def iter_calling_names_with_star(self):
for name, default, star_count in self._as_tree_tuple_objects():
# TODO this function is a bit strange. probably refactor?
if not star_count or not isinstance(name, tree.Name):
continue
yield TreeNameDefinition(self.context, name)
def _convert_names(self, names):
for name in names:
param = search_ancestor(name, 'param')
if param:
yield self.param_name(self.context, name)
else:
yield TreeNameDefinition(self.context, name)
def _goes_to_param_name(param_name, context, potential_name):
if potential_name.type != 'name':
return False
from jedi.evaluate.names import TreeNameDefinition
found = TreeNameDefinition(context, potential_name).goto()
return any(param_name.parent_context == p.parent_context
and param_name.start_pos == p.start_pos for p in found)
def _goto(self, context, 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 [TreeNameDefinition(context, name)]
elif type_ == 'param':
return [ParamName(context, name)]
elif type_ in ('funcdef', 'classdef'):
return [TreeNameDefinition(context, name)]
elif type_ in ('import_from', 'import_name'):
module_names = imports.infer_import(context, name, is_goto=True)
return module_names
else:
contexts = self._follow_error_node_imports_if_possible(context, name)
if contexts is not None:
return [context.name for context in contexts]
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':
context_set = context.eval_node(trailer.children[1])
else:
i = trailer.parent.children.index(trailer)
to_evaluate = trailer.parent.children[:i]
if to_evaluate[0] == 'await':
to_evaluate.pop(0)
context_set = context.eval_node(to_evaluate[0])
for trailer in to_evaluate[1:]:
context_set = eval_trailer(context, context_set, trailer)
param_names = []
for context in context_set:
for signature in context.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 = helpers.deep_ast_copy(par)
new_dotted.children[index - 1:] = []
values = context.eval_node(new_dotted)
return unite(
value.py__getattribute__(name, name_context=context, is_goto=True)
for value in values
)
if node_type == 'trailer' and par.children[0] == '.':
values = helpers.evaluate_call_of_leaf(context, name, cut_own_trailer=True)
return unite(
value.py__getattribute__(name, name_context=context, is_goto=True)
for value in values
)
else:
stmt = tree.search_ancestor(
name, 'expr_stmt', 'lambdef'
) or name
if stmt.type == 'lambdef':
stmt = name
return context.py__getattribute__(
name,
position=stmt.start_pos,
search_global=True, is_goto=True
)
def _find_names(module_context, tree_name):
context = module_context.create_context(tree_name)
name = TreeNameDefinition(context, tree_name)
found_names = set(name.goto())
found_names.add(name)
return _dictionarize(_resolve_names(found_names))