""" 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 re import sys import warnings from jedi import settings from jedi import debug from jedi.inference.utils import unite from jedi.cache import memoize_method from jedi.inference import imports from jedi.inference.imports import ImportName from jedi.inference.gradual.typeshed import StubModuleValue from jedi.inference.gradual.conversion import convert_names, convert_values from jedi.inference.base_value import ValueSet from jedi.api.keywords import KeywordName def _sort_names_by_start_pos(names): return sorted(names, key=lambda s: s.start_pos or (0, 0)) def defined_names(inference_state, context): """ List sub-definitions (e.g., methods in class). :type scope: Scope :rtype: list of Definition """ filter = next(context.get_filters()) names = [name for name in filter.values()] return [Definition(inference_state, n) for n in _sort_names_by_start_pos(names)] def _values_to_definitions(values): return [Definition(c.inference_state, c.name) for c in values] 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', '_collections': 'collections', '_socket': 'socket', '_sqlite3': 'sqlite3', '__builtin__': 'builtins', } _tuple_mapping = dict((tuple(k.split('.')), v) for (k, v) in { 'argparse._ActionsContainer': 'argparse.ArgumentParser', }.items()) def __init__(self, inference_state, name): self._inference_state = inference_state self._name = name """ An instance of :class:`parso.python.tree.Name` subclass. """ self.is_keyword = isinstance(self._name, KeywordName) @memoize_method def _get_module_context(self): # This can take a while to complete, because in the worst case of # imports (consider `import a` completions), we need to load all # modules starting with a first. return self._name.get_root_context() @property def module_path(self): """Shows the file path of a module. e.g. ``/usr/lib/python2.7/os.py``""" module = self._get_module_context() if module.is_stub() or not module.is_compiled(): # Compiled modules should not return a module path even if they # have one. return self._get_module_context().py__file__() return None @property def name(self): """ Name of variable/function/class/module. For example, for ``x = None`` it returns ``'x'``. :rtype: str or None """ return self._name.get_public_name() @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._compatibility import no_unicode_pprint >>> 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) >>> no_unicode_pprint(defs) # doctest: +NORMALIZE_WHITESPACE [, , , ] Finally, here is what you can get from :attr:`type`: >>> defs = [str(d.type) for d in defs] # It's unicode and in Py2 has u before it. >>> defs[0] 'module' >>> defs[1] 'class' >>> defs[2] 'instance' >>> defs[3] 'function' Valid values for are ``module``, ``class``, ``instance``, ``function``, ``param``, ``path`` and ``keyword``. """ tree_name = self._name.tree_name resolve = False if tree_name is not None: # TODO move this to their respective names. definition = tree_name.get_definition() if definition is not None and definition.type == 'import_from' and \ tree_name.is_definition(): resolve = True if isinstance(self._name, imports.SubModuleName) or resolve: for value in self._name.infer(): return value.api_type return self._name.api_type @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 self._get_module_context().py__name__() def in_builtin_module(self): """Whether this is a builtin module.""" value = self._get_module_context().get_value() if isinstance(value, StubModuleValue): return any(v.is_compiled() for v in value.non_stub_value_set) return value.is_compiled() @property def line(self): """The line where the definition occurs (starting with 1).""" start_pos = self._name.start_pos if start_pos is None: return None return start_pos[0] @property def column(self): """The column where the definition occurs (starting with 0).""" start_pos = self._name.start_pos if start_pos is None: return None return start_pos[1] def docstring(self, raw=False, fast=True): 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. :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``. """ return _Help(self._name).docstring(fast=fast, raw=raw) @property def description(self): """A textual description of the object.""" return self._name.get_public_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 returns ``'os.path.join'`` instead of (for example) ``'posixpath.join'``. This is not correct, since the modules name would be `````. However most users find the latter more practical. """ if not self._name.is_value_name: return None names = self._name.get_qualified_names(include_module_names=True) if names is None: return names names = list(names) try: names[0] = self._mapping[names[0]] except KeyError: pass return '.'.join(names) def is_stub(self): if not self._name.is_value_name: return False return self._name.get_root_context().is_stub() def goto_assignments(self, **kwargs): # Python 2... with debug.increase_indent_cm('goto for %s' % self._name): return self._goto_assignments(**kwargs) def _goto_assignments(self, only_stubs=False, prefer_stubs=False): assert not (only_stubs and prefer_stubs) if not self._name.is_value_name: return [] names = convert_names( self._name.goto(), only_stubs=only_stubs, prefer_stubs=prefer_stubs, ) return [self if n == self._name else Definition(self._inference_state, n) for n in names] def infer(self, **kwargs): # Python 2... with debug.increase_indent_cm('infer for %s' % self._name): return self._infer(**kwargs) def _infer(self, only_stubs=False, prefer_stubs=False): assert not (only_stubs and prefer_stubs) if not self._name.is_value_name: return [] # First we need to make sure that we have stub names (if possible) that # we can follow. If we don't do that, we can end up with the inferred # results of Python objects instead of stubs. names = convert_names([self._name], prefer_stubs=True) values = convert_values( ValueSet.from_sets(n.infer() for n in names), only_stubs=only_stubs, prefer_stubs=prefer_stubs, ) resulting_names = [c.name for c in values] return [self if n == self._name else Definition(self._inference_state, n) for n in resulting_names] @property @memoize_method def params(self): """ Deprecated! Will raise a warning soon. Use get_signatures()[...].params. Raises an ``AttributeError`` if the definition is not callable. Otherwise returns a list of `Definition` that represents the params. """ # Only return the first one. There might be multiple one, especially # with overloading. for value in self._name.infer(): for signature in value.get_signatures(): return [ Definition(self._inference_state, n) for n in signature.get_param_names(resolve_stars=True) ] if self.type == 'function' or self.type == 'class': # Fallback, if no signatures were defined (which is probably by # itself a bug). return [] raise AttributeError('There are no params defined on this.') def parent(self): if not self._name.is_value_name: return None context = self._name.parent_context if context is None: return None while context.name is None: # Happens for comprehension contexts context = context.parent_context return Definition(self._inference_state, context.name) def __repr__(self): return "<%s %sname=%r, description=%r>" % ( self.__class__.__name__, 'full_' if self.full_name else '', self.full_name or self.name, self.description, ) def get_line_code(self, before=0, after=0): """ Returns the line of code where this object was defined. :param before: Add n lines before the current line to the output. :param after: Add n lines after the current line to the output. :return str: Returns the line(s) of code or an empty string if it's a builtin. """ if not self._name.is_value_name: return '' lines = self._name.get_root_context().code_lines if lines is None: # Probably a builtin module, just ignore in that case. return '' index = self._name.start_pos[0] - 1 start_index = max(index - before, 0) return ''.join(lines[start_index:index + after + 1]) def get_signatures(self): return [Signature(self._inference_state, s) for s in self._name.infer().get_signatures()] def execute(self): return _values_to_definitions(self._name.infer().execute_with_values()) class Completion(BaseDefinition): """ `Completion` objects are returned from :meth:`api.Script.completions`. They provide additional information about a completion. """ def __init__(self, inference_state, name, stack, like_name_length, is_fuzzy): super(Completion, self).__init__(inference_state, name) self._like_name_length = like_name_length self._stack = stack self._is_fuzzy = is_fuzzy # Completion objects with the same Completion name (which means # duplicate items in the completion) self._same_name_completions = [] def _complete(self, like_name): append = '' if settings.add_bracket_after_function \ and self.type == 'function': append = '(' if self._name.api_type == 'param' and self._stack is not None: nonterminals = [stack_node.nonterminal for stack_node in self._stack] if 'trailer' in nonterminals and 'argument' not in nonterminals: # TODO this doesn't work for nested calls. append += '=' name = self._name.get_public_name() if like_name: name = name[self._like_name_length:] return name + append @property def complete(self): """ Only works with non-fuzzy completions. Returns None if fuzzy completions are used. 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`. Assuming the following function definition:: def foo(param=0): pass completing ``foo(par`` would give a ``Completion`` which `complete` would be `am=` """ if self._is_fuzzy: return None return self._complete(True) @property def name_with_symbols(self): """ Similar to :attr:`name`, but like :attr:`name` returns also the symbols, for example assuming the following function definition:: def foo(param=0): pass completing ``foo(`` would give a ``Completion`` which ``name_with_symbols`` would be "param=". """ return self._complete(False) def docstring(self, raw=False, fast=True): if self._like_name_length >= 3: # In this case we can just resolve the like name, because we # wouldn't load like > 100 Python modules anymore. fast = False return super(Completion, self).docstring(raw=raw, fast=fast) @property def description(self): """Provide a description of the completion object.""" # TODO improve the class structure. return Definition.description.__get__(self) def __repr__(self): return '<%s: %s>' % (type(self).__name__, self._name.get_public_name()) @memoize_method def follow_definition(self): """ Deprecated! 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. """ warnings.warn( "Deprecated since version 0.14.0. Use .infer.", DeprecationWarning, stacklevel=2 ) return self.infer() class Definition(BaseDefinition): """ *Definition* objects are returned from :meth:`api.Script.goto_assignments` or :meth:`api.Script.goto_definitions`. """ def __init__(self, inference_state, definition): super(Definition, self).__init__(inference_state, 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._compatibility import no_unicode_pprint >>> 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) >>> no_unicode_pprint(defs) # doctest: +NORMALIZE_WHITESPACE [, ] >>> str(defs[0].description) # strip literals in python2 'def f' >>> str(defs[1].description) 'class C' """ typ = self.type tree_name = self._name.tree_name if typ == 'param': return typ + ' ' + self._name.to_string() if typ in ('function', 'class', 'module', 'instance') or tree_name is None: if typ == 'function': # For the description we want a short and a pythonic way. typ = 'def' return typ + ' ' + self._name.get_public_name() definition = tree_name.get_definition(include_setitem=True) or tree_name # Remove the prefix, because that's not what we want for get_code # here. txt = definition.get_code(include_prefix=False) # Delete comments: txt = re.sub(r'#[^\n]+\n', ' ', txt) # Delete multi spaces/newlines txt = re.sub(r'\s+', ' ', txt).strip() return txt @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_method def defined_names(self): """ List sub-definitions (e.g., methods in class). :rtype: list of Definition """ defs = self._name.infer() return sorted( unite(defined_names(self._inference_state, d.as_context()) for d in defs), key=lambda s: s._name.start_pos or (0, 0) ) 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. """ if self._name.tree_name is None: return True else: return self._name.tree_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._inference_state == other._inference_state def __ne__(self, other): return not self.__eq__(other) def __hash__(self): return hash((self._name.start_pos, self.module_path, self.name, self._inference_state)) class Signature(Definition): """ `Signature` 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, inference_state, signature): super(Signature, self).__init__(inference_state, signature.name) self._signature = signature @property def params(self): """ :return list of ParamDefinition: """ return [ParamDefinition(self._inference_state, n) for n in self._signature.get_param_names(resolve_stars=True)] def to_string(self): return self._signature.to_string() class CallSignature(Signature): """ `CallSignature` objects is the return value of `Script.call_signatures`. It knows what functions you are currently in. e.g. `isinstance(` would return the `isinstance` function with its params. Without `(` it would return nothing. """ def __init__(self, inference_state, signature, call_details): super(CallSignature, self).__init__(inference_state, signature) self._call_details = call_details self._signature = signature @property def index(self): """ The Param index of the current call. Returns None if the index cannot be found in the curent call. """ return self._call_details.calculate_index( self._signature.get_param_names(resolve_stars=True) ) @property def bracket_start(self): """ The line/column of the bracket that is responsible for the last function call. """ return self._call_details.bracket_leaf.start_pos def __repr__(self): return '<%s: index=%r %s>' % ( type(self).__name__, self.index, self._signature.to_string(), ) class ParamDefinition(Definition): def infer_default(self): """ :return list of Definition: """ return _values_to_definitions(self._name.infer_default()) def infer_annotation(self, **kwargs): """ :return list of Definition: :param execute_annotation: If False, the values are not executed and you get classes instead of instances. """ return _values_to_definitions(self._name.infer_annotation(ignore_stars=True, **kwargs)) def to_string(self): return self._name.to_string() @property def kind(self): """ Returns an enum instance. Returns the same values as the builtin :py:attr:`inspect.Parameter.kind`. No support for Python < 3.4 anymore. """ if sys.version_info < (3, 5): raise NotImplementedError( 'Python 2 is end-of-life, the new feature is not available for it' ) return self._name.get_kind() def _format_signatures(value): return '\n'.join( signature.to_string() for signature in value.get_signatures() ) class _Help(object): """ Temporary implementation, will be used as `Script.help() or something in the future. """ def __init__(self, definition): self._name = definition @memoize_method def _get_values(self, fast): if isinstance(self._name, ImportName) and fast: return {} if self._name.api_type == 'statement': return {} return self._name.infer() def docstring(self, fast=True, raw=True): """ The docstring ``__doc__`` for any object. See :attr:`doc` for example. """ full_doc = '' # Using the first docstring that we see. for value in self._get_values(fast=fast): if full_doc: # In case we have multiple values, just return all of them # separated by a few dashes. full_doc += '\n' + '-' * 30 + '\n' doc = value.py__doc__() signature_text = '' if self._name.is_value_name: if not raw: signature_text = _format_signatures(value) if not doc and value.is_stub(): for c in convert_values(ValueSet({value}), ignore_compiled=False): doc = c.py__doc__() if doc: break if signature_text and doc: full_doc += signature_text + '\n\n' + doc else: full_doc += signature_text + doc return full_doc