"""Tests for autoreload extension.""" # ----------------------------------------------------------------------------- # Copyright (c) 2012 IPython Development Team. # # Distributed under the terms of the Modified BSD License. # # The full license is in the file COPYING.txt, distributed with this software. # ----------------------------------------------------------------------------- # ----------------------------------------------------------------------------- # Imports # ----------------------------------------------------------------------------- import os import platform import pytest import sys import tempfile import textwrap import shutil import random import time import traceback from io import StringIO from dataclasses import dataclass import IPython.testing.tools as tt from unittest import TestCase from IPython.extensions.autoreload import AutoreloadMagics from IPython.core.events import EventManager, pre_run_cell from IPython.testing.decorators import skipif_not_numpy from IPython.core.interactiveshell import ExecutionInfo from IPython.core import inputtransformer2 as ipt2 if platform.python_implementation() == "PyPy": pytest.skip( "Current autoreload implementation is extremely slow on PyPy", allow_module_level=True, ) # ----------------------------------------------------------------------------- # Test fixture # ----------------------------------------------------------------------------- noop = lambda *a, **kw: None class FakeShell: def __init__(self): self.ns = {} self.user_ns = self.ns self.user_ns["In"] = [] self.user_ns_hidden = {} self.events = EventManager(self, {"pre_run_cell", pre_run_cell}) self.auto_magics = AutoreloadMagics(shell=self) self.events.register("pre_run_cell", self.auto_magics.pre_run_cell) self.input_transformer_manager = ipt2.TransformerManager() register_magics = set_hook = noop def showtraceback( self, exc_tuple=None, filename=None, tb_offset=None, exception_only=False, running_compiled_code=False, ): traceback.print_exc() def run_code(self, code): transformed_cell = self.input_transformer_manager.transform_cell(code) self.events.trigger( "pre_run_cell", ExecutionInfo( raw_cell=code, transformed_cell=code, store_history=False, silent=False, shell_futures=False, cell_id=None, ), ) exec(code, self.user_ns) self.auto_magics.post_execute_hook() def push(self, items): self.ns.update(items) def magic_autoreload(self, parameter): self.auto_magics.autoreload(parameter) def magic_aimport(self, parameter, stream=None): self.auto_magics.aimport(parameter, stream=stream) self.auto_magics.post_execute_hook() class Fixture(TestCase): """Fixture for creating test module files""" test_dir = None old_sys_path = None filename_chars = "abcdefghijklmopqrstuvwxyz0123456789" def setUp(self): self.test_dir = tempfile.mkdtemp() self.old_sys_path = list(sys.path) sys.path.insert(0, self.test_dir) self.shell = FakeShell() def tearDown(self): shutil.rmtree(self.test_dir) sys.path = self.old_sys_path self.test_dir = None self.old_sys_path = None self.shell = None def get_module(self): module_name = "tmpmod_" + "".join(random.sample(self.filename_chars, 20)) if module_name in sys.modules: del sys.modules[module_name] file_name = os.path.join(self.test_dir, module_name + ".py") return module_name, file_name def write_file(self, filename, content): """ Write a file, and force a timestamp difference of at least one second Notes ----- Python's .pyc files record the timestamp of their compilation with a time resolution of one second. Therefore, we need to force a timestamp difference between .py and .pyc, without having the .py file be timestamped in the future, and without changing the timestamp of the .pyc file (because that is stored in the file). The only reliable way to