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Diffstat (limited to '3rdParty/SCons/scons-local/SCons/Environment.py')
m--------- | 3rdParty/SCons | 0 | ||||
-rw-r--r-- | 3rdParty/SCons/scons-local/SCons/Environment.py | 2320 |
2 files changed, 0 insertions, 2320 deletions
diff --git a/3rdParty/SCons b/3rdParty/SCons new file mode 160000 +Subproject 3056da6ce23ced559497a07bd4444fb3a17b4db diff --git a/3rdParty/SCons/scons-local/SCons/Environment.py b/3rdParty/SCons/scons-local/SCons/Environment.py deleted file mode 100644 index 9c04d73..0000000 --- a/3rdParty/SCons/scons-local/SCons/Environment.py +++ /dev/null @@ -1,2320 +0,0 @@ -"""SCons.Environment - -Base class for construction Environments. These are -the primary objects used to communicate dependency and -construction information to the build engine. - -Keyword arguments supplied when the construction Environment -is created are construction variables used to initialize the -Environment -""" - -# -# Copyright (c) 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009 The SCons Foundation -# -# 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. -# - -__revision__ = "src/engine/SCons/Environment.py 4043 2009/02/23 09:06:45 scons" - - -import copy -import os -import sys -import re -import shlex -import string -from UserDict import UserDict - -import SCons.Action -import SCons.Builder -from SCons.Debug import logInstanceCreation -import SCons.Defaults -import SCons.Errors -import SCons.Memoize -import SCons.Node -import SCons.Node.Alias -import SCons.Node.FS -import SCons.Node.Python -import SCons.Platform -import SCons.SConsign -import SCons.Subst -import SCons.Tool -import SCons.Util -import SCons.Warnings - -class _Null: - pass - -_null = _Null - -_warn_copy_deprecated = True -_warn_source_signatures_deprecated = True -_warn_target_signatures_deprecated = True - -CleanTargets = {} -CalculatorArgs = {} - -semi_deepcopy = SCons.Util.semi_deepcopy - -# Pull UserError into the global name space for the benefit of -# Environment().SourceSignatures(), which has some import statements -# which seem to mess up its ability to reference SCons directly. -UserError = SCons.Errors.UserError - -def alias_builder(env, target, source): - pass - -AliasBuilder = SCons.Builder.Builder(action = alias_builder, - target_factory = SCons.Node.Alias.default_ans.Alias, - source_factory = SCons.Node.FS.Entry, - multi = 1, - is_explicit = None, - name='AliasBuilder') - -def apply_tools(env, tools, toolpath): - # Store the toolpath in the Environment. - if toolpath is not None: - env['toolpath'] = toolpath - - if not tools: - return - # Filter out null tools from the list. - for tool in filter(None, tools): - if SCons.Util.is_List(tool) or type(tool)==type(()): - toolname = tool[0] - toolargs = tool[1] # should be a dict of kw args - tool = apply(env.Tool, [toolname], toolargs) - else: - env.Tool(tool) - -# These names are (or will be) controlled by SCons; users should never -# set or override them. This warning can optionally be turned off, -# but scons will still ignore the illegal variable names even if it's off. -reserved_construction_var_names = [ - 'CHANGED_SOURCES', - 'CHANGED_TARGETS', - 'SOURCE', - 'SOURCES', - 'TARGET', - 'TARGETS', - 'UNCHANGED_SOURCES', - 'UNCHANGED_TARGETS', -] - -future_reserved_construction_var_names = [] - -def copy_non_reserved_keywords(dict): - result = semi_deepcopy(dict) - for k in result.keys(): - if k in reserved_construction_var_names: - msg = "Ignoring attempt to set reserved variable `$%s'" - SCons.Warnings.warn(SCons.Warnings.ReservedVariableWarning, msg % k) - del result[k] - return result - -def _set_reserved(env, key, value): - msg = "Ignoring attempt to set reserved variable `$%s'" - SCons.Warnings.warn(SCons.Warnings.ReservedVariableWarning, msg % key) - -def _set_future_reserved(env, key, value): - env._dict[key] = value - msg = "`$%s' will be reserved in a future release and setting it will become ignored" - SCons.Warnings.warn(SCons.Warnings.FutureReservedVariableWarning, msg % key) - -def _set_BUILDERS(env, key, value): - try: - bd = env._dict[key] - for k in bd.keys(): - del bd[k] - except KeyError: - bd = BuilderDict(kwbd, env) - env._dict[key] = bd - bd.update(value) - -def _del_SCANNERS(env, key): - del env._dict[key] - env.scanner_map_delete() - -def _set_SCANNERS(env, key, value): - env._dict[key] = value - env.scanner_map_delete() - -def _delete_duplicates(l, keep_last): - """Delete duplicates from a sequence, keeping the first or last.""" - seen={} - result=[] - if keep_last: # reverse in & out, then keep first - l.reverse() - for i in l: - try: - if not seen.has_key(i): - result.append(i) - seen[i]=1 - except TypeError: - # probably unhashable. Just keep it. - result.append(i) - if keep_last: - result.reverse() - return result - - - -# The following is partly based on code in a comment added by Peter -# Shannon at the following page (there called the "transplant" class): -# -# ASPN : Python Cookbook : Dynamically added methods to a class -# http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/81732 -# -# We had independently been using the idiom as BuilderWrapper, but -# factoring out the common parts into this base class, and making -# BuilderWrapper a subclass that overrides __call__() to enforce specific -# Builder calling conventions, simplified some of our higher-layer code. - -class MethodWrapper: - """ - A generic Wrapper class that associates a method (which can - actually be any callable) with an object. As part of creating this - MethodWrapper object an attribute with the specified (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 apply(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) - -class BuilderWrapper(MethodWrapper): - """ - A MethodWrapper subclass that that associates an environment with - a Builder. - - This mainly exists to wrap the __call__() function so that all calls - to Builders can have their argument lists massaged in the same way - (treat a lone argument as the source, treat two arguments as target - then source, make sure both target and source are lists) without - having to have cut-and-paste code to do it. - - As a bit of obsessive backwards compatibility, we also intercept - attempts to get or set the "env" or "builder" attributes, which were - the names we used before we put the common functionality into the - MethodWrapper base class. We'll keep this around for a while in case - people shipped Tool modules that reached into the wrapper (like the - Tool/qt.py module does, or did). There shouldn't be a lot attribute - fetching or setting on these, so a little extra work shouldn't hurt. - """ - def __call__(self, target=None, source=_null, *args, **kw): - if source is _null: - source = target - target = None - if not target is None and not SCons.Util.is_List(target): - target = [target] - if not source is None and not SCons.Util.is_List(source): - source = [source] - return apply(MethodWrapper.__call__, (self, target, source) + args, kw) - - def __repr__(self): - return '<BuilderWrapper %s>' % repr(self.name) - - def __str__(self): - return self.__repr__() - - def __getattr__(self, name): - if name == 'env': - return self.object - elif name == 'builder': - return self.method - else: - raise AttributeError, name - - def __setattr__(self, name, value): - if name == 'env': - self.object = value - elif name == 'builder': - self.method = value - else: - self.__dict__[name] = value - - # This allows a Builder to be executed directly - # through the Environment to which it's attached. - # In practice, we shouldn't need this, because - # builders actually get executed through a Node. - # But we do have a unit test for this, and can't - # yet rule out that it would be useful in the - # future, so leave it for now. - #def execute(self, **kw): - # kw['env'] = self.env - # apply(self.builder.execute, (), kw) - -class BuilderDict(UserDict): - """This is a dictionary-like class used by an Environment to hold - the Builders. We need to do this because every time someone changes - the Builders in the Environment's BUILDERS dictionary, we must - update the Environment's attributes.""" - def __init__(self, dict, env): - # Set self.env before calling the superclass initialization, - # because it will end up calling our other methods, which will - # need to point the values in this dictionary to self.env. - self.env = env - UserDict.__init__(self, dict) - - def __semi_deepcopy__(self): - return self.__class__(self.data, self.env) - - def __setitem__(self, item, val): - try: - method = getattr(self.env, item).method - except AttributeError: - pass - else: - self.env.RemoveMethod(method) - UserDict.__setitem__(self, item, val) - BuilderWrapper(self.env, val, item) - - def __delitem__(self, item): - UserDict.__delitem__(self, item) - delattr(self.env, item) - - def update(self, dict): - for i, v in dict.items(): - self.