bpython/bpython/test/test_repl.py at main · bpython/bpython

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import collections

import inspect

import os

import socket

import sys

import tempfile

import unittest

from typing import List, Tuple

from itertools import islice

from pathlib import Path

from unittest import mock

from bpython import config, repl, autocomplete

from bpython.line import LinePart

from bpython.test import (

MagicIterMock,

FixLanguageTestCase as TestCase,

TEST_CONFIG,

)

pypy = "PyPy" in sys.version

def setup_config(conf):

config_struct = config.Config(TEST_CONFIG)

if conf is not None and "autocomplete_mode" in conf:

config_struct.autocomplete_mode = conf["autocomplete_mode"]

return config_struct

class FakeHistory(repl.History):

def __init__(self):

pass

def reset(self):

pass

class FakeRepl(repl.Repl):

def __init__(self, conf=None):

super().__init__(repl.Interpreter(), setup_config(conf))

self._current_line = ""

self._cursor_offset = 0

def _get_current_line(self) -> str:

return self._current_line

def _set_current_line(self, val: str) -> None:

self._current_line = val

def _get_cursor_offset(self) -> int:

return self._cursor_offset

def _set_cursor_offset(self, val: int) -> None:

self._cursor_offset = val

def getstdout(self) -> str:

raise NotImplementedError

def reprint_line(

self, lineno: int, tokens: list[tuple[repl._TokenType, str]]

) -> None:

raise NotImplementedError

def reevaluate(self):

raise NotImplementedError

class TestMatchesIterator(unittest.TestCase):

def setUp(self):

self.matches = ["bobby", "bobbies", "bobberina"]

self.matches_iterator = repl.MatchesIterator()

self.matches_iterator.current_word = "bob"

self.matches_iterator.orig_line = "bob"

self.matches_iterator.orig_cursor_offset = len("bob")

self.matches_iterator.matches = self.matches

def test_next(self):

self.assertEqual(next(self.matches_iterator), self.matches[0])

for x in range(len(self.matches) - 1):

next(self.matches_iterator)

self.assertEqual(next(self.matches_iterator), self.matches[0])

self.assertEqual(next(self.matches_iterator), self.matches[1])

self.assertNotEqual(next(self.matches_iterator), self.matches[1])

def test_previous(self):

self.assertEqual(self.matches_iterator.previous(), self.matches[2])

for x in range(len(self.matches) - 1):

self.matches_iterator.previous()

self.assertNotEqual(self.matches_iterator.previous(), self.matches[0])

self.assertEqual(self.matches_iterator.previous(), self.matches[1])

self.assertEqual(self.matches_iterator.previous(), self.matches[0])

def test_nonzero(self):

"""self.matches_iterator should be False at start,

then True once we active a match.

"""

self.assertFalse(self.matches_iterator)

next(self.matches_iterator)

self.assertTrue(self.matches_iterator)

def test_iter(self):

slice = islice(self.matches_iterator, 0, 9)

self.assertEqual(list(slice), self.matches * 3)

def test_current(self):

with self.assertRaises(ValueError):

self.matches_iterator.current()

next(self.matches_iterator)

self.assertEqual(self.matches_iterator.current(), self.matches[0])

def test_update(self):

slice = islice(self.matches_iterator, 0, 3)

self.assertEqual(list(slice), self.matches)

newmatches = ["string", "str", "set"]

completer = mock.Mock()

completer.locate.return_value = LinePart(0, 1, "s")

self.matches_iterator.update(1, "s", newmatches, completer)

newslice = islice(newmatches, 0, 3)

self.assertNotEqual(list(slice), self.matches)

self.assertEqual(list(newslice), newmatches)

def test_cur_line(self):

completer = mock.Mock()

completer.locate.return_value = LinePart(

self.matches_iterator.orig_cursor_offset,

self.matches_iterator.orig_line,

)

self.matches_iterator.completer = completer

with self.assertRaises(ValueError):

self.matches_iterator.cur_line()

self.assertEqual(next(self.matches_iterator), self.matches[0])

self.assertEqual(

self.matches_iterator.cur_line(),

(len(self.matches[0]), self.matches[0]),

)

def test_is_cseq(self):

self.assertTrue(self.matches_iterator.is_cseq())

class TestArgspec(unittest.TestCase):

def setUp(self):

self.repl = FakeRepl()

self.repl.push("def spam(a, b, c):\n", False)

self.repl.push(" pass\n", False)

self.repl.push("\n", False)

self.repl.push("class Spam(object):\n", False)

self.repl.push(" def spam(self, a, b, c):\n", False)

self.repl.push(" pass\n", False)

self.repl.push("\n", False)

self.repl.push("class SpammitySpam(object):\n", False)

self.repl.push(" def __init__(self, a, b, c):\n", False)

self.repl.push(" pass\n", False)

self.repl.push("\n", False)

self.repl.push("class WonderfulSpam(object):\n", False)

self.repl.push(" def __new__(self, a, b, c):\n", False)

self.repl.push(" pass\n", False)

self.repl.push("\n", False)

self.repl.push("o = Spam()\n", False)

self.repl.push("\n", False)

def set_input_line(self, line):

