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Deprecated validation of operating system, we just care if it's windows, let approve all other...
Deprecated validation of operating system, we just care if it's windows, let approve all other systems. - help to supports cases like cygwin etc - fixed typo in auth decorator

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compat.py
406 lines | 12.4 KiB | text/x-python | PythonLexer
# -*- coding: utf-8 -*-
"""
rhodecode.lib.compat
~~~~~~~~~~~~~~~~~~~~
Python backward compatibility functions and common libs
:created_on: Oct 7, 2011
:author: marcink
:copyright: (C) 2010-2010 Marcin Kuzminski <marcin@python-works.com>
:license: GPLv3, see COPYING for more details.
"""
# 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/>.
import os
from rhodecode import __platform__, PLATFORM_WIN
#==============================================================================
# json
#==============================================================================
from rhodecode.lib.ext_json import json
#==============================================================================
# izip_longest
#==============================================================================
try:
from itertools import izip_longest
except ImportError:
import itertools
def izip_longest(*args, **kwds):
fillvalue = kwds.get("fillvalue")
def sentinel(counter=([fillvalue] * (len(args) - 1)).pop):
yield counter() # yields the fillvalue, or raises IndexError
fillers = itertools.repeat(fillvalue)
iters = [itertools.chain(it, sentinel(), fillers)
for it in args]
try:
for tup in itertools.izip(*iters):
yield tup
except IndexError:
pass
#==============================================================================
# OrderedDict
#==============================================================================
# Python Software Foundation License
# XXX: it feels like using the class with "is" and "is not" instead of "==" and
# "!=" should be faster.
class _Nil(object):
def __repr__(self):
return "nil"
def __eq__(self, other):
if (isinstance(other, _Nil)):
return True
else:
return NotImplemented
def __ne__(self, other):
if (isinstance(other, _Nil)):
return False
else:
return NotImplemented
_nil = _Nil()
class _odict(object):
"""Ordered dict data structure, with O(1) complexity for dict operations
that modify one element.
Overwriting values doesn't change their original sequential order.
"""
def _dict_impl(self):
return None
def __init__(self, data=(), **kwds):
"""This doesn't accept keyword initialization as normal dicts to avoid
a trap - inside a function or method the keyword args are accessible
only as a dict, without a defined order, so their original order is
lost.
"""
if kwds:
raise TypeError("__init__() of ordered dict takes no keyword "
"arguments to avoid an ordering trap.")
self._dict_impl().__init__(self)
# If you give a normal dict, then the order of elements is undefined
if hasattr(data, "iteritems"):
for key, val in data.iteritems():
self[key] = val
else:
for key, val in data:
self[key] = val
# Double-linked list header
def _get_lh(self):
dict_impl = self._dict_impl()
if not hasattr(self, '_lh'):
dict_impl.__setattr__(self, '_lh', _nil)
return dict_impl.__getattribute__(self, '_lh')
def _set_lh(self, val):
self._dict_impl().__setattr__(self, '_lh', val)
lh = property(_get_lh, _set_lh)
# Double-linked list tail
def _get_lt(self):
dict_impl = self._dict_impl()
if not hasattr(self, '_lt'):
dict_impl.__setattr__(self, '_lt', _nil)
return dict_impl.__getattribute__(self, '_lt')
def _set_lt(self, val):
self._dict_impl().__setattr__(self, '_lt', val)
lt = property(_get_lt, _set_lt)
def __getitem__(self, key):
return self._dict_impl().__getitem__(self, key)[1]
def __setitem__(self, key, val):
dict_impl = self._dict_impl()
try:
dict_impl.__getitem__(self, key)[1] = val
except KeyError:
new = [dict_impl.__getattribute__(self, 'lt'), val, _nil]
dict_impl.__setitem__(self, key, new)
if dict_impl.__getattribute__(self, 'lt') == _nil:
dict_impl.__setattr__(self, 'lh', key)
else:
dict_impl.__getitem__(
self, dict_impl.__getattribute__(self, 'lt'))[2] = key
dict_impl.__setattr__(self, 'lt', key)
def __delitem__(self, key):
dict_impl = self._dict_impl()
pred, _, succ = self._dict_impl().__getitem__(self, key)
if pred == _nil:
dict_impl.__setattr__(self, 'lh', succ)
else:
dict_impl.__getitem__(self, pred)[2] = succ
if succ == _nil:
dict_impl.__setattr__(self, 'lt', pred)
else:
dict_impl.__getitem__(self, succ)[0] = pred
dict_impl.__delitem__(self, key)
def __contains__(self, key):
return key in self.keys()
def __len__(self):
return len(self.keys())
def __str__(self):
pairs = ("%r: %r" % (k, v) for k, v in self.iteritems())
return "{%s}" % ", ".join(pairs)
def __repr__(self):
if self:
pairs = ("(%r, %r)" % (k, v) for k, v in self.iteritems())
return "odict([%s])" % ", ".join(pairs)
else:
return "odict()"
def get(self, k, x=None):
if k in self:
return self._dict_impl().__getitem__(self, k)[1]
else:
return x
def __iter__(self):
dict_impl = self._dict_impl()
curr_key = dict_impl.__getattribute__(self, 'lh')
while curr_key != _nil:
yield curr_key
curr_key = dict_impl.__getitem__(self, curr_key)[2]
iterkeys = __iter__
def keys(self):
return list(self.iterkeys())
def itervalues(self):
dict_impl = self._dict_impl()
curr_key = dict_impl.__getattribute__(self, 'lh')
while curr_key != _nil:
_, val, curr_key = dict_impl.__getitem__(self, curr_key)
yield val
def values(self):
return list(self.itervalues())
def iteritems(self):
dict_impl = self._dict_impl()
curr_key = dict_impl.__getattribute__(self, 'lh')
while curr_key != _nil:
_, val, next_key = dict_impl.__getitem__(self, curr_key)
yield curr_key, val
curr_key = next_key
def items(self):
return list(self.iteritems())
def sort(self, cmp=None, key=None, reverse=False):
items = [(k, v) for k, v in self.items()]
if cmp is not None:
items = sorted(items, cmp=cmp)
elif key is not None:
items = sorted(items, key=key)
else:
items = sorted(items, key=lambda x: x[1])
if reverse:
items.reverse()
self.clear()
self.__init__(items)
def clear(self):
dict_impl = self._dict_impl()
dict_impl.clear(self)
dict_impl.__setattr__(self, 'lh', _nil)
dict_impl.__setattr__(self, 'lt', _nil)
def copy(self):
return self.__class__(self)
def update(self, data=(), **kwds):
if kwds:
raise TypeError("update() of ordered dict takes no keyword "
"arguments to avoid an ordering trap.")
if hasattr(data, "iteritems"):
data = data.iteritems()
for key, val in data:
self[key] = val
def setdefault(self, k, x=None):
try:
return self[k]
except KeyError:
self[k] = x
return x
def pop(self, k, x=_nil):
try:
val = self[k]
del self[k]
return val
except KeyError:
if x == _nil:
raise
return x
def popitem(self):
try:
dict_impl = self._dict_impl()
key = dict_impl.__getattribute__(self, 'lt')
return key, self.pop(key)
except KeyError:
raise KeyError("'popitem(): ordered dictionary is empty'")
def riterkeys(self):
"""To iterate on keys in reversed order.
"""
dict_impl = self._dict_impl()
curr_key = dict_impl.__getattribute__(self, 'lt')
while curr_key != _nil:
yield curr_key
curr_key = dict_impl.__getitem__(self, curr_key)[0]
__reversed__ = riterkeys
def rkeys(self):
"""List of the keys in reversed order.
"""
return list(self.riterkeys())
def ritervalues(self):
"""To iterate on values in reversed order.
"""
dict_impl = self._dict_impl()
curr_key = dict_impl.__getattribute__(self, 'lt')
while curr_key != _nil:
curr_key, val, _ = dict_impl.__getitem__(self, curr_key)
yield val
def rvalues(self):
"""List of the values in reversed order.
"""
return list(self.ritervalues())
def riteritems(self):
"""To iterate on (key, value) in reversed order.
"""
dict_impl = self._dict_impl()
curr_key = dict_impl.__getattribute__(self, 'lt')
while curr_key != _nil:
pred_key, val, _ = dict_impl.__getitem__(self, curr_key)
yield curr_key, val
curr_key = pred_key
def ritems(self):
"""List of the (key, value) in reversed order.
"""
return list(self.riteritems())
def firstkey(self):
if self:
return self._dict_impl().__getattribute__(self, 'lh')
else:
raise KeyError("'firstkey(): ordered dictionary is empty'")
def lastkey(self):
if self:
return self._dict_impl().__getattribute__(self, 'lt')
else:
raise KeyError("'lastkey(): ordered dictionary is empty'")
def as_dict(self):
return self._dict_impl()(self.items())
def _repr(self):
"""_repr(): low level repr of the whole data contained in the odict.
Useful for debugging.
"""
dict_impl = self._dict_impl()
form = "odict low level repr lh,lt,data: %r, %r, %s"
return form % (dict_impl.__getattribute__(self, 'lh'),
dict_impl.__getattribute__(self, 'lt'),
dict_impl.__repr__(self))
class OrderedDict(_odict, dict):
def _dict_impl(self):
return dict
#==============================================================================
# OrderedSet
#==============================================================================
from sqlalchemy.util import OrderedSet
#==============================================================================
# kill FUNCTIONS
#==============================================================================
if __platform__ in PLATFORM_WIN:
import ctypes
def kill(pid, sig):
"""kill function for Win32"""
kernel32 = ctypes.windll.kernel32
handle = kernel32.OpenProcess(1, 0, pid)
return (0 != kernel32.TerminateProcess(handle, 0))
else:
kill = os.kill
#==============================================================================
# itertools.product
#==============================================================================
try:
from itertools import product
except ImportError:
def product(*args, **kwds):
# product('ABCD', 'xy') --> Ax Ay Bx By Cx Cy Dx Dy
# product(range(2), repeat=3) --> 000 001 010 011 100 101 110 111
pools = map(tuple, args) * kwds.get('repeat', 1)
result = [[]]
for pool in pools:
result = [x + [y] for x in result for y in pool]
for prod in result:
yield tuple(prod)
#==============================================================================
# BytesIO
#==============================================================================
try:
from io import BytesIO
except ImportError:
from cStringIO import StringIO as BytesIO