from abc import abstractmethod from parso.tree import search_ancestor from jedi._compatibility import Parameter from jedi.parser_utils import find_statement_documentation, clean_scope_docstring from jedi.inference.utils import unite from jedi.inference.base_value import ValueSet, NO_VALUES from jedi.inference import docstrings from jedi.cache import memoize_method from jedi.inference.helpers import deep_ast_copy, infer_call_of_leaf from jedi.plugins import plugin_manager def _merge_name_docs(names): doc = '' for name in names: if doc: # In case we have multiple values, just return all of them # separated by a few dashes. doc += '\n' + '-' * 30 + '\n' doc += name.py__doc__() return doc class AbstractNameDefinition(object): start_pos = None string_name = None parent_context = None tree_name = None is_value_name = True """ Used for the Jedi API to know if it's a keyword or an actual name. """ @abstractmethod def infer(self): raise NotImplementedError @abstractmethod def goto(self): # Typically names are already definitions and therefore a goto on that # name will always result on itself. return {self} def get_qualified_names(self, include_module_names=False): qualified_names = self._get_qualified_names() if qualified_names is None or not include_module_names: return qualified_names module_names = self.get_root_context().string_names if module_names is None: return None return module_names + qualified_names def _get_qualified_names(self): # By default, a name has no qualified names. return None def get_root_context(self): return self.parent_context.get_root_context() def get_public_name(self): return self.string_name def __repr__(self): if self.start_pos is None: return '<%s: string_name=%s>' % (self.__class__.__name__, self.string_name) return '<%s: string_name=%s start_pos=%s>' % (self.__class__.__name__, self.string_name, self.start_pos) def is_import(self): return False def py__doc__(self): return '' @property def api_type(self): return self.parent_context.api_type def get_defining_qualified_value(self): """ Returns either None or the value that is public and qualified. Won't return a function, because a name in a function is never public. """ return None class AbstractArbitraryName(AbstractNameDefinition): """ When you e.g. want to complete dicts keys, you probably want to complete string literals, which is not really a name, but for Jedi we use this concept of Name for completions as well. """ is_value_name = False def __init__(self, inference_state, string): self.inference_state = inference_state self.string_name = string self.parent_context = inference_state.builtins_module def infer(self): return NO_VALUES class AbstractTreeName(AbstractNameDefinition): def __init__(self, parent_context, tree_name): self.parent_context = parent_context self.tree_name = tree_name def get_qualified_names(self, include_module_names=False): import_node = search_ancestor(self.tree_name, 'import_name', 'import_from') # For import nodes we cannot just have names, because it's very unclear # how they would look like. For now we just ignore them in most cases. # In case of level == 1, it works always, because it's like a submodule # lookup. if import_node is not None and not (import_node.level == 1 and self.get_root_context().get_value().is_package()): # TODO improve the situation for when level is present. if include_module_names and not import_node.level: return tuple(n.value for n in import_node.get_path_for_name(self.tree_name)) else: return None return super(AbstractTreeName, self).get_qualified_names(include_module_names) def _get_qualified_names(self): parent_names = self.parent_context.get_qualified_names() if parent_names is None: return None return parent_names + (self.tree_name.value,) def get_defining_qualified_value(self): if self.is_import(): raise NotImplementedError("Shouldn't really happen, please report") elif self.parent_context: return self.parent_context.get_value() # Might be None return None def goto(self): context = self.parent_context name = self.tree_name definition = name.get_definition(import_name_always=True) if definition is not None: type_ = definition.type if type_ == 'expr_stmt': # Only take the parent, because if it's more complicated than just # a name it's something you can "goto" again. is_simple_name = name.parent.type not in ('power', 'trailer') if is_simple_name: return [self] elif type_ in ('import_from', 'import_name'): from jedi.inference.imports import goto_import module_names = goto_import(context, name) return module_names else: return [self] else: from jedi.inference.imports import follow_error_node_imports_if_possible values = follow_error_node_imports_if_possible(context, name) if values is not None: return [value.name for value in values] par = name.parent node_type = par.type if node_type == 'argument' and par.children[1] == '=' and par.children[0] == name: # Named param goto. trailer = par.parent if trailer.type == 'arglist': trailer = trailer.parent if trailer.type != 'classdef': if trailer.type == 'decorator': value_set = context.infer_node(trailer.children[1]) else: i = trailer.parent.children.index(trailer) to_infer = trailer.parent.children[:i] if to_infer[0] == 'await': to_infer.pop(0) value_set = context.infer_node(to_infer[0]) from jedi.inference.syntax_tree import infer_trailer for trailer in to_infer[1:]: value_set = infer_trailer(context, value_set, trailer) param_names = [] for value in value_set: for signature in value.get_signatures(): for param_name in signature.get_param_names(): if param_name.string_name == name.value: param_names.append(param_name) return param_names elif node_type == 'dotted_name': # Is a decorator. index = par.children.index(name) if index > 0: new_dotted = deep_ast_copy(par) new_dotted.children[index - 1:] = [] values = context.infer_node(new_dotted) return unite( value.goto(name, name_context=context) for value in values ) if node_type == 'trailer' and par.children[0] == '.': values = infer_call_of_leaf(context, name, cut_own_trailer=True) return values.goto(name, name_context=context) else: stmt = search_ancestor( name, 'expr_stmt', 'lambdef' ) or name if stmt.type == 'lambdef': stmt = name return context.goto(name, position=stmt.start_pos) def is_import(self): imp = search_ancestor(self.tree_name, 'import_from', 'import_name') return imp is not None @property def string_name(self): return self.tree_name.value @property def start_pos(self): return self.tree_name.start_pos class ValueNameMixin(object): def infer(self): return ValueSet([self._value]) def py__doc__(self): doc = self._value.py__doc__() if not doc and self._value.is_stub(): from jedi.inference.gradual.conversion import convert_names names = convert_names([self], prefer_stub_to_compiled=False) if self not in names: return _merge_name_docs(names) return doc def _get_qualified_names(self): return self._value.get_qualified_names() def get_root_context(self): if self.parent_context is None: # A module return self._value.as_context() return super(ValueNameMixin, self).get_root_context() def get_defining_qualified_value(self): context = self.parent_context if context.is_module() or context.is_class(): return self.parent_context.get_value() # Might be None return None @property def api_type(self): return self._value.api_type class ValueName(ValueNameMixin, AbstractTreeName): def __init__(self, value, tree_name): super(ValueName, self).__init__(value.parent_context, tree_name) self._value = value def goto(self): return ValueSet([self._value.name]) class TreeNameDefinition(AbstractTreeName): _API_TYPES = dict( import_name='module', import_from='module', funcdef='function', param='param', classdef='class', ) def infer(self): # Refactor this, should probably be here. from jedi.inference.syntax_tree import tree_name_to_values return tree_name_to_values( self.parent_context.inference_state, self.parent_context, self.tree_name ) @property def api_type(self): definition = self.tree_name.get_definition(import_name_always=True) if definition is None: return 'statement' return self._API_TYPES.get(definition.type, 'statement') def assignment_indexes(self): """ Returns an array of tuple(int, node) of the indexes that are used in tuple assignments. For example if the name is ``y`` in the following code:: x, (y, z) = 2, '' would result in ``[(1, xyz_node), (0, yz_node)]``. When searching for b in the case ``a, *b, c = [...]`` it will return:: [(slice(1, -1), abc_node)] """ indexes = [] is_star_expr = False node = self.tree_name.parent compare = self.tree_name while node is not None: if node.type in ('testlist', 'testlist_comp', 'testlist_star_expr', 'exprlist'): for i, child in enumerate(node.children): if child == compare: index = int(i / 2) if is_star_expr: from_end = int((len(node.children) - i) / 2) index = slice(index, -from_end) indexes.insert(0, (index, node)) break else: raise LookupError("Couldn't find the assignment.") is_star_expr = False elif node.type == 'star_expr': is_star_expr = True elif node.type in ('expr_stmt', 'sync_comp_for'): break compare = node node = node.parent return indexes def py__doc__(self): api_type = self.api_type if api_type in ('function', 'class'): # Make sure the names are not TreeNameDefinitions anymore. return clean_scope_docstring(self.tree_name.get_definition()) if api_type == 'module': names = self.goto() if self not in names: return _merge_name_docs(names) if api_type == 'statement' and self.tree_name.is_definition(): return find_statement_documentation(self.tree_name.get_definition()) return '' class _ParamMixin(object): def maybe_positional_argument(self, include_star=True): options = [Parameter.POSITIONAL_ONLY, Parameter.POSITIONAL_OR_KEYWORD] if include_star: options.append(Parameter.VAR_POSITIONAL) return self.get_kind() in options def maybe_keyword_argument(self, include_stars=True): options = [Parameter.KEYWORD_ONLY, Parameter.POSITIONAL_OR_KEYWORD] if include_stars: options.append(Parameter.VAR_KEYWORD) return self.get_kind() in options def _kind_string(self): kind = self.get_kind() if kind == Parameter.VAR_POSITIONAL: # *args return '*' if kind == Parameter.VAR_KEYWORD: # **kwargs return '**' return '' def get_qualified_names(self, include_module_names=False): return None class ParamNameInterface(_ParamMixin): api_type = u'param' def get_kind(self): raise NotImplementedError def to_string(self): raise NotImplementedError def get_executed_param_name(self): """ For dealing with type inference and working around the graph, we sometimes want to have the param name of the execution. This feels a bit strange and we might have to refactor at some point. For now however it exists to avoid infering params when we don't really need them (e.g. when we can just instead use annotations. """ return None @property def star_count(self): kind = self.get_kind() if kind == Parameter.VAR_POSITIONAL: return 1 if kind == Parameter.VAR_KEYWORD: return 2 return 0 class BaseTreeParamName(ParamNameInterface, AbstractTreeName): annotation_node = None default_node = None def to_string(self): output = self._kind_string() + self.get_public_name() annotation = self.annotation_node default = self.default_node if annotation is not None: output += ': ' + annotation.get_code(include_prefix=False) if default is not None: output += '=' + default.get_code(include_prefix=False) return output def get_public_name(self): name = self.string_name if name.startswith('__'): # Params starting with __ are an equivalent to positional only # variables in typeshed. name = name[2:] return name def goto(self, **kwargs): return [self] class _ActualTreeParamName(BaseTreeParamName): def __init__(self, function_value, tree_name): super(_ActualTreeParamName, self).__init__( function_value.get_default_param_context(), tree_name) self.function_value = function_value def _get_param_node(self): return search_ancestor(self.tree_name, 'param') @property def annotation_node(self): return self._get_param_node().annotation def infer_annotation(self, execute_annotation=True, ignore_stars=False): from jedi.inference.gradual.annotation import infer_param values = infer_param( self.function_value, self._get_param_node(), ignore_stars=ignore_stars) if execute_annotation: values = values.execute_annotation() return values def infer_default(self): node = self.default_node if node is None: return NO_VALUES return self.parent_context.infer_node(node) @property def default_node(self): return self._get_param_node().default def get_kind(self): tree_param = self._get_param_node() if tree_param.star_count == 1: # *args return Parameter.VAR_POSITIONAL if tree_param.star_count == 2: # **kwargs return Parameter.VAR_KEYWORD # Params starting with __ are an equivalent to positional only # variables in typeshed. if tree_param.name.value.startswith('__'): return Parameter.POSITIONAL_ONLY parent = tree_param.parent param_appeared = False for p in parent.children: if param_appeared: if p == '/': return Parameter.POSITIONAL_ONLY else: if p == '*': return Parameter.KEYWORD_ONLY if p.type == 'param': if p.star_count: return Parameter.KEYWORD_ONLY if p == tree_param: param_appeared = True return Parameter.POSITIONAL_OR_KEYWORD def infer(self): values = self.infer_annotation() if values: return values doc_params = docstrings.infer_param(self.function_value, self._get_param_node()) return doc_params class AnonymousParamName(_ActualTreeParamName): @plugin_manager.decorate(name='goto_anonymous_param') def goto(self): return super(AnonymousParamName, self).goto() @plugin_manager.decorate(name='infer_anonymous_param') def infer(self): values = super(AnonymousParamName, self).infer() if values: return values from jedi.inference.dynamic_params import dynamic_param_lookup param = self._get_param_node() values = dynamic_param_lookup(self.function_value, param.position_index) if values: return values if param.star_count == 1: from jedi.inference.value.iterable import FakeTuple value = FakeTuple(self.function_value.inference_state, []) elif param.star_count == 2: from jedi.inference.value.iterable import FakeDict value = FakeDict(self.function_value.inference_state, {}) elif param.default is None: return NO_VALUES else: return self.function_value.parent_context.infer_node(param.default) return ValueSet({value}) class ParamName(_ActualTreeParamName): def __init__(self, function_value, tree_name, arguments): super(ParamName, self).__init__(function_value, tree_name) self.arguments = arguments def infer(self): values = super(ParamName, self).infer() if values: return values return self.get_executed_param_name().infer() def get_executed_param_name(self): from jedi.inference.param import get_executed_param_names params_names = get_executed_param_names(self.function_value, self.arguments) return params_names[self._get_param_node().position_index] class ParamNameWrapper(_ParamMixin): def __init__(self, param_name): self._wrapped_param_name = param_name def __getattr__(self, name): return getattr(self._wrapped_param_name, name) def __repr__(self): return '<%s: %s>' % (self.__class__.__name__, self._wrapped_param_name) class ImportName(AbstractNameDefinition): start_pos = (1, 0) _level = 0 def __init__(self, parent_context, string_name): self._from_module_context = parent_context self.string_name = string_name def get_qualified_names(self, include_module_names=False): if include_module_names: if self._level: assert self._level == 1, "Everything else is not supported for now" module_names = self._from_module_context.string_names if module_names is None: return module_names return module_names + (self.string_name,) return (self.string_name,) return () @property def parent_context(self): m = self._from_module_context import_values = self.infer() if not import_values: return m # It's almost always possible to find the import or to not find it. The # importing returns only one value, pretty much always. return next(iter(import_values)).as_context() @memoize_method def infer(self): from jedi.inference.imports import Importer m = self._from_module_context return Importer(m.inference_state, [self.string_name], m, level=self._level).follow() def goto(self): return [m.name for m in self.infer()] @property def api_type(self): return 'module' def py__doc__(self): return _merge_name_docs(self.goto()) class SubModuleName(ImportName): _level = 1 class NameWrapper(object): def __init__(self, wrapped_name): self._wrapped_name = wrapped_name def __getattr__(self, name): return getattr(self._wrapped_name, name) def __repr__(self): return '%s(%s)' % (self.__class__.__name__, self._wrapped_name) class StubNameMixin(object): def py__doc__(self): from jedi.inference.gradual.conversion import convert_names # Stubs are not complicated and we can just follow simple statements # that have an equals in them, because they typically make something # else public. See e.g. stubs for `requests`. names = [self] if self.api_type == 'statement' and '=' in self.tree_name.get_definition().children: names = [v.name for v in self.infer()] names = convert_names(names, prefer_stub_to_compiled=False) if self in names: return super(StubNameMixin, self).py__doc__() else: # We have signatures ourselves in stubs, so don't use signatures # from the implementation. return _merge_name_docs(names) # From here on down we make looking up the sys.version_info fast. class StubName(StubNameMixin, TreeNameDefinition): def infer(self): inferred = super(StubName, self).infer() if self.string_name == 'version_info' and self.get_root_context().py__name__() == 'sys': from jedi.inference.gradual.stub_value import VersionInfo return ValueSet(VersionInfo(c) for c in inferred) return inferred class ModuleName(ValueNameMixin, AbstractNameDefinition): start_pos = 1, 0 def __init__(self, value, name): self._value = value self._name = name @property def string_name(self): return self._name class StubModuleName(StubNameMixin, ModuleName): pass