""" :mod:`jedi.evaluate.imports` is here to resolve import statements and return the modules/classes/functions/whatever, which they stand for. However there's not any actual importing done. This module is about finding modules in the filesystem. This can be quite tricky sometimes, because Python imports are not always that simple. This module uses imp for python up to 3.2 and importlib for python 3.3 on; the correct implementation is delegated to _compatibility. This module also supports import autocompletion, which means to complete statements like ``from datetim`` (curser at the end would return ``datetime``). """ import imp import os import pkgutil import sys from itertools import chain from jedi._compatibility import find_module, unicode from jedi import common from jedi import debug from jedi import cache from jedi.parser import fast from jedi.parser import tree from jedi.evaluate import sys_path from jedi.evaluate import helpers from jedi import settings from jedi.common import source_to_unicode from jedi.evaluate import compiled from jedi.evaluate import analysis from jedi.evaluate.cache import memoize_default, NO_DEFAULT def completion_names(evaluator, imp, pos): name = imp.name_for_position(pos) module = evaluator.wrap(imp.get_parent_until()) if name is None: level = 0 for node in imp.children: if node.end_pos <= pos: if node in ('.', '...'): level += len(node.value) import_path = [] else: # Completion on an existing name. # The import path needs to be reduced by one, because we're completing. import_path = imp.path_for_name(name)[:-1] level = imp.level importer = Importer(evaluator, tuple(import_path), module, level) if isinstance(imp, tree.ImportFrom): c = imp.children only_modules = c[c.index('import')].start_pos >= pos else: only_modules = True return importer.completion_names(evaluator, only_modules) class ImportWrapper(tree.Base): def __init__(self, evaluator, name): self._evaluator = evaluator self._name = name self._import = name.get_parent_until(tree.Import) self.import_path = self._import.path_for_name(name) @memoize_default() def follow(self, is_goto=False): if self._evaluator.recursion_detector.push_stmt(self._import): # check recursion return [] try: module = self._evaluator.wrap(self._import.get_parent_until()) import_path = self._import.path_for_name(self._name) from_import_name = None try: from_names = self._import.get_from_names() except AttributeError: # Is an import_name pass else: if len(from_names) + 1 == len(import_path): # We have to fetch the from_names part first and then check # if from_names exists in the modules. from_import_name = import_path[-1] import_path = from_names importer = Importer(self._evaluator, tuple(import_path), module, self._import.level) types = importer.follow() #if self._import.is_nested() and not self.nested_resolve: # scopes = [NestedImportModule(module, self._import)] if from_import_name is not None: types = list(chain.from_iterable( self._evaluator.find_types(t, unicode(from_import_name), is_goto=is_goto) for t in types)) if not types: path = import_path + [from_import_name] importer = Importer(self._evaluator, tuple(path), module, self._import.level) types = importer.follow() # goto only accepts `Name` if is_goto: types = [s.name for s in types] else: # goto only accepts `Name` if is_goto: types = [s.name for s in types] debug.dbg('after import: %s', types) finally: self._evaluator.recursion_detector.pop_stmt() return types class NestedImportModule(tree.Module): """ TODO while there's no use case for nested import module right now, we might be able to use them for static analysis checks later on. """ def __init__(self, module, nested_import): self._module = module self._nested_import = nested_import def _get_nested_import_name(self): """ Generates an Import statement, that can be used to fake nested imports. """ i = self._nested_import # This is not an existing Import statement. Therefore, set position to # 0 (0 is not a valid line number). zero = (0, 0) names = [unicode(name) for name in i.namespace_names[1:]] name = helpers.FakeName(names, self._nested_import) new = tree.Import(i._sub_module, zero, zero, name) new.parent = self._module debug.dbg('Generated a nested import: %s', new) return helpers.FakeName(str(i.namespace_names[1]), new) def __getattr__(self, name): return getattr(self._module, name) def __repr__(self): return "<%s: %s of %s>" % (self.__class__.__name__, self._module, self._nested_import) def _add_error(evaluator, name, message=None): if hasattr(name, 'parent'): # Should be a name, not a string! analysis.add(evaluator, 'import-error', name, message) def get_init_path(directory_path): """ The __init__ file can be searched in a directory. If found return it, else None. """ for suffix, _, _ in imp.get_suffixes(): path = os.path.join(directory_path, '__init__' + suffix) if os.path.exists(path): return path return None class Importer(object): def __init__(self, evaluator, import_path, module, level=0): """ An implementation similar to ``__import__``. Use `follow` to actually follow the imports. *level* specifies whether to use absolute or relative imports. 0 (the default) means only perform absolute imports. Positive values for level indicate the number of parent directories to search relative to the directory of the module calling ``__import__()`` (see PEP 328 for the details). :param import_path: List of namespaces (strings or Names). """ debug.speed('import %s' % (import_path,)) self._evaluator = evaluator self.level = level self.module = module try: self.file_path = module.py__file__() except AttributeError: # Can be None for certain compiled modules like 'builtins'. self.file_path = None if level: base = module.py__package__().split('.') if base == ['']: base = [] if level > len(base): path = module.py__file__() import_path = list(import_path) for i in range(level): path = os.path.dirname(path) dir_name = os.path.basename(path) # This is not the proper way to do relative imports. However, since # Jedi cannot be sure about the entry point, we just calculate an # absolute path here. if dir_name: import_path.insert(0, dir_name) else: _add_error(self._evaluator, import_path[-1]) import_path = [] # TODO add import error. debug.warning('Attempted relative import beyond top-level package.') else: # Here we basically rewrite the level to 0. import_path = tuple(base) + import_path self.import_path = import_path @property def str_import_path(self): """Returns the import path as pure strings instead of `Name`.""" return tuple(str(name) for name in self.import_path) @memoize_default() def sys_path_with_modifications(self): in_path = [] sys_path_mod = list(sys_path.sys_path_with_modifications(self._evaluator, self.module)) if self.file_path is not None: # If you edit e.g. gunicorn, there will be imports like this: # `from gunicorn import something`. But gunicorn is not in the # sys.path. Therefore look if gunicorn is a parent directory, #56. if self.import_path: # TODO is this check really needed? for path in sys_path.traverse_parents(self.file_path): if os.path.basename(path) == self.str_import_path[0]: in_path.append(os.path.dirname(path)) # Since we know nothing about the call location of the sys.path, # it's a possibility that the current directory is the origin of # the Python execution. sys_path_mod.insert(0, os.path.dirname(self.file_path)) return in_path + sys_path_mod @memoize_default(NO_DEFAULT) def follow(self): if not self.import_path: return [] return self._do_import(self.import_path, self.sys_path_with_modifications()) def _do_import(self, import_path, sys_path): """ This method is very similar to importlib's `_gcd_import`. """ import_parts = [str(i) for i in import_path] # Handle "magic" Flask extension imports: # ``flask.ext.foo`` is really ``flask_foo`` or ``flaskext.foo``. if len(import_path) > 2 and import_parts[:2] == ['flask', 'ext']: # New style. ipath = ('flask_' + str(import_parts[2]),) + import_path[3:] modules = self._do_import(ipath, sys_path) if modules: return modules else: # Old style return self._do_import(('flaskext',) + import_path[2:], sys_path) module_name = '.'.join(import_parts) try: return [self._evaluator.modules[module_name]] except KeyError: pass if len(import_path) > 1: # This is a recursive way of importing that works great with # the module cache. bases = self._do_import(import_path[:-1], sys_path) if not bases: return [] # We can take the first element, because only the os special # case yields multiple modules, which is not important for # further imports. base = bases[0] # This is a huge exception, we follow a nested import # ``os.path``, because it's a very important one in Python # that is being achieved by messing with ``sys.modules`` in # ``os``. if [str(i) for i in import_path] == ['os', 'path']: return self._evaluator.find_types(base, 'path') try: # It's possible that by giving it always the sys path (and not # the __path__ attribute of the parent, we get wrong results # and nested namespace packages don't work. But I'm not sure. paths = base.py__path__(sys_path) except AttributeError: # The module is not a package. _add_error(self._evaluator, import_path[-1]) return [] else: debug.dbg('search_module %s in paths %s', module_name, paths) for path in paths: # At the moment we are only using one path. So this is # not important to be correct. try: module_file, module_path, is_pkg = \ find_module(import_parts[-1], [path]) break except ImportError: module_path = None if module_path is None: _add_error(self._evaluator, import_path[-1]) return [] else: try: debug.dbg('search_module %s in %s', import_parts[-1], self.file_path) # Override the sys.path. It works only good that way. # Injecting the path directly into `find_module` did not work. sys.path, temp = sys_path, sys.path try: module_file, module_path, is_pkg = \ find_module(import_parts[-1]) finally: sys.path = temp except ImportError: # The module is not a package. _add_error(self._evaluator, import_path[-1]) return [] source = None if is_pkg: # In this case, we don't have a file yet. Search for the # __init__ file. module_path = get_init_path(module_path) elif module_file: source = module_file.read() module_file.close() if module_file is None and not module_path.endswith('.py'): module = compiled.load_module(self._evaluator, module_path) else: module = _load_module(self._evaluator, module_path, source, sys_path) self._evaluator.modules[module_name] = module return [module] def _generate_name(self, name): return helpers.FakeName(name, parent=self.module) def _get_module_names(self, search_path=None): """ Get the names of all modules in the search_path. This means file names and not names defined in the files. """ names = [] # add builtin module names if search_path is None: names += [self._generate_name(name) for name in sys.builtin_module_names] if search_path is None: search_path = self.sys_path_with_modifications() for module_loader, name, is_pkg in pkgutil.iter_modules(search_path): names.append(self._generate_name(name)) return names def completion_names(self, evaluator, only_modules=False): """ :param only_modules: Indicates wheter it's possible to import a definition that is not defined in a module. """ from jedi.evaluate import finder names = [] if self.import_path: # flask if self.str_import_path == ('flask', 'ext'): # List Flask extensions like ``flask_foo`` for mod in self._get_module_names(): modname = str(mod) if modname.startswith('flask_'): extname = modname[len('flask_'):] names.append(self._generate_name(extname)) # Now the old style: ``flaskext.foo`` for dir in self.sys_path_with_modifications(): flaskext = os.path.join(dir, 'flaskext') if os.path.isdir(flaskext): names += self._get_module_names([flaskext]) for scope in self.follow(): # Non-modules are not completable. if not scope.type == 'file_input': # not a module continue # namespace packages if isinstance(scope, tree.Module) and scope.path.endswith('__init__.py'): paths = scope.py__path__(self.sys_path_with_modifications()) names += self._get_module_names(paths) if only_modules: # In the case of an import like `from x.` we don't need to # add all the variables. if ('os',) == self.str_import_path and not self.level: # os.path is a hardcoded exception, because it's a # ``sys.modules`` modification. names.append(self._generate_name('path')) continue for names_dict in scope.names_dicts(search_global=False): _names = list(chain.from_iterable(names_dict.values())) if not _names: continue _names = finder.filter_definition_names(_names, scope) names += _names else: # Empty import path=completion after import if not self.level: names += self._get_module_names() if self.file_path is not None: path = os.path.abspath(self.file_path) for i in range(self.level - 1): path = os.path.dirname(path) names += self._get_module_names([path]) return names def _load_module(evaluator, path=None, source=None, sys_path=None): def load(source): dotted_path = path and compiled.dotted_from_fs_path(path, sys_path) if path is not None and path.endswith('.py') \ and not dotted_path in settings.auto_import_modules: if source is None: with open(path, 'rb') as f: source = f.read() else: return compiled.load_module(evaluator, path) p = path p = fast.FastParser(evaluator.grammar, common.source_to_unicode(source), p) cache.save_parser(path, p) return p.module if sys_path is None: sys_path = evaluator.sys_path cached = cache.load_parser(path) module = load(source) if cached is None else cached.module module = evaluator.wrap(module) return module def add_module(evaluator, module_name, module): if '.' not in module_name: # We cannot add paths with dots, because that would collide with # the sepatator dots for nested packages. Therefore we return # `__main__` in ModuleWrapper.py__name__(), which is similar to # Python behavior. evaluator.modules[module_name] = module def get_modules_containing_name(evaluator, mods, name): """ Search a name in the directories of modules. """ def check_python_file(path): try: return cache.parser_cache[path].parser.module except KeyError: try: return check_fs(path) except IOError: return None def check_fs(path): with open(path, 'rb') as f: source = source_to_unicode(f.read()) if name in source: module_name = os.path.basename(path)[:-3] # Remove `.py`. module = _load_module(evaluator, path, source) add_module(evaluator, module_name, module) return module # skip non python modules mods = set(m for m in mods if not isinstance(m, compiled.CompiledObject)) mod_paths = set() for m in mods: mod_paths.add(m.path) yield m if settings.dynamic_params_for_other_modules: paths = set(settings.additional_dynamic_modules) for p in mod_paths: if p is not None: d = os.path.dirname(p) for entry in os.listdir(d): if entry not in mod_paths: if entry.endswith('.py'): paths.add(d + os.path.sep + entry) for p in sorted(paths): # make testing easier, sort it - same results on every interpreter c = check_python_file(p) if c is not None and c not in mods and not isinstance(c, compiled.CompiledObject): yield c