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# -*- coding: utf-8 -*- """ past.translation ================== The ``past.translation`` package provides an import hook for Python 3 which transparently runs ``futurize`` fixers over Python 2 code on import to convert print statements into functions, etc. It is intended to assist users in migrating to Python 3.x even if some dependencies still only support Python 2.x. Usage ----- Once your Py2 package is installed in the usual module search path, the import hook is invoked as follows: >>> from past.translation import autotranslate >>> autotranslate('mypackagename') Or: >>> autotranslate(['mypackage1', 'mypackage2']) You can unregister the hook using:: >>> from past.translation import remove_hooks >>> remove_hooks() Author: Ed Schofield. Inspired by and based on ``uprefix`` by Vinay M. Sajip. """ import imp import logging import marshal import os import sys import copy from lib2to3.pgen2.parse import ParseError from lib2to3.refactor import RefactoringTool from libfuturize import fixes logger = logging.getLogger(__name__) logger.setLevel(logging.DEBUG) myfixes = (list(fixes.libfuturize_fix_names_stage1) + list(fixes.lib2to3_fix_names_stage1) + list(fixes.libfuturize_fix_names_stage2) + list(fixes.lib2to3_fix_names_stage2)) # We detect whether the code is Py2 or Py3 by applying certain lib2to3 fixers # to it. If the diff is empty, it's Python 3 code. py2_detect_fixers = [ # From stage 1: 'lib2to3.fixes.fix_apply', # 'lib2to3.fixes.fix_dict', # TODO: add support for utils.viewitems() etc. and move to stage2 'lib2to3.fixes.fix_except', 'lib2to3.fixes.fix_execfile', 'lib2to3.fixes.fix_exitfunc', 'lib2to3.fixes.fix_funcattrs', 'lib2to3.fixes.fix_filter', 'lib2to3.fixes.fix_has_key', 'lib2to3.fixes.fix_idioms', 'lib2to3.fixes.fix_import', # makes any implicit relative imports explicit. (Use with ``from __future__ import absolute_import) 'lib2to3.fixes.fix_intern', 'lib2to3.fixes.fix_isinstance', 'lib2to3.fixes.fix_methodattrs', 'lib2to3.fixes.fix_ne', 'lib2to3.fixes.fix_numliterals', # turns 1L into 1, 0755 into 0o755 'lib2to3.fixes.fix_paren', 'lib2to3.fixes.fix_print', 'lib2to3.fixes.fix_raise', # uses incompatible with_traceback() method on exceptions 'lib2to3.fixes.fix_renames', 'lib2to3.fixes.fix_reduce', # 'lib2to3.fixes.fix_set_literal', # this is unnecessary and breaks Py2.6 support 'lib2to3.fixes.fix_repr', 'lib2to3.fixes.fix_standarderror', 'lib2to3.fixes.fix_sys_exc', 'lib2to3.fixes.fix_throw', 'lib2to3.fixes.fix_tuple_params', 'lib2to3.fixes.fix_types', 'lib2to3.fixes.fix_ws_comma', 'lib2to3.fixes.fix_xreadlines', # From stage 2: 'lib2to3.fixes.fix_basestring', # 'lib2to3.fixes.fix_buffer', # perhaps not safe. Test this. # 'lib2to3.fixes.fix_callable', # not needed in Py3.2+ # 'lib2to3.fixes.fix_dict', # TODO: add support for utils.viewitems() etc. 'lib2to3.fixes.fix_exec', # 'lib2to3.fixes.fix_future', # we don't want to remove __future__ imports 'lib2to3.fixes.fix_getcwdu', # 'lib2to3.fixes.fix_imports', # called by libfuturize.fixes.fix_future_standard_library # 'lib2to3.fixes.fix_imports2', # we don't handle this yet (dbm) # 'lib2to3.fixes.fix_input', # 'lib2to3.fixes.fix_itertools', # 'lib2to3.fixes.fix_itertools_imports', 'lib2to3.fixes.fix_long', # 'lib2to3.fixes.fix_map', # 'lib2to3.fixes.fix_metaclass', # causes SyntaxError in Py2! Use the one from ``six`` instead 'lib2to3.fixes.fix_next', 'lib2to3.fixes.fix_nonzero', # TODO: add a decorator for mapping __bool__ to __nonzero__ # 'lib2to3.fixes.fix_operator', # we will need support for this by e.g. extending the Py2 operator module to provide those functions in Py3 'lib2to3.fixes.fix_raw_input', # 'lib2to3.fixes.fix_unicode', # strips off the u'' prefix, which removes a potentially helpful source of information for disambiguating unicode/byte strings # 'lib2to3.fixes.fix_urllib', 'lib2to3.fixes.fix_xrange', # 'lib2to3.fixes.fix_zip', ] class RTs: """ A namespace for the refactoring tools. This avoids creating these at the module level, which slows down the module import. (See issue #117). There are two possible grammars: with or without the print statement. Hence we have two possible refactoring tool implementations. """ _rt = None _rtp = None _rt_py2_detect = None _rtp_py2_detect = None @staticmethod def setup(): """ Call this before using the refactoring tools to create them on demand if needed. """ if None in [RTs._rt, RTs._rtp]: RTs._rt = RefactoringTool(myfixes) RTs._rtp = RefactoringTool(myfixes, {'print_function': True}) @staticmethod def setup_detect_python2(): """ Call this before using the refactoring tools to create them on demand if needed. """ if None in [RTs._rt_py2_detect, RTs._rtp_py2_detect]: RTs._rt_py2_detect = RefactoringTool(py2_detect_fixers) RTs._rtp_py2_detect = RefactoringTool(py2_detect_fixers, {'print_function': True}) # We need to find a prefix for the standard library, as we don't want to # process any files there (they will already be Python 3). # # The following method is used by Sanjay Vinip in uprefix. This fails for # ``conda`` environments: # # In a non-pythonv virtualenv, sys.real_prefix points to the installed Python. # # In a pythonv venv, sys.base_prefix points to the installed Python. # # Outside a virtual environment, sys.prefix points to the installed Python. # if hasattr(sys, 'real_prefix'): # _syslibprefix = sys.real_prefix # else: # _syslibprefix = getattr(sys, 'base_prefix', sys.prefix) # Instead, we use the portion of the path common to both the stdlib modules # ``math`` and ``urllib``. def splitall(path): """ Split a path into all components. From Python Cookbook. """ allparts = [] while True: parts = os.path.split(path) if parts[0] == path: # sentinel for absolute paths allparts.insert(0, parts[0]) break elif parts[1] == path: # sentinel for relative paths allparts.insert(0, parts[1]) break else: path = parts[0] allparts.insert(0, parts[1]) return allparts def common_substring(s1, s2): """ Returns the longest common substring to the two strings, starting from the left. """ chunks = [] path1 = splitall(s1) path2 = splitall(s2) for (dir1, dir2) in zip(path1, path2): if dir1 != dir2: break chunks.append(dir1) return os.path.join(*chunks) # _stdlibprefix = common_substring(math.__file__, urllib.__file__) def detect_python2(source, pathname): """ Returns a bool indicating whether we think the code is Py2 """ RTs.setup_detect_python2() try: tree = RTs._rt_py2_detect.refactor_string(source, pathname) except ParseError as e: if e.msg != 'bad input' or e.value != '=': raise tree = RTs._rtp.refactor_string(source, pathname) if source != str(tree)[:-1]: # remove added newline # The above fixers made changes, so we conclude it's Python 2 code logger.debug('Detected Python 2 code: {0}'.format(pathname)) return True else: logger.debug('Detected Python 3 code: {0}'.format(pathname)) return False class Py2Fixer(object): """ An import hook class that uses lib2to3 for source-to-source translation of Py2 code to Py3. """ # See the comments on :class:future.standard_library.RenameImport. # We add this attribute here so remove_hooks() and install_hooks() can # unambiguously detect whether the import hook is installed: PY2FIXER = True def __init__(self): self.found = None self.base_exclude_paths = ['future', 'past'] self.exclude_paths = copy.copy(self.base_exclude_paths) self.include_paths = [] def include(self, paths): """ Pass in a sequence of module names such as 'plotrique.plotting' that, if present at the leftmost side of the full package name, would specify the module to be transformed from Py2 to Py3. """ self.include_paths += paths def exclude(self, paths): """ Pass in a sequence of strings such as 'mymodule' that, if present at the leftmost side of the full package name, would cause the module not to undergo any source transformation. """ self.exclude_paths += paths def find_module(self, fullname, path=None): logger.debug('Running find_module: {0}...'.format(fullname)) if '.' in fullname: parent, child = fullname.rsplit('.', 1) if path is None: loader = self.find_module(parent, path) mod = loader.load_module(parent) path = mod.__path__ fullname = child # Perhaps we should try using the new importlib functionality in Python # 3.3: something like this? # thing = importlib.machinery.PathFinder.find_module(fullname, path) try: self.found = imp.find_module(fullname, path) except Exception as e: logger.debug('Py2Fixer could not find {0}') logger.debug('Exception was: {0})'.format(fullname, e)) return None self.kind = self.found[-1][-1] if self.kind == imp.PKG_DIRECTORY: self.pathname = os.path.join(self.found[1], '__init__.py') elif self.kind == imp.PY_SOURCE: self.pathname = self.found[1] return self def transform(self, source): # This implementation uses lib2to3, # you can override and use something else # if that's better for you # lib2to3 likes a newline at the end RTs.setup() source += '\n' try: tree = RTs._rt.refactor_string(source, self.pathname) except ParseError as e: if e.msg != 'bad input' or e.value != '=': raise tree = RTs._rtp.refactor_string(source, self.pathname) # could optimise a bit for only doing str(tree) if # getattr(tree, 'was_changed', False) returns True return str(tree)[:-1] # remove added newline def load_module(self, fullname): logger.debug('Running load_module for {0}...'.format(fullname)) if fullname in sys.modules: mod = sys.modules[fullname] else: if self.kind in (imp.PY_COMPILED, imp.C_EXTENSION, imp.C_BUILTIN, imp.PY_FROZEN): convert = False # elif (self.pathname.startswith(_stdlibprefix) # and 'site-packages' not in self.pathname): # # We assume it's a stdlib package in this case. Is this too brittle? # # Please file a bug report at https://github.com/PythonCharmers/python-future # # if so. # convert = False # in theory, other paths could be configured to be excluded here too elif any([fullname.startswith(path) for path in self.exclude_paths]): convert = False elif any([fullname.startswith(path) for path in self.include_paths]): convert = True else: convert = False if not convert: logger.debug('Excluded {0} from translation'.format(fullname)) mod = imp.load_module(fullname, *self.found) else: logger.debug('Autoconverting {0} ...'.format(fullname)) mod = imp.new_module(fullname) sys.modules[fullname] = mod # required by PEP 302 mod.__file__ = self.pathname mod.__name__ = fullname mod.__loader__ = self # This: # mod.__package__ = '.'.join(fullname.split('.')[:-1]) # seems to result in "SystemError: Parent module '' not loaded, # cannot perform relative import" for a package's __init__.py # file. We use the approach below. Another option to try is the # minimal load_module pattern from the PEP 302 text instead. # Is the test in the next line more or less robust than the # following one? Presumably less ... # ispkg = self.pathname.endswith('__init__.py') if self.kind == imp.PKG_DIRECTORY: mod.__path__ = [ os.path.dirname(self.pathname) ] mod.__package__ = fullname else: #else, regular module mod.__path__ = [] mod.__package__ = fullname.rpartition('.')[0] try: cachename = imp.cache_from_source(self.pathname) if not os.path.exists(cachename): update_cache = True else: sourcetime = os.stat(self.pathname).st_mtime cachetime = os.stat(cachename).st_mtime update_cache = cachetime < sourcetime # # Force update_cache to work around a problem with it being treated as Py3 code??? # update_cache = True if not update_cache: with open(cachename, 'rb') as f: data = f.read() try: code = marshal.loads(data) except Exception: # pyc could be corrupt. Regenerate it update_cache = True if update_cache: if self.found[0]: source = self.found[0].read() elif self.kind == imp.PKG_DIRECTORY: with open(self.pathname) as f: source = f.read() if detect_python2(source, self.pathname): source = self.transform(source) code = compile(source, self.pathname, 'exec') dirname = os.path.dirname(cachename) try: if not os.path.exists(dirname): os.makedirs(dirname) with open(cachename, 'wb') as f: data = marshal.dumps(code) f.write(data) except Exception: # could be write-protected pass exec(code, mod.__dict__) except Exception as e: # must remove module from sys.modules del sys.modules[fullname] raise # keep it simple if self.found[0]: self.found[0].close() return mod _hook = Py2Fixer() def install_hooks(include_paths=(), exclude_paths=()): if isinstance(include_paths, str): include_paths = (include_paths,) if isinstance(exclude_paths, str): exclude_paths = (exclude_paths,) assert len(include_paths) + len(exclude_paths) > 0, 'Pass at least one argument' _hook.include(include_paths) _hook.exclude(exclude_paths) # _hook.debug = debug enable = sys.version_info[0] >= 3 # enabled for all 3.x+ if enable and _hook not in sys.meta_path: sys.meta_path.insert(0, _hook) # insert at beginning. This could be made a parameter # We could return the hook when there are ways of configuring it #return _hook def remove_hooks(): if _hook in sys.meta_path: sys.meta_path.remove(_hook) def detect_hooks(): """ Returns True if the import hooks are installed, False if not. """ return _hook in sys.meta_path # present = any([hasattr(hook, 'PY2FIXER') for hook in sys.meta_path]) # return present class hooks(object): """ Acts as a context manager. Use like this: >>> from past import translation >>> with translation.hooks(): ... import mypy2module >>> import requests # py2/3 compatible anyway >>> # etc. """ def __enter__(self): self.hooks_were_installed = detect_hooks() install_hooks() return self def __exit__(self, *args): if not self.hooks_were_installed: remove_hooks() class suspend_hooks(object): """ Acts as a context manager. Use like this: >>> from past import translation >>> translation.install_hooks() >>> import http.client >>> # ... >>> with translation.suspend_hooks(): >>> import requests # or others that support Py2/3 If the hooks were disabled before the context, they are not installed when the context is left. """ def __enter__(self): self.hooks_were_installed = detect_hooks() remove_hooks() return self def __exit__(self, *args): if self.hooks_were_installed: install_hooks() # alias autotranslate = install_hooks