from collections import defaultdict from jedi.evaluate.utils import PushBackIterator from jedi.evaluate import analysis from jedi.evaluate.lazy_context import LazyKnownContext, \ LazyTreeContext, LazyUnknownContext from jedi.evaluate import docstrings from jedi.evaluate import pep0484 from jedi.evaluate.context import iterable def _add_argument_issue(parent_context, error_name, lazy_context, message): if isinstance(lazy_context, LazyTreeContext): node = lazy_context.data if node.parent.type == 'argument': node = node.parent analysis.add(parent_context, error_name, node, message) class ExecutedParam(object): """Fake a param and give it values.""" def __init__(self, execution_context, param_node, lazy_context): self._execution_context = execution_context self._param_node = param_node self._lazy_context = lazy_context self.string_name = param_node.name.value def infer(self): pep0484_hints = pep0484.infer_param(self._execution_context, self._param_node) doc_params = docstrings.infer_param(self._execution_context, self._param_node) if pep0484_hints or doc_params: return pep0484_hints | doc_params return self._lazy_context.infer() @property def var_args(self): return self._execution_context.var_args def __repr__(self): return '<%s: %s>' % (self.__class__.__name__, self.string_name) def get_executed_params(execution_context, var_args): result_params = [] param_dict = {} funcdef = execution_context.tree_node parent_context = execution_context.parent_context for param in funcdef.get_params(): param_dict[param.name.value] = param unpacked_va = list(var_args.unpack(funcdef)) var_arg_iterator = PushBackIterator(iter(unpacked_va)) non_matching_keys = defaultdict(lambda: []) keys_used = {} keys_only = False had_multiple_value_error = False for param in funcdef.get_params(): # The value and key can both be null. There, the defaults apply. # args / kwargs will just be empty arrays / dicts, respectively. # Wrong value count is just ignored. If you try to test cases that are # not allowed in Python, Jedi will maybe not show any completions. key, argument = next(var_arg_iterator, (None, None)) while key is not None: keys_only = True try: key_param = param_dict[key] except KeyError: non_matching_keys[key] = argument else: if key in keys_used: had_multiple_value_error = True m = ("TypeError: %s() got multiple values for keyword argument '%s'." % (funcdef.name, key)) for node in var_args.get_calling_nodes(): analysis.add(parent_context, 'type-error-multiple-values', node, message=m) else: keys_used[key] = ExecutedParam(execution_context, key_param, argument) key, argument = next(var_arg_iterator, (None, None)) try: result_params.append(keys_used[param.name.value]) continue except KeyError: pass if param.star_count == 1: # *args param lazy_context_list = [] if argument is not None: lazy_context_list.append(argument) for key, argument in var_arg_iterator: # Iterate until a key argument is found. if key: var_arg_iterator.push_back((key, argument)) break lazy_context_list.append(argument) seq = iterable.FakeSequence(execution_context.evaluator, u'tuple', lazy_context_list) result_arg = LazyKnownContext(seq) elif param.star_count == 2: # **kwargs param dct = iterable.FakeDict(execution_context.evaluator, dict(non_matching_keys)) result_arg = LazyKnownContext(dct) non_matching_keys = {} else: # normal param if argument is None: # No value: Return an empty container if param.default is None: result_arg = LazyUnknownContext() if not keys_only: for node in var_args.get_calling_nodes(): m = _error_argument_count(funcdef, len(unpacked_va)) analysis.add(parent_context, 'type-error-too-few-arguments', node, message=m) else: result_arg = LazyTreeContext(parent_context, param.default) else: result_arg = argument result_params.append(ExecutedParam(execution_context, param, result_arg)) if not isinstance(result_arg, LazyUnknownContext): keys_used[param.name.value] = result_params[-1] if keys_only: # All arguments should be handed over to the next function. It's not # about the values inside, it's about the names. Jedi needs to now that # there's nothing to find for certain names. for k in set(param_dict) - set(keys_used): param = param_dict[k] if not (non_matching_keys or had_multiple_value_error or param.star_count or param.default): # add a warning only if there's not another one. for node in var_args.get_calling_nodes(): m = _error_argument_count(funcdef, len(unpacked_va)) analysis.add(parent_context, 'type-error-too-few-arguments', node, message=m) for key, lazy_context in non_matching_keys.items(): m = "TypeError: %s() got an unexpected keyword argument '%s'." \ % (funcdef.name, key) _add_argument_issue( parent_context, 'type-error-keyword-argument', lazy_context, message=m ) remaining_arguments = list(var_arg_iterator) if remaining_arguments: m = _error_argument_count(funcdef, len(unpacked_va)) # Just report an error for the first param that is not needed (like # cPython). first_key, lazy_context = remaining_arguments[0] if var_args.get_calling_nodes(): # There might not be a valid calling node so check for that first. _add_argument_issue(parent_context, 'type-error-too-many-arguments', lazy_context, message=m) return result_params def _error_argument_count(funcdef, actual_count): params = funcdef.get_params() default_arguments = sum(1 for p in params if p.default or p.star_count) if default_arguments == 0: before = 'exactly ' else: before = 'from %s to ' % (len(params) - default_arguments) return ('TypeError: %s() takes %s%s arguments (%s given).' % (funcdef.name, before, len(params), actual_count)) def _create_default_param(execution_context, param): if param.star_count == 1: result_arg = LazyKnownContext( iterable.FakeSequence(execution_context.evaluator, u'tuple', []) ) elif param.star_count == 2: result_arg = LazyKnownContext( iterable.FakeDict(execution_context.evaluator, {}) ) elif param.default is None: result_arg = LazyUnknownContext() else: result_arg = LazyTreeContext(execution_context.parent_context, param.default) return ExecutedParam(execution_context, param, result_arg) def create_default_params(execution_context, funcdef): return [_create_default_param(execution_context, p) for p in funcdef.get_params()]