mapnik/scons/scons-local-4.1.0/SCons/Util.py

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# MIT License
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#
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# Copyright The SCons Foundation
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#
# 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.
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"""Various SCons utility functions."""
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import os
import sys
import copy
import re
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import pprint
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import hashlib
from collections import UserDict, UserList, UserString, OrderedDict
from collections.abc import MappingView
from types import MethodType, FunctionType
PYPY = hasattr(sys, 'pypy_translation_info')
# this string will be hashed if a Node refers to a file that doesn't exist
# in order to distinguish from a file that exists but is empty.
NOFILE = "SCONS_MAGIC_MISSING_FILE_STRING"
# unused?
def dictify(keys, values, result=None):
if result is None:
result = {}
result.update(dict(zip(keys, values)))
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return result
_altsep = os.altsep
if _altsep is None and sys.platform == 'win32':
# My ActivePython 2.0.1 doesn't set os.altsep! What gives?
_altsep = '/'
if _altsep:
def rightmost_separator(path, sep):
return max(path.rfind(sep), path.rfind(_altsep))
else:
def rightmost_separator(path, sep):
return path.rfind(sep)
# First two from the Python Cookbook, just for completeness.
# (Yeah, yeah, YAGNI...)
def containsAny(str, set):
"""Check whether sequence str contains ANY of the items in set."""
for c in set:
if c in str: return 1
return 0
def containsAll(str, set):
"""Check whether sequence str contains ALL of the items in set."""
for c in set:
if c not in str: return 0
return 1
def containsOnly(str, set):
"""Check whether sequence str contains ONLY items in set."""
for c in str:
if c not in set: return 0
return 1
def splitext(path):
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"""Same as os.path.splitext() but faster."""
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sep = rightmost_separator(path, os.sep)
dot = path.rfind('.')
# An ext is only real if it has at least one non-digit char
if dot > sep and not containsOnly(path[dot:], "0123456789."):
return path[:dot],path[dot:]
else:
return path,""
def updrive(path):
"""
Make the drive letter (if any) upper case.
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This is useful because Windows is inconsistent on the case
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of the drive letter, which can cause inconsistencies when
calculating command signatures.
"""
drive, rest = os.path.splitdrive(path)
if drive:
path = drive.upper() + rest
return path
class NodeList(UserList):
"""This class is almost exactly like a regular list of Nodes
(actually it can hold any object), with one important difference.
If you try to get an attribute from this list, it will return that
attribute from every item in the list. For example:
>>> someList = NodeList([ ' foo ', ' bar ' ])
>>> someList.strip()
[ 'foo', 'bar' ]
"""
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# def __init__(self, initlist=None):
# self.data = []
# # print("TYPE:%s"%type(initlist))
# if initlist is not None:
# # XXX should this accept an arbitrary sequence?
# if type(initlist) == type(self.data):
# self.data[:] = initlist
# elif isinstance(initlist, (UserList, NodeList)):
# self.data[:] = initlist.data[:]
# elif isinstance(initlist, Iterable):
# self.data = list(initlist)
# else:
# self.data = [ initlist,]
def __bool__(self):
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return len(self.data) != 0
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def __str__(self):
return ' '.join(map(str, self.data))
def __iter__(self):
return iter(self.data)
def __call__(self, *args, **kwargs):
result = [x(*args, **kwargs) for x in self.data]
return self.__class__(result)
def __getattr__(self, name):
result = [getattr(x, name) for x in self.data]
return self.__class__(result)
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def __getitem__(self, index):
"""
This comes for free on py2,
but py3 slices of NodeList are returning a list
breaking slicing nodelist and refering to
properties and methods on contained object
"""
# return self.__class__(self.data[index])
if isinstance(index, slice):
# Expand the slice object using range()
# limited by number of items in self.data
indices = index.indices(len(self.data))
return self.__class__([self[x] for x in
range(*indices)])
else:
# Return one item of the tart
return self.data[index]
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_get_env_var = re.compile(r'^\$([_a-zA-Z]\w*|{[_a-zA-Z]\w*})$')
def get_environment_var(varstr):
"""Given a string, first determine if it looks like a reference
to a single environment variable, like "$FOO" or "${FOO}".
If so, return that variable with no decorations ("FOO").
If not, return None."""
mo=_get_env_var.match(to_String(varstr))
if mo:
var = mo.group(1)
if var[0] == '{':
return var[1:-1]
else:
return var
else:
return None
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class DisplayEngine:
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print_it = True
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def __call__(self, text, append_newline=1):
if not self.print_it:
return
if append_newline: text = text + '\n'
try:
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sys.stdout.write(str(text))
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except IOError:
# Stdout might be connected to a pipe that has been closed
# by now. The most likely reason for the pipe being closed
# is that the user has press ctrl-c. It this is the case,
# then SCons is currently shutdown. We therefore ignore
# IOError's here so that SCons can continue and shutdown
# properly so that the .sconsign is correctly written
# before SCons exits.
pass
def set_mode(self, mode):
self.print_it = mode
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def render_tree(root, child_func, prune=0, margin=[0], visited=None):
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"""
Render a tree of nodes into an ASCII tree view.
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:Parameters:
- `root`: the root node of the tree
- `child_func`: the function called to get the children of a node
- `prune`: don't visit the same node twice
- `margin`: the format of the left margin to use for children of root. 1 results in a pipe, and 0 results in no pipe.
- `visited`: a dictionary of visited nodes in the current branch if not prune, or in the whole tree if prune.
