""" Tests of ``jedi.api.Interpreter``. """ from ..helpers import TestCase import jedi from jedi._compatibility import is_py33 from jedi.evaluate.compiled import mixed class _GlobalNameSpace(): class SideEffectContainer(): pass def get_completion(source, namespace): i = jedi.Interpreter(source, [namespace]) completions = i.completions() assert len(completions) == 1 return completions[0] def test_builtin_details(): import keyword class EmptyClass: pass variable = EmptyClass() def func(): pass cls = get_completion('EmptyClass', locals()) var = get_completion('variable', locals()) f = get_completion('func', locals()) m = get_completion('keyword', locals()) assert cls.type == 'class' assert var.type == 'instance' assert f.type == 'function' assert m.type == 'module' def test_nested_resolve(): class XX(): def x(): pass cls = get_completion('XX', locals()) func = get_completion('XX.x', locals()) assert func.start_pos == (cls.start_pos[0] + 1, 12) def test_side_effect_completion(): """ In the repl it's possible to cause side effects that are not documented in Python code, however we want references to Python code as well. Therefore we need some mixed kind of magic for tests. """ _GlobalNameSpace.SideEffectContainer.foo = 1 side_effect = get_completion('SideEffectContainer', _GlobalNameSpace.__dict__) # It's a class that contains MixedObject. context, = side_effect._name.infer() assert isinstance(context, mixed.MixedObject) foo = get_completion('SideEffectContainer.foo', _GlobalNameSpace.__dict__) assert foo.name == 'foo' def _assert_interpreter_complete(source, namespace, completions, **kwds): script = jedi.Interpreter(source, [namespace], **kwds) cs = script.completions() actual = [c.name for c in cs] assert sorted(actual) == sorted(completions) def test_complete_raw_function(): from os.path import join _assert_interpreter_complete('join("").up', locals(), ['upper']) def test_complete_raw_function_different_name(): from os.path import join as pjoin _assert_interpreter_complete('pjoin("").up', locals(), ['upper']) def test_complete_raw_module(): import os _assert_interpreter_complete('os.path.join("a").up', locals(), ['upper']) def test_complete_raw_instance(): import datetime dt = datetime.datetime(2013, 1, 1) completions = ['time', 'timetz', 'timetuple'] if is_py33: completions += ['timestamp'] _assert_interpreter_complete('(dt - dt).ti', locals(), completions) def test_list(): array = ['haha', 1] _assert_interpreter_complete('array[0].uppe', locals(), ['upper']) _assert_interpreter_complete('array[0].real', locals(), []) # something different, no index given, still just return the right _assert_interpreter_complete('array[int].real', locals(), ['real']) _assert_interpreter_complete('array[int()].real', locals(), ['real']) # inexistent index _assert_interpreter_complete('array[2].upper', locals(), ['upper']) def test_slice(): class Foo1(): bar = [] baz = 'xbarx' _assert_interpreter_complete('getattr(Foo1, baz[1:-1]).append', locals(), ['append']) def test_getitem_side_effects(): class Foo2(): def __getitem__(self, index): # possible side effects here, should therefore not call this. return index foo = Foo2() _assert_interpreter_complete('foo[0].', locals(), []) def test_property_error(): class Foo3(): @property def bar(self): raise ValueError foo = Foo3() _assert_interpreter_complete('foo.bar', locals(), ['bar']) _assert_interpreter_complete('foo.bar.baz', locals(), []) def test_param_completion(): def foo(bar): pass lambd = lambda xyz: 3 _assert_interpreter_complete('foo(bar', locals(), ['bar']) # TODO we're not yet using the Python3.5 inspect.signature, yet. assert not jedi.Interpreter('lambd(xyz', [locals()]).completions()