achieve this seems to be to sleep. """ content = textwrap.dedent(content) # Sleep one second + eps time.sleep(1.05) # Write with open(filename, "w", encoding="utf-8") as f: f.write(content) def new_module(self, code): code = textwrap.dedent(code) mod_name, mod_fn = self.get_module() with open(mod_fn, "w", encoding="utf-8") as f: f.write(code) return mod_name, mod_fn # ----------------------------------------------------------------------------- # Test automatic reloading # ----------------------------------------------------------------------------- def pickle_get_current_class(obj): """ Original issue comes from pickle; hence the name. """ name = obj.__class__.__name__ module_name = getattr(obj, "__module__", None) obj2 = sys.modules[module_name] for subpath in name.split("."): obj2 = getattr(obj2, subpath) return obj2 class TestAutoreload(Fixture): def test_reload_enums(self): mod_name, mod_fn = self.new_module( textwrap.dedent( """ from enum import Enum class MyEnum(Enum): A = 'A' B = 'B' """ ) ) self.shell.magic_autoreload("2") self.shell.magic_aimport(mod_name) self.write_file( mod_fn, textwrap.dedent( """ from enum import Enum class MyEnum(Enum): A = 'A' B = 'B' C = 'C' """ ), ) with tt.AssertNotPrints( ("[autoreload of %s failed:" % mod_name), channel="stderr" ): self.shell.run_code("pass") # trigger another reload def test_reload_class_type(self): self.shell.magic_autoreload("2") mod_name, mod_fn = self.new_module( """ class Test(): def meth(self): return "old" """ ) assert "test" not in self.shell.ns assert "result" not in self.shell.ns self.shell.run_code("from %s import Test" % mod_name) self.shell.run_code("test = Test()") self.write_file( mod_fn, """ class Test(): def meth(self): return "new" """, ) test_object = self.shell.ns["test"] # important to trigger autoreload logic ! self.shell.run_code("pass") test_class = pickle_get_current_class(test_object) assert isinstance(test_object, test_class) # extra check. self.shell.run_code("import pickle") self.shell.run_code("p = pickle.dumps(test)") def test_reload_class_attributes(self): self.shell.magic_autoreload("2") mod_name, mod_fn = self.new_module( textwrap.dedent( """ class MyClass: def __init__(self, a=10): self.a = a self.b = 22 # self.toto = 33 def square(self): print('compute square') return self.a*self.a """ ) ) self.shell.run_code("from %s import MyClass" % mod_name) self.shell.run_code("first = MyClass(5)") self.shell.run_code("first.square()") with self.assertRaises(AttributeError): self.shell.run_code("first.cube()") with self.assertRaises(AttributeError): self.shell.run_code("first.power(5)") self.shell.run_code("first.b") with self.assertRaises(AttributeError): self.shell.run_code("first.toto") # remove square, add power self.write_file( mod_fn, textwrap.dedent( """ class MyClass: def __init__(self, a=10): self.a = a self.b = 11 def power(self, p): print('compute power '+str(p)) return self.a**p """ ), ) self.shell.run_code("second = MyClass(5)") for object_name in {"first", "second"}: self.shell.run_code(f"{object_name}.power(5)") with self.assertRaises(AttributeError): self.shell.run_code(f"{object_name}.cube()") with self.assertRaises(AttributeError): self.shell.run_code(f"{object_name}.square()") self.shell.run_code(f"{object_name}.b") self.shell.run_code(f"{object_name}.a") with self.assertRaises(AttributeError): self.shell.run_code(f"{object_name}.toto") @skipif_not_numpy def test_comparing_numpy_structures(self): self.shell.magic_autoreload("2") self.shell.run_code("1+1") mod_name, mod_fn = self.new_module( textwrap.dedent( """ import numpy as np class MyClass: a = (np.array((.1, .2)), np.array((.2, .3))) """ ) ) self.shell.run_code("from %s import MyClass" % mod_name) self.shell.run_code("first = MyClass()") # change property `a` self.write_file( mod_fn, textwrap.dedent( """ import numpy as np class MyClass: a = (np.array((.3, .4)), np.array((.5, .6))) """ ), ) with tt.AssertNotPrints( ("[autoreload of %s failed:" % mod_name), channel="stderr" ): self.shell.run_code("pass") # trigger another reload def test_autoload_newly_added_objects(self): # All of these fail with %autoreload 2 self.shell.magic_autoreload("3") mod_code = """ def func1(): pass """ mod_name, mod_fn = self.new_module(textwrap.dedent(mod_code)) self.shell.run_code(f"from {mod_name} import *") self.shell.run_code("func1()") with self.assertRaises(NameError): self.shell.run_code("func2()") with self.assertRaises(NameError): self.shell.run_code("t = Test()") with self.assertRaises(NameError): self.shell.run_code("number") # ----------- TEST NEW OBJ LOADED -------------------------- new_code = """ def func1(): pass def func2(): pass class Test: pass number = 0 from enum import Enum class TestEnum(Enum): A = 'a' """ self.write_file(mod_fn, textwrap.dedent(new_code)) # test function now exists in shell's namespace namespace self.shell.run_code("func2()") # test function now exists in module's dict self.shell.run_code(f"import sys; sys.modules['{mod_name}'].func2()") # test class now exists self.shell.run_code("t = Test()") # test global built-in var now exists self.shell.run_code("number") # test the enumerations gets loaded successfully self.shell.run_code("TestEnum.A") # ----------- TEST NEW OBJ CAN BE CHANGED -------------------- new_code = """ def func1(): return 'changed' def func2(): return 'changed' class Test: def new_func(self): return 'changed' number = 1 from enum import Enum class TestEnum(Enum): A = 'a' B = 'added' """ self.write_file(mod_fn, textwrap.dedent(new_code)) self.shell.run_code("assert func1() == 'changed'") self.shell.run_code("assert func2() == 'changed'") self.shell.run_code("t = Test(); assert t.new_func() == 'changed'") self.shell.run_code("assert number == 1") if sys.version_info < (3, 12): self.shell.run_code("assert TestEnum.B.value == 'added'") # ----------- TEST IMPORT FROM MODULE -------------------------- new_mod_code = """ from enum import Enum class Ext(Enum): A = 'ext' def ext_func(): return 'ext' class ExtTest: def meth(self): return 'ext' ext_int = 2 """ new_mod_name, new_mod_fn = self.new_module(textwrap.dedent(new_mod_code)) current_mod_code = f""" from {new_mod_name} import * """ self.write_file(mod_fn, textwrap.dedent(current_mod_code)) self.shell.run_code("assert Ext.A.value == 'ext'") self.shell.run_code("assert ext_func() == 'ext'") self.shell.run_code("t = ExtTest(); assert t.meth() == 'ext'") self.shell.run_code("assert ext_int == 2") def test_autoload3_import_Y_as_Z(self): self.shell.magic_autoreload("3") mod_code = """ def func1(): pass n = 1 """ mod_name, mod_fn = self.new_module(textwrap.dedent(mod_code)) self.shell.run_code(f"from {mod_name} import n as foo") self.shell.run_code("foo") with self.assertRaises(NameError): self.shell.run_code("func1()") new_code = """ n = 100 def func2(): pass def func1(): pass m = 5 """ self.write_file(mod_fn, textwrap.dedent(new_code)) self.shell.run_code("foo") with self.assertRaises(NameError): self.shell.run_code("n") def test_autoload3_import_Y_as_Z_overloading(self): self.shell.magic_autoreload("3") mod_code = """ def func1(): pass n = 1 """ mod_name, mod_fn = self.new_module(textwrap.dedent(mod_code)) self.shell.run_code(f"from {mod_name} import n as foo") self.shell.run_code("foo") with self.assertRaises(NameError): self.shell.run_code("func1()") new_code = """ n = 100 def func2(): pass def func1(): pass foo = 45 """ self.write_file(mod_fn, textwrap.dedent(new_code)) self.shell.run_code(f"assert foo == 100") self.shell.run_code(f"from {mod_name} import foo") self.shell.run_code(f"assert foo == 45") def test_autoload3_normalimport(self): self.shell.magic_autoreload("3") mod_code = """ def func1(): pass n = 1 """ mod_name, mod_fn = self.new_module(textwrap.dedent(mod_code)) self.shell.run_code(f"import {mod_name}") self.shell.run_code(f"{mod_name}.func1()") self.shell.run_code(f"{mod_name}.n") new_code = """ n = 100 def func2(): pass def func1(): pass m = 5 """ self.write_file(mod_fn, textwrap.dedent(new_code)) self.shell.run_code(f"{mod_name}.func1()") self.shell.run_code(f"{mod_name}.n") self.shell.run_code(f"{mod_name}.func2()") self.shell.run_code(f"{mod_name}.m") self.shell.run_code(f"from {mod_name} import n") self.shell.run_code(f"{mod_name}.func1()") self.shell.run_code(f"n") def test_autoload3_normalimport_2(self): self.shell.magic_autoreload("3") mod_code = """ def func1(): pass n = 1 """ mod_name, mod_fn = self.new_module(textwrap.dedent(mod_code)) self.shell.run_code(f"from {mod_name} import n") with self.assertRaises(NameError): self.shell.run_code("func1()") self.shell.run_code("n") new_code = """ n = 100 def func2(): pass def func1(): pass m = 5 """ self.shell.run_code(f"import {mod_name}") self.write_file(mod_fn, textwrap.dedent(new_code)) self.shell.run_code(f"{mod_name}.func1()") self.shell.run_code(f"{mod_name}.n") self.shell.run_code(f"{mod_name}.func2()") self.shell.run_code(f"{mod_name}.m") self.shell.run_code(f"n") def test_autoload_3_does_not_add_all(self): # Tests that %autoreload 3 does not effectively run from X import * self.shell.magic_autoreload("3") mod_code = """ def func1(): pass n = 1 """ mod_name, mod_fn = self.new_module(textwrap.dedent(mod_code)) self.shell.run_code(f"from {mod_name} import n") self.shell.run_code("n") with self.assertRaises(NameError): self.shell.run_code("func()") new_code = """ n = 1 def func2(): pass def func1(): pass m = 5 """ self.write_file(mod_fn, textwrap.dedent(new_code)) self.shell.run_code("n") with self.assertRaises(NameError): self.shell.run_code("func1()") with self.assertRaises(NameError): self.shell.run_code("func2()") with self.assertRaises(NameError): self.shell.run_code("m") self.shell.run_code(f"from {mod_name} import m") self.shell.run_code("n") self.shell.run_code("m") with self.assertRaises(NameError): self.shell.run_code("func1()") with self.assertRaises(NameError): self.shell.run_code("func2()") self.shell.run_code(f"from {mod_name} import func1,func2") self.shell.run_code("n") self.shell.run_code("m") self.shell.run_code("func1()") self.shell.run_code("func2()") def test_verbose_names(self): # Asserts correspondense between original mode names and their verbose equivalents. @dataclass class AutoreloadSettings: check_all: bool enabled: bool autoload_obj: bool def gather_settings(mode): self.shell.magic_autoreload(mode) module_reloader = self.shell.auto_magics._reloader return AutoreloadSettings( module_reloader.check_all, module_reloader.enabled, module_reloader.autoload_obj, ) assert gather_settings("0") == gather_settings("off") assert gather_settings("0") == gather_settings("OFF") # Case insensitive assert gather_settings("1") == gather_settings("explicit") assert gather_settings("2") == gather_settings("all") assert gather_settings("3") == gather_settings("complete") # And an invalid mode name raises an exception. with self.assertRaises(ValueError): self.shell.magic_autoreload("4") def test_aimport_parsing(self): # Modules can be included or excluded all in one line. module_reloader = self.shell.auto_magics._reloader self.shell.magic_aimport("os") # import and mark `os` for auto-reload. assert module_reloader.modules["os"] is True assert "os" not in module_reloader.skip_modules.keys() self.shell.magic_aimport("-math") # forbid autoreloading