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"""
rname = str(root)
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# Initialize 'visited' dict, if required
if visited is None:
visited = {}
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children = child_func(root)
retval = ""
for pipe in margin[:-1]:
if pipe:
retval = retval + "| "
else:
retval = retval + " "
if rname in visited:
return retval + "+-[" + rname + "]\n"
retval = retval + "+-" + rname + "\n"
if not prune:
visited = copy.copy(visited)
visited[rname] = 1
for i in range(len(children)):
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margin.append(i < len(children)-1)
retval = retval + render_tree(children[i], child_func, prune, margin, visited)
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margin.pop()
return retval
IDX = lambda N: N and 1 or 0
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# unicode line drawing chars:
BOX_HORIZ = chr(0x2500) # '─'
BOX_VERT = chr(0x2502) # '│'
BOX_UP_RIGHT = chr(0x2514) # '└'
BOX_DOWN_RIGHT = chr(0x250c) # '┌'
BOX_DOWN_LEFT = chr(0x2510) # '┐'
BOX_UP_LEFT = chr(0x2518) # '┘'
BOX_VERT_RIGHT = chr(0x251c) # '├'
BOX_HORIZ_DOWN = chr(0x252c) # '┬'
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def print_tree(root, child_func, prune=0, showtags=0, margin=[0], visited=None, lastChild=False, singleLineDraw=False):
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"""
Print a tree of nodes. This is like render_tree, except it prints
lines directly instead of creating a string representation in memory,
so that huge trees can be printed.
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:Parameters:
- `root` - the root node of the tree
- `child_func` - the function called to get the children of a node
- `prune` - don't visit the same node twice
- `showtags` - print status information to the left of each node line
- `margin` - the format of the left margin to use for children of root. 1 results in a pipe, and 0 results in no pipe.
- `visited` - a dictionary of visited nodes in the current branch if not prune, or in the whole tree if prune.
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- `singleLineDraw` - use line-drawing characters rather than ASCII.
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"""
rname = str(root)
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# Initialize 'visited' dict, if required
if visited is None:
visited = {}
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if showtags:
if showtags == 2:
legend = (' E = exists\n' +
' R = exists in repository only\n' +
' b = implicit builder\n' +
' B = explicit builder\n' +
' S = side effect\n' +
' P = precious\n' +
' A = always build\n' +
' C = current\n' +
' N = no clean\n' +
' H = no cache\n' +
'\n')
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sys.stdout.write(legend)
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tags = [
'[',
' E'[IDX(root.exists())],
' R'[IDX(root.rexists() and not root.exists())],
' BbB'[
[0, 1][IDX(root.has_explicit_builder())] +
[0, 2][IDX(root.has_builder())]
],
' S'[IDX(root.side_effect)],
' P'[IDX(root.precious)],
' A'[IDX(root.always_build)],
' C'[IDX(root.is_up_to_date())],
' N'[IDX(root.noclean)],
' H'[IDX(root.nocache)],
']'
]
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else:
tags = []
def MMM(m):
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if singleLineDraw:
return [" ", BOX_VERT + " "][m]
else:
return [" ", "| "][m]
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margins = list(map(MMM, margin[:-1]))
children = child_func(root)
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cross = "+-"
if singleLineDraw:
cross = BOX_VERT_RIGHT + BOX_HORIZ # sign used to point to the leaf.
# check if this is the last leaf of the branch
if lastChild:
#if this if the last leaf, then terminate:
cross = BOX_UP_RIGHT + BOX_HORIZ # sign for the last leaf
# if this branch has children then split it
if children:
# if it's a leaf:
if prune and rname in visited and children:
cross += BOX_HORIZ
else:
cross += BOX_HORIZ_DOWN
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if prune and rname in visited and children:
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sys.stdout.write(''.join(tags + margins + [cross,'[', rname, ']']) + '\n')
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return
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sys.stdout.write(''.join(tags + margins + [cross, rname]) + '\n')
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visited[rname] = 1
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# if this item has children:
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if children:
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margin.append(1) # Initialize margin with 1 for vertical bar.
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idx = IDX(showtags)
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_child = 0 # Initialize this for the first child.
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for C in children[:-1]:
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_child = _child + 1 # number the children
print_tree(C, child_func, prune, idx, margin, visited, (len(children) - _child) <= 0 ,singleLineDraw)
margin[-1] = 0 # margins are with space (index 0) because we arrived to the last child.
print_tree(children[-1], child_func, prune, idx, margin, visited, True ,singleLineDraw) # for this call child and nr of children needs to be set 0, to signal the second phase.
margin.pop() # destroy the last margin added
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# Functions for deciding if things are like various types, mainly to
# handle UserDict, UserList and UserString like their underlying types.
#
# Yes, all of this manual testing breaks polymorphism, and the real
# Pythonic way to do all of this would be to just try it and handle the
# exception, but handling the exception when it's not the right type is
# often too slow.
# We are using the following trick to speed up these
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# functions. Default arguments are used to take a snapshot of
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# the global functions and constants used by these functions. This
# transforms accesses to global variable into local variables
# accesses (i.e. LOAD_FAST instead of LOAD_GLOBAL).
DictTypes = (dict, UserDict)
ListTypes = (list, UserList)
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# Handle getting dictionary views.
SequenceTypes = (list, tuple, UserList, MappingView)
# TODO: PY3 check this benchmarking is still correct.
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# Note that profiling data shows a speed-up when comparing
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# explicitly with str instead of simply comparing
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# with basestring. (at least on Python 2.5.1)
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StringTypes = (str, UserString)
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# Empirically, it is faster to check explicitly for str than for basestring.
