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Direktori : /proc/self/root/proc/self/root/usr/lib/python2.7/site-packages/libfuturize/fixes/ |
Current File : //proc/self/root/proc/self/root/usr/lib/python2.7/site-packages/libfuturize/fixes/fix_UserDict.py |
"""Fix UserDict. Incomplete! TODO: base this on fix_urllib perhaps? """ # Local imports from lib2to3 import fixer_base from lib2to3.fixer_util import Name, attr_chain from lib2to3.fixes.fix_imports import alternates, build_pattern, FixImports MAPPING = {'UserDict': 'collections', } # def alternates(members): # return "(" + "|".join(map(repr, members)) + ")" # # # def build_pattern(mapping=MAPPING): # mod_list = ' | '.join(["module_name='%s'" % key for key in mapping]) # bare_names = alternates(mapping.keys()) # # yield """name_import=import_name< 'import' ((%s) | # multiple_imports=dotted_as_names< any* (%s) any* >) > # """ % (mod_list, mod_list) # yield """import_from< 'from' (%s) 'import' ['('] # ( any | import_as_name< any 'as' any > | # import_as_names< any* >) [')'] > # """ % mod_list # yield """import_name< 'import' (dotted_as_name< (%s) 'as' any > | # multiple_imports=dotted_as_names< # any* dotted_as_name< (%s) 'as' any > any* >) > # """ % (mod_list, mod_list) # # # Find usages of module members in code e.g. thread.foo(bar) # yield "power< bare_with_attr=(%s) trailer<'.' any > any* >" % bare_names # class FixUserDict(fixer_base.BaseFix): class FixUserdict(FixImports): BM_compatible = True keep_line_order = True # This is overridden in fix_imports2. mapping = MAPPING # We want to run this fixer late, so fix_import doesn't try to make stdlib # renames into relative imports. run_order = 6 def build_pattern(self): return "|".join(build_pattern(self.mapping)) def compile_pattern(self): # We override this, so MAPPING can be pragmatically altered and the # changes will be reflected in PATTERN. self.PATTERN = self.build_pattern() super(FixImports, self).compile_pattern() # Don't match the node if it's within another match. def match(self, node): match = super(FixImports, self).match results = match(node) if results: # Module usage could be in the trailer of an attribute lookup, so we # might have nested matches when "bare_with_attr" is present. if "bare_with_attr" not in results and \ any(match(obj) for obj in attr_chain(node, "parent")): return False return results return False def start_tree(self, tree, filename): super(FixImports, self).start_tree(tree, filename) self.replace = {} def transform(self, node, results): import_mod = results.get("module_name") if import_mod: mod_name = import_mod.value new_name = unicode(self.mapping[mod_name]) import_mod.replace(Name(new_name, prefix=import_mod.prefix)) if "name_import" in results: # If it's not a "from x import x, y" or "import x as y" import, # marked its usage to be replaced. self.replace[mod_name] = new_name if "multiple_imports" in results: # This is a nasty hack to fix multiple imports on a line (e.g., # "import StringIO, urlparse"). The problem is that I can't # figure out an easy way to make a pattern recognize the keys of # MAPPING randomly sprinkled in an import statement. results = self.match(node) if results: self.transform(node, results) else: # Replace usage of the module. bare_name = results["bare_with_attr"][0] new_name = self.replace.get(bare_name.value) if new_name: bare_name.replace(Name(new_name, prefix=bare_name.prefix))