__setitem__(i, v) - - - -_is_valid_var = re.compile(r'[_a-zA-Z]\w*$') - -def is_valid_construction_var(varstr): - """Return if the specified string is a legitimate construction - variable. - """ - return _is_valid_var.match(varstr) - - - -class SubstitutionEnvironment: - """Base class for different flavors of construction environments. - - This class contains a minimal set of methods that handle contruction - variable expansion and conversion of strings to Nodes, which may or - may not be actually useful as a stand-alone class. Which methods - ended up in this class is pretty arbitrary right now. They're - basically the ones which we've empirically determined are common to - the different construction environment subclasses, and most of the - others that use or touch the underlying dictionary of construction - variables. - - Eventually, this class should contain all the methods that we - determine are necessary for a "minimal" interface to the build engine. - A full "native Python" SCons environment has gotten pretty heavyweight - with all of the methods and Tools and construction variables we've - jammed in there, so it would be nice to have a lighter weight - alternative for interfaces that don't need all of the bells and - whistles. (At some point, we'll also probably rename this class - "Base," since that more reflects what we want this class to become, - but because we've released comments that tell people to subclass - Environment.Base to create their own flavors of construction - environment, we'll save that for a future refactoring when this - class actually becomes useful.) - """ - - if SCons.Memoize.use_memoizer: - __metaclass__ = SCons.Memoize.Memoized_Metaclass - - def __init__(self, **kw): - """Initialization of an underlying SubstitutionEnvironment class. - """ - if __debug__: logInstanceCreation(self, 'Environment.SubstitutionEnvironment') - self.fs = SCons.Node.FS.get_default_fs() - self.ans = SCons.Node.Alias.default_ans - self.lookup_list = SCons.Node.arg2nodes_lookups - self._dict = kw.copy() - self._init_special() - self.added_methods = [] - #self._memo = {} - - def _init_special(self): - """Initial the dispatch tables for special handling of - special construction variables.""" - self._special_del = {} - self._special_del['SCANNERS'] = _del_SCANNERS - - self._special_set = {} - for key in reserved_construction_var_names: - self._special_set[key] = _set_reserved - for key in future_reserved_construction_var_names: - self._special_set[key] = _set_future_reserved - self._special_set['BUILDERS'] = _set_BUILDERS - self._special_set['SCANNERS'] = _set_SCANNERS - - # Freeze the keys of self._special_set in a list for use by - # methods that need to check. (Empirically, list scanning has - # gotten better than dict.has_key() in Python 2.5.) - self._special_set_keys = self._special_set.keys() - - def __cmp__(self, other): - return cmp(self._dict, other._dict) - - def __delitem__(self, key): - special = self._special_del.get(key) - if special: - special(self, key) - else: - del self._dict[key] - - def __getitem__(self, key): - return self._dict[key] - - def __setitem__(self, key, value): - # This is heavily used. This implementation is the best we have - # according to the timings in bench/env.__setitem__.py. - # - # The "key in self._special_set_keys" test here seems to perform - # pretty well for the number of keys we have. A hard-coded - # list works a little better in Python 2.5, but that has the - # disadvantage of maybe getting out of sync if we ever add more - # variable names. Using self._special_set.has_key() works a - # little better in Python 2.4, but is worse then this test. - # So right now it seems like a good trade-off, but feel free to - # revisit this with bench/env.__setitem__.py as needed (and - # as newer versions of Python come out). - if key in self._special_set_keys: - self._special_set[key](self, key, value) - else: - # If we already have the entry, then it's obviously a valid - # key and we don't need to check. If we do check, using a - # global, pre-compiled regular expression directly is more - # efficient than calling another function or a method. - if not self._dict.has_key(key) \ - and not _is_valid_var.match(key): - raise SCons.Errors.UserError, "Illegal construction variable `%s'" % key - self._dict[key] = value - - def get(self, key, default=None): - """Emulates the get() method of dictionaries.""" - return self._dict.get(key, default) - - def has_key(self, key): - return self._dict.has_key(key) - - def __contains__(self, key): - return self._dict.__contains__(key) - - def items(self): - return self._dict.items() - - def arg2nodes(self, args, node_factory=_null, lookup_list=_null, **kw): - if node_factory is _null: - node_factory = self.fs.File - if lookup_list is _null: - lookup_list = self.lookup_list - - if not args: - return [] - - args = SCons.Util.flatten(args) - - nodes = [] - for v in args: - if SCons.Util.is_String(v): - n = None - for l in lookup_list: - n = l(v) - if not n is None: - break - if not n is None: - if SCons.Util.is_String(n): - # n = self.subst(n, raw=1, **kw) - kw['raw'] = 1 - n = apply(self.subst, (n,), kw) - if node_factory: - n = node_factory(n) - if SCons.Util.is_List(n): - nodes.extend(n) - else: - nodes.append(n) - elif node_factory: - # v = node_factory(self.subst(v, raw=1, **kw)) - kw['raw'] = 1 - v = node_factory(apply(self.subst, (v,), kw)) - if SCons.Util.is_List(v): - nodes.extend(v) - else: - nodes.append(v) - else: - nodes.append(v) - - return nodes - - def gvars(self): - return self._dict - - def lvars(self): - return {} - - def subst(self, string, raw=0, target=None, source=None, conv=None, executor=None): - """Recursively interpolates construction variables from the - Environment into the specified string, returning the expanded - result. Construction variables are specified by a $ prefix - in the string and begin with an initial underscore or - alphabetic character followed by any number of underscores - or alphanumeric characters. The construction variable names - may be surrounded by curly braces to separate the name from - trailing characters. - """ - gvars = self.gvars() - lvars = self.lvars() - lvars['__env__'] = self - if executor: - lvars.update(executor.get_lvars()) - return SCons.Subst.scons_subst(string, self, raw, target, source, gvars, lvars, conv) - - def subst_kw(self, kw, raw=0, target=None, source=None): - nkw = {} - for k, v in kw.items(): - k = self.subst(k, raw, target, source) - if SCons.Util.is_String(v): - v = self.subst(v, raw, target, source) - nkw[k] = v - return nkw - - def subst_list(self, string, raw=0, target=None, source=None, conv=None, executor=None): - """Calls through to SCons.Subst.scons_subst_list(). See - the documentation for that function.""" - gvars = self.gvars() - lvars = self.lvars() - lvars['__env__'] = self - if executor: - lvars.update(executor.get_lvars()) - return SCons.Subst.scons_subst_list(string, self, raw, target, source, gvars, lvars, conv) - - def subst_path(self, path, target=None, source=None): - """Substitute a path list, turning EntryProxies into Nodes - and leaving Nodes (and other objects) as-is.""" - - if not SCons.Util.is_List(path): - path = [path] - - def s(obj): - """This is the "string conversion" routine that we have our - substitutions use to return Nodes, not strings. This relies - on the fact that an EntryProxy object has a get() method that - returns the underlying Node that it wraps, which is a bit of - architectural dependence that we might need to break or modify - in the future in response to additional requirements.""" - try: - get = obj.get - except AttributeError: - obj = SCons.Util.to_String_for_subst(obj) - else: - obj = get() - return obj - - r = [] - for p in path: - if SCons.Util.is_String(p): - p = self.subst(p, target=target, source=source, conv=s) - if SCons.Util.is_List(p): - if len(p) == 1: - p = p[0] - else: - # We have an object plus a string, or multiple - # objects that we need to smush together. No choice - # but to make them into a string. - p = string.join(map(SCons.Util.to_String_for_subst, p), '') - else: - p = s(p) - r.append(p) - return r - - subst_target_source = subst - - def backtick(self, command): - import subprocess - # common arguments - kw = { 'stdin' : 'devnull', - 'stdout' : subprocess.PIPE, - 'stderr' : subprocess.PIPE, - 'universal_newlines' : True, - } - # if the command is a list, assume it's been quoted - # othewise force a shell - if not SCons.Util.is_List(command): kw['shell'] = True - # run constructed command - #TODO(1.5) p = SCons.Action._subproc(self, command, **kw) - p = apply(SCons.Action._subproc, (self, command), kw) - out,err = p.communicate() - status = p.wait() - if err: - sys.stderr.write(err) - if status: - raise OSError("'%s' exited %d" % (command, status)) - return out - - def AddMethod(self, function, name=None): - """ - Adds the specified function as a method of this construction - environment with the specified name. If the name is omitted, - the default name is the name of the function itself. - """ - method = MethodWrapper(self, function, name) - self.added_methods.append(method) - - def RemoveMethod(self, function): - """ - Removes the specified function's MethodWrapper from the - added_methods list, so we don't re-bind it when making a clone. - """ - is_not_func = lambda dm, f=function: not dm.method is f - self.added_methods = filter(is_not_func, self.added_methods) - - def Override(self, overrides): - """ - Produce a modified environment whose variables are overriden by - the overrides dictionaries. "overrides" is a dictionary that - will override the variables of this environment. - - This function is much more efficient than Clone() or creating - a new Environment because it doesn't copy the construction - environment dictionary, it just wraps the underlying construction - environment, and doesn't even create a wrapper object if there - are no overrides. - """ - if not overrides: return self - o = copy_non_reserved_keywords(overrides) - if not o: return self - overrides = {} - merges = None - for key, value in o.items(): - if key == 'parse_flags': - merges = value - else: - overrides[key] = SCons.Subst.scons_subst_once(value, self, key) - env = OverrideEnvironment(self, overrides) - if merges: env.MergeFlags(merges) - return env - - def ParseFlags(self, *flags): - """ - Parse the set of flags and return a dict with the flags placed - in the appropriate entry. The flags are treated as a typical - set of command-line flags for a GNU-like toolchain and used to - populate the entries in the dict immediately below. If one of - the flag strings begins with a bang (exclamation mark), it is - assumed to be a command and the rest of the string is executed; - the result of that evaluation is then added to the dict. - """ - dict = { - 'ASFLAGS' : SCons.Util.CLVar(''), - 'CFLAGS' : SCons.Util.CLVar(''), - 'CCFLAGS' : SCons.Util.CLVar(''), - 'CPPDEFINES' : [], - 'CPPFLAGS' : SCons.Util.CLVar(''), - 'CPPPATH' : [], - 'FRAMEWORKPATH' : SCons.Util.CLVar(''), - 'FRAMEWORKS' : SCons.Util.CLVar(''), - 'LIBPATH' : [], - 'LIBS' : [], - 'LINKFLAGS' : SCons.Util.CLVar(''), - 'RPATH' : [], - } - - # The use of the "me" parameter to provide our own name for - # recursion is an egregious hack to support Python 2.1 and before. - def do_parse(arg, me, self = self, dict = dict): - # if arg is a sequence, recurse with each element - if not arg: - return - - if not SCons.Util.is_String(arg): - for t in arg: me(t, me) - return - - # if arg is a command, execute it - if arg[0] == '!': - arg = self.backtick(arg[1:]) - - # utility function to deal with -D option - def append_define(name, dict = dict): - t = string.split(name, '=') - if len(t) == 1: - dict['CPPDEFINES'].append(name) - else: - dict['CPPDEFINES'].append([t[0], string.join(t[1:], '=')]) - - # Loop through the flags and add them to the appropriate option. - # This tries to strike a balance between checking for all possible - # flags and keeping the logic to a finite size, so it doesn't - # check for some that don't occur often. It particular, if the - # flag is not known to occur in a config script and there's a way - # of passing the flag to the right place (by wrapping it in a -W - # flag, for example) we don't check for it. Note that most - # preprocessor options are not handled, since unhandled options - # are placed in CCFLAGS, so unless the preprocessor is invoked - # separately, these flags will still get to the preprocessor. - # Other options not currently handled: - # -iqoutedir (preprocessor search path) - # -u symbol (linker undefined symbol) - # -s (linker strip files) - # -static* (linker static binding) - # -shared* (linker dynamic binding) - # -symbolic (linker global binding) - # -R dir (deprecated linker rpath) - # IBM compilers may also accept -qframeworkdir=foo - - params = shlex.split(arg) - append_next_arg_to = None # for multi-word args - for arg in params: - if append_next_arg_to: - if append_next_arg_to == 'CPPDEFINES': - append_define(arg) - elif append_next_arg_to == '-include': - t = ('-include', self.fs.File(arg)) - dict['CCFLAGS'].append(t) - elif append_next_arg_to == '-isysroot': - t = ('-isysroot', arg) - dict['CCFLAGS'].append(t) - dict['LINKFLAGS'].append(t) - elif append_next_arg_to == '-arch': - t = ('-arch', arg) - dict['CCFLAGS'].append(t) - dict['LINKFLAGS'].append(t) - else: - dict[append_next_arg_to].append(arg) - append_next_arg_to = None - elif not arg[0] in ['-', '+']: - dict['LIBS'].append(self.fs.File(arg)) - elif arg[:2] == '-L': - if arg[2:]: - dict['LIBPATH'].append(arg[2:]) - else: - append_next_arg_to = 'LIBPATH' - elif arg[:2] == '-l': - if arg[2:]: - dict['LIBS'].append(arg[2:]) - else: - append_next_arg_to = 'LIBS' - elif arg[:2] == '-I': - if arg[2:]: - dict['CPPPATH'].append(arg[2:]) - else: - append_next_arg_to = 'CPPPATH' - elif arg[:4] == '-Wa,': - dict['ASFLAGS'].append(arg[4:]) - dict['CCFLAGS'].append(arg) - elif arg[:4] == '-Wl,': - if arg[:11] == '-Wl,-rpath=': - dict['RPATH'].append(arg[11:]) - elif arg[:7] == '-Wl,-R,': - dict['RPATH'].append(arg[7:]) - elif arg[:6] == '-Wl,-R': - dict['RPATH'].append(arg[6:]) - else: - dict['LINKFLAGS'].append(arg) - elif arg[:4] == '-Wp,': - dict['CPPFLAGS'].append(arg) - elif arg[:2] == '-D': - if arg[2:]: - append_define(arg[2:]) - else: - append_next_arg_to = 'CPPDEFINES' - elif arg == '-framework': - append_next_arg_to = 'FRAMEWORKS' - elif arg[:14] == '-frameworkdir=': - dict['FRAMEWORKPATH'].append(arg[14:]) - elif arg[:2] == '-F': - if arg[2:]: - dict['FRAMEWORKPATH'].append(arg[2:]) - else: - append_next_arg_to = 'FRAMEWORKPATH' - elif arg == '-mno-cygwin': - dict['CCFLAGS'].append(arg) - dict['LINKFLAGS'].append(arg) - elif arg == '-mwindows': - dict['LINKFLAGS'].append(arg) - elif arg == '-pthread': - dict['CCFLAGS'].append(arg) - dict['LINKFLAGS'].append(arg) - elif arg[:5] == '-std=': - dict['CFLAGS'].append(arg) # C only - elif arg[0] == '+': - dict['CCFLAGS'].append(arg) - dict['LINKFLAGS'].append(arg) - elif arg in ['-include', '-isysroot', '-arch']: - append_next_arg_to = arg - else: - dict['CCFLAGS'].append(arg) - - for arg in flags: - do_parse(arg, do_parse) - return dict - - def MergeFlags(self, args, unique=1, dict=None): - """ - Merge the dict in args into the construction variables of this - env, or the passed-in dict. If args is not a dict, it is - converted into a dict using ParseFlags. If unique is not set, - the flags are appended rather than merged. - """ - - if dict is None: - dict = self - if not SCons.Util.is_Dict(args): - args = self.ParseFlags(args) - if not unique: - apply(self.Append, (), args) - return self - for key, value in args.items(): - if not value: - continue - try: - orig = self[key] - except KeyError: - orig = value - else: - if not orig: - orig = value - elif value: - # Add orig and value. The logic here was lifted from - # part of env.Append() (see there for a lot of comments - # about the order in which things are tried) and is - # used mainly to handle coercion of strings to CLVar to - # "do the right thing" given (e.g.) an original CCFLAGS - # string variable like '-pipe -Wall'. - try: - orig = orig + value - except (KeyError, TypeError): - try: - add_to_orig = orig.append - except AttributeError: - value.insert(0, orig) - orig = value - else: - add_to_orig(value) - t = [] - if key[-4:] == 'PATH': - ### keep left-most occurence - for v in orig: - if v not in t: - t.append(v) - else: - ### keep right-most occurence - orig.reverse() - for v in orig: - if v not in t: - t.insert(0, v) - self[key] = t - return self - -# def MergeShellPaths(self, args, prepend=1): -# """ -# Merge the dict in args into the shell environment in env['ENV']. -# Shell path elements are appended or prepended according to prepend. - -# Uses Pre/AppendENVPath, so it always appends or prepends uniquely. - -# Example: env.MergeShellPaths({'LIBPATH': '/usr/local/lib'}) -# prepends /usr/local/lib to env['ENV']['LIBPATH']. -# """ - -# for pathname, pathval in args.items(): -# if not pathval: -# continue -# if prepend: -# apply(self.PrependENVPath, (pathname, pathval)) -# else: -# apply(self.AppendENVPath, (pathname, pathval)) - - -# Used by the FindSourceFiles() method, below. -# Stuck here for support of pre-2.2 Python versions. -def build_source(ss, result): - for s in ss: - if isinstance(s, SCons.Node.FS.Dir): - build_source(s.all_children(), result) - elif s.has_builder(): - build_source(s.sources, result) - elif isinstance(s.disambiguate(), SCons.Node.FS.File): - result.append(s) - -def default_decide_source(dependency, target, prev_ni): - f = SCons.Defaults.DefaultEnvironment().decide_source - return f(dependency, target, prev_ni) - -def default_decide_target(dependency, target, prev_ni): - f = SCons.Defaults.DefaultEnvironment().decide_target - return f(dependency, target, prev_ni) - -def default_copy_from_cache(src, dst): - f = SCons.Defaults.DefaultEnvironment().copy_from_cache - return f(src, dst) - -class Base(SubstitutionEnvironment): - """Base class for "real" construction Environments. These are the - primary objects used to communicate dependency and construction - information to the build engine. - - Keyword arguments supplied when the construction Environment - is created are construction variables used to initialize the - Environment. - """ - - if SCons.Memoize.use_memoizer: - __metaclass__ = SCons.Memoize.Memoized_Metaclass - - memoizer_counters = [] - - ####################################################################### - # This is THE class for interacting with the SCons build engine, - # and it contains a lot of stuff, so we're going to try to keep this - # a little organized by grouping the methods. - ####################################################################### - - ####################################################################### - # Methods that make an Environment act like a dictionary. These have - # the expected standard names for Python mapping objects. Note that - # we don't actually make an Environment a subclass of UserDict for - # performance reasons. Note also that we only supply methods for - # dictionary functionality that we actually need and use. - ####################################################################### - - def __init__(self, - platform=None, - tools=None, - toolpath=None, - variables=None, - parse_flags = None, - **kw): - """ - Initialization of a basic SCons construction environment, - including setting up special construction variables like BUILDER, - PLATFORM, etc., and searching for and applying available Tools. - - Note that we do *not* call the underlying base class - (SubsitutionEnvironment) initialization, because we need to - initialize things in a very specific order that doesn't work - with the much simpler base class initialization. - """ - if __debug__: logInstanceCreation(self, 'Environment.Base') - self._memo = {} - self.fs = SCons.Node.FS.get_default_fs() - self.ans = SCons.Node.Alias.default_ans - self.lookup_list = SCons.Node.arg2nodes_lookups - self._dict = semi_deepcopy(SCons.Defaults.ConstructionEnvironment) - self._init_special() - self.added_methods = [] - - # We don't use AddMethod, or define these as methods in this - # class, because we *don't* want these functions to be bound - # methods. They need to operate independently so that the - # settings will work properly regardless of whether a given - # target ends up being built with a Base environment or an - # OverrideEnvironment or what have you. - self.decide_target = default_decide_target - self.decide_source = default_decide_source - - self.copy_from_cache = default_copy_from_cache - - self._dict['BUILDERS'] = BuilderDict(self._dict['BUILDERS'], self) - - if platform is None: - platform = self._dict.get('PLATFORM', None) - if platform is None: - platform = SCons.Platform.Platform() - if SCons.Util.is_String(platform): - platform = SCons.Platform.Platform(platform) - self._dict['PLATFORM'] = str(platform) - platform(self) - - # Apply the passed-in and customizable variables to the - # environment before calling the tools, because they may use - # some of them during initialization. - if kw.has_key('options'): - # Backwards compatibility: they may stll be using the - # old "options" keyword. - variables = kw['options'] - del kw['options'] - apply(self.Replace, (), kw) - keys = kw.keys() - if variables: - keys = keys + variables.keys() - variables.Update(self) - - save = {} - for k in keys: - try: - save[k] = self._dict[k] - except KeyError: - # No value may have been set if they tried to pass in a - # reserved variable name like TARGETS. - pass - - SCons.Tool.Initializers(self) - - if tools is None: - tools = self._dict.get('TOOLS', None) - if tools is None: - tools = ['default'] - apply_tools(self, tools, toolpath) - - # Now restore the passed-in and customized variables - # to the environment, since the values the user set explicitly - # should override any values set by the tools. - for key, val in save.items(): - self._dict[key] = val - - # Finally, apply any flags to be merged in - if parse_flags: self.MergeFlags(parse_flags) - - ####################################################################### - # Utility methods that are primarily for internal use by SCons. - # These begin with lower-case letters. - ####################################################################### - - def get_builder(self, name): - """Fetch the builder with the specified name from the environment. - """ - try: - return self._dict['BUILDERS'][name] - except KeyError: - return None - - def get_CacheDir(self): - try: - path = self._CacheDir_path - except AttributeError: - path = SCons.Defaults.DefaultEnvironment()._CacheDir_path - try: - if path == self._last_CacheDir_path: - return self._last_CacheDir - except AttributeError: - pass - cd = SCons.CacheDir.CacheDir(path) - self._last_CacheDir_path = path - self._last_CacheDir = cd - return cd - - def get_factory(self, factory, default='File'): - """Return a factory function for creating Nodes for this - construction environment. - """ - name = default - try: - is_node = issubclass(factory, SCons.Node.Node) - except TypeError: - # The specified factory isn't a Node itself--it's - # most likely None, or possibly a callable. - pass - else: - if is_node: - # The specified factory is a Node (sub)class. Try to - # return the FS method that corresponds to the Node's - # name--that is, we return self.fs.Dir if they want a Dir, - # self.fs.File for a File, etc. - try: name = factory.__name__ - except AttributeError: pass - else: factory = None - if not factory: - # They passed us None, or we picked up a name from a specified - # class, so return the FS method. (Note that we *don't* - # use our own self.{Dir,File} methods because that would - # cause env.subst() to be called twice on the file name, - # interfering with files that have $$ in them.) - factory = getattr(self.fs, name) - return factory - - memoizer_counters.append(SCons.Memoize.CountValue('_gsm')) - - def _gsm(self): - try: - return self._memo['_gsm'] - except KeyError: - pass - - result = {} - - try: - scanners = self._dict['SCANNERS'] - except KeyError: - pass - else: - # Reverse the scanner list so that, if multiple scanners - # claim they can scan the same suffix, earlier scanners - # in the list will overwrite later scanners, so that - # the result looks like a "first match" to the user. - if not SCons.Util.is_List(scanners): - scanners = [scanners] - else: - scanners = scanners[:] # copy so reverse() doesn't mod original - scanners.reverse() - for scanner in scanners: - for k in scanner.get_skeys(self): - if k and self['PLATFORM'] == 'win32': - k = string.lower(k) - result[k] = scanner - - self._memo['_gsm'] = result - - return result - - def get_scanner(self, skey): - """Find the appropriate scanner given a key (usually a file suffix). - """ - if skey and self['PLATFORM'] == 'win32': - skey = string.lower(skey) - return self._gsm().get(skey) - - def scanner_map_delete(self, kw=None): - """Delete the cached scanner map (if we need to). - """ - try: - del self._memo['_gsm'] - except KeyError: - pass - - def _update(self, dict): - """Update an environment's values directly, bypassing the normal - checks that occur when users try to set items. - """ - self._dict.update(dict) - - def get_src_sig_type(self): - try: - return self.src_sig_type - except AttributeError: - t = SCons.Defaults.DefaultEnvironment().src_sig_type - self.src_sig_type = t - return t - - def get_tgt_sig_type(self): - try: - return self.tgt_sig_type - except AttributeError: - t = SCons.Defaults.DefaultEnvironment().tgt_sig_type - self.tgt_sig_type = t - return t - - ####################################################################### - # Public methods for manipulating an Environment. These begin with - # upper-case letters. The essential characteristic of methods in - # this section is that they do *not* have corresponding same-named - # global functions. For example, a stand-alone Append() function - # makes no sense, because Append() is all about appending values to - # an Environment's construction variables. - ####################################################################### - - def Append(self, **kw): - """Append values to existing construction variables - in an Environment. - """ - kw = copy_non_reserved_keywords(kw) - for key, val in kw.items(): - # It would be easier on the eyes to write this using - # "continue" statements whenever we finish processing an item, - # but Python 1.5.2 apparently doesn't let you use "continue" - # within try:-except: blocks, so we have to nest our code. - try: - orig = self._dict[key] - except KeyError: - # No existing variable in the environment, so just set - # it to the new value. - self._dict[key] = val - else: - try: - # Check if the original looks like a dictionary. - # If it is, we can't just try adding the value because - # dictionaries don't have __add__() methods, and - # things like UserList will incorrectly coerce the - # original dict to a list (which we don't want). - update_dict = orig.update - except AttributeError: - try: - # Most straightforward: just try to add them - # together. This will work in most cases, when the - # original and new values are of compatible types. - self._dict[key] = orig + val - except (KeyError, TypeError): - try: - # Check if the original is a list. - add_to_orig = orig.append - except AttributeError: - # The original isn't a list, but the new - # value is (by process of elimination), - # so insert the original in the new value - # (if there's one to insert) and replace - # the variable with it. - if orig: - val.insert(0, orig) - self._dict[key] = val - else: - # The original is a list, so append the new - # value to it (if there's a value to append). - if val: - add_to_orig(val) - else: - # The original looks like a dictionary, so update it - # based on what we think the value looks like. - if SCons.Util.is_List(val): - for v in val: - orig[v] = None - else: - try: - update_dict(val) - except (AttributeError, TypeError, ValueError): - if SCons.Util.is_Dict(val): - for k, v in val.items(): - orig[k] = v - else: - orig[val] = None - self.scanner_map_delete(kw) - - # allow Dirs and strings beginning with # for top-relative - # Note this uses the current env's fs (in self). - def _canonicalize(self, path): - if not SCons.Util.is_String(path): # typically a Dir - path = str(path) - if path and path[0] == '#': - path = str(self.fs.Dir(path)) - return path - - def AppendENVPath(self, name, newpath, envname = 'ENV', - sep = os.pathsep, delete_existing=1): - """Append path elements to the path 'name' in the 'ENV' - dictionary for this environment. Will only add any particular - path once, and will normpath and normcase all paths to help - assure this. This can also handle the case where the env - variable is a list instead of a string. - - If delete_existing is 0, a newpath which is already in the path - will not be moved to the end (it will be left where it is). - """ - - orig = '' - if self._dict.has_key(envname) and self._dict[envname].has_key(name): - orig = self._dict[envname][name] - - nv = SCons.Util.AppendPath(orig, newpath, sep, delete_existing, - canonicalize=self._canonicalize) - - if not self._dict.has_key(envname): - self._dict[envname] = {} - - self._dict[envname][name] = nv - - def AppendUnique(self, delete_existing=0, **kw): - """Append values to existing construction variables - in an Environment, if they're not already there. - If delete_existing is 1, removes existing values first, so - values move to end. - """ - kw = copy_non_reserved_keywords(kw) - for key, val in kw.items(): - if SCons.Util.is_List(val): - val = _delete_duplicates(val, delete_existing) - if not self._dict.has_key(key) or self._dict[key] in ('', None): - self._dict[key] = val - elif SCons.Util.is_Dict(self._dict[key]) and \ - SCons.Util.is_Dict(val): - self._dict[key].update(val) - elif SCons.Util.is_List(val): - dk = self._dict[key] - if not SCons.Util.is_List(dk): - dk = [dk] - if delete_existing: - dk = filter(lambda x, val=val: x not in val, dk) - else: - val = filter(lambda x, dk=dk: x not in dk, val) - self._dict[key] = dk + val - else: - dk = self._dict[key] - if SCons.Util.is_List(dk): - # By elimination, val is not a list. Since dk is a - # list, wrap val in a list first. - if delete_existing: - dk = filter(lambda x, val=val: x not in val, dk) - self._dict[key] = dk + [val] - else: - if not val in dk: - self._dict[key] = dk + [val] - else: - if delete_existing: - dk = filter(lambda x, val=val: x not in val, dk) - self._dict[key] = dk + val - self.scanner_map_delete(kw) - - def Clone(self, tools=[], toolpath=None, parse_flags = None, **kw): - """Return a copy of a construction Environment. The - copy is like a Python "deep copy"--that is, independent - copies are made recursively of each objects--except that - a reference is copied when an object is not deep-copyable - (like a function). There are no references to any mutable - objects in the original Environment. - """ - clone = copy.copy(self) - clone._dict = semi_deepcopy(self._dict) - - try: - cbd = clone._dict['BUILDERS'] - except KeyError: - pass - else: - clone._dict['BUILDERS'] = BuilderDict(cbd, clone) - - # Check the methods added via AddMethod() and re-bind them to - # the cloned environment. Only do this if the attribute hasn't - # been overwritten by the user explicitly and still points to - # the added method. - clone.added_methods = [] - for mw in self.added_methods: - if mw == getattr(self, mw.name): - clone.added_methods.append(mw.clone(clone)) - - clone._memo = {} - - # Apply passed-in variables before the tools - # so the tools can use the new variables - kw = copy_non_reserved_keywords(kw) - new = {} - for key, value in kw.items(): - new[key] = SCons.Subst.scons_subst_once(value, self, key) - apply(clone.Replace, (), new) - - apply_tools(clone, tools, toolpath) - - # apply them again in case the tools overwrote them - apply(clone.Replace, (), new) - - # Finally, apply any flags to be merged in - if parse_flags: clone.MergeFlags(parse_flags) - - if __debug__: logInstanceCreation(self, 'Environment.EnvironmentClone') - return clone - - def Copy(self, *args, **kw): - global _warn_copy_deprecated - if _warn_copy_deprecated: - msg = "The env.Copy() method is deprecated; use the env.Clone() method instead." - SCons.Warnings.warn(SCons.Warnings.DeprecatedCopyWarning, msg) - _warn_copy_deprecated = False - return apply(self.Clone, args, kw) - - def _changed_build(self, dependency, target, prev_ni): - if dependency.changed_state(target, prev_ni): - return 1 - return self.decide_source(dependency, target, prev_ni) - - def _changed_content(self, dependency, target, prev_ni): - return dependency.changed_content(target, prev_ni) - - def _changed_source(self, dependency, target, prev_ni): - target_env = dependency.get_build_env() - type = target_env.get_tgt_sig_type() - if type == 'source': - return target_env.decide_source(dependency, target, prev_ni) - else: - return target_env.decide_target(dependency, target, prev_ni) - - def _changed_timestamp_then_content(self, dependency, target, prev_ni): - return dependency.changed_timestamp_then_content(target, prev_ni) - - def _changed_timestamp_newer(self, dependency, target, prev_ni): - return dependency.changed_timestamp_newer(target, prev_ni) - - def _changed_timestamp_match(self, dependency, target, prev_ni): - return dependency.changed_timestamp_match(target, prev_ni) - - def _copy_from_cache(self, src, dst): - return self.fs.copy(src, dst) - - def _copy2_from_cache(self, src, dst): - return self.fs.copy2(src, dst) - - def Decider(self, function): - copy_function = self._copy2_from_cache - if function in ('MD5', 'content'): - if not SCons.Util.md5: - raise UserError, "MD5 signatures are not available in this version of Python." - function = self._changed_content - elif function == 'MD5-timestamp': - function = self._changed_timestamp_then_content - elif function in ('timestamp-newer', 'make'): - function = self._changed_timestamp_newer - copy_function = self._copy_from_cache - elif function == 'timestamp-match': - function = self._changed_timestamp_match - elif not callable(function): - raise UserError, "Unknown Decider value %s" % repr(function) - - # We don't use AddMethod because we don't want to turn the - # function, which only expects three arguments, into a bound - # method, which would add self as an initial, fourth argument. - self.decide_target = function - self.decide_source = function - - self.copy_from_cache = copy_function - - def Detect(self, progs): - """Return the first available program in progs. - """ - if not SCons.Util.is_List(progs): - progs = [ progs ] - for prog in progs: - path = self.WhereIs(prog) - if path: return prog - return None - - def Dictionary(self, *args): - if not args: - return self._dict - dlist = map(lambda x, s=self: s._dict[x], args) - if len(dlist) == 1: - dlist = dlist[0] - return dlist - - def Dump(self, key = None): - """ - Using the standard Python pretty printer, dump the contents of the - scons build environment to stdout. - - If the key passed in is anything other than None, then that will - be used as an index into the build environment dictionary and - whatever is found there will be fed into the pretty printer. Note - that this key is case sensitive. - """ - import pprint - pp = pprint.PrettyPrinter(indent=2) - if key: - dict = self.Dictionary(key) - else: - dict = self.Dictionary() - return pp.pformat(dict) - - def FindIxes(self, paths, prefix, suffix): - """ - Search a list of paths for something that matches the prefix and suffix. - - paths - the list of paths or nodes. - prefix - construction variable for the prefix. - suffix - construction variable for the suffix. - """ - - suffix = self.subst('$'+suffix) - prefix = self.subst('$'+prefix) - - for path in paths: - dir,name = os.path.split(str(path)) - if name[:len(prefix)] == prefix and name[-len(suffix):] == suffix: - return path - - def ParseConfig(self, command, function=None, unique=1): - """ - Use the specified function to parse the output of the command - in order to modify the current environment. The 'command' can - be a string or a list of strings representing a command and - its arguments. 