BaseStringTypes = str
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def is_Dict(obj, isinstance=isinstance, DictTypes=DictTypes):
return isinstance(obj, DictTypes)
def is_List(obj, isinstance=isinstance, ListTypes=ListTypes):
return isinstance(obj, ListTypes)
def is_Sequence(obj, isinstance=isinstance, SequenceTypes=SequenceTypes):
return isinstance(obj, SequenceTypes)
def is_Tuple(obj, isinstance=isinstance, tuple=tuple):
return isinstance(obj, tuple)
def is_String(obj, isinstance=isinstance, StringTypes=StringTypes):
return isinstance(obj, StringTypes)
def is_Scalar(obj, isinstance=isinstance, StringTypes=StringTypes, SequenceTypes=SequenceTypes):
# Profiling shows that there is an impressive speed-up of 2x
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# when explicitly checking for strings instead of just not
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# sequence when the argument (i.e. obj) is already a string.
# But, if obj is a not string then it is twice as fast to
# check only for 'not sequence'. The following code therefore
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# assumes that the obj argument is a string most of the time.
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return isinstance(obj, StringTypes) or not isinstance(obj, SequenceTypes)
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def do_flatten(sequence, result, isinstance=isinstance,
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StringTypes=StringTypes, SequenceTypes=SequenceTypes):
for item in sequence:
if isinstance(item, StringTypes) or not isinstance(item, SequenceTypes):
result.append(item)
else:
do_flatten(item, result)
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def flatten(obj, isinstance=isinstance, StringTypes=StringTypes,
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SequenceTypes=SequenceTypes, do_flatten=do_flatten):
"""Flatten a sequence to a non-nested list.
Flatten() converts either a single scalar or a nested sequence
to a non-nested list. Note that flatten() considers strings
to be scalars instead of sequences like Python would.
"""
if isinstance(obj, StringTypes) or not isinstance(obj, SequenceTypes):
return [obj]
result = []
for item in obj:
if isinstance(item, StringTypes) or not isinstance(item, SequenceTypes):
result.append(item)
else:
do_flatten(item, result)
return result
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def flatten_sequence(sequence, isinstance=isinstance, StringTypes=StringTypes,
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SequenceTypes=SequenceTypes, do_flatten=do_flatten):
"""Flatten a sequence to a non-nested list.
Same as flatten(), but it does not handle the single scalar
case. This is slightly more efficient when one knows that
the sequence to flatten can not be a scalar.
"""
result = []
for item in sequence:
if isinstance(item, StringTypes) or not isinstance(item, SequenceTypes):
result.append(item)
else:
do_flatten(item, result)
return result
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# Generic convert-to-string functions. The wrapper
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# to_String_for_signature() will use a for_signature() method if the
# specified object has one.
#
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def to_String(s,
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isinstance=isinstance, str=str,
UserString=UserString, BaseStringTypes=BaseStringTypes):
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if isinstance(s, BaseStringTypes):
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# Early out when already a string!
return s
elif isinstance(s, UserString):
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# s.data can only be a regular string. Please see the UserString initializer.
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return s.data
else:
return str(s)
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def to_String_for_subst(s,
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isinstance=isinstance, str=str, to_String=to_String,
BaseStringTypes=BaseStringTypes, SequenceTypes=SequenceTypes,
UserString=UserString):
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# Note that the test cases are sorted by order of probability.
if isinstance(s, BaseStringTypes):
return s
elif isinstance(s, SequenceTypes):
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return ' '.join([to_String_for_subst(e) for e in s])
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elif isinstance(s, UserString):
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# s.data can only a regular string. Please see the UserString initializer.
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return s.data
else:
return str(s)
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def to_String_for_signature(obj, to_String_for_subst=to_String_for_subst,
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AttributeError=AttributeError):
try:
f = obj.for_signature
except AttributeError:
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if isinstance(obj, dict):
# pprint will output dictionary in key sorted order
# with py3.5 the order was randomized. In general depending on dictionary order
# which was undefined until py3.6 (where it's by insertion order) was not wise.
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# TODO: Change code when floor is raised to PY36
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return pprint.pformat(obj, width=1000000)
else:
return to_String_for_subst(obj)
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else:
return f()
# The SCons "semi-deep" copy.
#
# This makes separate copies of lists (including UserList objects)
# dictionaries (including UserDict objects) and tuples, but just copies
# references to anything else it finds.
#
# A special case is any object that has a __semi_deepcopy__() method,
# which we invoke to create the copy. Currently only used by
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# BuilderDict to actually prevent the copy operation (as invalid on that object).
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#
# The dispatch table approach used here is a direct rip-off from the
# normal Python copy module.
_semi_deepcopy_dispatch = d = {}
def semi_deepcopy_dict(x, exclude = [] ):
copy = {}
for key, val in x.items():
# The regular Python copy.deepcopy() also deepcopies the key,
# as follows:
#
# copy[semi_deepcopy(key)] = semi_deepcopy(val)
#
# Doesn't seem like we need to, but we'll comment it just in case.
if key not in exclude:
copy[key] = semi_deepcopy(val)
return copy
d[dict] = semi_deepcopy_dict
def _semi_deepcopy_list(x):
return list(map(semi_deepcopy, x))
d[list] = _semi_deepcopy_list
def _semi_deepcopy_tuple(x):
return tuple(map(semi_deepcopy, x))
d[tuple] = _semi_deepcopy_tuple
def semi_deepcopy(x):
copier = _semi_deepcopy_dispatch.get(type(x))
if copier:
return copier(x)
else:
if hasattr(x, '__semi_deepcopy__') and callable(x.__semi_deepcopy__):
return x.__semi_deepcopy__()
elif isinstance(x, UserDict):
return x.__class__(semi_deepcopy_dict(x))
elif isinstance(x, UserList):
return x.__class__(_semi_deepcopy_list(x))
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return x
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class Proxy:
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"""A simple generic Proxy class, forwarding all calls to
subject. So, for the benefit of the python newbie, what does
this really mean? Well, it means that you can take an object, let's
call it 'objA', and wrap it in this Proxy class, with a statement
like this
proxyObj = Proxy(objA),
Then, if in the future, you do something like this
x = proxyObj.var1,
since Proxy does not have a 'var1' attribute (but presumably objA does),
the request actually is equivalent to saying
x = objA.var1
Inherit from this class to create a Proxy.
