd' # 0xED -> HEBREW LETTER FINAL MEM
'\u05de' # 0xEE -> HEBREW LETTER MEM
'\u05df' # 0xEF -> HEBREW LETTER FINAL NUN
'\u05e0' # 0xF0 -> HEBREW LETTER NUN
'\u05e1' # 0xF1 -> HEBREW LETTER SAMEKH
'\u05e2' # 0xF2 -> HEBREW LETTER AYIN
'\u05e3' # 0xF3 -> HEBREW LETTER FINAL PE
'\u05e4' # 0xF4 -> HEBREW LETTER PE
'\u05e5' # 0xF5 -> HEBREW LETTER FINAL TSADI
'\u05e6' # 0xF6 -> HEBREW LETTER TSADI
'\u05e7' # 0xF7 -> HEBREW LETTER QOF
'\u05e8' # 0xF8 -> HEBREW LETTER RESH
'\u05e9' # 0xF9 -> HEBREW LETTER SHIN
'\u05ea' # 0xFA -> HEBREW LETTER TAV
'\ufffe' # 0xFB -> UNDEFINED
'\ufffe' # 0xFC -> UNDEFINED
'\u200e' # 0xFD -> LEFT-TO-RIGHT MARK
'\u200f' # 0xFE -> RIGHT-TO-LEFT MARK
'\ufffe' # 0xFF -> UNDEFINED
)
### Encoding table
encoding_table=codecs.charmap_build(decoding_table)
| mit |
levibostian/myBlanky | googleAppEngine/google/appengine/api/search/__init__.py | 8 | 2549 | #!/usr/bin/env python
#
# Copyright 2007 Google Inc.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
"""Search API module."""
from search import AtomField
from search import Cursor
from search import DateField
from search import DeleteError
from search import DeleteResult
from search import Document
from search import DOCUMENT_ID_FIELD_NAME
from search import Error
from search import ExpressionError
from search import Field
from search import FieldExpression
from search import GeoField
from search import GeoPoint
from search import get_indexes
from search import GetResponse
from search import HtmlField
from search import Index
from search import InternalError
from search import InvalidRequest
from search import LANGUAGE_FIELD_NAME
from search import MatchScorer
from search import MAXIMUM_DOCUMENT_ID_LENGTH
from search import MAXIMUM_DOCUMENTS_PER_PUT_REQUEST
from search import MAXIMUM_DOCUMENTS_RETURNED_PER_SEARCH
from search import MAXIMUM_EXPRESSION_LENGTH
from search import MAXIMUM_FIELD_ATOM_LENGTH
from search import MAXIMUM_FIELD_NAME_LENGTH
from search import MAXIMUM_FIELD_VALUE_LENGTH
from search import MAXIMUM_FIELDS_RETURNED_PER_SEARCH
from search import MAXIMUM_GET_INDEXES_OFFSET
from search import MAXIMUM_INDEX_NAME_LENGTH
from search import MAXIMUM_INDEXES_RETURNED_PER_GET_REQUEST
from search import MAXIMUM_NUMBER_FOUND_ACCURACY
from search import MAXIMUM_QUERY_LENGTH
from search import MAXIMUM_SEARCH_OFFSET
from search import MAXIMUM_SORTED_DOCUMENTS
from search import NumberField
from search import OperationResult
from search import PutError
from search import PutResult
from search import Query
from search import QueryError
from search import QueryOptions
from search import RANK_FIELD_NAME
from search import RescoringMatchScorer
from search import SCORE_FIELD_NAME
from search import ScoredDocument
from search import SearchResults
from search import SortExpression
from search import SortOptions
from search import TextField
from search import TIMESTAMP_FIELD_NAME
from search import TransientError
| mit |
shakamunyi/neutron | neutron/db/metering/metering_rpc.py | 46 | 2075 | # Copyright (C) 2014 eNovance SAS <licensing@enovance.com>
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
from oslo_log import log as logging
import oslo_messaging
from neutron.common import constants as consts
from neutron.common import utils
from neutron.i18n import _LE
from neutron import manager
from neutron.plugins.common import constants as service_constants
LOG = logging.getLogger(__name__)
class MeteringRpcCallbacks(object):
target = oslo_messaging.Target(version='1.0')
def __init__(self, meter_plugin):
self.meter_plugin = meter_plugin
def get_sync_data_metering(self, context, **kwargs):
l3_plugin = manager.NeutronManager.get_service_plugins().get(
service_constants.L3_ROUTER_NAT)
if not l3_plugin:
return
host = kwargs.get('host')
if not utils.is_extension_supported(
l3_plugin, consts.L3_AGENT_SCHEDULER_EXT_ALIAS) or not host:
return self.meter_plugin.get_sync_data_metering(context)
else:
agents = l3_plugin.get_l3_agents(context, filters={'host': [host]})
if not agents:
LOG.error(_LE('Unable to find agent %s.'), host)
return
routers = l3_plugin.list_routers_on_l3_agent(context, agents[0].id)
router_ids = [router['id'] for router in routers['routers']]
if not router_ids:
return
return self.meter_plugin.get_sync_data_metering(context,
router_ids=router_ids)
| apache-2.0 |
ElephoneApp/kubernetes | cluster/juju/charms/trusty/kubernetes-master/unit_tests/test_install.py | 105 | 4115 | #!/usr/bin/env python
# Copyright 2015 The Kubernetes 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.
from mock import patch, Mock, MagicMock
from path import Path
import pytest
import sys
# Munge the python path so we can find our hook code
d = Path('__file__').parent.abspath() / 'hooks'
sys.path.insert(0, d.abspath())
# Import the modules from the hook
import install
class TestInstallHook():
@patch('install.path')
def test_update_rc_files(self, pmock):
"""
Test happy path on updating env files. Assuming everything
exists and is in place.
"""
pmock.return_value.lines.return_value = ['line1', 'line2']
install.update_rc_files(['test1', 'test2'])
pmock.return_value.write_lines.assert_called_with(['line1', 'line2',
'test1', 'test2'])
def test_update_rc_files_with_nonexistant_path(self):
"""
Test an unhappy path if the bashrc/users do not exist.
"""
with pytest.raises(OSError) as exinfo:
install.update_rc_files(['test1','test2'])
@patch('install.fetch')
@patch('install.hookenv')
def test_package_installation(self, hemock, ftmock):
"""
Verify we are calling the known essentials to build and syndicate
kubes.
"""
pkgs = ['build-essential', 'git',
'make', 'nginx', 'python-pip']
install.install_packages()
hemock.log.assert_called_with('Installing Debian packages')
ftmock.filter_installed_packages.assert_called_with(pkgs)
@patch('install.archiveurl.ArchiveUrlFetchHandler')
def test_go_download(self, aumock):
"""
Test that we are actually handing off to charm-helpers to
download a specific archive of Go. This is non-configurable so
its reasonably safe to assume we're going to always do this,
and when it changes we shall curse the brittleness of this test.
"""
ins_mock = aumock.return_value.install
install.download_go()
url = 'https://storage.googleapis.com/golang/go1.4.2.linux-amd64.tar.gz'
sha1='5020af94b52b65cc9b6f11d50a67e4bae07b0aff'
ins_mock.assert_called_with(url, '/usr/local', sha1, 'sha1')
@patch('install.subprocess')
def test_clone_repository(self, spmock):
"""
We're not using a unit-tested git library - so ensure our subprocess
call is consistent. If we change this, we want to know we've broken it.
"""
install.clone_repository()
repo = 'https://github.com/GoogleCloudPlatform/kubernetes.git'
direct = '/opt/kubernetes'
spmock.check_output.assert_called_with(['git', 'clone', repo, direct])
@patch('install.install_packages')
@patch('install.download_go')
@patch('install.clone_repository')
@patch('install.update_rc_files')
@patch('install.hookenv')
def test_install_main(self, hemock, urmock, crmock, dgmock, ipmock):
"""
Ensure the driver/main method is calling all the supporting methods.
"""
strings = [
'export GOROOT=/usr/local/go\n',
'export PATH=$PATH:$GOROOT/bin\n',
'export KUBE_MASTER_IP=0.0.0.0\n',
'export KUBERNETES_MASTER=http://$KUBE_MASTER_IP\n',
]
install.install()
crmock.assert_called_once()
dgmock.assert_called_once()
crmock.assert_called_once()
urmock.assert_called_with(strings)
hemock.open_port.assert_called_with(8080)
| apache-2.0 |
cedadev/cis | cis/test/integration/test_eval.py | 3 | 7743 | import netCDF4
import numpy
from hamcrest import assert_that, is_
import unittest
from cis.cis_main import evaluate_cmd, col_cmd
from cis.test.integration.base_integration_test import BaseIntegrationTest
from cis.test.integration_test_data import *
from cis.parse import parse_args
from cis.test.unit.eval.test_calc import compare_masked_arrays
class TestEval(BaseIntegrationTest):
def test_Aeronet_wavelength_calculation(self):
# Example from the CIS Phase 3 Software spec:
# ... a user should be able to write a plugin to calculate the Aeronet AOD at 550nm from the AOD at 500 nm as
# AOD550 = AOD500 * (550/500)^(-1*Angstrom500-870)"
# Takes 3s
args = ['eval', 'AOT_500,500-870Angstrom=a550to870:' + escape_colons(another_valid_aeronet_filename),
'AOT_500 * (550.0/500)**(-1*a550to870)', '1', '-o', self.OUTPUT_FILENAME]
arguments = parse_args(args)
evaluate_cmd(arguments)
# Check correct:
self.ds = netCDF4.Dataset(self.OUTPUT_FILENAME)
calculated_result = self.ds.variables['calculated_variable'][:]
expected_result = [0.2341039087, 0.2285401152, 0.2228799533, 0.1953746746, 0.2094051561, 0.1696889668,
0.3137791803, 0.2798929273, 0.1664194279, 0.1254619092, 0.1258309124, 0.1496960031,
0.0768447737, 0.0550896430, 0.0534543107, 0.0538315909, 0.0666742975, 0.0512935449,
0.0699585189, 0.0645033944]
assert_that(calculated_result.shape, is_((3140,)))
assert numpy.allclose(expected_result, calculated_result[0:20])
def test_ECHAMHAM_wavelength_sum(self):
args = ['eval', "%s,%s:%s" % (valid_echamham_variable_1, valid_echamham_variable_2, escape_colons(valid_echamham_filename)),
'%s+%s' % (valid_echamham_variable_1, valid_echamham_variable_2), '1', '-o', self.OUTPUT_FILENAME]
arguments = parse_args(args)
evaluate_cmd(arguments)
# Check correct:
self.ds = netCDF4.Dataset(self.OUTPUT_FILENAME)
calculated_result = self.ds.variables['calculated_variable'][:]
# A hand calculated selection of values
expected_result = [0.007633533, 0.007646653, 0.007749859, 0.007744226, 0.007761176]
assert_that(calculated_result.shape, is_((96, 192)))
assert numpy.allclose(expected_result, calculated_result[:][0][0:5])
def test_collocated_NetCDF_Gridded_onto_GASSP(self):
# First do a collocation of ECHAMHAM onto GASSP
vars = valid_echamham_variable_1, valid_echamham_variable_2
filename = escape_colons(valid_echamham_filename)
sample_file = escape_colons(valid_GASSP_aeroplane_filename)
sample_var = valid_GASSP_aeroplane_variable
collocator_and_opts = 'nn[missing_data_for_missing_sample=True],variable=%s' % sample_var
arguments = ['col', ",".join(vars) + ':' + filename,
sample_file + ':collocator=' + collocator_and_opts,
'-o', 'collocated_gassp']
main_arguments = parse_args(arguments)
col_cmd(main_arguments)
# Check collocation is the same
self.ds = netCDF4.Dataset('collocated_gassp.nc')
col_var1 = self.ds.variables[valid_echamham_variable_1][:]
col_var2 = self.ds.variables[valid_echamham_variable_2][:]
# A hand calculated selection of values
expected_col1 = numpy.ma.masked_invalid(
[float('Nan'), float('Nan'), float('Nan'), 0.0814601778984, 0.0814601778984])
compare_masked_arrays(expected_col1, col_var1[:][0:5])
expected_col2 = numpy.ma.masked_invalid(
[float('Nan'), float('Nan'), float('Nan'), 0.0741240680218, 0.0741240680218])
compare_masked_arrays(expected_col2, col_var2[:][0:5])
# Then do an evaluation using the collocated data:
args = ['eval', "%s,%s:%s" % (valid_echamham_variable_1, valid_echamham_variable_2,
'collocated_gassp.nc'),
"%s=gassp_alias:%s" % (valid_GASSP_aeroplane_variable, escape_colons(valid_GASSP_aeroplane_filename)),
"(%s + %s) / gassp_alias " % (valid_echamham_variable_1, valid_echamham_variable_2),
'1', '-o', self.OUTPUT_FILENAME]
arguments = parse_args(args)
evaluate_cmd(arguments)
self.ds.close()
# Check correct
self.ds = netCDF4.Dataset(self.OUTPUT_FILENAME)
calculated_result = self.ds.variables['calculated_variable'][:]
# A hand calculated selection of values
expected_result = numpy.ma.masked_invalid([0.00196121983491, 0.00197255626472, 0.00120850731992])
assert_that(calculated_result.shape, is_((311,)))
# Check the first 3 vald values
compare_masked_arrays(expected_result, calculated_result[:][10:13])
os.remove('collocated_gassp.nc')
@skip_pyhdf
def test_CloudSat(self):
args = ['eval', "%s,%s:%s" % (valid_cloudsat_RVOD_sdata_variable, valid_cloudsat_RVOD_vdata_variable,
escape_colons(valid_cloudsat_RVOD_file)),
'%s/%s' % (valid_cloudsat_RVOD_sdata_variable, valid_cloudsat_RVOD_vdata_variable), 'ppm', '-o',
'cloudsat_var:' + self.OUTPUT_FILENAME]
arguments = parse_args(args)
evaluate_cmd(arguments)
self.ds = netCDF4.Dataset(self.OUTPUT_FILENAME)
assert_that(self.ds.variables['cloudsat_var'].units, is_('ppm'))
def test_can_specify_output_variable(self):
args = ['eval', "%s,%s:%s" % (valid_echamham_variable_1, valid_echamham_variable_2, escape_colons(valid_echamham_filename)),
'%s+%s' % (valid_echamham_variable_1, valid_echamham_variable_2), 'kg m^-3',
'-o', 'var_out:' + self.OUTPUT_FILENAME]
arguments = parse_args(args)
evaluate_cmd(arguments)
self.ds = netCDF4.Dataset(self.OUTPUT_FILENAME)
assert 'var_out' in self.ds.variables
def test_can_specify_attributes_gridded(self):
args = ['eval', "%s,%s:%s" % (valid_echamham_variable_1, valid_echamham_variable_2, escape_colons(valid_echamham_filename)),
'%s+%s' % (valid_echamham_variable_1, valid_echamham_variable_2), 'kg m^-3',
'-o', 'var_out:' + self.OUTPUT_FILENAME, '-a', 'att1=val1,att2=val2']
arguments = parse_args(args)
evaluate_cmd(arguments)
self.ds = netCDF4.Dataset(self.OUTPUT_FILENAME)
assert_that(self.ds.variables['var_out'].att1, is_('val1'))
assert_that(self.ds.variables['var_out'].att2, is_('val2'))
def test_can_specify_units_gridded(self):
args = ['eval', "%s,%s:%s" % (valid_echamham_variable_1, valid_echamham_variable_2, escape_colons(valid_echamham_filename)),
'%s+%s' % (valid_echamham_variable_1, valid_echamham_variable_2), 'kg m^-3',
'-o', 'var_out:' + self.OUTPUT_FILENAME, '-a', 'att1=val1,att2=val2']
arguments = parse_args(args)
evaluate_cmd(arguments)
self.ds = netCDF4.Dataset(self.OUTPUT_FILENAME)
assert_that(self.ds.variables['var_out'].units, is_('kg m^-3'))
def test_can_specify_units_gridded_no_output_var(self):
args = ['eval', "%s:%s" % (valid_hadgem_variable, escape_colons(valid_hadgem_filename)), "od550aer", "ppm", "-o",
self.OUTPUT_FILENAME, "-a", "att1=val1"]
arguments = parse_args(args)
evaluate_cmd(arguments)
self.ds = netCDF4.Dataset(self.OUTPUT_FILENAME)
assert_that(self.ds.variables['calculated_variable'].units, is_('ppm'))
assert_that(self.ds.variables['calculated_variable'].att1, is_('val1'))
| lgpl-3.0 |
diego-d5000/MisValesMd | env/lib/python2.7/site-packages/django/template/loaders/app_directories.py | 1 | 1602 | """
Wrapper for loading templates from "templates" directories in INSTALLED_APPS
packages.
"""
import io
from django.core.exceptions import SuspiciousFileOperation
from django.template.base import TemplateDoesNotExist
from django.template.utils import get_app_template_dirs
from django.utils._os import safe_join
from .base import Loader as BaseLoader
class Loader(BaseLoader):
is_usable = True
def get_template_sources(self, template_name, template_dirs=None):
"""
Returns the absolute paths to "template_name", when appended to each
directory in "template_dirs". Any paths that don't lie inside one of the
template dirs are excluded from the result set, for security reasons.
"""
if not template_dirs:
template_dirs = get_app_template_dirs('templates')
for template_dir in template_dirs:
try:
yield safe_join(template_dir, template_name)
except SuspiciousFileOperation:
# The joined path was located outside of this template_dir
# (it might be inside another one, so this isn't fatal).
pass
def load_template_source(self, template_name, template_dirs=None):
for filepath in self.get_template_sources(template_name, template_dirs):
try:
with io.open(filepath, encoding=self.engine.file_charset) as fp:
return fp.read(), filepath
except IOError:
pass
raise TemplateDoesNotExist(template_name)
| mit |
beatrizjesus/my-first-blog | pasta/Lib/site-packages/django/contrib/redirects/migrations/0001_initial.py | 142 | 1271 | # -*- coding: utf-8 -*-
from __future__ import unicode_literals
from django.db import migrations, models
class Migration(migrations.Migration):
dependencies = [
('sites', '0001_initial'),
]
operations = [
migrations.CreateModel(
name='Redirect',
fields=[
('id', models.AutoField(verbose_name='ID', serialize=False, auto_created=True, primary_key=True)),
('site', models.ForeignKey(to='sites.Site', to_field='id')),
('old_path', models.CharField(help_text="This should be an absolute path, excluding the domain name. Example: '/events/search/'.", max_length=200, verbose_name='redirect from', db_index=True)),
('new_path', models.CharField(help_text="This can be either an absolute path (as above) or a full URL starting with 'http://'.", max_length=200, verbose_name='redirect to', blank=True)),
],
options={
'ordering': ('old_path',),
'unique_together': set([('site', 'old_path')]),
'db_table': 'django_redirect',
'verbose_name': 'redirect',
'verbose_name_plural': 'redirects',
},
bases=(models.Model,),
),
]
| mit |
denisenkom/django | tests/bulk_create/tests.py | 5 | 6664 | from __future__ import unicode_literals
from operator import attrgetter
from django.db import connection
from django.test import TestCase, skipIfDBFeature, skipUnlessDBFeature
from django.test.utils import override_settings
from .models import Country, Restaurant, Pizzeria, State, TwoFields
class BulkCreateTests(TestCase):
def setUp(self):
self.data = [
Country(name="United States of America", iso_two_letter="US"),
Country(name="The Netherlands", iso_two_letter="NL"),
Country(name="Germany", iso_two_letter="DE"),
Country(name="Czech Republic", iso_two_letter="CZ")
]
def test_simple(self):
created = Country.objects.bulk_create(self.data)
self.assertEqual(len(created), 4)
self.assertQuerysetEqual(Country.objects.order_by("-name"), [
"United States of America", "The Netherlands", "Germany", "Czech Republic"
], attrgetter("name"))
created = Country.objects.bulk_create([])
self.assertEqual(created, [])
self.assertEqual(Country.objects.count(), 4)
@skipUnlessDBFeature('has_bulk_insert')
def test_efficiency(self):
with self.assertNumQueries(1):
Country.objects.bulk_create(self.data)
def test_inheritance(self):
Restaurant.objects.bulk_create([
Restaurant(name="Nicholas's")
])
self.assertQuerysetEqual(Restaurant.objects.all(), [
"Nicholas's",
], attrgetter("name"))
with self.assertRaises(ValueError):
Pizzeria.objects.bulk_create([
Pizzeria(name="The Art of Pizza")
])
self.assertQuerysetEqual(Pizzeria.objects.all(), [])
self.assertQuerysetEqual(Restaurant.objects.all(), [
"Nicholas's",
], attrgetter("name"))
def test_non_auto_increment_pk(self):
State.objects.bulk_create([
State(two_letter_code=s)
for s in ["IL", "NY", "CA", "ME"]
])
self.assertQuerysetEqual(State.objects.order_by("two_letter_code"), [
"CA", "IL", "ME", "NY",
], attrgetter("two_letter_code"))
@skipUnlessDBFeature('has_bulk_insert')
def test_non_auto_increment_pk_efficiency(self):
with self.assertNumQueries(1):
State.objects.bulk_create([
State(two_letter_code=s)
for s in ["IL", "NY", "CA", "ME"]
])
self.assertQuerysetEqual(State.objects.order_by("two_letter_code"), [
"CA", "IL", "ME", "NY",
], attrgetter("two_letter_code"))
@skipIfDBFeature('allows_primary_key_0')
def test_zero_as_autoval(self):
"""
Zero as id for AutoField should raise exception in MySQL, because MySQL
does not allow zero for automatic primary key.
"""
valid_country = Country(name='Germany', iso_two_letter='DE')
invalid_country = Country(id=0, name='Poland', iso_two_letter='PL')
with self.assertRaises(ValueError):
Country.objects.bulk_create([valid_country, invalid_country])
def test_batch_same_vals(self):
# Sqlite had a problem where all the same-valued models were
# collapsed to one insert.
Restaurant.objects.bulk_create([
Restaurant(name='foo') for i in range(0, 2)
])
self.assertEqual(Restaurant.objects.count(), 2)
def test_large_batch(self):
with override_settings(DEBUG=True):
connection.queries = []
TwoFields.objects.bulk_create([
TwoFields(f1=i, f2=i+1) for i in range(0, 1001)
])
self.assertEqual(TwoFields.objects.count(), 1001)
self.assertEqual(
TwoFields.objects.filter(f1__gte=450, f1__lte=550).count(),
101)
self.assertEqual(TwoFields.objects.filter(f2__gte=901).count(), 101)
@skipUnlessDBFeature('has_bulk_insert')
def test_large_single_field_batch(self):
# SQLite had a problem with more than 500 UNIONed selects in single
# query.
Restaurant.objects.bulk_create([
Restaurant() for i in range(0, 501)
])
@skipUnlessDBFeature('has_bulk_insert')
def test_large_batch_efficiency(self):
with override_settings(DEBUG=True):
connection.queries = []
TwoFields.objects.bulk_create([
TwoFields(f1=i, f2=i+1) for i in range(0, 1001)
])
self.assertTrue(len(connection.queries) < 10)
def test_large_batch_mixed(self):
"""
Test inserting a large batch with objects having primary key set
mixed together with objects without PK set.
"""
with override_settings(DEBUG=True):
connection.queries = []
TwoFields.objects.bulk_create([
TwoFields(id=i if i % 2 == 0 else None, f1=i, f2=i+1)
for i in range(100000, 101000)])
self.assertEqual(TwoFields.objects.count(), 1000)
# We can't assume much about the ID's created, except that the above
# created IDs must exist.
id_range = range(100000, 101000, 2)
self.assertEqual(TwoFields.objects.filter(id__in=id_range).count(), 500)
self.assertEqual(TwoFields.objects.exclude(id__in=id_range).count(), 500)
@skipUnlessDBFeature('has_bulk_insert')
def test_large_batch_mixed_efficiency(self):
"""
Test inserting a large batch with objects having primary key set
mixed together with objects without PK set.
"""
with override_settings(DEBUG=True):
connection.queries = []
TwoFields.objects.bulk_create([
TwoFields(id=i if i % 2 == 0 else None, f1=i, f2=i+1)
for i in range(100000, 101000)])
self.assertTrue(len(connection.queries) < 10)
def test_explicit_batch_size(self):
objs = [TwoFields(f1=i, f2=i) for i in range(0, 4)]
TwoFields.objects.bulk_create(objs, 2)
self.assertEqual(TwoFields.objects.count(), len(objs))
TwoFields.objects.all().delete()
TwoFields.objects.bulk_create(objs, len(objs))
self.assertEqual(TwoFields.objects.count(), len(objs))
@skipUnlessDBFeature('has_bulk_insert')
def test_explicit_batch_size_efficiency(self):
objs = [TwoFields(f1=i, f2=i) for i in range(0, 100)]
with self.assertNumQueries(2):
TwoFields.objects.bulk_create(objs, 50)
TwoFields.objects.all().delete()
with self.assertNumQueries(1):
TwoFields.objects.bulk_create(objs, len(objs))
| bsd-3-clause |
mapr/impala | shell/ext-py/sasl-0.1.1/sasl/saslwrapper.py | 76 | 4375 | # This file was automatically generated by SWIG (http://www.swig.org).
# Version 1.3.36
#
# Don't modify this file, modify the SWIG interface instead.
# This file is compatible with both classic and new-style classes.
import _saslwrapper
import new
new_instancemethod = new.instancemethod
try:
_swig_property = property
except NameError:
pass # Python < 2.2 doesn't have 'property'.
def _swig_setattr_nondynamic(self,class_type,name,value,static=1):
if (name == "thisown"): return self.this.own(value)
if (name == "this"):
if type(value).__name__ == 'PySwigObject':
self.__dict__[name] = value
return
method = class_type.__swig_setmethods__.get(name,None)
if method: return method(self,value)
if (not static) or hasattr(self,name):
self.__dict__[name] = value
else:
raise AttributeError("You cannot add attributes to %s" % self)
def _swig_setattr(self,class_type,name,value):
return _swig_setattr_nondynamic(self,class_type,name,value,0)
def _swig_getattr(self,class_type,name):
if (name == "thisown"): return self.this.own()
method = class_type.__swig_getmethods__.get(name,None)
if method: return method(self)
raise AttributeError,name
def _swig_repr(self):
try: strthis = "proxy of " + self.this.__repr__()
except: strthis = ""
return "<%s.%s; %s >" % (self.__class__.__module__, self.__class__.__name__, strthis,)
import types
try:
_object = types.ObjectType
_newclass = 1
except AttributeError:
class _object : pass
_newclass = 0
del types
class PySwigIterator(_object):
__swig_setmethods__ = {}
__setattr__ = lambda self, name, value: _swig_setattr(self, PySwigIterator, name, value)
__swig_getmethods__ = {}
__getattr__ = lambda self, name: _swig_getattr(self, PySwigIterator, name)
def __init__(self, *args, **kwargs): raise AttributeError, "No constructor defined"
__repr__ = _swig_repr
__swig_destroy__ = _saslwrapper.delete_PySwigIterator
__del__ = lambda self : None;
def value(*args): return _saslwrapper.PySwigIterator_value(*args)
def incr(*args): return _saslwrapper.PySwigIterator_incr(*args)
def decr(*args): return _saslwrapper.PySwigIterator_decr(*args)
def distance(*args): return _saslwrapper.PySwigIterator_distance(*args)
def equal(*args): return _saslwrapper.PySwigIterator_equal(*args)
def copy(*args): return _saslwrapper.PySwigIterator_copy(*args)
def next(*args): return _saslwrapper.PySwigIterator_next(*args)
def previous(*args): return _saslwrapper.PySwigIterator_previous(*args)
def advance(*args): return _saslwrapper.PySwigIterator_advance(*args)
def __eq__(*args): return _saslwrapper.PySwigIterator___eq__(*args)
def __ne__(*args): return _saslwrapper.PySwigIterator___ne__(*args)
def __iadd__(*args): return _saslwrapper.PySwigIterator___iadd__(*args)
def __isub__(*args): return _saslwrapper.PySwigIterator___isub__(*args)
def __add__(*args): return _saslwrapper.PySwigIterator___add__(*args)
def __sub__(*args): return _saslwrapper.PySwigIterator___sub__(*args)
def __iter__(self): return self
PySwigIterator_swigregister = _saslwrapper.PySwigIterator_swigregister
PySwigIterator_swigregister(PySwigIterator)
class Client(_object):
__swig_setmethods__ = {}
__setattr__ = lambda self, name, value: _swig_setattr(self, Client, name, value)
__swig_getmethods__ = {}
__getattr__ = lambda self, name: _swig_getattr(self, Client, name)
__repr__ = _swig_repr
def __init__(self, *args):
this = _saslwrapper.new_Client(*args)
try: self.this.append(this)
except: self.this = this
__swig_destroy__ = _saslwrapper.delete_Client
__del__ = lambda self : None;
def setAttr(*args): return _saslwrapper.Client_setAttr(*args)
def init(*args): return _saslwrapper.Client_init(*args)
def start(*args): return _saslwrapper.Client_start(*args)
def step(*args): return _saslwrapper.Client_step(*args)
def encode(*args): return _saslwrapper.Client_encode(*args)
def decode(*args): return _saslwrapper.Client_decode(*args)
def getUserId(*args): return _saslwrapper.Client_getUserId(*args)
def getError(*args): return _saslwrapper.Client_getError(*args)
Client_swigregister = _saslwrapper.Client_swigregister
Client_swigregister(Client)
| apache-2.0 |
Vogeltak/pauselan | lib/python3.4/site-packages/sqlalchemy/dialects/mysql/gaerdbms.py | 59 | 3387 | # mysql/gaerdbms.py
# Copyright (C) 2005-2015 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:: mysql+gaerdbms
:name: Google Cloud SQL
:dbapi: rdbms
:connectstring: mysql+gaerdbms:///<dbname>?instance=<instancename>
:url: https://developers.google.com/appengine/docs/python/cloud-sql/\
developers-guide
This dialect is based primarily on the :mod:`.mysql.mysqldb` dialect with
minimal changes.
.. versionadded:: 0.7.8
.. deprecated:: 1.0 This dialect is **no longer necessary** for
Google Cloud SQL; the MySQLdb dialect can be used directly.
Cloud SQL now recommends creating connections via the
mysql dialect using the URL format
``mysql+mysqldb://root@/<dbname>?unix_socket=/cloudsql/<projectid>:<instancename>``
Pooling
-------
Google App Engine connections appear to be randomly recycled,
so the dialect does not pool connections. The :class:`.NullPool`
implementation is installed within the :class:`.Engine` by
default.
"""
import os
from .mysqldb import MySQLDialect_mysqldb
from ...pool import NullPool
import re
from sqlalchemy.util import warn_deprecated
def _is_dev_environment():
return os.environ.get('SERVER_SOFTWARE', '').startswith('Development/')
class MySQLDialect_gaerdbms(MySQLDialect_mysqldb):
@classmethod
def dbapi(cls):
warn_deprecated(
"Google Cloud SQL now recommends creating connections via the "
"MySQLdb dialect directly, using the URL format "
"mysql+mysqldb://root@/<dbname>?unix_socket=/cloudsql/"
"<projectid>:<instancename>"
)
# from django:
# http://code.google.com/p/googleappengine/source/
# browse/trunk/python/google/storage/speckle/
# python/django/backend/base.py#118
# see also [ticket:2649]
# see also http://stackoverflow.com/q/14224679/34549
from google.appengine.api import apiproxy_stub_map
if _is_dev_environment():
from google.appengine.api import rdbms_mysqldb
return rdbms_mysqldb
elif apiproxy_stub_map.apiproxy.GetStub('rdbms'):
from google.storage.speckle.python.api import rdbms_apiproxy
return rdbms_apiproxy
else:
from google.storage.speckle.python.api import rdbms_googleapi
return rdbms_googleapi
@classmethod
def get_pool_class(cls, url):
# Cloud SQL connections die at any moment
return NullPool
def create_connect_args(self, url):
opts = url.translate_connect_args()
if not _is_dev_environment():
# 'dsn' and 'instance' are because we are skipping
# the traditional google.api.rdbms wrapper
opts['dsn'] = ''
opts['instance'] = url.query['instance']
return [], opts
def _extract_error_code(self, exception):
match = re.compile(r"^(\d+)L?:|^\((\d+)L?,").match(str(exception))
# The rdbms api will wrap then re-raise some types of errors
# making this regex return no matches.
code = match.group(1) or match.group(2) if match else None
if code:
return int(code)
dialect = MySQLDialect_gaerdbms
| gpl-2.0 |
numericillustration/sdc-imgapi | tools/manatee-diff/manatee2images.py | 2 | 1948 | #!/usr/bin/env python
"""
Take a imgapi_images-*.gz manatee table dump and emit a JSON array of images.
Usage:
gzcat imgapi_images-2014-11-15-00-01-56.gz | ./manatee2images.py > images.json
"""
import json
import sys
import operator
from pprint import pprint
import codecs
# TODO: ideally we wouldn't hardcode types here. This should come from
# the imgapi_images bucket definition.
type_from_key = {
'billing_tags': 'array',
'published_at': 'string',
'acl': 'array',
'public': 'bool',
}
def update_img_from_index(img, entry, header, key):
try:
type = type_from_key[key]
idx = header.index(key) # cache this?
val = entry[idx]
# Postgres NULL
if val == '\\N':
if key in img:
del img[key]
return
if type == 'array' and val.startswith('{') and val.endswith('}'):
# Hack parsing of postgres arrays.
val = [tag for tag in val[1:-1].split(',') if tag]
elif type == 'bool':
if val == 't':
val = True
elif val == 'f':
val = False
else:
raise RuntimeError(
'unexpected index value for "%s" bool field: %r'
% (key, val))
img[key] = val
except ValueError:
pass
header = None
published_at_idx = None
acl_idx = None
imgs = []
for line in sys.stdin:
if header is None:
header = json.loads(line)['keys']
assert header[3] == '_value'
continue
entry = json.loads(line)['entry']
img = json.loads(entry[3])
# Apply some of the index values.
# TODO: eventually should do all of these
for key in ['billing_tags', 'published_at', 'acl', 'public']:
update_img_from_index(img, entry, header, key)
imgs.append(img)
imgs.sort(key=operator.itemgetter('uuid'))
print json.dumps(imgs, sort_keys=True, indent=4)
| mpl-2.0 |
lancezlin/ml_template_py | lib/python2.7/site-packages/wheel/metadata.py | 93 | 11676 | """
Tools for converting old- to new-style metadata.
"""
from collections import namedtuple
from .pkginfo import read_pkg_info
from .util import OrderedDefaultDict
try:
from collections import OrderedDict
except ImportError:
OrderedDict = dict
import re
import os.path
import textwrap
import pkg_resources
import email.parser
from . import __version__ as wheel_version
METADATA_VERSION = "2.0"
PLURAL_FIELDS = { "classifier" : "classifiers",
"provides_dist" : "provides",
"provides_extra" : "extras" }
SKIP_FIELDS = set()
CONTACT_FIELDS = (({"email":"author_email", "name": "author"},
"author"),
({"email":"maintainer_email", "name": "maintainer"},
"maintainer"))
# commonly filled out as "UNKNOWN" by distutils:
UNKNOWN_FIELDS = set(("author", "author_email", "platform", "home_page",
"license"))
# Wheel itself is probably the only program that uses non-extras markers
# in METADATA/PKG-INFO. Support its syntax with the extra at the end only.
EXTRA_RE = re.compile("""^(?P<package>.*?)(;\s*(?P<condition>.*?)(extra == '(?P<extra>.*?)')?)$""")
KEYWORDS_RE = re.compile("[\0-,]+")
MayRequiresKey = namedtuple('MayRequiresKey', ('condition', 'extra'))
def unique(iterable):
"""
Yield unique values in iterable, preserving order.
"""
seen = set()
for value in iterable:
if not value in seen:
seen.add(value)
yield value
def handle_requires(metadata, pkg_info, key):
"""
Place the runtime requirements from pkg_info into metadata.
"""
may_requires = OrderedDefaultDict(list)
for value in sorted(pkg_info.get_all(key)):
extra_match = EXTRA_RE.search(value)
if extra_match:
groupdict = extra_match.groupdict()
condition = groupdict['condition']
extra = groupdict['extra']
package = groupdict['package']
if condition.endswith(' and '):
condition = condition[:-5]
else:
condition, extra = None, None
package = value
key = MayRequiresKey(condition, extra)
may_requires[key].append(package)
if may_requires:
metadata['run_requires'] = []
def sort_key(item):
# Both condition and extra could be None, which can't be compared
# against strings in Python 3.
key, value = item
if key.condition is None:
return ''
return key.condition
for key, value in sorted(may_requires.items(), key=sort_key):
may_requirement = OrderedDict((('requires', value),))
if key.extra:
may_requirement['extra'] = key.extra
if key.condition:
may_requirement['environment'] = key.condition
metadata['run_requires'].append(may_requirement)
if not 'extras' in metadata:
metadata['extras'] = []
metadata['extras'].extend([key.extra for key in may_requires.keys() if key.extra])
def pkginfo_to_dict(path, distribution=None):
"""
Convert PKG-INFO to a prototype Metadata 2.0 (PEP 426) dict.
The description is included under the key ['description'] rather than
being written to a separate file.
path: path to PKG-INFO file
distribution: optional distutils Distribution()
"""
metadata = OrderedDefaultDict(lambda: OrderedDefaultDict(lambda: OrderedDefaultDict(OrderedDict)))
metadata["generator"] = "bdist_wheel (" + wheel_version + ")"
try:
unicode
pkg_info = read_pkg_info(path)
except NameError:
with open(path, 'rb') as pkg_info_file:
pkg_info = email.parser.Parser().parsestr(pkg_info_file.read().decode('utf-8'))
description = None
if pkg_info['Summary']:
metadata['summary'] = pkginfo_unicode(pkg_info, 'Summary')
del pkg_info['Summary']
if pkg_info['Description']:
description = dedent_description(pkg_info)
del pkg_info['Description']
else:
payload = pkg_info.get_payload()
if isinstance(payload, bytes):
# Avoid a Python 2 Unicode error.
# We still suffer ? glyphs on Python 3.
payload = payload.decode('utf-8')
if payload:
description = payload
if description:
pkg_info['description'] = description
for key in sorted(unique(k.lower() for k in pkg_info.keys())):
low_key = key.replace('-', '_')
if low_key in SKIP_FIELDS:
continue
if low_key in UNKNOWN_FIELDS and pkg_info.get(key) == 'UNKNOWN':
continue
if low_key in sorted(PLURAL_FIELDS):
metadata[PLURAL_FIELDS[low_key]] = pkg_info.get_all(key)
elif low_key == "requires_dist":
handle_requires(metadata, pkg_info, key)
elif low_key == 'provides_extra':
if not 'extras' in metadata:
metadata['extras'] = []
metadata['extras'].extend(pkg_info.get_all(key))
elif low_key == 'home_page':
metadata['extensions']['python.details']['project_urls'] = {'Home':pkg_info[key]}
elif low_key == 'keywords':
metadata['keywords'] = KEYWORDS_RE.split(pkg_info[key])
else:
metadata[low_key] = pkg_info[key]
metadata['metadata_version'] = METADATA_VERSION
if 'extras' in metadata:
metadata['extras'] = sorted(set(metadata['extras']))
# include more information if distribution is available
if distribution:
for requires, attr in (('test_requires', 'tests_require'),):
try:
requirements = getattr(distribution, attr)
if isinstance(requirements, list):
new_requirements = sorted(convert_requirements(requirements))
metadata[requires] = [{'requires':new_requirements}]
except AttributeError:
pass
# handle contacts
contacts = []
for contact_type, role in CONTACT_FIELDS:
contact = OrderedDict()
for key in sorted(contact_type):
if contact_type[key] in metadata:
contact[key] = metadata.pop(contact_type[key])
if contact:
contact['role'] = role
contacts.append(contact)
if contacts:
metadata['extensions']['python.details']['contacts'] = contacts
# convert entry points to exports
try:
with open(os.path.join(os.path.dirname(path), "entry_points.txt"), "r") as ep_file:
ep_map = pkg_resources.EntryPoint.parse_map(ep_file.read())
exports = OrderedDict()
for group, items in sorted(ep_map.items()):
exports[group] = OrderedDict()
for item in sorted(map(str, items.values())):
name, export = item.split(' = ', 1)
exports[group][name] = export
if exports:
metadata['extensions']['python.exports'] = exports
except IOError:
pass
# copy console_scripts entry points to commands
if 'python.exports' in metadata['extensions']:
for (ep_script, wrap_script) in (('console_scripts', 'wrap_console'),
('gui_scripts', 'wrap_gui')):
if ep_script in metadata['extensions']['python.exports']:
metadata['extensions']['python.commands'][wrap_script] = \
metadata['extensions']['python.exports'][ep_script]
return metadata
def requires_to_requires_dist(requirement):
"""Compose the version predicates for requirement in PEP 345 fashion."""
requires_dist = []
for op, ver in requirement.specs:
requires_dist.append(op + ver)
if not requires_dist:
return ''
return " (%s)" % ','.join(requires_dist)
def convert_requirements(requirements):
"""Yield Requires-Dist: strings for parsed requirements strings."""
for req in requirements:
parsed_requirement = pkg_resources.Requirement.parse(req)
spec = requires_to_requires_dist(parsed_requirement)
extras = ",".join(parsed_requirement.extras)
if extras:
extras = "[%s]" % extras
yield (parsed_requirement.project_name + extras + spec)
def generate_requirements(extras_require):
"""
Convert requirements from a setup()-style dictionary to ('Requires-Dist', 'requirement')
and ('Provides-Extra', 'extra') tuples.
extras_require is a dictionary of {extra: [requirements]} as passed to setup(),
using the empty extra {'': [requirements]} to hold install_requires.
"""
for extra, depends in extras_require.items():
condition = ''
if extra and ':' in extra: # setuptools extra:condition syntax
extra, condition = extra.split(':', 1)
extra = pkg_resources.safe_extra(extra)
if extra:
yield ('Provides-Extra', extra)
if condition:
condition += " and "
condition += "extra == '%s'" % extra
if condition:
condition = '; ' + condition
for new_req in convert_requirements(depends):
yield ('Requires-Dist', new_req + condition)
def pkginfo_to_metadata(egg_info_path, pkginfo_path):
"""
Convert .egg-info directory with PKG-INFO to the Metadata 1.3 aka
old-draft Metadata 2.0 format.
"""
pkg_info = read_pkg_info(pkginfo_path)
pkg_info.replace_header('Metadata-Version', '2.0')
requires_path = os.path.join(egg_info_path, 'requires.txt')
if os.path.exists(requires_path):
with open(requires_path) as requires_file:
requires = requires_file.read()
for extra, reqs in sorted(pkg_resources.split_sections(requires),
key=lambda x: x[0] or ''):
for item in generate_requirements({extra: reqs}):
pkg_info[item[0]] = item[1]
description = pkg_info['Description']
if description:
pkg_info.set_payload(dedent_description(pkg_info))
del pkg_info['Description']
return pkg_info
def pkginfo_unicode(pkg_info, field):
"""Hack to coax Unicode out of an email Message() - Python 3.3+"""
text = pkg_info[field]
field = field.lower()
if not isinstance(text, str):
if not hasattr(pkg_info, 'raw_items'): # Python 3.2
return str(text)
for item in pkg_info.raw_items():
if item[0].lower() == field:
text = item[1].encode('ascii', 'surrogateescape')\
.decode('utf-8')
break
return text
def dedent_description(pkg_info):
"""
Dedent and convert pkg_info['Description'] to Unicode.
"""
description = pkg_info['Description']
# Python 3 Unicode handling, sorta.
surrogates = False
if not isinstance(description, str):
surrogates = True
description = pkginfo_unicode(pkg_info, 'Description')
description_lines = description.splitlines()
description_dedent = '\n'.join(
# if the first line of long_description is blank,
# the first line here will be indented.
(description_lines[0].lstrip(),
textwrap.dedent('\n'.join(description_lines[1:])),
'\n'))
if surrogates:
description_dedent = description_dedent\
.encode("utf8")\
.decode("ascii", "surrogateescape")
return description_dedent
if __name__ == "__main__":
import sys, pprint
pprint.pprint(pkginfo_to_dict(sys.argv[1]))
| mit |
nicholaschris/landsatpy | stuff.py | 1 | 1864 | import cloud_detection_new as cloud_detection
from matplotlib import pyplot as plt
import views
from skimage import exposure
nir = cloud_detection.get_nir()[0:600,2000:2600]
red = cloud_detection.get_red()[0:600,2000:2600]
green = cloud_detection.get_green()[0:600,2000:2600]
blue = cloud_detection.get_blue()[0:600,2000:2600] # or use coastal
coastal = cloud_detection.get_coastal()[0:600,2000:2600]
marine_shadow_index = (green-blue)/(green+blue)
img = views.create_composite(red, green, blue)
img_rescale = exposure.rescale_intensity(img, in_range=(0, 90))
plt.rcParams['savefig.facecolor'] = "0.8"
vmin, vmax=0.0,0.1
def example_plot(ax, data, fontsize=12):
ax.imshow(data, vmin=vmin, vmax=vmax)
ax.locator_params(nbins=3)
ax.set_xlabel('x-label', fontsize=fontsize)
ax.set_ylabel('y-label', fontsize=fontsize)
ax.set_title('Title', fontsize=fontsize)
plt.close('all')
fig = plt.figure
ax1=plt.subplot(243)
ax2=plt.subplot(244)
ax3=plt.subplot(247)
ax4=plt.subplot(248)
ax5=plt.subplot(121)
a_coastal = coastal[500:600, 500:600]
a_blue = blue[500:600, 500:600]
a_green = green[500:600, 500:600]
a_red = red[500:600, 500:600]
a_nir = nir[500:600, 500:600]
a_img = img[500:600, 500:600]
spec1 = [a_coastal[60, 60], a_blue[60, 60], a_green[60, 60], a_red[60, 60], a_nir[60, 60]]
b_coastal = coastal[200:300, 100:200]
b_blue = blue[200:300, 100:200]
b_green = green[200:300, 100:200]
b_red = red[200:300, 100:200]
b_nir = nir[200:300, 100:200]
b_img = img[200:300, 100:200]
example_plot(ax1, coastal)
example_plot(ax2, blue)
example_plot(ax3, green)
example_plot(ax4, red)
ax5.imshow(img)
# plt.tight_layout()
plt.close('all')
spec = [b_coastal[60, 60], b_blue[60, 60], b_green[60, 60], b_red[60, 60], b_nir[60, 60]]
plt.plot(spec, 'k*-')
plt.plot(spec1, 'k.-')
plt.close('all')
cbg = (coastal+blue+green)/3
plt.imshow(cbg/red) | mit |
koyuawsmbrtn/eclock | windows/kivy/kivy/core/image/img_dds.py | 54 | 1048 | '''
DDS: DDS image loader
'''
__all__ = ('ImageLoaderDDS', )
from kivy.lib.ddsfile import DDSFile
from kivy.logger import Logger
from kivy.core.image import ImageLoaderBase, ImageData, ImageLoader
class ImageLoaderDDS(ImageLoaderBase):
@staticmethod
def extensions():
return ('dds', )
def load(self, filename):
try:
dds = DDSFile(filename=filename)
except:
Logger.warning('Image: Unable to load image <%s>' % filename)
raise
self.filename = filename
width, height = dds.size
im = ImageData(width, height, dds.dxt, dds.images[0], source=filename,
flip_vertical=False)
if len(dds.images) > 1:
images = dds.images
images_size = dds.images_size
for index in range(1, len(dds.images)):
w, h = images_size[index]
data = images[index]
im.add_mipmap(index, w, h, data)
return [im]
# register
ImageLoader.register(ImageLoaderDDS)
| gpl-2.0 |
dudonwai/dudonsblog | Lib/site-packages/django/contrib/gis/db/models/sql/conversion.py | 308 | 2015 | """
This module holds simple classes to convert geospatial values from the
database.
"""
from django.contrib.gis.db.models.fields import GeoSelectFormatMixin
from django.contrib.gis.geometry.backend import Geometry
from django.contrib.gis.measure import Area, Distance
class BaseField(object):
empty_strings_allowed = True
def get_db_converters(self, connection):
return [self.from_db_value]
def select_format(self, compiler, sql, params):
return sql, params
class AreaField(BaseField):
"Wrapper for Area values."
def __init__(self, area_att):
self.area_att = area_att
def from_db_value(self, value, expression, connection, context):
if value is not None:
value = Area(**{self.area_att: value})
return value
def get_internal_type(self):
return 'AreaField'
class DistanceField(BaseField):
"Wrapper for Distance values."
def __init__(self, distance_att):
self.distance_att = distance_att
def from_db_value(self, value, expression, connection, context):
if value is not None:
value = Distance(**{self.distance_att: value})
return value
def get_internal_type(self):
return 'DistanceField'
class GeomField(GeoSelectFormatMixin, BaseField):
"""
Wrapper for Geometry values. It is a lightweight alternative to
using GeometryField (which requires an SQL query upon instantiation).
"""
# Hacky marker for get_db_converters()
geom_type = None
def from_db_value(self, value, expression, connection, context):
if value is not None:
value = Geometry(value)
return value
def get_internal_type(self):
return 'GeometryField'
class GMLField(BaseField):
"""
Wrapper for GML to be used by Oracle to ensure Database.LOB conversion.
"""
def get_internal_type(self):
return 'GMLField'
def from_db_value(self, value, expression, connection, context):
return value
| mit |
vedujoshi/tempest | tempest/api/identity/base.py | 2 | 11762 | # Copyright 2012 OpenStack Foundation
# 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 tempest import config
from tempest.lib.common.utils import data_utils
from tempest.lib.common.utils import test_utils
import tempest.test
CONF = config.CONF
class BaseIdentityTest(tempest.test.BaseTestCase):
@classmethod
def setup_credentials(cls):
# Create no network resources for these test.
cls.set_network_resources()
super(BaseIdentityTest, cls).setup_credentials()
@classmethod
def disable_user(cls, user_name):
user = cls.get_user_by_name(user_name)
cls.users_client.update_user_enabled(user['id'], enabled=False)
@classmethod
def disable_tenant(cls, tenant_name):
tenant = cls.get_tenant_by_name(tenant_name)
cls.tenants_client.update_tenant(tenant['id'], enabled=False)
@classmethod
def get_user_by_name(cls, name, domain_id=None):
if domain_id:
params = {'domain_id': domain_id}
users = cls.users_client.list_users(**params)['users']
else:
users = cls.users_client.list_users()['users']
user = [u for u in users if u['name'] == name]
if user:
return user[0]
@classmethod
def get_tenant_by_name(cls, name):
try:
tenants = cls.tenants_client.list_tenants()['tenants']
except AttributeError:
tenants = cls.projects_client.list_projects()['projects']
tenant = [t for t in tenants if t['name'] == name]
if tenant:
return tenant[0]
@classmethod
def get_role_by_name(cls, name):
roles = cls.roles_client.list_roles()['roles']
role = [r for r in roles if r['name'] == name]
if role:
return role[0]
def create_test_user(self, **kwargs):
if kwargs.get('password', None) is None:
kwargs['password'] = data_utils.rand_password()
if 'name' not in kwargs:
kwargs['name'] = data_utils.rand_name('test_user')
if 'email' not in kwargs:
kwargs['email'] = kwargs['name'] + '@testmail.tm'
user = self.users_client.create_user(**kwargs)['user']
# Delete the user at the end of the test
self.addCleanup(
test_utils.call_and_ignore_notfound_exc,
self.users_client.delete_user, user['id'])
return user
def setup_test_role(self, name=None, domain_id=None):
"""Set up a test role."""
params = {'name': name or data_utils.rand_name('test_role')}
if domain_id:
params['domain_id'] = domain_id
role = self.roles_client.create_role(**params)['role']
# Delete the role at the end of the test
self.addCleanup(
test_utils.call_and_ignore_notfound_exc,
self.roles_client.delete_role, role['id'])
return role
class BaseIdentityV2Test(BaseIdentityTest):
credentials = ['primary']
# identity v2 tests should obtain tokens and create accounts via v2
# regardless of the configured CONF.identity.auth_version
identity_version = 'v2'
@classmethod
def setup_clients(cls):
super(BaseIdentityV2Test, cls).setup_clients()
cls.non_admin_client = cls.os_primary.identity_public_client
cls.non_admin_token_client = cls.os_primary.token_client
cls.non_admin_tenants_client = cls.os_primary.tenants_public_client
cls.non_admin_users_client = cls.os_primary.users_public_client
class BaseIdentityV2AdminTest(BaseIdentityV2Test):
credentials = ['primary', 'admin']
# NOTE(andreaf) Identity tests work with credentials, so it is safer
# for them to always use disposable credentials. Forcing dynamic creds
# on regular identity tests would be however to restrictive, since it
# would prevent any identity test from being executed against clouds where
# admin credentials are not available.
# Since All admin tests require admin credentials to be
# executed, so this will not impact the ability to execute tests.
force_tenant_isolation = True
@classmethod
def skip_checks(cls):
super(BaseIdentityV2AdminTest, cls).skip_checks()
if not CONF.identity_feature_enabled.api_v2_admin:
raise cls.skipException('Identity v2 admin not available')
@classmethod
def setup_clients(cls):
super(BaseIdentityV2AdminTest, cls).setup_clients()
cls.client = cls.os_admin.identity_client
cls.non_admin_client = cls.os_primary.identity_client
cls.token_client = cls.os_admin.token_client
cls.tenants_client = cls.os_admin.tenants_client
cls.non_admin_tenants_client = cls.os_primary.tenants_client
cls.roles_client = cls.os_admin.roles_client
cls.non_admin_roles_client = cls.os_primary.roles_client
cls.users_client = cls.os_admin.users_client
cls.non_admin_users_client = cls.os_primary.users_client
cls.services_client = cls.os_admin.identity_services_client
cls.endpoints_client = cls.os_admin.endpoints_client
@classmethod
def resource_setup(cls):
super(BaseIdentityV2AdminTest, cls).resource_setup()
cls.projects_client = cls.tenants_client
def setup_test_user(self, password=None):
"""Set up a test user."""
tenant = self.setup_test_tenant()
user = self.create_test_user(tenantId=tenant['id'], password=password)
return user
def setup_test_tenant(self, **kwargs):
"""Set up a test tenant."""
if 'name' not in kwargs:
kwargs['name'] = data_utils.rand_name('test_tenant')
if 'description' not in kwargs:
kwargs['description'] = data_utils.rand_name('desc')
tenant = self.projects_client.create_tenant(**kwargs)['tenant']
# Delete the tenant at the end of the test
self.addCleanup(
test_utils.call_and_ignore_notfound_exc,
self.tenants_client.delete_tenant, tenant['id'])
return tenant
class BaseIdentityV3Test(BaseIdentityTest):
credentials = ['primary']
# identity v3 tests should obtain tokens and create accounts via v3
# regardless of the configured CONF.identity.auth_version
identity_version = 'v3'
@classmethod
def setup_clients(cls):
super(BaseIdentityV3Test, cls).setup_clients()
cls.non_admin_client = cls.os_primary.identity_v3_client
cls.non_admin_users_client = cls.os_primary.users_v3_client
cls.non_admin_token = cls.os_primary.token_v3_client
cls.non_admin_projects_client = cls.os_primary.projects_client
cls.non_admin_catalog_client = cls.os_primary.catalog_client
cls.non_admin_versions_client =\
cls.os_primary.identity_versions_v3_client
class BaseIdentityV3AdminTest(BaseIdentityV3Test):
credentials = ['primary', 'admin']
# NOTE(andreaf) Identity tests work with credentials, so it is safer
# for them to always use disposable credentials. Forcing dynamic creds
# on regular identity tests would be however to restrictive, since it
# would prevent any identity test from being executed against clouds where
# admin credentials are not available.
# Since All admin tests require admin credentials to be
# executed, so this will not impact the ability to execute tests.
force_tenant_isolation = True
@classmethod
def setup_clients(cls):
super(BaseIdentityV3AdminTest, cls).setup_clients()
cls.client = cls.os_admin.identity_v3_client
cls.domains_client = cls.os_admin.domains_client
cls.users_client = cls.os_admin.users_v3_client
cls.trusts_client = cls.os_admin.trusts_client
cls.roles_client = cls.os_admin.roles_v3_client
cls.inherited_roles_client = cls.os_admin.inherited_roles_client
cls.token = cls.os_admin.token_v3_client
cls.endpoints_client = cls.os_admin.endpoints_v3_client
cls.regions_client = cls.os_admin.regions_client
cls.services_client = cls.os_admin.identity_services_v3_client
cls.policies_client = cls.os_admin.policies_client
cls.creds_client = cls.os_admin.credentials_client
cls.groups_client = cls.os_admin.groups_client
cls.projects_client = cls.os_admin.projects_client
cls.role_assignments = cls.os_admin.role_assignments_client
cls.oauth_consumers_client = cls.os_admin.oauth_consumers_client
cls.oauth_token_client = cls.os_admin.oauth_token_client
cls.domain_config_client = cls.os_admin.domain_config_client
cls.endpoint_filter_client = cls.os_admin.endpoint_filter_client
cls.endpoint_groups_client = cls.os_admin.endpoint_groups_client
if CONF.identity.admin_domain_scope:
# NOTE(andreaf) When keystone policy requires it, the identity
# admin clients for these tests shall use 'domain' scoped tokens.
# As the client manager is already created by the base class,
# we set the scope for the inner auth provider.
cls.os_admin.auth_provider.scope = 'domain'
@classmethod
def disable_user(cls, user_name, domain_id=None):
user = cls.get_user_by_name(user_name, domain_id)
cls.users_client.update_user(user['id'], name=user_name, enabled=False)
@classmethod
def create_domain(cls, **kwargs):
"""Create a domain."""
if 'name' not in kwargs:
kwargs['name'] = data_utils.rand_name('test_domain')
if 'description' not in kwargs:
kwargs['description'] = data_utils.rand_name('desc')
domain = cls.domains_client.create_domain(**kwargs)['domain']
return domain
def delete_domain(self, domain_id):
# NOTE(mpavlase) It is necessary to disable the domain before deleting
# otherwise it raises Forbidden exception
self.domains_client.update_domain(domain_id, enabled=False)
self.domains_client.delete_domain(domain_id)
def setup_test_user(self, password=None):
"""Set up a test user."""
project = self.setup_test_project()
user = self.create_test_user(project_id=project['id'],
password=password)
return user
def setup_test_project(self, **kwargs):
"""Set up a test project."""
if 'name' not in kwargs:
kwargs['name'] = data_utils.rand_name('test_project')
if 'description' not in kwargs:
kwargs['description'] = data_utils.rand_name('test_description')
project = self.projects_client.create_project(**kwargs)['project']
# Delete the project at the end of the test
self.addCleanup(
test_utils.call_and_ignore_notfound_exc,
self.projects_client.delete_project, project['id'])
return project
def setup_test_domain(self):
"""Set up a test domain."""
domain = self.create_domain()
# Delete the domain at the end of the test
self.addCleanup(
test_utils.call_and_ignore_notfound_exc,
self.delete_domain, domain['id'])
return domain
| apache-2.0 |
JamesShaeffer/QGIS | tests/src/python/test_qgsmessagelog.py | 30 | 3449 | # -*- coding: utf-8 -*-
"""QGIS Unit tests for QgsMessageLog.
.. note:: This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
"""
__author__ = 'Nyall Dawson'
__date__ = '18/06/2018'
__copyright__ = 'Copyright 2018, The QGIS Project'
import qgis # NOQA
from qgis.core import (Qgis,
QgsApplication,
QgsMessageLog,
QgsMessageLogNotifyBlocker)
from qgis.PyQt.QtTest import QSignalSpy
from qgis.testing import start_app, unittest
from utilities import (unitTestDataPath)
app = start_app()
TEST_DATA_DIR = unitTestDataPath()
class TestQgsMessageLog(unittest.TestCase):
def testSignals(self):
app_log = QgsApplication.messageLog()
# signals should be emitted by application log
app_spy = QSignalSpy(app_log.messageReceived)
app_spy_received = QSignalSpy(app_log.messageReceived[bool])
QgsMessageLog.logMessage('test', 'tag', Qgis.Info, notifyUser=True)
self.assertEqual(len(app_spy), 1)
self.assertEqual(app_spy[-1], ['test', 'tag', Qgis.Info])
# info message, so messageReceived(bool) should not be emitted
self.assertEqual(len(app_spy_received), 0)
QgsMessageLog.logMessage('test', 'tag', Qgis.Warning, notifyUser=True)
self.assertEqual(len(app_spy), 2)
self.assertEqual(app_spy[-1], ['test', 'tag', Qgis.Warning])
# warning message, so messageReceived(bool) should be emitted
self.assertEqual(len(app_spy_received), 1)
QgsMessageLog.logMessage('test', 'tag', Qgis.Warning, notifyUser=False)
self.assertEqual(len(app_spy), 3)
# notifyUser was False
self.assertEqual(len(app_spy_received), 1)
def testBlocker(self):
app_log = QgsApplication.messageLog()
spy = QSignalSpy(app_log.messageReceived)
spy_received = QSignalSpy(app_log.messageReceived[bool])
QgsMessageLog.logMessage('test', 'tag', Qgis.Warning, notifyUser=True)
self.assertEqual(len(spy), 1)
self.assertEqual(spy[-1], ['test', 'tag', Qgis.Warning])
self.assertEqual(len(spy_received), 1)
# block notifications
b = QgsMessageLogNotifyBlocker()
QgsMessageLog.logMessage('test', 'tag', Qgis.Warning, notifyUser=True)
self.assertEqual(len(spy), 2) # should not be blocked
self.assertEqual(len(spy_received), 1) # should be blocked
# another blocker
b2 = QgsMessageLogNotifyBlocker()
QgsMessageLog.logMessage('test', 'tag', Qgis.Warning, notifyUser=True)
self.assertEqual(len(spy), 3) # should not be blocked
self.assertEqual(len(spy_received), 1) # should be blocked
del b
# still blocked because of b2
QgsMessageLog.logMessage('test', 'tag', Qgis.Warning, notifyUser=True)
self.assertEqual(len(spy), 4) # should not be blocked
self.assertEqual(len(spy_received), 1) # should be blocked
del b2
# not blocked
QgsMessageLog.logMessage('test', 'tag', Qgis.Warning, notifyUser=True)
self.assertEqual(len(spy), 5) # should not be blocked
self.assertEqual(len(spy_received), 2) # should not be blocked
if __name__ == '__main__':
unittest.main()
| gpl-2.0 |
hophacker/bitcoin_malleability | contrib/bitrpc/bitrpc.py | 46 | 9207 | from jsonrpc import ServiceProxy
import sys
import string
import getpass
# ===== BEGIN USER SETTINGS =====
# if you do not set these you will be prompted for a password for every command
rpcuser = ""
rpcpass = ""
# ====== END USER SETTINGS ======
if rpcpass == "":
access = ServiceProxy("http://127.0.0.1:8332")
else:
access = ServiceProxy("http://"+rpcuser+":"+rpcpass+"@127.0.0.1:8332")
cmd = sys.argv[1].lower()
if cmd == "backupwallet":
try:
path = raw_input("Enter destination path/filename: ")
print access.backupwallet(path)
except:
print "\n---An error occurred---\n"
elif cmd == "getaccount":
try:
addr = raw_input("Enter a Bitcoin address: ")
print access.getaccount(addr)
except:
print "\n---An error occurred---\n"
elif cmd == "getaccountaddress":
try:
acct = raw_input("Enter an account name: ")
print access.getaccountaddress(acct)
except:
print "\n---An error occurred---\n"
elif cmd == "getaddressesbyaccount":
try:
acct = raw_input("Enter an account name: ")
print access.getaddressesbyaccount(acct)
except:
print "\n---An error occurred---\n"
elif cmd == "getbalance":
try:
acct = raw_input("Enter an account (optional): ")
mc = raw_input("Minimum confirmations (optional): ")
try:
print access.getbalance(acct, mc)
except:
print access.getbalance()
except:
print "\n---An error occurred---\n"
elif cmd == "getblockbycount":
try:
height = raw_input("Height: ")
print access.getblockbycount(height)
except:
print "\n---An error occurred---\n"
elif cmd == "getblockcount":
try:
print access.getblockcount()
except:
print "\n---An error occurred---\n"
elif cmd == "getblocknumber":
try:
print access.getblocknumber()
except:
print "\n---An error occurred---\n"
elif cmd == "getconnectioncount":
try:
print access.getconnectioncount()
except:
print "\n---An error occurred---\n"
elif cmd == "getdifficulty":
try:
print access.getdifficulty()
except:
print "\n---An error occurred---\n"
elif cmd == "getgenerate":
try:
print access.getgenerate()
except:
print "\n---An error occurred---\n"
elif cmd == "gethashespersec":
try:
print access.gethashespersec()
except:
print "\n---An error occurred---\n"
elif cmd == "getinfo":
try:
print access.getinfo()
except:
print "\n---An error occurred---\n"
elif cmd == "getnewaddress":
try:
acct = raw_input("Enter an account name: ")
try:
print access.getnewaddress(acct)
except:
print access.getnewaddress()
except:
print "\n---An error occurred---\n"
elif cmd == "getreceivedbyaccount":
try:
acct = raw_input("Enter an account (optional): ")
mc = raw_input("Minimum confirmations (optional): ")
try:
print access.getreceivedbyaccount(acct, mc)
except:
print access.getreceivedbyaccount()
except:
print "\n---An error occurred---\n"
elif cmd == "getreceivedbyaddress":
try:
addr = raw_input("Enter a Bitcoin address (optional): ")
mc = raw_input("Minimum confirmations (optional): ")
try:
print access.getreceivedbyaddress(addr, mc)
except:
print access.getreceivedbyaddress()
except:
print "\n---An error occurred---\n"
elif cmd == "gettransaction":
try:
txid = raw_input("Enter a transaction ID: ")
print access.gettransaction(txid)
except:
print "\n---An error occurred---\n"
elif cmd == "getwork":
try:
data = raw_input("Data (optional): ")
try:
print access.gettransaction(data)
except:
print access.gettransaction()
except:
print "\n---An error occurred---\n"
elif cmd == "help":
try:
cmd = raw_input("Command (optional): ")
try:
print access.help(cmd)
except:
print access.help()
except:
print "\n---An error occurred---\n"
elif cmd == "listaccounts":
try:
mc = raw_input("Minimum confirmations (optional): ")
try:
print access.listaccounts(mc)
except:
print access.listaccounts()
except:
print "\n---An error occurred---\n"
elif cmd == "listreceivedbyaccount":
try:
mc = raw_input("Minimum confirmations (optional): ")
incemp = raw_input("Include empty? (true/false, optional): ")
try:
print access.listreceivedbyaccount(mc, incemp)
except:
print access.listreceivedbyaccount()
except:
print "\n---An error occurred---\n"
elif cmd == "listreceivedbyaddress":
try:
mc = raw_input("Minimum confirmations (optional): ")
incemp = raw_input("Include empty? (true/false, optional): ")
try:
print access.listreceivedbyaddress(mc, incemp)
except:
print access.listreceivedbyaddress()
except:
print "\n---An error occurred---\n"
elif cmd == "listtransactions":
try:
acct = raw_input("Account (optional): ")
count = raw_input("Number of transactions (optional): ")
frm = raw_input("Skip (optional):")
try:
print access.listtransactions(acct, count, frm)
except:
print access.listtransactions()
except:
print "\n---An error occurred---\n"
elif cmd == "move":
try:
frm = raw_input("From: ")
to = raw_input("To: ")
amt = raw_input("Amount:")
mc = raw_input("Minimum confirmations (optional): ")
comment = raw_input("Comment (optional): ")
try:
print access.move(frm, to, amt, mc, comment)
except:
print access.move(frm, to, amt)
except:
print "\n---An error occurred---\n"
elif cmd == "sendfrom":
try:
frm = raw_input("From: ")
to = raw_input("To: ")
amt = raw_input("Amount:")
mc = raw_input("Minimum confirmations (optional): ")
comment = raw_input("Comment (optional): ")
commentto = raw_input("Comment-to (optional): ")
try:
print access.sendfrom(frm, to, amt, mc, comment, commentto)
except:
print access.sendfrom(frm, to, amt)
except:
print "\n---An error occurred---\n"
elif cmd == "sendmany":
try:
frm = raw_input("From: ")
to = raw_input("To (in format address1:amount1,address2:amount2,...): ")
mc = raw_input("Minimum confirmations (optional): ")
comment = raw_input("Comment (optional): ")
try:
print access.sendmany(frm,to,mc,comment)
except:
print access.sendmany(frm,to)
except:
print "\n---An error occurred---\n"
elif cmd == "sendtoaddress":
try:
to = raw_input("To (in format address1:amount1,address2:amount2,...): ")
amt = raw_input("Amount:")
comment = raw_input("Comment (optional): ")
commentto = raw_input("Comment-to (optional): ")
try:
print access.sendtoaddress(to,amt,comment,commentto)
except:
print access.sendtoaddress(to,amt)
except:
print "\n---An error occurred---\n"
elif cmd == "setaccount":
try:
addr = raw_input("Address: ")
acct = raw_input("Account:")
print access.setaccount(addr,acct)
except:
print "\n---An error occurred---\n"
elif cmd == "setgenerate":
try:
gen= raw_input("Generate? (true/false): ")
cpus = raw_input("Max processors/cores (-1 for unlimited, optional):")
try:
print access.setgenerate(gen, cpus)
except:
print access.setgenerate(gen)
except:
print "\n---An error occurred---\n"
elif cmd == "settxfee":
try:
amt = raw_input("Amount:")
print access.settxfee(amt)
except:
print "\n---An error occurred---\n"
elif cmd == "stop":
try:
print access.stop()
except:
print "\n---An error occurred---\n"
elif cmd == "validateaddress":
try:
addr = raw_input("Address: ")
print access.validateaddress(addr)
except:
print "\n---An error occurred---\n"
elif cmd == "walletpassphrase":
try:
pwd = getpass.getpass(prompt="Enter wallet passphrase: ")
access.walletpassphrase(pwd, 60)
print "\n---Wallet unlocked---\n"
except:
print "\n---An error occurred---\n"
elif cmd == "walletpassphrasechange":
try:
pwd = getpass.getpass(prompt="Enter old wallet passphrase: ")
pwd2 = getpass.getpass(prompt="Enter new wallet passphrase: ")
access.walletpassphrasechange(pwd, pwd2)
print
print "\n---Passphrase changed---\n"
except:
print
print "\n---An error occurred---\n"
print
else:
print "Command not found or not supported"
| mit |