"""Set current input line of the test REPL."""

self.repl.current_line = line

self.repl.cursor_offset = len(line)

def test_func_name(self):

for line, expected_name in [

("spam(", "spam"),

# map pydoc has no signature in pypy

("spam(any([]", "any") if pypy else ("spam(map([]", "map"),

("spam((), ", "spam"),

self.set_input_line(line)

self.assertTrue(self.repl.get_args())

self.assertEqual(self.repl.current_func.__name__, expected_name)

def test_func_name_method_issue_479(self):

for line, expected_name in [

("o.spam(", "spam"),

# map pydoc has no signature in pypy

("o.spam(any([]", "any") if pypy else ("o.spam(map([]", "map"),

("o.spam((), ", "spam"),

self.set_input_line(line)

self.assertTrue(self.repl.get_args())

self.assertEqual(self.repl.current_func.__name__, expected_name)

def test_syntax_error_parens(self):

for line in ["spam(]", "spam([)", "spam())"]:

self.set_input_line(line)

# Should not explode

self.repl.get_args()

def test_kw_arg_position(self):

self.set_input_line("spam(a=0")

self.assertTrue(self.repl.get_args())

self.assertEqual(self.repl.arg_pos, "a")

self.set_input_line("spam(1, b=1")

self.assertTrue(self.repl.get_args())

self.assertEqual(self.repl.arg_pos, "b")

self.set_input_line("spam(1, c=2")

self.assertTrue(self.repl.get_args())

self.assertEqual(self.repl.arg_pos, "c")

def test_lambda_position(self):

self.set_input_line("spam(lambda a, b: 1, ")

self.assertTrue(self.repl.get_args())

self.assertTrue(self.repl.funcprops)

# Argument position

self.assertEqual(self.repl.arg_pos, 1)

@unittest.skipIf(pypy, "range pydoc has no signature in pypy")

def test_issue127(self):

self.set_input_line("x=range(")

self.assertTrue(self.repl.get_args())

self.assertEqual(self.repl.current_func.__name__, "range")

self.set_input_line("{x:range(")

self.assertTrue(self.repl.get_args())

self.assertEqual(self.repl.current_func.__name__, "range")

self.set_input_line("foo(1, 2, x,range(")

self.assertEqual(self.repl.current_func.__name__, "range")

self.set_input_line("(x,range(")

self.assertEqual(self.repl.current_func.__name__, "range")

def test_nonexistent_name(self):

self.set_input_line("spamspamspam(")

self.assertFalse(self.repl.get_args())

def test_issue572(self):

self.set_input_line("SpammitySpam(")

self.assertTrue(self.repl.get_args())

self.set_input_line("WonderfulSpam(")

self.assertTrue(self.repl.get_args())

@unittest.skipIf(pypy, "pypy pydoc doesn't have this")

def test_issue583(self):

self.repl = FakeRepl()

self.repl.push("a = 1.2\n", False)

self.set_input_line("a.is_integer(")

self.repl.set_docstring()

self.assertIsNot(self.repl.docstring, None)

def test_methods_of_expressions(self):

self.set_input_line("'a'.capitalize(")

self.assertTrue(self.repl.get_args())

self.set_input_line("(1 + 1.1).as_integer_ratio(")

self.assertTrue(self.repl.get_args())

class TestArgspecInternal(unittest.TestCase):

def test_function_expressions(self):

te = self.assertTupleEqual

fa = lambda line: repl.Repl._funcname_and_argnum(line)

for line, (func, argnum) in [

("spam(", ("spam", 0)),

("spam((), ", ("spam", 1)),

("spam.eggs((), ", ("spam.eggs", 1)),

("spam[abc].eggs((), ", ("spam[abc].eggs", 1)),

("spam[0].eggs((), ", ("spam[0].eggs", 1)),

("spam[a + b]eggs((), ", ("spam[a + b]eggs", 1)),

("spam().eggs((), ", ("spam().eggs", 1)),

("spam(1, 2).eggs((), ", ("spam(1, 2).eggs", 1)),

("spam(1, f(1)).eggs((), ", ("spam(1, f(1)).eggs", 1)),

("[0].eggs((), ", ("[0].eggs", 1)),

("[0][0]((), {}).eggs((), ", ("[0][0]((), {}).eggs", 1)),

("a + spam[0].eggs((), ", ("spam[0].eggs", 1)),

("spam(", ("spam", 0)),

("spam(map([]", ("map", 0)),

("spam((), ", ("spam", 1)),

te(fa(line), (func, argnum))

class TestGetSource(unittest.TestCase):

def setUp(self):

self.repl = FakeRepl()

def set_input_line(self, line):

"""Set current input line of the test REPL."""

self.repl.current_line = line

self.repl.cursor_offset = len(line)

def assert_get_source_error_for_current_function(self, func, msg):

self.repl.current_func = func

with self.assertRaises(repl.SourceNotFound):

self.repl.get_source_of_current_name()

try:

self.repl.get_source_of_current_name()

except repl.SourceNotFound as e:

self.assertEqual(msg, e.args[0])

else:

self.fail("Should have raised SourceNotFound")

def test_current_function(self):

self.set_input_line("INPUTLINE")

self.repl.current_func = inspect.getsource

self.assertIn(

"text of the source code", self.repl.get_source_of_current_name()

)

self.assert_get_source_error_for_current_function(

[], "No source code found for INPUTLINE"

)

self.assert_get_source_error_for_current_function(

list.pop, "No source code found for INPUTLINE"

)

@unittest.skipIf(pypy, "different errors for PyPy")

def test_current_function_cpython(self):

self.set_input_line("INPUTLINE")

self.assert_get_source_error_for_current_function(

collections.defaultdict.copy, "No source code found for INPUTLINE"

)

if sys.version_info[:2] >= (3, 13):

self.assert_get_source_error_for_current_function(

collections.defaultdict, "source code not available"

)

else:

self.assert_get_source_error_for_current_function(

collections.defaultdict, "could not find class definition"

)

def test_current_line(self):

self.repl.interp.locals["a"] = socket.socket

self.set_input_line("a")

self.assertIn("dup(self)", self.repl.get_source_of_current_name())

# TODO add tests for various failures without using current function

class TestEditConfig(TestCase):

def setUp(self):

self.repl = FakeRepl()

self.repl.interact.confirm = lambda msg: True

self.repl.interact.notify = lambda msg: None

self.repl.config.editor = "true"

def test_create_config(self):

with tempfile.TemporaryDirectory() as tmp_dir:

config_path = Path(tmp_dir) / "newdir" / "config"

self.repl.config.config_path = config_path

self.repl.edit_config()

self.assertTrue(config_path.exists())

class TestRepl(unittest.TestCase):

def set_input_line(self, line):

"""Set current input line of the test REPL."""

self.repl.current_line = line

self.repl.cursor_offset = len(line)

def setUp(self):

self.repl = FakeRepl()

def test_current_string(self):

self.set_input_line('a = "2"')

# TODO factor cpos out of repl.Repl

self.repl.cpos = 0

self.assertEqual(self.repl.current_string(), '"2"')

self.set_input_line('a = "2" + 2')

self.assertEqual(self.repl.current_string(), "")

def test_push(self):

self.repl = FakeRepl()

self.repl.push("foobar = 2")

self.assertEqual(self.repl.interp.locals["foobar"], 2)

# COMPLETE TESTS

# 1. Global tests

def test_simple_global_complete(self):

self.repl = FakeRepl(

{"autocomplete_mode": autocomplete.AutocompleteModes.SIMPLE}

)

self.set_input_line("d")

self.assertTrue(self.repl.complete())

self.assertTrue(hasattr(self.repl.matches_iter, "matches"))

self.assertEqual(

self.repl.matches_iter.matches,

["def", "del", "delattr(", "dict(", "dir(", "divmod("],

)

def test_substring_global_complete(self):

self.repl = FakeRepl(

{"autocomplete_mode": autocomplete.AutocompleteModes.SUBSTRING}

)

self.set_input_line("time")

self.assertTrue(self.repl.complete())

self.assertTrue(hasattr(self.repl.matches_iter, "matches"))

self.assertEqual(

self.repl.matches_iter.matches, ["RuntimeError(", "RuntimeWarning("]

)

def test_fuzzy_global_complete(self):

self.repl = FakeRepl(

{"autocomplete_mode": autocomplete.AutocompleteModes.FUZZY}

)

self.set_input_line("doc")

self.assertTrue(self.repl.complete())

self.assertTrue(hasattr(self.repl.matches_iter, "matches"))

self.assertEqual(

self.repl.matches_iter.matches,

["ChildProcessError(", "UnboundLocalError(", "__doc__"],

)

# 2. Attribute tests

def test_simple_attribute_complete(self):

self.repl = FakeRepl(

{"autocomplete_mode": autocomplete.AutocompleteModes.SIMPLE}

)

self.set_input_line("Foo.b")

code = "class Foo():\n\tdef bar(self):\n\t\tpass\n"

for line in code.split("\n"):

self.repl.push(line)

self.assertTrue(self.repl.complete())

self.assertTrue(hasattr(self.repl.matches_iter, "matches"))

self.assertEqual(self.repl.matches_iter.matches, ["Foo.bar"])

def test_substring_attribute_complete(self):

self.repl = FakeRepl(

{"autocomplete_mode": autocomplete.AutocompleteModes.SUBSTRING}

)

self.set_input_line("Foo.az")

code = "class Foo():\n\tdef baz(self):\n\t\tpass\n"

for line in code.split("\n"):

self.repl.push(line)

self.assertTrue(self.repl.complete())

self.assertTrue(hasattr(self.repl.matches_iter, "matches"))

self.assertEqual(self.repl.matches_iter.matches, ["Foo.baz"])

def test_fuzzy_attribute_complete(self):

self.repl = FakeRepl(

{"autocomplete_mode": autocomplete.AutocompleteModes.FUZZY}

)

self.set_input_line("Foo.br")

code = "class Foo():\n\tdef bar(self):\n\t\tpass\n"

for line in code.split("\n"):

self.repl.push(line)

self.assertTrue(self.repl.complete())

self.assertTrue(hasattr(self.repl.matches_iter, "matches"))

self.assertEqual(self.repl.matches_iter.matches, ["Foo.bar"])

# 3. Edge cases

def test_updating_namespace_complete(self):

self.repl = FakeRepl(

{"autocomplete_mode": autocomplete.AutocompleteModes.SIMPLE}

)

self.set_input_line("foo")

self.repl.push("foobar = 2")

self.assertTrue(self.repl.complete())

self.assertTrue(hasattr(self.repl.matches_iter, "matches"))

self.assertEqual(self.repl.matches_iter.matches, ["foobar"])

def test_file_should_not_appear_in_complete(self):

self.repl = FakeRepl(

{"autocomplete_mode": autocomplete.AutocompleteModes.SIMPLE}

)

self.set_input_line("_")

self.assertTrue(self.repl.complete())

self.assertTrue(hasattr(self.repl.matches_iter, "matches"))

self.assertNotIn("__file__", self.repl.matches_iter.matches)

# 4. Parameter names

def test_paremeter_name_completion(self):

self.repl = FakeRepl(

{"autocomplete_mode": autocomplete.AutocompleteModes.SIMPLE}

)

self.set_input_line("foo(ab")

code = "def foo(abc=1, abd=2, xyz=3):\n\tpass\n"

for line in code.split("\n"):

self.repl.push(line)

self.assertTrue(self.repl.complete())

self.assertTrue(hasattr(self.repl.matches_iter, "matches"))

self.assertEqual(

self.repl.matches_iter.matches, ["abc=", "abd=", "abs("]

)

def test_parameter_advanced_on_class(self):

self.repl = FakeRepl(

{"autocomplete_mode": autocomplete.AutocompleteModes.SIMPLE}

)

self.set_input_line("TestCls(app")

code = """

import inspect

class TestCls:

# A class with boring __init__ typing

def __init__(self, *args, **kwargs):

pass

# But that uses super exotic typings recognized by inspect.signature

__signature__ = inspect.Signature([

inspect.Parameter("apple", inspect.Parameter.POSITIONAL_ONLY),

inspect.Parameter("apple2", inspect.Parameter.KEYWORD_ONLY),

inspect.Parameter("pinetree", inspect.Parameter.KEYWORD_ONLY),

])

"""

code = [x[8:] for x in code.split("\n")]

for line in code:

self.repl.push(line)

with mock.patch(

"bpython.inspection.inspect.getsourcelines",

return_value=(code, None),

self.assertTrue(self.repl.complete())

self.assertTrue(hasattr(self.repl.matches_iter, "matches"))

self.assertEqual(

self.repl.matches_iter.matches, ["apple2=", "apple="]

)

if __name__ == "__main__":

unittest.main()

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