Note that, with new-style classes, this does *not* work transparently
for Proxy subclasses that use special .__*__() method names, because
those names are now bound to the class, not the individual instances.
You now need to know in advance which .__*__() method names you want
to pass on to the underlying Proxy object, and specifically delegate
their calls like this:
class Foo(Proxy):
__str__ = Delegate('__str__')
"""
def __init__(self, subject):
"""Wrap an object as a Proxy object"""
self._subject = subject
def __getattr__(self, name):
"""Retrieve an attribute from the wrapped object. If the named
attribute doesn't exist, AttributeError is raised"""
return getattr(self._subject, name)
def get(self):
"""Retrieve the entire wrapped object"""
return self._subject
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def __eq__(self, other):
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if issubclass(other.__class__, self._subject.__class__):
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return self._subject == other
return self.__dict__ == other.__dict__
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class Delegate:
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"""A Python Descriptor class that delegates attribute fetches
to an underlying wrapped subject of a Proxy. Typical use:
class Foo(Proxy):
__str__ = Delegate('__str__')
"""
def __init__(self, attribute):
self.attribute = attribute
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def __get__(self, obj, cls):
if isinstance(obj, cls):
return getattr(obj._subject, self.attribute)
else:
return self
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class MethodWrapper:
"""A generic Wrapper class that associates a method with an object.
As part of creating this MethodWrapper object an attribute with the
specified name (by default, the name of the supplied method) is added
to the underlying object. When that new "method" is called, our
__call__() method adds the object as the first argument, simulating
the Python behavior of supplying "self" on method calls.
We hang on to the name by which the method was added to the underlying
base class so that we can provide a method to "clone" ourselves onto
a new underlying object being copied (without which we wouldn't need
to save that info).
"""
def __init__(self, object, method, name=None):
if name is None:
name = method.__name__
self.object = object
self.method = method
self.name = name
setattr(self.object, name, self)
def __call__(self, *args, **kwargs):
nargs = (self.object,) + args
return self.method(*nargs, **kwargs)
def clone(self, new_object):
"""
Returns an object that re-binds the underlying "method" to
the specified new object.
"""
return self.__class__(new_object, self.method, self.name)
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# attempt to load the windows registry module:
can_read_reg = 0
try:
import winreg
can_read_reg = 1
hkey_mod = winreg
RegOpenKeyEx = winreg.OpenKeyEx
RegEnumKey = winreg.EnumKey
RegEnumValue = winreg.EnumValue
RegQueryValueEx = winreg.QueryValueEx
RegError = winreg.error
except ImportError:
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class _NoError(Exception):
pass
RegError = _NoError
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# Make sure we have a definition of WindowsError so we can
# run platform-independent tests of Windows functionality on
# platforms other than Windows. (WindowsError is, in fact, an
# OSError subclass on Windows.)
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class PlainWindowsError(OSError):
pass
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try:
WinError = WindowsError
except NameError:
WinError = PlainWindowsError
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if can_read_reg:
HKEY_CLASSES_ROOT = hkey_mod.HKEY_CLASSES_ROOT
HKEY_LOCAL_MACHINE = hkey_mod.HKEY_LOCAL_MACHINE
HKEY_CURRENT_USER = hkey_mod.HKEY_CURRENT_USER
HKEY_USERS = hkey_mod.HKEY_USERS
def RegGetValue(root, key):
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r"""This utility function returns a value in the registry
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without having to open the key first. Only available on
Windows platforms with a version of Python that can read the
registry. Returns the same thing as
SCons.Util.RegQueryValueEx, except you just specify the entire
path to the value, and don't have to bother opening the key
first. So:
Instead of:
k = SCons.Util.RegOpenKeyEx(SCons.Util.HKEY_LOCAL_MACHINE,
r'SOFTWARE\Microsoft\Windows\CurrentVersion')
out = SCons.Util.RegQueryValueEx(k,
'ProgramFilesDir')
You can write:
out = SCons.Util.RegGetValue(SCons.Util.HKEY_LOCAL_MACHINE,
r'SOFTWARE\Microsoft\Windows\CurrentVersion\ProgramFilesDir')
"""
# I would use os.path.split here, but it's not a filesystem
# path...
p = key.rfind('\\') + 1
keyp = key[:p-1] # -1 to omit trailing slash
val = key[p:]
k = RegOpenKeyEx(root, keyp)
return RegQueryValueEx(k,val)
else:
HKEY_CLASSES_ROOT = None
HKEY_LOCAL_MACHINE = None
HKEY_CURRENT_USER = None
HKEY_USERS = None
def RegGetValue(root, key):
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raise WinError
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def RegOpenKeyEx(root, key):
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raise WinError
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if sys.platform == 'win32':
def WhereIs(file, path=None, pathext=None, reject=[]):
if path is None:
try:
path = os.environ['PATH']
except KeyError:
return None
if is_String(path):
path = path.split(os.pathsep)
if pathext is None:
try:
pathext = os.environ['PATHEXT']
except KeyError:
pathext = '.COM;.EXE;.BAT;.CMD'
if is_String(pathext):
pathext = pathext.split(os.pathsep)
for ext in pathext:
if ext.lower() == file[-len(ext):].lower():
pathext = ['']
break
if not is_List(reject) and not is_Tuple(reject):
reject = [reject]
for dir in path:
f = os.path.join(dir, file)
for ext in pathext:
fext = f + ext
if os.path.isfile(fext):
try:
reject.index(fext)
except ValueError:
return os.path.normpath(fext)
continue
return None
elif os.name == 'os2':
def WhereIs(file, path=None, pathext=None, reject=[]):
if path is None:
try:
path = os.environ['PATH']
except KeyError:
return None
if is_String(path):
path = path.split(os.pathsep)
if pathext is None:
pathext = ['.exe', '.cmd']
for ext in pathext:
if ext.lower() == file[-len(ext):].lower():
pathext = ['']
break
if not is_List(reject) and not is_Tuple(reject):
reject = [reject]
for dir in path:
f = os.path.join(dir, file)
for ext in pathext:
fext = f + ext
if os.path.isfile(fext):
try:
reject.index(fext)
except ValueError:
return os.path.normpath(fext)
continue
return None
else:
def WhereIs(file, path=None, pathext=None, reject=[]):
import stat
if path is None:
try:
path = os.environ['PATH']
except KeyError:
return None
if is_String(path):
path = path.split(os.pathsep)
if not is_List(reject) and not is_Tuple(reject):
reject = [reject]
for d in path:
f = os.path.join(d, file)
if os.path.isfile(f):
try:
st = os.stat(f)
except OSError:
# os.stat() raises OSError, not IOError if the file
# doesn't exist, so in this case we let IOError get
# raised so as to not mask possibly serious disk or
# network issues.
continue
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if stat.S_IMODE(st[stat.ST_MODE]) & 0o111:
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try:
reject.index(f)
except ValueError:
return os.path.normpath(f)
continue
return None
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def PrependPath(oldpath, newpath, sep = os.pathsep,
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delete_existing=1, canonicalize=None):
"""This prepends newpath elements to the given oldpath. Will only
add any particular path once (leaving the first one it encounters
and ignoring the rest, to preserve path order), and will
os.path.normpath and os.path.normcase all paths to help assure
this. This can also handle the case where the given old path
variable is a list instead of a string, in which case a list will
be returned instead of a string.
Example:
Old Path: "/foo/bar:/foo"
New Path: "/biz/boom:/foo"
Result: "/biz/boom:/foo:/foo/bar"
If delete_existing is 0, then adding a path that exists will
not move it to the beginning; it will stay where it is in the
list.
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If canonicalize is not None, it is applied to each element of
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newpath before use.
"""
orig = oldpath
is_list = 1
paths = orig
if not is_List(orig) and not is_Tuple(orig):
paths = paths.split(sep)
is_list = 0
if is_String(newpath):
newpaths = newpath.split(sep)
elif not is_List(newpath) and not is_Tuple(newpath):
newpaths = [ newpath ] # might be a Dir
else:
newpaths = newpath
if canonicalize:
newpaths=list(map(canonicalize, newpaths))
if not delete_existing:
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# First uniquify the old paths, making sure to
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# preserve the first instance (in Unix/Linux,
# the first one wins), and remembering them in normpaths.
# Then insert the new paths at the head of the list
# if they're not already in the normpaths list.
result = []
normpaths = []
for path in paths:
if not path:
continue
normpath = os.path.normpath(os.path.normcase(path))
if normpath not in normpaths:
result.append(path)
normpaths.append(normpath)
newpaths.reverse() # since we're inserting at the head
for path in newpaths:
if not path:
continue
normpath = os.path.normpath(os.path.normcase(path))
if normpath not in normpaths:
result.insert(0, path)
normpaths.append(normpath)
paths = result
else:
newpaths = newpaths + paths # prepend new paths
normpaths = []
paths = []
# now we add them only if they are unique
for path in newpaths:
normpath = os.path.normpath(os.path.normcase(path))
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if path and normpath not in normpaths:
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paths.append(path)
normpaths.append(normpath)
if is_list:
return paths
else:
return sep.join(paths)
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def AppendPath(oldpath, newpath, sep = os.pathsep,
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delete_existing=1, canonicalize=None):
"""This appends new path elements to the given old path. Will
only add any particular path once (leaving the last one it
encounters and ignoring the rest, to preserve path order), and
will os.path.normpath and os.path.normcase all paths to help
assure this. This can also handle the case where the given old
path variable is a list instead of a string, in which case a list
will be returned instead of a string.
Example:
Old Path: "/foo/bar:/foo"
New Path: "/biz/boom:/foo"
Result: "/foo/bar:/biz/boom:/foo"
If delete_existing is 0, then adding a path that exists
will not move it to the end; it will stay where it is in the list.
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If canonicalize is not None, it is applied to each element of
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newpath before use.
"""
orig = oldpath
is_list = 1
paths = orig
if not is_List(orig) and not is_Tuple(orig):
paths = paths.split(sep)
is_list = 0
if is_String(newpath):
newpaths = newpath.split(sep)
elif not is_List(newpath) and not is_Tuple(newpath):
newpaths = [ newpath ] # might be a Dir
else:
newpaths = newpath
if canonicalize:
newpaths=list(map(canonicalize, newpaths))
if not delete_existing:
# add old paths to result, then
# add new paths if not already present
# (I thought about using a dict for normpaths for speed,
# but it's not clear hashing the strings would be faster
# than linear searching these typically short lists.)
result = []
normpaths = []
for path in paths:
if not path:
continue
result.append(path)
normpaths.append(os.path.normpath(os.path.normcase(path)))
for path in newpaths:
if not path:
continue
normpath = os.path.normpath(os.path.normcase(path))
if normpath not in normpaths:
result.append(path)
normpaths.append(normpath)
paths = result
else:
# start w/ new paths, add old ones if not present,
# then reverse.
newpaths = paths + newpaths # append new paths
newpaths.reverse()
normpaths = []
paths = []
# now we add them only if they are unique
for path in newpaths:
normpath = os.path.normpath(os.path.normcase(path))
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if path and normpath not in normpaths:
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paths.append(path)
normpaths.append(normpath)
paths.reverse()
if is_list:
return paths
else:
return sep.join(paths)
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def AddPathIfNotExists(env_dict, key, path, sep=os.pathsep):
"""This function will take 'key' out of the dictionary
'env_dict', then add the path 'path' to that key if it is not
already there. This treats the value of env_dict[key] as if it
has a similar format to the PATH variable...a list of paths
separated by tokens. The 'path' will get added to the list if it
is not already there."""
try:
is_list = 1
paths = env_dict[key]
if not is_List(env_dict[key]):
paths = paths.split(sep)
is_list = 0
if os.path.normcase(path) not in list(map(os.path.normcase, paths)):
paths = [ path ] + paths
if is_list:
env_dict[key] = paths
else:
env_dict[key] = sep.join(paths)
except KeyError:
env_dict[key] = path
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if sys.platform == 'cygwin':
def get_native_path(path):
"""Transforms an absolute path into a native path for the system. In
Cygwin, this converts from a Cygwin path to a Windows one."""
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with os.popen('cygpath -w ' + path) as p:
npath = p.read().replace('\n', '')
return npath
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else:
def get_native_path(path):
"""Transforms an absolute path into a native path for the system.
Non-Cygwin version, just leave the path alone."""
return path
display = DisplayEngine()
def Split(arg):
if is_List(arg) or is_Tuple(arg):
return arg
elif is_String(arg):
return arg.split()
else:
return [arg]
class CLVar(UserList):
"""A class for command-line construction variables.
This is a list that uses Split() to split an initial string along
white-space arguments, and similarly to split any strings that get
added. This allows us to Do the Right Thing with Append() and
Prepend() (as well as straight Python foo = env['VAR'] + 'arg1
arg2') regardless of whether a user adds a list or a string to a
command-line construction variable.
"""
def __init__(self, seq = []):
UserList.__init__(self, Split(seq))
def __add__(self, other):
return UserList.__add__(self, CLVar(other))
def __radd__(self, other):
return UserList.__radd__(self, CLVar(other))
def __str__(self):
return ' '.join(self.data)
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class Selector(OrderedDict):
"""A callable ordered dictionary that maps file suffixes to
dictionary values. We preserve the order in which items are added
so that get_suffix() calls always return the first suffix added."""
def __call__(self, env, source, ext=None):
if ext is None:
try:
ext = source[0].get_suffix()
except IndexError:
ext = ""
try:
return self[ext]
except KeyError:
# Try to perform Environment substitution on the keys of
# the dictionary before giving up.
s_dict = {}
for (k,v) in self.items():
if k is not None:
s_k = env.subst(k)
if s_k in s_dict:
# We only raise an error when variables point
# to the same suffix. If one suffix is literal
# and a variable suffix contains this literal,
# the literal wins and we don't raise an error.
raise KeyError(s_dict[s_k][0], k, s_k)
s_dict[s_k] = (k,v)
try:
return s_dict[ext][1]
except KeyError:
try:
return self[None]
except KeyError:
return None
if sys.platform == 'cygwin':
# On Cygwin, os.path.normcase() lies, so just report back the
# fact that the underlying Windows OS is case-insensitive.
def case_sensitive_suffixes(s1, s2):
return 0
else:
def case_sensitive_suffixes(s1, s2):
return (os.path.normcase(s1) != os.path.normcase(s2))
def adjustixes(fname, pre, suf, ensure_suffix=False):
if pre:
path, fn = os.path.split(os.path.normpath(fname))
if fn[:len(pre)] != pre:
fname = os.path.join(path, pre + fn)
# Only append a suffix if the suffix we're going to add isn't already
# there, and if either we've been asked to ensure the specific suffix
# is present or there's no suffix on it at all.
if suf and fname[-len(suf):] != suf and \
(ensure_suffix or not splitext(fname)[1]):
fname = fname + suf
return fname
# From Tim Peters,
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# https://code.activestate.com/recipes/52560
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# ASPN: Python Cookbook: Remove duplicates from a sequence
# (Also in the printed Python Cookbook.)
def unique(s):
"""Return a list of the elements in s, but without duplicates.
For example, unique([1,2,3,1,2,3]) is some permutation of [1,2,3],
unique("abcabc") some permutation of ["a", "b", "c"], and
unique(([1, 2], [2, 3], [1, 2])) some permutation of
[[2, 3], [1, 2]].
For best speed, all sequence elements should be hashable. Then
unique() will usually work in linear time.
If not possible, the sequence elements should enjoy a total
ordering, and if list(s).sort() doesn't raise TypeError it's
assumed that they do enjoy a total ordering. Then unique() will
usually work in O(N*log2(N)) time.
If that's not possible either, the sequence elements must support
equality-testing. Then unique() will usually work in quadratic
time.
"""
n = len(s)
if n == 0:
return []
# Try using a dict first, as that's the fastest and will usually
# work. If it doesn't work, it will usually fail quickly, so it
# usually doesn't cost much to *try* it. It requires that all the
# sequence elements be hashable, and support equality comparison.
u = {}
try:
for x in s:
u[x] = 1
except TypeError:
pass # move on to the next method
else:
return list(u.keys())
del u
# We can't hash all the elements. Second fastest is to sort,
# which brings the equal elements together; then duplicates are
# easy to weed out in a single pass.
# NOTE: Python's list.sort() was designed to be efficient in the
# presence of many duplicate elements. This isn't true of all
# sort functions in all languages or libraries, so this approach
# is more effective in Python than it may be elsewhere.
try:
t = sorted(s)
except TypeError:
pass # move on to the next method
else:
assert n > 0
last = t[0]
lasti = i = 1
while i < n:
if t[i] != last:
t[lasti] = last = t[i]
lasti = lasti + 1
i = i + 1
return t[:lasti]
del t
# Brute force is all that's left.
u = []
for x in s:
if x not in u:
u.append(x)
return u
# From Alex Martelli,
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# https://code.activestate.com/recipes/52560
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# ASPN: Python Cookbook: Remove duplicates from a sequence
# First comment, dated 2001/10/13.
# (Also in the printed Python Cookbook.)
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# This not currently used, in favor of the next function...