'Function' is an optional argument that takes - the environment, the output of the command, and the unique flag. - If no function is specified, MergeFlags, which treats the output - as the result of a typical 'X-config' command (i.e. gtk-config), - will merge the output into the appropriate variables. - """ - if function is None: - def parse_conf(env, cmd, unique=unique): - return env.MergeFlags(cmd, unique) - function = parse_conf - if SCons.Util.is_List(command): - command = string.join(command) - command = self.subst(command) - return function(self, self.backtick(command)) - - def ParseDepends(self, filename, must_exist=None, only_one=0): - """ - Parse a mkdep-style file for explicit dependencies. This is - completely abusable, and should be unnecessary in the "normal" - case of proper SCons configuration, but it may help make - the transition from a Make hierarchy easier for some people - to swallow. It can also be genuinely useful when using a tool - that can write a .d file, but for which writing a scanner would - be too complicated. - """ - filename = self.subst(filename) - try: - fp = open(filename, 'r') - except IOError: - if must_exist: - raise - return - lines = SCons.Util.LogicalLines(fp).readlines() - lines = filter(lambda l: l[0] != '#', lines) - tdlist = [] - for line in lines: - try: - target, depends = string.split(line, ':', 1) - except (AttributeError, TypeError, ValueError): - # Python 1.5.2 throws TypeError if line isn't a string, - # Python 2.x throws AttributeError because it tries - # to call line.split(). Either can throw ValueError - # if the line doesn't split into two or more elements. - pass - else: - tdlist.append((string.split(target), string.split(depends))) - if only_one: - targets = reduce(lambda x, y: x+y, map(lambda p: p[0], tdlist)) - if len(targets) > 1: - raise SCons.Errors.UserError, "More than one dependency target found in `%s': %s" % (filename, targets) - for target, depends in tdlist: - self.Depends(target, depends) - - def Platform(self, platform): - platform = self.subst(platform) - return SCons.Platform.Platform(platform)(self) - - def Prepend(self, **kw): - """Prepend values to existing construction variables - in an Environment. - """ - kw = copy_non_reserved_keywords(kw) - for key, val in kw.items(): - # It would be easier on the eyes to write this using - # "continue" statements whenever we finish processing an item, - # but Python 1.5.2 apparently doesn't let you use "continue" - # within try:-except: blocks, so we have to nest our code. - try: - orig = self._dict[key] - except KeyError: - # No existing variable in the environment, so just set - # it to the new value. - self._dict[key] = val - else: - try: - # Check if the original looks like a dictionary. - # If it is, we can't just try adding the value because - # dictionaries don't have __add__() methods, and - # things like UserList will incorrectly coerce the - # original dict to a list (which we don't want). - update_dict = orig.update - except AttributeError: - try: - # Most straightforward: just try to add them - # together. This will work in most cases, when the - # original and new values are of compatible types. - self._dict[key] = val + orig - except (KeyError, TypeError): - try: - # Check if the added value is a list. - add_to_val = val.append - except AttributeError: - # The added value isn't a list, but the - # original is (by process of elimination), - # so insert the the new value in the original - # (if there's one to insert). - if val: - orig.insert(0, val) - else: - # The added value is a list, so append - # the original to it (if there's a value - # to append). - if orig: - add_to_val(orig) - self._dict[key] = val - else: - # The original looks like a dictionary, so update it - # based on what we think the value looks like. - if SCons.Util.is_List(val): - for v in val: - orig[v] = None - else: - try: - update_dict(val) - except (AttributeError, TypeError, ValueError): - if SCons.Util.is_Dict(val): - for k, v in val.items(): - orig[k] = v - else: - orig[val] = None - self.scanner_map_delete(kw) - - def PrependENVPath(self, name, newpath, envname = 'ENV', sep = os.pathsep, - delete_existing=1): - """Prepend path elements to the path 'name' in the 'ENV' - dictionary for this environment. Will only add any particular - path once, and will normpath and normcase all paths to help - assure this. This can also handle the case where the env - variable is a list instead of a string. - - If delete_existing is 0, a newpath which is already in the path - will not be moved to the front (it will be left where it is). - """ - - orig = '' - if self._dict.has_key(envname) and self._dict[envname].has_key(name): - orig = self._dict[envname][name] - - nv = SCons.Util.PrependPath(orig, newpath, sep, delete_existing, - canonicalize=self._canonicalize) - - if not self._dict.has_key(envname): - self._dict[envname] = {} - - self._dict[envname][name] = nv - - def PrependUnique(self, delete_existing=0, **kw): - """Prepend values to existing construction variables - in an Environment, if they're not already there. - If delete_existing is 1, removes existing values first, so - values move to front. - """ - kw = copy_non_reserved_keywords(kw) - for key, val in kw.items(): - if SCons.Util.is_List(val): - val = _delete_duplicates(val, not delete_existing) - if not self._dict.has_key(key) or self._dict[key] in ('', None): - self._dict[key] = val - elif SCons.Util.is_Dict(self._dict[key]) and \ - SCons.Util.is_Dict(val): - self._dict[key].update(val) - elif SCons.Util.is_List(val): - dk = self._dict[key] - if not SCons.Util.is_List(dk): - dk = [dk] - if delete_existing: - dk = filter(lambda x, val=val: x not in val, dk) - else: - val = filter(lambda x, dk=dk: x not in dk, val) - self._dict[key] = val + dk - else: - dk = self._dict[key] - if SCons.Util.is_List(dk): - # By elimination, val is not a list. Since dk is a - # list, wrap val in a list first. - if delete_existing: - dk = filter(lambda x, val=val: x not in val, dk) - self._dict[key] = [val] + dk - else: - if not val in dk: - self._dict[key] = [val] + dk - else: - if delete_existing: - dk = filter(lambda x, val=val: x not in val, dk) - self._dict[key] = val + dk - self.scanner_map_delete(kw) - - def Replace(self, **kw): - """Replace existing construction variables in an Environment - with new construction variables and/or values. - """ - try: - kwbd = kw['BUILDERS'] - except KeyError: - pass - else: - kwbd = semi_deepcopy(kwbd) - del kw['BUILDERS'] - self.__setitem__('BUILDERS', kwbd) - kw = copy_non_reserved_keywords(kw) - self._update(semi_deepcopy(kw)) - self.scanner_map_delete(kw) - - def ReplaceIxes(self, path, old_prefix, old_suffix, new_prefix, new_suffix): - """ - Replace old_prefix with new_prefix and old_suffix with new_suffix. - - env - Environment used to interpolate variables. - path - the path that will be modified. - old_prefix - construction variable for the old prefix. - old_suffix - construction variable for the old suffix. - new_prefix - construction variable for the new prefix. - new_suffix - construction variable for the new suffix. - """ - old_prefix = self.subst('$'+old_prefix) - old_suffix = self.subst('$'+old_suffix) - - new_prefix = self.subst('$'+new_prefix) - new_suffix = self.subst('$'+new_suffix) - - dir,name = os.path.split(str(path)) - if name[:len(old_prefix)] == old_prefix: - name = name[len(old_prefix):] - if name[-len(old_suffix):] == old_suffix: - name = name[:-len(old_suffix)] - return os.path.join(dir, new_prefix+name+new_suffix) - - def SetDefault(self, **kw): - for k in kw.keys(): - if self._dict.has_key(k): - del kw[k] - apply(self.Replace, (), kw) - - def _find_toolpath_dir(self, tp): - return self.fs.Dir(self.subst(tp)).srcnode().abspath - - def Tool(self, tool, toolpath=None, **kw): - if SCons.Util.is_String(tool): - tool = self.subst(tool) - if toolpath is None: - toolpath = self.get('toolpath', []) - toolpath = map(self._find_toolpath_dir, toolpath) - tool = apply(SCons.Tool.Tool, (tool, toolpath), kw) - tool(self) - - def WhereIs(self, prog, path=None, pathext=None, reject=[]): - """Find prog in the path. - """ - if path is None: - try: - path = self['ENV']['PATH'] - except KeyError: - pass - elif SCons.Util.is_String(path): - path = self.subst(path) - if pathext is None: - try: - pathext = self['ENV']['PATHEXT'] - except KeyError: - pass - elif SCons.Util.is_String(pathext): - pathext = self.subst(pathext) - prog = self.subst(prog) - path = SCons.Util.WhereIs(prog, path, pathext, reject) - if path: return path - return None - - ####################################################################### - # Public methods for doing real "SCons stuff" (manipulating - # dependencies, setting attributes on targets, etc.). These begin - # with upper-case letters. The essential characteristic of methods - # in this section is that they all *should* have corresponding - # same-named global functions. - ####################################################################### - - def Action(self, *args, **kw): - def subst_string(a, self=self): - if SCons.Util.is_String(a): - a = self.subst(a) - return a - nargs = map(subst_string, args) - nkw = self.subst_kw(kw) - return apply(SCons.Action.Action, nargs, nkw) - - def AddPreAction(self, files, action): - nodes = self.arg2nodes(files, self.fs.Entry) - action = SCons.Action.Action(action) - uniq = {} - for executor in map(lambda n: n.get_executor(), nodes): - uniq[executor] = 1 - for executor in uniq.keys(): - executor.add_pre_action(action) - return nodes - - def AddPostAction(self, files, action): - nodes = self.arg2nodes(files, self.fs.Entry) - action = SCons.Action.Action(action) - uniq = {} - for executor in map(lambda n: n.get_executor(), nodes): - uniq[executor] = 1 - for executor in uniq.keys(): - executor.add_post_action(action) - return nodes - - def Alias(self, target, source=[], action=None, **kw): - tlist = self.arg2nodes(target, self.ans.Alias) - if not SCons.Util.is_List(source): - source = [source] - source = filter(None, source) - - if not action: - if not source: - # There are no source files and no action, so just - # return a target list of classic Alias Nodes, without - # any builder. The externally visible effect is that - # this will make the wrapping Script.BuildTask class - # say that there's "Nothing to be done" for this Alias, - # instead of that it's "up to date." - return tlist - - # No action, but there are sources. Re-call all the target - # builders to add the sources to each target. - result = [] - for t in tlist: - bld = t.get_builder(AliasBuilder) - result.extend(bld(self, t, source)) - return result - - nkw = self.subst_kw(kw) - nkw.update({ - 'action' : SCons.Action.Action(action), - 'source_factory' : self.fs.Entry, - 'multi' : 1, - 'is_explicit' : None, - }) - bld = apply(SCons.Builder.Builder, (), nkw) - - # Apply the Builder separately to each target so that the Aliases - # stay separate. If we did one "normal" Builder call with the - # whole target list, then all of the target Aliases would be - # associated under a single Executor. - result = [] - for t in tlist: - # Calling the convert() method will cause a new Executor to be - # created from scratch, so we have to explicitly initialize - # it with the target's existing sources, plus our new ones, - # so nothing gets lost. - b = t.get_builder() - if b is None or b is AliasBuilder: - b = bld - else: - nkw['action'] = b.action + action - b = apply(SCons.Builder.Builder, (), nkw) - t.convert() - result.extend(b(self, t, t.sources + source)) - return result - - def AlwaysBuild(self, *targets): - tlist = [] - for t in targets: - tlist.extend(self.arg2nodes(t, self.fs.Entry)) - for t in tlist: - t.set_always_build() - return tlist - - def BuildDir(self, *args, **kw): - if kw.has_key('build_dir'): - kw['variant_dir'] = kw['build_dir'] - del kw['build_dir'] - return apply(self.VariantDir, args, kw) - - def Builder(self, **kw): - nkw = self.subst_kw(kw) - return apply(SCons.Builder.Builder, [], nkw) - - def CacheDir(self, path): - import SCons.CacheDir - if not path is None: - path = self.subst(path) - self._CacheDir_path = path - - def Clean(self, targets, files): - global CleanTargets - tlist = self.arg2nodes(targets, self.fs.Entry) - flist = self.arg2nodes(files, self.fs.Entry) - for t in tlist: - try: - CleanTargets[t].extend(flist) - except KeyError: - CleanTargets[t] = flist - - def Configure(self, *args, **kw): - nargs = [self] - if args: - nargs = nargs + self.subst_list(args)[0] - nkw = self.subst_kw(kw) - nkw['_depth'] = kw.get('_depth', 0) + 1 - try: - nkw['custom_tests'] = self.subst_kw(nkw['custom_tests']) - except KeyError: - pass - return apply(SCons.SConf.SConf, nargs, nkw) - - def Command(self, target, source, action, **kw): - """Builds the supplied target files from the supplied - source files using the supplied action. Action may - be any type that the Builder constructor will accept - for an action.""" - bkw = { - 'action' : action, - 'target_factory' : self.fs.Entry, - 'source_factory' : self.fs.Entry, - } - try: bkw['source_scanner'] = kw['source_scanner'] - except KeyError: pass - else: del kw['source_scanner'] - bld = apply(SCons.Builder.Builder, (), bkw) - return apply(bld, (self, target, source), kw) - - def Depends(self, target, dependency): - """Explicity specify that 'target's depend on 'dependency'.""" - tlist = self.arg2nodes(target, self.fs.Entry) - dlist = self.arg2nodes(dependency, self.fs.Entry) - for t in tlist: - t.add_dependency(dlist) - return tlist - - def Dir(self, name, *args, **kw): - """ - """ - s = self.subst(name) - if SCons.Util.is_Sequence(s): - result=[] - for e in s: - result.append(apply(self.fs.Dir, (e,) + args, kw)) - return result - return apply(self.fs.Dir, (s,) + args, kw) - - def NoClean(self, *targets): - """Tags a target so that it will not be cleaned by -c""" - tlist = [] - for t in targets: - tlist.extend(self.arg2nodes(t, self.fs.Entry)) - for t in tlist: - t.set_noclean() - return tlist - - def NoCache(self, *targets): - """Tags a target so that it will not be cached""" - tlist = [] - for t in targets: - tlist.extend(self.arg2nodes(t, self.fs.Entry)) - for t in tlist: - t.set_nocache() - return tlist - - def Entry(self, name, *args, **kw): - """ - """ - s = self.subst(name) - if SCons.Util.is_Sequence(s): - result=[] - for e in s: - result.append(apply(self.fs.Entry, (e,) + args, kw)) - return result - return apply(self.fs.Entry, (s,) + args, kw) - - def Environment(self, **kw): - return apply(SCons.Environment.Environment, [], self.subst_kw(kw)) - - def Execute(self, action, *args, **kw): - """Directly execute an action through an Environment - """ - action = apply(self.Action, (action,) + args, kw) - result = action([], [], self) - if isinstance(result, SCons.Errors.BuildError): - errstr = result.errstr - if result.filename: - errstr = result.filename + ': ' + errstr - sys.stderr.write("scons: *** %s\n" % errstr) - return result.status - else: - return result - - def File(self, name, *args, **kw): - """ - """ - s = self.subst(name) - if SCons.Util.is_Sequence(s): - result=[] - for e in s: - result.append(apply(self.fs.File, (e,) + args, kw)) - return result - return apply(self.fs.File, (s,) + args, kw) - - def FindFile(self, file, dirs): - file = self.subst(file) - nodes = self.arg2nodes(dirs, self.fs.Dir) - return SCons.Node.FS.find_file(file, tuple(nodes)) - - def Flatten(self, sequence): - return SCons.Util.flatten(sequence) - - def GetBuildPath(self, files): - result = map(str, self.arg2nodes(files, self.fs.Entry)) - if SCons.Util.is_List(files): - return result - else: - return result[0] - - def Glob(self, pattern, ondisk=True, source=False, strings=False): - return self.fs.Glob(self.subst(pattern), ondisk, source, strings) - - def Ignore(self, target, dependency): - """Ignore a dependency.""" - tlist = self.arg2nodes(target, self.fs.Entry) - dlist = self.arg2nodes(dependency, self.fs.Entry) - for t in tlist: - t.add_ignore(dlist) - return tlist - - def Literal(self, string): - return SCons.Subst.Literal(string) - - def Local(self, *targets): - ret = [] - for targ in targets: - if isinstance(targ, SCons.Node.Node): - targ.set_local() - ret.append(targ) - else: - for t in self.arg2nodes(targ, self.fs.Entry): - t.set_local() - ret.append(t) - return ret - - def Precious(self, *targets): - tlist = [] - for t in targets: - tlist.extend(self.arg2nodes(t, self.fs.Entry)) - for t in tlist: - t.set_precious() - return tlist - - def Repository(self, *dirs, **kw): - dirs = self.arg2nodes(list(dirs), self.fs.Dir) - apply(self.fs.Repository, dirs, kw) - - def Requires(self, target, prerequisite): - """Specify that 'prerequisite' must be built before 'target', - (but 'target' does not actually depend on 'prerequisite' - and need not be rebuilt if it changes).""" - tlist = self.arg2nodes(target, self.fs.Entry) - plist = self.arg2nodes(prerequisite, self.fs.Entry) - for t in tlist: - t.add_prerequisite(plist) - return tlist - - def Scanner(self, *args, **kw): - nargs = [] - for arg in args: - if SCons.Util.is_String(arg): - arg = self.subst(arg) - nargs.append(arg) - nkw = self.subst_kw(kw) - return apply(SCons.Scanner.Base, nargs, nkw) - - def SConsignFile(self, name=".sconsign", dbm_module=None): - if not name is None: - name = self.subst(name) - if not os.path.isabs(name): - name = os.path.join(str(self.fs.SConstruct_dir), name) - if name: - name = os.path.normpath(name) - sconsign_dir = os.path.dirname(name) - if sconsign_dir and not os.path.exists(sconsign_dir): - self.Execute(SCons.Defaults.Mkdir(sconsign_dir)) - SCons.SConsign.File(name, dbm_module) - - def SideEffect(self, side_effect, target): - """Tell scons that side_effects are built as side - effects of building targets.""" - side_effects = self.arg2nodes(side_effect, self.fs.Entry) - targets = self.arg2nodes(target, self.fs.Entry) - - for side_effect in side_effects: - if side_effect.multiple_side_effect_has_builder(): - raise SCons.Errors.UserError, "Multiple ways to build the same target were specified for: %s" % str(side_effect) - side_effect.add_source(targets) - side_effect.side_effect = 1 - self.Precious(side_effect) - for target in targets: - target.side_effects.append(side_effect) - return side_effects - - def SourceCode(self, entry, builder): - """Arrange for a source code builder for (part of) a tree.""" - entries = self.arg2nodes(entry, self.fs.Entry) - for entry in entries: - entry.set_src_builder(builder) - return entries - - def SourceSignatures(self, type): - global _warn_source_signatures_deprecated - if _warn_source_signatures_deprecated: - msg = "The env.SourceSignatures() method is deprecated;\n" + \ - "\tconvert your build to use the env.Decider() method instead." - SCons.Warnings.warn(SCons.Warnings.DeprecatedSourceSignaturesWarning, msg) - _warn_source_signatures_deprecated = False - type = self.subst(type) - self.src_sig_type = type - if type == 'MD5': - if not SCons.Util.md5: - raise UserError, "MD5 signatures are not available in this version of Python." - self.decide_source = self._changed_content - elif type == 'timestamp': - self.decide_source = self._changed_timestamp_match - else: - raise UserError, "Unknown source signature type '%s'" % type - - def Split(self, arg): - """This function converts a string or list into a list of strings - or Nodes. This makes things easier for users by allowing files to - be specified as a white-space separated list to be split. - The input rules are: - - A single string containing names separated by spaces. These will be - split apart at the spaces. - - A single Node instance - - A list containing either strings or Node instances. Any strings - in the list are not split at spaces. - In all cases, the function returns a list of Nodes and strings.""" - if SCons.Util.is_List(arg): - return map(self.subst, arg) - elif SCons.Util.is_String(arg): - return string.split(self.subst(arg)) - else: - return [self.subst(arg)] - - def TargetSignatures(self, type): - global _warn_target_signatures_deprecated - if _warn_target_signatures_deprecated: - msg = "The env.TargetSignatures() method is deprecated;\n" + \ - "\tconvert your build to use the env.Decider() method instead." - SCons.Warnings.warn(SCons.Warnings.DeprecatedTargetSignaturesWarning, msg) - _warn_target_signatures_deprecated = False - type = self.subst(type) - self.tgt_sig_type = type - if type in ('MD5', 'content'): - if not SCons.Util.md5: - raise UserError, "MD5 signatures are not available in this version of Python." - self.decide_target = self._changed_content - elif type == 'timestamp': - self.decide_target = self._changed_timestamp_match - elif type == 'build': - self.decide_target = self._changed_build - elif type == 'source': - self.decide_target = self._changed_source - else: - raise UserError, "Unknown target signature type '%s'"%type - - def Value(self, value, built_value=None): - """ - """ - return SCons.Node.Python.Value(value, built_value) - - def VariantDir(self, variant_dir, src_dir, duplicate=1): - variant_dir = self.arg2nodes(variant_dir, self.fs.Dir)[0] - src_dir = self.arg2nodes(src_dir, self.fs.Dir)[0] - self.fs.VariantDir(variant_dir, src_dir, duplicate) - - def FindSourceFiles(self, node='.'): - """ returns a list of all source files. - """ - node = self.arg2nodes(node, self.fs.Entry)[0] - - sources = [] - # Uncomment this and get rid of the global definition when we - # drop support for pre-2.2 Python versions. - #def build_source(ss, result): - # for s in ss: - # if isinstance(s, SCons.Node.FS.Dir): - # build_source(s.all_children(), result) - # elif s.has_builder(): - # build_source(s.sources, result) - # elif isinstance(s.disambiguate(), SCons.Node.FS.File): - # result.append(s) - build_source(node.all_children(), sources) - - # THIS CODE APPEARS TO HAVE NO EFFECT - # # get the final srcnode for all nodes, this means stripping any - # # attached build node by calling the srcnode function - # for file in sources: - # srcnode = file.srcnode() - # while srcnode != file.srcnode(): - # srcnode = file.srcnode() - - # remove duplicates - return list(set(sources)) - - def FindInstalledFiles(self): - """ returns the list of all targets of the Install and InstallAs Builder. - """ - from SCons.Tool import install - if install._UNIQUE_INSTALLED_FILES is None: - install._UNIQUE_INSTALLED_FILES = SCons.Util.uniquer_hashables(install._INSTALLED_FILES) - return install._UNIQUE_INSTALLED_FILES - -class OverrideEnvironment(Base): - """A proxy that overrides variables in a wrapped construction - environment by returning values from an overrides dictionary in - preference to values from the underlying subject environment. - - This is a lightweight (I hope) proxy that passes through most use of - attributes to the underlying Environment.Base class, but has just - enough additional methods defined to act like a real construction - environment with overridden values. It can wrap either a Base - construction environment, or another OverrideEnvironment, which - can in turn nest arbitrary OverrideEnvironments... - - Note that we do *not* call the underlying base class - (SubsitutionEnvironment) initialization, because we get most of those - from proxying the attributes of the subject construction environment. - But because we subclass SubstitutionEnvironment, this class also - has inherited arg2nodes() and subst*() methods; those methods can't - be proxied because they need *this* object's methods to fetch the - values from the overrides dictionary. - """ - - if SCons.Memoize.use_memoizer: - __metaclass__ = SCons.Memoize.Memoized_Metaclass - - def __init__(self, subject, overrides={}): - if __debug__: logInstanceCreation(self, 'Environment.OverrideEnvironment') - self.__dict__['__subject'] = subject - self.__dict__['overrides'] = overrides - - # Methods that make this class act like a proxy. - def __getattr__(self, name): - return getattr(self.__dict__['__subject'], name) - def __setattr__(self, name, value): - setattr(self.__dict__['__subject'], name, value) - - # Methods that make this class act like a dictionary. - def __getitem__(self, key): - try: - return self.__dict__['overrides'][key] - except KeyError: - return self.__dict__['__subject'].__getitem__(key) - def __setitem__(self, key, value): - if not is_valid_construction_var(key): - raise SCons.Errors.UserError, "Illegal construction variable `%s'" % key - self.__dict__['overrides'][key] = value - def __delitem__(self, key): - try: - del self.__dict__['overrides'][key] - except KeyError: - deleted = 0 - else: - deleted = 1 - try: - result = self.__dict__['__subject'].__delitem__(key) - except KeyError: - if not deleted: - raise - result = None - return result - def get(self, key, default=None): - """Emulates the get() method of dictionaries.""" - try: - return self.__dict__['overrides'][key] - except KeyError: - return self.__dict__['__subject'].get(key, default) - def has_key(self, key): - try: - self.__dict__['overrides'][key] - return 1 - except KeyError: - return self.__dict__['__subject'].has_key(key) - def __contains__(self, key): - if self.__dict__['overrides'].__contains__(key): - return 1 - return self.__dict__['__subject'].__contains__(key) - def Dictionary(self): - """Emulates the items() method of dictionaries.""" - d = self.__dict__['__subject'].Dictionary().copy() - d.update(self.__dict__['overrides']) - return d - def items(self): - """Emulates the items() method of dictionaries.""" - return self.Dictionary().items() - - # Overridden private construction environment methods. - def _update(self, dict): - """Update an environment's values directly, bypassing the normal - checks that occur when users try to set items. - """ - self.__dict__['overrides'].update(dict) - - def gvars(self): - return self.__dict__['__subject'].gvars() - - def lvars(self): - lvars = self.__dict__['__subject'].lvars() - lvars.update(self.__dict__['overrides']) - return lvars - - # Overridden public construction environment methods. - def Replace(self, **kw): - kw = copy_non_reserved_keywords(kw) - self.__dict__['overrides'].update(semi_deepcopy(kw)) - -# The entry point that will be used by the external world -# to refer to a construction environment. This allows the wrapper -# interface to extend a construction environment for its own purposes -# by subclassing SCons.Environment.Base and then assigning the -# class to SCons.Environment.Environment. - -Environment = Base - -# An entry point for returning a proxy subclass instance that overrides -# the subst*() methods so they don't actually perform construction -# variable substitution. This is specifically intended to be the shim -# layer in between global function calls (which don't want construction -# variable substitution) and the DefaultEnvironment() (which would -# substitute variables if left to its own devices).""" -# -# We have to wrap this in a function that allows us to delay definition of -# the class until it's necessary, so that when it subclasses Environment -# it will pick up whatever Environment subclass the wrapper interface -# might have assigned to SCons.Environment.Environment. - -def NoSubstitutionProxy(subject): - class _NoSubstitutionProxy(Environment): - def __init__(self, subject): - self.__dict__['__subject'] = subject - def __getattr__(self, name): - return getattr(self.__dict__['__subject'], name) - def __setattr__(self, name, value): - return setattr(self.__dict__['__subject'], name, value) - def raw_to_mode(self, dict): - try: - raw = dict['raw'] - except KeyError: - pass - else: - del dict['raw'] - dict['mode'] = raw - def subst(self, string, *args, **kwargs): - return string - def subst_kw(self, kw, *args, **kwargs): - return kw - def subst_list(self, string, *args, **kwargs): - nargs = (string, self,) + args - nkw = kwargs.copy() - nkw['gvars'] = {} - self.raw_to_mode(nkw) - return apply(SCons.Subst.scons_subst_list, nargs, nkw) - def subst_target_source(self, string, *args, **kwargs): - nargs = (string, self,) + args - nkw = kwargs.copy() - nkw['gvars'] = {} - self.raw_to_mode(nkw) - return apply(SCons.Subst.scons_subst, nargs, nkw) - return _NoSubstitutionProxy(subject) - -# Local Variables: -# tab-width:4 -# indent-tabs-mode:nil -# End: -# vim: set expandtab tabstop=4 shiftwidth=4: |