of `math` assert module_reloader.skip_modules["math"] is True assert "math" not in module_reloader.modules.keys() self.shell.magic_aimport( "-os, math" ) # Can do this all in one line; wasn't possible before. assert module_reloader.modules["math"] is True assert "math" not in module_reloader.skip_modules.keys() assert module_reloader.skip_modules["os"] is True assert "os" not in module_reloader.modules.keys() def test_autoreload_output(self): self.shell.magic_autoreload("complete") mod_code = """ def func1(): pass """ mod_name, mod_fn = self.new_module(mod_code) self.shell.run_code(f"import {mod_name}") with tt.AssertPrints("", channel="stdout"): # no output; this is default self.shell.run_code("pass") self.shell.magic_autoreload("complete --print") self.write_file(mod_fn, mod_code) # "modify" the module with tt.AssertPrints( f"Reloading '{mod_name}'.", channel="stdout" ): # see something printed out self.shell.run_code("pass") self.shell.magic_autoreload("complete -p") self.write_file(mod_fn, mod_code) # "modify" the module with tt.AssertPrints( f"Reloading '{mod_name}'.", channel="stdout" ): # see something printed out self.shell.run_code("pass") self.shell.magic_autoreload("complete --print --log") self.write_file(mod_fn, mod_code) # "modify" the module with tt.AssertPrints( f"Reloading '{mod_name}'.", channel="stdout" ): # see something printed out self.shell.run_code("pass") self.shell.magic_autoreload("complete --print --log") self.write_file(mod_fn, mod_code) # "modify" the module with self.assertLogs(logger="autoreload") as lo: # see something printed out self.shell.run_code("pass") assert lo.output == [f"INFO:autoreload:Reloading '{mod_name}'."] self.shell.magic_autoreload("complete -l") self.write_file(mod_fn, mod_code) # "modify" the module with self.assertLogs(logger="autoreload") as lo: # see something printed out self.shell.run_code("pass") assert lo.output == [f"INFO:autoreload:Reloading '{mod_name}'."] def _check_smoketest(self, use_aimport=True): """ Functional test for the automatic reloader using either '%autoreload 1' or '%autoreload 2' """ mod_name, mod_fn = self.new_module( """ x = 9 z = 123 # this item will be deleted def foo(y): return y + 3 class Baz(object): def __init__(self, x): self.x = x def bar(self, y): return self.x + y @property def quux(self): return 42 def zzz(self): '''This method will be deleted below''' return 99 class Bar: # old-style class: weakref doesn't work for it on Python < 2.7 def foo(self): return 1 """ ) # # Import module, and mark for reloading # if use_aimport: self.shell.magic_autoreload("1") self.shell.magic_aimport(mod_name) stream = StringIO() self.shell.magic_aimport("", stream=stream) self.assertIn(("Modules to reload:\n%s" % mod_name), stream.getvalue()) with self.assertRaises(ImportError): self.shell.magic_aimport("tmpmod_as318989e89ds") else: self.shell.magic_autoreload("2") self.shell.run_code("import %s" % mod_name) stream = StringIO() self.shell.magic_aimport("", stream=stream) self.assertTrue( "Modules to reload:\nall-except-skipped" in stream.getvalue() ) self.assertIn(mod_name, self.shell.ns) mod = sys.modules[mod_name] # # Test module contents # old_foo = mod.foo old_obj = mod.Baz(9) old_obj2 = mod.Bar() def check_module_contents(): self.assertEqual(mod.x, 9) self.assertEqual(mod.z, 123) self.assertEqual(old_foo(0), 3) self.assertEqual(mod.foo(0), 3) obj = mod.Baz(9) self.assertEqual(old_obj.bar(1), 10) self.assertEqual(obj.bar(1), 10) self.assertEqual(obj.quux, 42) self.assertEqual(obj.zzz(), 99) obj2 = mod.Bar() self.assertEqual(old_obj2.foo(), 1) self.assertEqual(obj2.foo(), 1) check_module_contents() # # Simulate a failed reload: no reload should occur and exactly # one error message should be printed # self.write_file( mod_fn, """ a syntax error """, ) with tt.AssertPrints( ("[autoreload of %s failed:" % mod_name), channel="stderr" ): self.shell.run_code("pass") # trigger reload with tt.AssertNotPrints( ("[autoreload of %s failed:" % mod_name), channel="stderr" ): self.shell.run_code("pass") # trigger another reload check_module_contents() # # Rewrite module (this time reload should succeed) # self.write_file( mod_fn, """ x = 10 def foo(y): return y + 4 class Baz(object): def __init__(self, x): self.x = x def bar(self, y): return self.x + y + 1 @property def quux(self): return 43 class Bar: # old-style class def foo(self): return 2 """, ) def check_module_contents(): self.assertEqual(mod.x, 10) self.assertFalse(hasattr(mod, "z")) self.assertEqual(old_foo(0), 4) # superreload magic! self.assertEqual(mod.foo(0), 4) obj = mod.Baz(9) self.assertEqual(old_obj.bar(1), 11) # superreload magic! self.assertEqual(obj.bar(1), 11) self.assertEqual(old_obj.quux, 43) self.assertEqual(obj.quux, 43) self.assertFalse(hasattr(old_obj, "zzz")) self.assertFalse(hasattr(obj, "zzz")) obj2 = mod.Bar() self.assertEqual(old_obj2.foo(), 2) self.assertEqual(obj2.foo(), 2) self.shell.run_code("pass") # trigger reload check_module_contents() # # Another failure case: deleted file (shouldn't reload) # os.unlink(mod_fn) self.shell.run_code("pass") # trigger reload check_module_contents() # # Disable autoreload and rewrite module: no reload should occur # if use_aimport: self.shell.magic_aimport("-" + mod_name) stream = StringIO() self.shell.magic_aimport("", stream=stream) self.assertTrue(("Modules to skip:\n%s" % mod_name) in stream.getvalue()) # This should succeed, although no such module exists self.shell.magic_aimport("-tmpmod_as318989e89ds") else: self.shell.magic_autoreload("0") self.write_file( mod_fn, """ x = -99 """, ) self.shell.run_code("pass") # trigger reload self.shell.run_code("pass") check_module_contents() # # Re-enable autoreload: reload should now occur # if use_aimport: self.shell.magic_aimport(mod_name) else: self.shell.magic_autoreload("") self.shell.run_code("pass") # trigger reload self.assertEqual(mod.x, -99) def test_smoketest_aimport(self): self._check_smoketest(use_aimport=True) def test_smoketest_autoreload(self): self._check_smoketest(use_aimport=False) def test_autoreload_with_user_defined_In_variable(self): """ Check that autoreload works when the user has defined an In variable. """ mod_name, mod_fn = self.new_module( textwrap.dedent( """ def hello(): return "Hello" """ ) ) self.shell.magic_autoreload("2") self.shell.run_code(f"import {mod_name}") self.shell.run_code(f"res = {mod_name}.hello()") assert self.shell.user_ns["res"] == "Hello" self.shell.user_ns["In"] = "some_value" self.write_file( mod_fn, textwrap.dedent( """ def hello(): return "Changed" """ ), ) self.shell.run_code(f"res = {mod_name}.hello()") assert self.shell.user_ns["res"] == "Changed" def test_import_from_tracker_conflict_resolution(self): """Test that ImportFromTracker properly handles import conflicts""" from IPython.extensions.autoreload import ImportFromTracker from unittest.mock import Mock # Create a test module with both 'foo' and 'bar' attributes mod_name, mod_fn = self.new_module( textwrap.dedent( """ foo = "original_foo" bar = "original_bar" """ ) ) # Mock the module in sys.modules instead of actually importing it mock_module = Mock() mock_module.foo = "original_foo" mock_module.bar = "original_bar" sys.modules[mod_name] = mock_module try: # Create a tracker tracker = ImportFromTracker({}, {}) # Test case 1: "from x import y as z" then "from x import z" # First import: from mod_name import foo as bar tracker.add_import(mod_name, "foo", "bar") # Verify initial state assert mod_name in tracker.imports_froms assert "foo" in tracker.imports_froms[mod_name] assert tracker.symbol_map[mod_name]["foo"] == ["bar"] # Second import: from mod_name import bar (conflicts with previous "bar") tracker.add_import(mod_name, "bar", "bar") # The second import should take precedence since "bar" is a valid import assert "bar" in tracker.imports_froms[mod_name] assert "foo" not in tracker.imports_froms[mod_name] # Should be removed assert tracker.symbol_map[mod_name]["bar"] == ["bar"] assert "foo" not in tracker.symbol_map[mod_name] # Should be removed finally: # Clean up sys.modules if mod_name in sys.modules: del sys.modules[mod_name] def test_import_from_tracker_reverse_conflict(self): """Test the reverse case: 'from x import z' then 'from x import y as z'""" from IPython.extensions.autoreload import ImportFromTracker from unittest.mock import Mock # Create a test module mod_name, mod_fn = self.new_module( textwrap.dedent( """ foo = "original_foo" bar = "original_bar" """ ) ) # Mock the module in sys.modules instead of actually importing it mock_module = Mock() mock_module.foo = "original_foo" mock_module.bar = "original_bar" sys.modules[mod_name] = mock_module try: # Create a tracker tracker = ImportFromTracker({}, {}) # First import: from mod_name import bar tracker.add_import(mod_name, "bar", "bar") # Verify initial state assert "bar" in tracker.imports_froms[mod_name] assert tracker.symbol_map[mod_name]["bar"] == ["bar"] # Second import: from mod_name import foo as bar (conflicts with previous "bar") tracker.add_import(mod_name, "foo", "bar") # The second import should take precedence since "foo" is a valid import assert "foo" in tracker.imports_froms[mod_name] assert "bar" not in tracker.imports_froms[mod_name] # Should be removed assert tracker.symbol_map[mod_name]["foo"] == ["bar"] assert "bar" not in tracker.symbol_map[mod_name] # Should be removed finally: # Clean up sys.modules if mod_name in sys.modules: del sys.modules[mod_name] def test_import_from_tracker_invalid_import(self): """Test that ImportFromTracker works correctly with the post-execution approach""" from IPython.extensions.autoreload import ImportFromTracker # Create a test module with only 'foo' attribute mod_name, mod_fn = self.new_module( textwrap.dedent( """ foo = "original_foo" """ ) ) # Create a tracker tracker = ImportFromTracker({}, {}) # First import: from mod_name import foo as bar # Since we're simulating post-execution, this is a valid import tracker.add_import(mod_name, "foo", "bar") # Verify initial state assert "foo" in tracker.imports_froms[mod_name] assert tracker.symbol_map[mod_name]["foo"] == ["bar"] # Second import: from mod_name import foo2 as bar (conflicting import) # In the new approach, this would only be called if the import actually succeeded # So this represents a case where the module was updated to have foo2 tracker.add_import(mod_name, "foo2", "bar") # The new mapping should replace the old one since it's more recent assert "foo2" in tracker.imports_froms[mod_name] assert "foo" not in tracker.imports_froms[mod_name] # Should be replaced assert tracker.symbol_map[mod_name]["foo2"] == ["bar"] assert "foo" not in tracker.symbol_map[mod_name] # Should be replaced def test_import_from_tracker_integration(self): """Test the integration of ImportFromTracker with autoreload""" # Create a test module mod_name, mod_fn = self.new_module( textwrap.dedent( """ foo = "original_foo" bar = "original_bar" """ ) ) # Enable autoreload mode 3 (complete) self.shell.magic_autoreload("3") # First import: from mod_name import foo as bar # This will naturally load the module into sys.modules self.shell.run_code(f"from {mod_name} import foo as bar") assert self.shell.user_ns["bar"] == "original_foo" # Second import: from mod_name import bar (should override the alias) # The module is already in sys.modules, so this should work with our validation self.shell.run_code(f"from {mod_name} import bar") assert self.shell.user_ns["bar"] == "original_bar" # Should now be the real bar # Modify the module self.write_file( mod_fn, textwrap.dedent( """ foo = "modified_foo" bar = "modified_bar" """ ), ) # Trigger autoreload by running any code self.shell.run_code("x = 1") # The 'bar' variable should now contain the modified 'bar', not 'foo' assert self.shell.user_ns["bar"] == "modified_bar" def test_autoreload3_double_import(self): """Test the integration of ImportFromTracker with autoreload""" # Create a test module mod_name, mod_fn = self.new_module( textwrap.dedent( """ foo = "original_foo" bar = "original_bar" """ ) ) # Enable autoreload mode 3 (complete) self.shell.magic_autoreload("3") # First import: from mod_name import foo as bar # This will naturally load the module into sys.modules self.shell.run_code(f"from {mod_name} import foo as bar") self.shell.run_code(f"from {mod_name} import foo") assert self.shell.user_ns["bar"] == "original_foo" assert self.shell.user_ns["foo"] == "original_foo" # Modify the module self.write_file( mod_fn, textwrap.dedent( """ foo = "modified_foo" bar = "modified_bar" """ ), ) self.shell.run_code("pass") assert self.shell.user_ns["bar"] == "modified_foo" assert self.shell.user_ns["foo"] == "modified_foo" def test_import_from_tracker_unloaded_module(self): """Test that ImportFromTracker works with the post-execution approach""" from IPython.extensions.autoreload import ImportFromTracker # With the new approach, we only track imports after successful execution # So even if a module isn't initially in sys.modules, if an import executed # successfully, we should track it fake_mod_name = "test_module_12345" # Create a tracker tracker = ImportFromTracker({}, {}) # Simulate an import that executed successfully # (In reality, this would only be called if the import actually succeeded) tracker.add_import(fake_mod_name, "some_attr", "some_name") # Since the import "succeeded", it should be tracked assert fake_mod_name in tracker.imports_froms assert fake_mod_name in tracker.symbol_map assert "some_attr" in tracker.imports_froms[fake_mod_name] assert tracker.symbol_map[fake_mod_name]["some_attr"] == ["some_name"] # Simulate a conflict scenario - another import succeeded tracker.add_import(fake_mod_name, "another_attr", "some_name") # The newer import should replace the older one assert fake_mod_name in tracker.imports_froms assert fake_mod_name in tracker.symbol_map assert "another_attr" in tracker.imports_froms[fake_mod_name] assert ( "some_attr" not in tracker.imports_froms[fake_mod_name] ) # Should be replaced assert tracker.symbol_map[fake_mod_name]["another_attr"] == ["some_name"] assert ( "some_attr" not in tracker.symbol_map[fake_mod_name] ) # Should be replaced def test_import_from_tracker_multiple_resolved_names(self): """Test that the same original name can map to multiple resolved names""" from IPython.extensions.autoreload import ImportFromTracker # Create a tracker tracker = ImportFromTracker({}, {}) fake_mod_name = "test_module_abc" # Simulate: from test_module_abc import foo as bar tracker.add_import(fake_mod_name, "foo", "bar") # Verify initial state assert "foo" in tracker.imports_froms[fake_mod_name] assert tracker.symbol_map[fake_mod_name]["foo"] == ["bar"] # Simulate: from test_module_abc import foo (same original name, different resolved name) tracker.add_import(fake_mod_name, "foo", "foo") # Both resolved names should be tracked for the same original name assert "foo" in tracker.imports_froms[fake_mod_name] assert set(tracker.symbol_map[fake_mod_name]["foo"]) == {"bar", "foo"}