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def uniquer(seq, idfun=None):
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def default_idfun(x):
return x
if not idfun:
idfun = default_idfun
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seen = {}
result = []
for item in seq:
marker = idfun(item)
# in old Python versions:
# if seen.has_key(marker)
# but in new ones:
if marker in seen: continue
seen[marker] = 1
result.append(item)
return result
# A more efficient implementation of Alex's uniquer(), this avoids the
# idfun() argument and function-call overhead by assuming that all
# items in the sequence are hashable.
def uniquer_hashables(seq):
seen = {}
result = []
for item in seq:
#if not item in seen:
if item not in seen:
seen[item] = 1
result.append(item)
return result
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# Recipe 19.11 "Reading Lines with Continuation Characters",
# by Alex Martelli, straight from the Python CookBook (2nd edition).
def logical_lines(physical_lines, joiner=''.join):
logical_line = []
for line in physical_lines:
stripped = line.rstrip()
if stripped.endswith('\\'):
# a line which continues w/the next physical line
logical_line.append(stripped[:-1])
else:
# a line which does not continue, end of logical line
logical_line.append(line)
yield joiner(logical_line)
logical_line = []
if logical_line:
# end of sequence implies end of last logical line
yield joiner(logical_line)
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class LogicalLines:
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""" Wrapper class for the logical_lines method.
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Allows us to read all "logical" lines at once from a
given file object.
"""
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def __init__(self, fileobj):
self.fileobj = fileobj
def readlines(self):
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result = [l for l in logical_lines(self.fileobj)]
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return result
class UniqueList(UserList):
def __init__(self, seq = []):
UserList.__init__(self, seq)
self.unique = True
def __make_unique(self):
if not self.unique:
self.data = uniquer_hashables(self.data)
self.unique = True
def __lt__(self, other):
self.__make_unique()
return UserList.__lt__(self, other)
def __le__(self, other):
self.__make_unique()
return UserList.__le__(self, other)
def __eq__(self, other):
self.__make_unique()
return UserList.__eq__(self, other)
def __ne__(self, other):
self.__make_unique()
return UserList.__ne__(self, other)
def __gt__(self, other):
self.__make_unique()
return UserList.__gt__(self, other)
def __ge__(self, other):
self.__make_unique()
return UserList.__ge__(self, other)
def __cmp__(self, other):
self.__make_unique()
return UserList.__cmp__(self, other)
def __len__(self):
self.__make_unique()
return UserList.__len__(self)
def __getitem__(self, i):
self.__make_unique()
return UserList.__getitem__(self, i)
def __setitem__(self, i, item):
UserList.__setitem__(self, i, item)
self.unique = False
def __getslice__(self, i, j):
self.__make_unique()
return UserList.__getslice__(self, i, j)
def __setslice__(self, i, j, other):
UserList.__setslice__(self, i, j, other)
self.unique = False
def __add__(self, other):
result = UserList.__add__(self, other)
result.unique = False
return result
def __radd__(self, other):
result = UserList.__radd__(self, other)
result.unique = False
return result
def __iadd__(self, other):
result = UserList.__iadd__(self, other)
result.unique = False
return result
def __mul__(self, other):
result = UserList.__mul__(self, other)
result.unique = False
return result
def __rmul__(self, other):
result = UserList.__rmul__(self, other)
result.unique = False
return result
def __imul__(self, other):
result = UserList.__imul__(self, other)
result.unique = False
return result
def append(self, item):
UserList.append(self, item)
self.unique = False
def insert(self, i):
UserList.insert(self, i)
self.unique = False
def count(self, item):
self.__make_unique()
return UserList.count(self, item)
def index(self, item):
self.__make_unique()
return UserList.index(self, item)
def reverse(self):
self.__make_unique()
UserList.reverse(self)
def sort(self, *args, **kwds):
self.__make_unique()
return UserList.sort(self, *args, **kwds)
def extend(self, other):
UserList.extend(self, other)
self.unique = False
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class Unbuffered:
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"""
A proxy class that wraps a file object, flushing after every write,
and delegating everything else to the wrapped object.
"""
def __init__(self, file):
self.file = file
self.softspace = 0 ## backward compatibility; not supported in Py3k
def write(self, arg):
try:
self.file.write(arg)
self.file.flush()
except IOError:
# Stdout might be connected to a pipe that has been closed
# by now. The most likely reason for the pipe being closed
# is that the user has press ctrl-c. It this is the case,
# then SCons is currently shutdown. We therefore ignore
# IOError's here so that SCons can continue and shutdown
# properly so that the .sconsign is correctly written
# before SCons exits.
pass
def __getattr__(self, attr):
return getattr(self.file, attr)
def make_path_relative(path):
""" makes an absolute path name to a relative pathname.
"""
if os.path.isabs(path):
drive_s,path = os.path.splitdrive(path)
import re
if not drive_s:
path=re.compile("/*(.*)").findall(path)[0]
else:
path=path[1:]
assert( not os.path.isabs( path ) ), path
return path
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# The original idea for AddMethod() came from the
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# following post to the ActiveState Python Cookbook:
#
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# ASPN: Python Cookbook : Install bound methods in an instance
# https://code.activestate.com/recipes/223613
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#
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# Changed as follows:
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# * Switched the installmethod() "object" and "function" arguments,
# so the order reflects that the left-hand side is the thing being
# "assigned to" and the right-hand side is the value being assigned.
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# * The instance/class detection is changed a bit, as it's all
# new-style classes now with Py3.
# * The by-hand construction of the function object from renamefunction()
# is not needed, the remaining bit is now used inline in AddMethod.
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def AddMethod(obj, function, name=None):
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"""Adds a method to an object.
