mapnik/scons/scons-local-4.8.1/SCons/Util/envs.py

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# SPDX-License-Identifier: MIT
#
# Copyright The SCons Foundation
"""
SCons environment utility functions.
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Routines for working with environments and construction variables
that don't need the specifics of the Environment class.
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"""
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import re
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import os
from types import MethodType, FunctionType
from typing import Union, Callable, Optional, Any
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from .sctypes import is_List, is_Tuple, is_String
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def PrependPath(
oldpath,
newpath,
sep=os.pathsep,
delete_existing: bool = True,
canonicalize: Optional[Callable] = None,
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) -> Union[list, str]:
"""Prepend *newpath* path elements to *oldpath*.
Will only add any particular path once (leaving the first one it
encounters and ignoring the rest, to preserve path order), and will
:mod:`os.path.normpath` and :mod:`os.path.normcase` all paths to help
assure this. This can also handle the case where *oldpath*
is a list instead of a string, in which case a list will be returned
instead of a string. For example:
>>> p = PrependPath("/foo/bar:/foo", "/biz/boom:/foo")
>>> print(p)
/biz/boom:/foo:/foo/bar
If *delete_existing* is ``False``, then adding a path that exists will
not move it to the beginning; it will stay where it is in the list.
>>> p = PrependPath("/foo/bar:/foo", "/biz/boom:/foo", delete_existing=False)
>>> print(p)
/biz/boom:/foo/bar:/foo
If *canonicalize* is not ``None``, it is applied to each element of
*newpath* before use.
"""
orig = oldpath
is_list = True
paths = orig
if not is_List(orig) and not is_Tuple(orig):
paths = paths.split(sep)
is_list = False
if is_String(newpath):
newpaths = newpath.split(sep)
elif is_List(newpath) or is_Tuple(newpath):
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newpaths = newpath
else:
newpaths = [newpath] # might be a Dir
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if canonicalize:
newpaths = list(map(canonicalize, newpaths))
if not delete_existing:
# First uniquify the old paths, making sure to
# 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))
if path and normpath not in normpaths:
paths.append(path)
normpaths.append(normpath)
if is_list:
return paths
return sep.join(paths)
def AppendPath(
oldpath,
newpath,
sep=os.pathsep,
delete_existing: bool = True,
canonicalize: Optional[Callable] = None,
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) -> Union[list, str]:
"""Append *newpath* path elements to *oldpath*.
Will only add any particular path once (leaving the last one it
encounters and ignoring the rest, to preserve path order), and will
:mod:`os.path.normpath` and :mod:`os.path.normcase` all paths to help
assure this. This can also handle the case where *oldpath*
is a list instead of a string, in which case a list will be returned
instead of a string. For example:
>>> p = AppendPath("/foo/bar:/foo", "/biz/boom:/foo")
>>> print(p)
/foo/bar:/biz/boom:/foo
If *delete_existing* is ``False``, then adding a path that exists
will not move it to the end; it will stay where it is in the list.
>>> p = AppendPath("/foo/bar:/foo", "/biz/boom:/foo", delete_existing=False)
>>> print(p)
/foo/bar:/foo:/biz/boom
If *canonicalize* is not ``None``, it is applied to each element of
*newpath* before use.
"""
orig = oldpath
is_list = True
paths = orig
if not is_List(orig) and not is_Tuple(orig):
paths = paths.split(sep)
is_list = False
if is_String(newpath):
newpaths = newpath.split(sep)
elif is_List(newpath) or is_Tuple(newpath):
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newpaths = newpath
else:
newpaths = [newpath] # might be a Dir
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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))
if path and normpath not in normpaths:
paths.append(path)
normpaths.append(normpath)
paths.reverse()
if is_list:
return paths
return sep.join(paths)
def AddPathIfNotExists(env_dict, key, path, sep: str = os.pathsep) -> None:
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"""Add a path element to a construction variable.
`key` is looked up in `env_dict`, and `path` is added to it if it
is not already present. `env_dict[key]` is assumed to be in the
format of a PATH variable: a list of paths separated by `sep` tokens.
>>> env = {'PATH': '/bin:/usr/bin:/usr/local/bin'}
>>> AddPathIfNotExists(env, 'PATH', '/opt/bin')
>>> print(env['PATH'])
/opt/bin:/bin:/usr/bin:/usr/local/bin
"""
try:
is_list = True
paths = env_dict[key]
if not is_List(env_dict[key]):
paths = paths.split(sep)
is_list = False
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
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
:meth:`__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, obj: Any, method: Callable, name: Optional[str] = None) -> None:
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if name is None:
name = method.__name__
self.object = obj
self.method = method
self.name: str = name
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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)
# The original idea for AddMethod() came from the
# following post to the ActiveState Python Cookbook:
#
# ASPN: Python Cookbook : Install bound methods in an instance
# https://code.activestate.com/recipes/223613
#
# Changed as follows:
# * 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.
# * 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.
def AddMethod(obj, function: Callable, name: Optional[str] = None) -> None:
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"""Add 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 :class:`~SCons.Util.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.
>>> class A:
... ...
>>> a = A()
>>> def f(self, x, y):
... self.z = x + y
>>> AddMethod(A, f, "add")
>>> a.add(2, 4)
>>> print(a.z)
6
>>> a.data = ['a', 'b', 'c', 'd', 'e', 'f']
>>> AddMethod(a, lambda self, i: self.data[i], "listIndex")
>>> print(a.listIndex(3))
d
"""
if name is None:
name = function.__name__
else:
# "rename"
function = FunctionType(
function.__code__, function.__globals__, name, function.__defaults__
)
method: Union[MethodType, MethodWrapper, Callable]
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if hasattr(obj, '__class__') and obj.__class__ is not type:
# 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)
else:
method = MethodType(function, obj)
else:
# obj is a class
method = function
setattr(obj, name, method)
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# This routine is used to validate that a construction var name can be used
# as a Python identifier, which we require. However, Python 3 introduced an
# isidentifier() string method so there's really not any need for it now.
_is_valid_var_re = re.compile(r'[_a-zA-Z]\w*$')
def is_valid_construction_var(varstr: str) -> bool:
"""Return True if *varstr* is a legitimate name of a construction variable."""
return bool(_is_valid_var_re.match(varstr))
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# Local Variables:
# tab-width:4
# indent-tabs-mode:nil
# End:
# vim: set expandtab tabstop=4 shiftwidth=4: