""" The :mod:`jedi.api.classes` module contains the return classes of the API. These classes are the much bigger part of the whole API, because they contain the interesting information about completion and goto operations. """ import warnings from itertools import chain import re from jedi._compatibility import unicode, use_metaclass from jedi import settings from jedi import common from jedi.parser import tree from jedi.evaluate.cache import memoize_default, CachedMetaClass from jedi.evaluate import representation as er from jedi.evaluate import iterable from jedi.evaluate import imports from jedi.evaluate import compiled from jedi.api import keywords from jedi.evaluate.finder import filter_definition_names def defined_names(evaluator, scope): """ List sub-definitions (e.g., methods in class). :type scope: Scope :rtype: list of Definition """ dct = scope.names_dict names = list(chain.from_iterable(dct.values())) names = filter_definition_names(names, scope) return [Definition(evaluator, d) for d in sorted(names, key=lambda s: s.start_pos)] class BaseDefinition(object): _mapping = { 'posixpath': 'os.path', 'riscospath': 'os.path', 'ntpath': 'os.path', 'os2emxpath': 'os.path', 'macpath': 'os.path', 'genericpath': 'os.path', 'posix': 'os', '_io': 'io', '_functools': 'functools', '_sqlite3': 'sqlite3', '__builtin__': '', 'builtins': '', } _tuple_mapping = dict((tuple(k.split('.')), v) for (k, v) in { 'argparse._ActionsContainer': 'argparse.ArgumentParser', '_sre.SRE_Match': 're.MatchObject', '_sre.SRE_Pattern': 're.RegexObject', }.items()) def __init__(self, evaluator, name): self._evaluator = evaluator self._name = name """ An instance of :class:`jedi.parser.reprsentation.Name` subclass. """ self._definition = evaluator.wrap(self._name.get_definition()) self.is_keyword = isinstance(self._definition, keywords.Keyword) # generate a path to the definition self._module = name.get_parent_until() if self.in_builtin_module(): self.module_path = None else: self.module_path = self._module.path """Shows the file path of a module. e.g. ``/usr/lib/python2.7/os.py``""" @property def name(self): """ Name of variable/function/class/module. For example, for ``x = None`` it returns ``'x'``. :rtype: str or None """ return unicode(self._name) @property def start_pos(self): """ .. deprecated:: 0.7.0 Use :attr:`.line` and :attr:`.column` instead. .. todo:: Remove! """ warnings.warn("Use line/column instead.", DeprecationWarning) return self._name.start_pos @property def type(self): """ The type of the definition. Here is an example of the value of this attribute. Let's consider the following source. As what is in ``variable`` is unambiguous to Jedi, :meth:`jedi.Script.goto_definitions` should return a list of definition for ``sys``, ``f``, ``C`` and ``x``. >>> from jedi import Script >>> source = ''' ... import keyword ... ... class C: ... pass ... ... class D: ... pass ... ... x = D() ... ... def f(): ... pass ... ... for variable in [keyword, f, C, x]: ... variable''' >>> script = Script(source) >>> defs = script.goto_definitions() Before showing what is in ``defs``, let's sort it by :attr:`line` so that it is easy to relate the result to the source code. >>> defs = sorted(defs, key=lambda d: d.line) >>> defs # doctest: +NORMALIZE_WHITESPACE [, , , ] Finally, here is what you can get from :attr:`type`: >>> defs[0].type 'module' >>> defs[1].type 'class' >>> defs[2].type 'instance' >>> defs[3].type 'function' """ stripped = self._definition if isinstance(stripped, er.InstanceElement): stripped = stripped.var if isinstance(stripped, compiled.CompiledObject): return stripped.api_type() elif isinstance(stripped, iterable.Array): return 'instance' elif isinstance(stripped, tree.Import): return 'import' string = type(stripped).__name__.lower().replace('wrapper', '') if string == 'exprstmt': return 'statement' else: return string def _path(self): """The path to a module/class/function definition.""" path = [] par = self._definition while par is not None: if isinstance(par, tree.Import): path += imports.ImportWrapper(self._evaluator, self._name).import_path break try: name = par.name except AttributeError: pass else: if isinstance(par, er.ModuleWrapper): # TODO just make the path dotted from the beginning, we # shouldn't really split here. path[0:0] = par.py__name__().split('.') break else: path.insert(0, unicode(name)) par = par.parent return path @property def module_name(self): """ The module name. >>> from jedi import Script >>> source = 'import json' >>> script = Script(source, path='example.py') >>> d = script.goto_definitions()[0] >>> print(d.module_name) # doctest: +ELLIPSIS json """ return str(self._module.name) def in_builtin_module(self): """Whether this is a builtin module.""" return isinstance(self._module, compiled.CompiledObject) @property def line(self): """The line where the definition occurs (starting with 1).""" if self.in_builtin_module(): return None return self._name.start_pos[0] @property def column(self): """The column where the definition occurs (starting with 0).""" if self.in_builtin_module(): return None return self._name.start_pos[1] def docstring(self, raw=False): r""" Return a document string for this completion object. Example: >>> from jedi import Script >>> source = '''\ ... def f(a, b=1): ... "Document for function f." ... ''' >>> script = Script(source, 1, len('def f'), 'example.py') >>> doc = script.goto_definitions()[0].docstring() >>> print(doc) f(a, b=1) Document for function f. Notice that useful extra information is added to the actual docstring. For function, it is call signature. If you need actual docstring, use ``raw=True`` instead. >>> print(script.goto_definitions()[0].docstring(raw=True)) Document for function f. """ if raw: return _Help(self._definition).raw() else: return _Help(self._definition).full() @property def doc(self): """ .. deprecated:: 0.8.0 Use :meth:`.docstring` instead. .. todo:: Remove! """ warnings.warn("Use docstring() instead.", DeprecationWarning) return self.docstring() @property def raw_doc(self): """ .. deprecated:: 0.8.0 Use :meth:`.docstring` instead. .. todo:: Remove! """ warnings.warn("Use docstring() instead.", DeprecationWarning) return self.docstring(raw=True) @property def description(self): """A textual description of the object.""" return unicode(self._name) @property def full_name(self): """ Dot-separated path of this object. It is in the form of ``[.[...]][.]``. It is useful when you want to look up Python manual of the object at hand. Example: >>> from jedi import Script >>> source = ''' ... import os ... os.path.join''' >>> script = Script(source, 3, len('os.path.join'), 'example.py') >>> print(script.goto_definitions()[0].full_name) os.path.join Notice that it correctly returns ``'os.path.join'`` instead of (for example) ``'posixpath.join'``. """ path = [unicode(p) for p in self._path()] # TODO add further checks, the mapping should only occur on stdlib. if not path: return None # for keywords the path is empty with common.ignored(KeyError): path[0] = self._mapping[path[0]] for key, repl in self._tuple_mapping.items(): if tuple(path[:len(key)]) == key: path = [repl] + path[len(key):] return '.'.join(path if path[0] else path[1:]) def goto_assignments(self): defs = self._evaluator.goto(self._name) return [Definition(self._evaluator, d) for d in defs] @memoize_default() def _follow_statements_imports(self): """ Follow both statements and imports, as far as possible. """ if self._definition.isinstance(tree.ExprStmt): return self._evaluator.eval_statement(self._definition) elif self._definition.isinstance(tree.Import): return imports.ImportWrapper(self._evaluator, self._name).follow() else: return [self._definition] @property @memoize_default() def params(self): """ Raises an ``AttributeError``if the definition is not callable. Otherwise returns a list of `Definition` that represents the params. """ followed = self._follow_statements_imports() if not followed or not hasattr(followed[0], 'py__call__'): raise AttributeError() followed = followed[0] # only check the first one. if followed.type == 'funcdef': if isinstance(followed, er.InstanceElement): params = followed.params[1:] else: params = followed.params elif followed.isinstance(er.compiled.CompiledObject): params = followed.params else: try: sub = followed.get_subscope_by_name('__init__') params = sub.params[1:] # ignore self except KeyError: return [] return [_Param(self._evaluator, p.name) for p in params] def parent(self): scope = self._definition.get_parent_scope() scope = self._evaluator.wrap(scope) return Definition(self._evaluator, scope.name) def __repr__(self): return "<%s %s>" % (type(self).__name__, self.description) class Completion(BaseDefinition): """ `Completion` objects are returned from :meth:`api.Script.completions`. They provide additional information about a completion. """ def __init__(self, evaluator, name, needs_dot, like_name_length): super(Completion, self).__init__(evaluator, name) self._needs_dot = needs_dot self._like_name_length = like_name_length # Completion objects with the same Completion name (which means # duplicate items in the completion) self._same_name_completions = [] def _complete(self, like_name): dot = '.' if self._needs_dot else '' append = '' if settings.add_bracket_after_function \ and self.type == 'Function': append = '(' if settings.add_dot_after_module: if isinstance(self._definition, tree.Module): append += '.' if isinstance(self._definition, tree.Param): append += '=' name = str(self._name) if like_name: name = name[self._like_name_length:] return dot + name + append @property def complete(self): """ Return the rest of the word, e.g. completing ``isinstance``:: isinstan# <-- Cursor is here would return the string 'ce'. It also adds additional stuff, depending on your `settings.py`. """ return self._complete(True) @property def name_with_symbols(self): """ Similar to :attr:`name`, but like :attr:`name` returns also the symbols, for example:: list() would return ``.append`` and others (which means it adds a dot). """ return self._complete(False) @property def description(self): """Provide a description of the completion object.""" if self._definition is None: return '' t = self.type if t == 'statement' or t == 'import': desc = self._definition.get_code() else: desc = '.'.join(unicode(p) for p in self._path()) line = '' if self.in_builtin_module else '@%s' % self.line return '%s: %s%s' % (t, desc, line) def __repr__(self): return '<%s: %s>' % (type(self).__name__, self._name) def docstring(self, raw=False, fast=True): """ :param fast: Don't follow imports that are only one level deep like ``import foo``, but follow ``from foo import bar``. This makes sense for speed reasons. Completing `import a` is slow if you use the ``foo.docstring(fast=False)`` on every object, because it parses all libraries starting with ``a``. """ definition = self._definition if isinstance(definition, tree.Import): i = imports.ImportWrapper(self._evaluator, self._name) if len(i.import_path) > 1 or not fast: followed = self._follow_statements_imports() if followed: # TODO: Use all of the followed objects as input to Documentation. definition = followed[0] if raw: return _Help(definition).raw() else: return _Help(definition).full() @property def type(self): """ The type of the completion objects. Follows imports. For a further description, look at :attr:`jedi.api.classes.BaseDefinition.type`. """ if isinstance(self._definition, tree.Import): i = imports.ImportWrapper(self._evaluator, self._name) if len(i.import_path) <= 1: return 'module' followed = self.follow_definition() if followed: # Caveat: Only follows the first one, ignore the other ones. # This is ok, since people are almost never interested in # variations. return followed[0].type return super(Completion, self).type @memoize_default() def _follow_statements_imports(self): # imports completion is very complicated and needs to be treated # separately in Completion. definition = self._definition if definition.isinstance(tree.Import): i = imports.ImportWrapper(self._evaluator, self._name) return i.follow() return super(Completion, self)._follow_statements_imports() @memoize_default() def follow_definition(self): """ Return the original definitions. I strongly recommend not using it for your completions, because it might slow down |jedi|. If you want to read only a few objects (<=20), it might be useful, especially to get the original docstrings. The basic problem of this function is that it follows all results. This means with 1000 completions (e.g. numpy), it's just PITA-slow. """ defs = self._follow_statements_imports() return [Definition(self._evaluator, d.name) for d in defs] class Definition(use_metaclass(CachedMetaClass, BaseDefinition)): """ *Definition* objects are returned from :meth:`api.Script.goto_assignments` or :meth:`api.Script.goto_definitions`. """ def __init__(self, evaluator, definition): super(Definition, self).__init__(evaluator, definition) @property def description(self): """ A description of the :class:`.Definition` object, which is heavily used in testing. e.g. for ``isinstance`` it returns ``def isinstance``. Example: >>> from jedi import Script >>> source = ''' ... def f(): ... pass ... ... class C: ... pass ... ... variable = f if random.choice([0,1]) else C''' >>> script = Script(source, column=3) # line is maximum by default >>> defs = script.goto_definitions() >>> defs = sorted(defs, key=lambda d: d.line) >>> defs [, ] >>> str(defs[0].description) # strip literals in python2 'def f' >>> str(defs[1].description) 'class C' """ d = self._definition if isinstance(d, er.InstanceElement): d = d.var if isinstance(d, compiled.CompiledObject): typ = d.api_type() if typ == 'instance': typ = 'class' # The description should be similar to Py objects. d = typ + ' ' + d.name.get_code() elif isinstance(d, iterable.Array): d = 'class ' + d.type elif isinstance(d, (tree.Class, er.Class, er.Instance)): d = 'class ' + unicode(d.name) elif isinstance(d, (er.Function, tree.Function)): d = 'def ' + unicode(d.name) elif isinstance(d, tree.Module): # only show module name d = 'module %s' % self.module_name elif isinstance(d, tree.Param): d = d.get_code().strip() if d.endswith(','): d = d[:-1] # Remove the comma. else: # ExprStmt try: first_leaf = d.first_leaf() except AttributeError: # `d` is already a Leaf (Name). first_leaf = d # Remove the prefix, because that's not what we want for get_code # here. old, first_leaf.prefix = first_leaf.prefix, '' try: d = d.get_code() finally: first_leaf.prefix = old # Delete comments: d = re.sub('#[^\n]+\n', ' ', d) # Delete multi spaces/newlines return re.sub('\s+', ' ', d).strip() @property def desc_with_module(self): """ In addition to the definition, also return the module. .. warning:: Don't use this function yet, its behaviour may change. If you really need it, talk to me. .. todo:: Add full path. This function is should return a `module.class.function` path. """ position = '' if self.in_builtin_module else '@%s' % (self.line) return "%s:%s%s" % (self.module_name, self.description, position) @memoize_default() def defined_names(self): """ List sub-definitions (e.g., methods in class). :rtype: list of Definition """ defs = self._follow_statements_imports() # For now we don't want base classes or evaluate decorators. defs = [d.base if isinstance(d, (er.Class, er.Function)) else d for d in defs] iterable = (defined_names(self._evaluator, d) for d in defs) iterable = list(iterable) return list(chain.from_iterable(iterable)) def is_definition(self): """ Returns True, if defined as a name in a statement, function or class. Returns False, if it's a reference to such a definition. """ return self._name.is_definition() def __eq__(self, other): return self._name.start_pos == other._name.start_pos \ and self.module_path == other.module_path \ and self.name == other.name \ and self._evaluator == other._evaluator def __ne__(self, other): return not self.__eq__(other) def __hash__(self): return hash((self._name.start_pos, self.module_path, self.name, self._evaluator)) class CallSignature(Definition): """ `CallSignature` objects is the return value of `Script.function_definition`. It knows what functions you are currently in. e.g. `isinstance(` would return the `isinstance` function. without `(` it would return nothing. """ def __init__(self, evaluator, executable_name, call_stmt, index, key_name): super(CallSignature, self).__init__(evaluator, executable_name) self._index = index self._key_name = key_name self._call_stmt = call_stmt @property def index(self): """ The Param index of the current call. Returns None if the index cannot be found in the curent call. """ if self._key_name is not None: for i, param in enumerate(self.params): if self._key_name == param.name: return i if self.params and self.params[-1]._name.get_definition().stars == 2: return i else: return None if self._index >= len(self.params): for i, param in enumerate(self.params): # *args case if param._name.get_definition().stars == 1: return i return None return self._index @property def bracket_start(self): """ The indent of the bracket that is responsible for the last function call. """ return self._call_stmt.end_pos @property def call_name(self): """ .. deprecated:: 0.8.0 Use :attr:`.name` instead. .. todo:: Remove! The name (e.g. 'isinstance') as a string. """ warnings.warn("Use name instead.", DeprecationWarning) return unicode(self.name) @property def module(self): """ .. deprecated:: 0.8.0 Use :attr:`.module_name` for the module name. .. todo:: Remove! """ return self._executable.get_parent_until() def __repr__(self): return '<%s: %s index %s>' % (type(self).__name__, self._name, self.index) class _Param(Definition): """ Just here for backwards compatibility. """ def get_code(self): """ .. deprecated:: 0.8.0 Use :attr:`.description` and :attr:`.name` instead. .. todo:: Remove! A function to get the whole code of the param. """ warnings.warn("Use description instead.", DeprecationWarning) return self.description class _Help(object): """ Temporary implementation, will be used as `Script.help() or something in the future. """ def __init__(self, definition): self._name = definition def full(self): try: return self._name.doc except AttributeError: return self.raw() def raw(self): """ The raw docstring ``__doc__`` for any object. See :attr:`doc` for example. """ try: return self._name.raw_doc except AttributeError: return ''