Adds `function` to `obj` if `obj` is a class object.
Adds `function` as a bound method if `obj` is an instance object.
If `obj` looks like an environment instance, use `MethodWrapper`
to add it. If `name` is supplied it is used as the name of `function`.
Although this works for any class object, the intent as a public
API is to be used on Environment, to be able to add a method to all
construction environments; it is preferred to use env.AddMethod
to add to an individual environment.
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Example::
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class A:
...
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a = A()
def f(self, x, y):
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self.z = x + y
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AddMethod(f, A, "add")
a.add(2, 4)
print(a.z)
AddMethod(lambda self, i: self.l[i], a, "listIndex")
print(a.listIndex(5))
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"""
if name is None:
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name = function.__name__
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else:
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# "rename"
function = FunctionType(
function.__code__, function.__globals__, name, function.__defaults__
)
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if hasattr(obj, '__class__') and obj.__class__ is not type:
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# obj is an instance, so it gets a bound method.
if hasattr(obj, "added_methods"):
method = MethodWrapper(obj, function, name)
obj.added_methods.append(method)
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else:
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method = MethodType(function, obj)
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else:
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# obj is a class
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method = function
setattr(obj, name, method)
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if hasattr(hashlib, 'md5'):
md5 = True
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def MD5signature(s):
"""
Generate md5 signature of a string
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:param s: either string or bytes. Normally should be bytes
:return: String of hex digits representing the signature
"""
m = hashlib.md5()
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try:
m.update(to_bytes(s))
except TypeError as e:
m.update(to_bytes(str(s)))
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return m.hexdigest()
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def MD5filesignature(fname, chunksize=65536):
"""
Generate the md5 signature of a file
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:param fname: file to hash
:param chunksize: chunk size to read
:return: String of Hex digits representing the signature
"""
m = hashlib.md5()
with open(fname, "rb") as f:
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while True:
blck = f.read(chunksize)
if not blck:
break
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m.update(to_bytes(blck))
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return m.hexdigest()
else:
# if md5 algorithm not available, just return data unmodified
# could add alternative signature scheme here
md5 = False
def MD5signature(s):
return str(s)
def MD5filesignature(fname, chunksize=65536):
with open(fname, "rb") as f:
result = f.read()
return result
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def MD5collect(signatures):
"""
Collects a list of signatures into an aggregate signature.
signatures - a list of signatures
returns - the aggregate signature
"""
if len(signatures) == 1:
return signatures[0]
else:
return MD5signature(', '.join(signatures))
def silent_intern(x):
"""
Perform sys.intern() on the passed argument and return the result.
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If the input is ineligible the original argument is
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returned and no exception is thrown.
"""
try:
return sys.intern(x)
except TypeError:
return x
# From Dinu C. Gherman,
# Python Cookbook, second edition, recipe 6.17, p. 277.
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# Also: https://code.activestate.com/recipes/68205
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# ASPN: Python Cookbook: Null Object Design Pattern
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class Null:
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""" Null objects always and reliably "do nothing." """
def __new__(cls, *args, **kwargs):
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if '_instance' not in vars(cls):
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cls._instance = super(Null, cls).__new__(cls, *args, **kwargs)
return cls._instance
def __init__(self, *args, **kwargs):
pass
def __call__(self, *args, **kwargs):
return self
def __repr__(self):
return "Null(0x%08X)" % id(self)
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def __bool__(self):
return False
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def __getattr__(self, name):
return self
def __setattr__(self, name, value):
return self
def __delattr__(self, name):
return self
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class NullSeq(Null):
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""" A Null object that can also be iterated over. """
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def __len__(self):
return 0
def __iter__(self):
return iter(())
def __getitem__(self, i):
return self
def __delitem__(self, i):
return self
def __setitem__(self, i, v):
return self
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def to_bytes(s):
if s is None:
return b'None'
if isinstance(s, (bytes, bytearray)):
# if already bytes return.
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return s
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return bytes(s, 'utf-8')
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def to_str(s):
if s is None:
return 'None'
if is_String(s):
return s
return str(s, 'utf-8')
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def cmp(a, b):
"""
Define cmp because it's no longer available in python3
Works under python 2 as well
"""
return (a > b) - (a < b)
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def get_env_bool(env, name, default=False):
"""Convert a construction variable to bool.
If the value of *name* in *env* is 'true', 'yes', 'y', 'on' (case
insensitive) or anything convertible to int that yields non-zero then
return True; if 'false', 'no', 'n', 'off' (case insensitive)
or a number that converts to integer zero return False.
Otherwise, return *default*.
Args:
env: construction environment, or any dict-like object
name: name of the variable
default: value to return if *name* not in *env* or cannot
be converted (default: False)
Returns:
bool: the "truthiness" of *name*
"""
try:
var = env[name]
except KeyError:
return default
try:
return bool(int(var))
except ValueError:
if str(var).lower() in ('true', 'yes', 'y', 'on'):
return True
elif str(var).lower() in ('false', 'no', 'n', 'off'):
return False
else:
return default
def get_os_env_bool(name, default=False):
"""Convert an environment variable to bool.
Conversion is the same as for :func:`get_env_bool`.
"""
return get_env_bool(os.environ, name, default)
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# Local Variables:
# tab-width:4
# indent-tabs-mode:nil
# End:
# vim: set expandtab tabstop=4 shiftwidth=4: