import os import subprocess import sys import time from pathlib import Path from types import ModuleType from typing import List import _pytest.pytester as pytester_mod import pytest from _pytest.config import ExitCode from _pytest.config import PytestPluginManager from _pytest.monkeypatch import MonkeyPatch from _pytest.pytester import CwdSnapshot from _pytest.pytester import HookRecorder from _pytest.pytester import LineMatcher from _pytest.pytester import Pytester from _pytest.pytester import SysModulesSnapshot from _pytest.pytester import SysPathsSnapshot def test_make_hook_recorder(pytester: Pytester) -> None: item = pytester.getitem("def test_func(): pass") recorder = pytester.make_hook_recorder(item.config.pluginmanager) assert not recorder.getfailures() # (The silly condition is to fool mypy that the code below this is reachable) if 1 + 1 == 2: pytest.xfail("internal reportrecorder tests need refactoring") class rep: excinfo = None passed = False failed = True skipped = False when = "call" recorder.hook.pytest_runtest_logreport(report=rep) # type: ignore[attr-defined] failures = recorder.getfailures() assert failures == [rep] # type: ignore[comparison-overlap] failures = recorder.getfailures() assert failures == [rep] # type: ignore[comparison-overlap] class rep2: excinfo = None passed = False failed = False skipped = True when = "call" rep2.passed = False rep2.skipped = True recorder.hook.pytest_runtest_logreport(report=rep2) # type: ignore[attr-defined] modcol = pytester.getmodulecol("") rep3 = modcol.config.hook.pytest_make_collect_report(collector=modcol) rep3.passed = False rep3.failed = True rep3.skipped = False recorder.hook.pytest_collectreport(report=rep3) # type: ignore[attr-defined] passed, skipped, failed = recorder.listoutcomes() assert not passed and skipped and failed numpassed, numskipped, numfailed = recorder.countoutcomes() assert numpassed == 0 assert numskipped == 1 assert numfailed == 1 assert len(recorder.getfailedcollections()) == 1 recorder.unregister() # type: ignore[attr-defined] recorder.clear() recorder.hook.pytest_runtest_logreport(report=rep3) # type: ignore[attr-defined] pytest.raises(ValueError, recorder.getfailures) def test_parseconfig(pytester: Pytester) -> None: config1 = pytester.parseconfig() config2 = pytester.parseconfig() assert config2 is not config1 def test_pytester_runs_with_plugin(pytester: Pytester) -> None: pytester.makepyfile( """ pytest_plugins = "pytester" def test_hello(pytester): assert 1 """ ) result = pytester.runpytest() result.assert_outcomes(passed=1) def test_pytester_with_doctest(pytester: Pytester) -> None: """Check that pytester can be used within doctests. It used to use `request.function`, which is `None` with doctests.""" pytester.makepyfile( **{ "sub/t-doctest.py": """ ''' >>> import os >>> pytester = getfixture("pytester") >>> str(pytester.makepyfile("content")).replace(os.sep, '/') '.../basetemp/sub.t-doctest0/sub.py' ''' """, "sub/__init__.py": "", } ) result = pytester.runpytest( "-p", "pytester", "--doctest-modules", "sub/t-doctest.py" ) assert result.ret == 0 def test_runresult_assertion_on_xfail(pytester: Pytester) -> None: pytester.makepyfile( """ import pytest pytest_plugins = "pytester" @pytest.mark.xfail def test_potato(): assert False """ ) result = pytester.runpytest() result.assert_outcomes(xfailed=1) assert result.ret == 0 def test_runresult_assertion_on_xpassed(pytester: Pytester) -> None: pytester.makepyfile( """ import pytest pytest_plugins = "pytester" @pytest.mark.xfail def test_potato(): assert True """ ) result = pytester.runpytest() result.assert_outcomes(xpassed=1) assert result.ret == 0 def test_xpassed_with_strict_is_considered_a_failure(pytester: Pytester) -> None: pytester.makepyfile( """ import pytest pytest_plugins = "pytester" @pytest.mark.xfail(strict=True) def test_potato(): assert True """ ) result = pytester.runpytest() result.assert_outcomes(failed=1) assert result.ret != 0 def make_holder(): class apiclass: def pytest_xyz(self, arg): """X""" def pytest_xyz_noarg(self): """X""" apimod = type(os)("api") def pytest_xyz(arg): """X""" def pytest_xyz_noarg(): """X""" apimod.pytest_xyz = pytest_xyz # type: ignore apimod.pytest_xyz_noarg = pytest_xyz_noarg # type: ignore return apiclass, apimod @pytest.mark.parametrize("holder", make_holder()) def test_hookrecorder_basic(holder) -> None: pm = PytestPluginManager() pm.add_hookspecs(holder) rec = HookRecorder(pm, _ispytest=True) pm.hook.pytest_xyz(arg=123) call = rec.popcall("pytest_xyz") assert call.arg == 123 assert call._name == "pytest_xyz" pytest.raises(pytest.fail.Exception, rec.popcall, "abc") pm.hook.pytest_xyz_noarg() call = rec.popcall("pytest_xyz_noarg") assert call._name == "pytest_xyz_noarg" def test_makepyfile_unicode(pytester: Pytester) -> None: pytester.makepyfile(chr(0xFFFD)) def test_makepyfile_utf8(pytester: Pytester) -> None: """Ensure makepyfile accepts utf-8 bytes as input (#2738)""" utf8_contents = """ def setup_function(function): mixed_encoding = 'São Paulo' """.encode() p = pytester.makepyfile(utf8_contents) assert "mixed_encoding = 'São Paulo'".encode() in p.read_bytes() class TestInlineRunModulesCleanup: def test_inline_run_test_module_not_cleaned_up(self, pytester: Pytester) -> None: test_mod = pytester.makepyfile("def test_foo(): assert True") result = pytester.inline_run(str(test_mod)) assert result.ret == ExitCode.OK # rewrite module, now test should fail if module was re-imported test_mod.write_text("def test_foo(): assert False") result2 = pytester.inline_run(str(test_mod)) assert result2.ret == ExitCode.TESTS_FAILED def spy_factory(self): class SysModulesSnapshotSpy: instances: List["SysModulesSnapshotSpy"] = [] # noqa: F821 def __init__(self, preserve=None) -> None: SysModulesSnapshotSpy.instances.append(self) self._spy_restore_count = 0 self._spy_preserve = preserve self.__snapshot = SysModulesSnapshot(preserve=preserve) def restore(self): self._spy_restore_count += 1 return self.__snapshot.restore() return SysModulesSnapshotSpy def test_inline_run_taking_and_restoring_a_sys_modules_snapshot( self, pytester: Pytester, monkeypatch: MonkeyPatch ) -> None: spy_factory = self.spy_factory() monkeypatch.setattr(pytester_mod, "SysModulesSnapshot", spy_factory) pytester.syspathinsert() original = dict(sys.modules) pytester.makepyfile(import1="# you son of a silly person") pytester.makepyfile(import2="# my hovercraft is full of eels") test_mod = pytester.makepyfile( """ import import1 def test_foo(): import import2""" ) pytester.inline_run(str(test_mod)) assert len(spy_factory.instances) == 1 spy = spy_factory.instances[0] assert spy._spy_restore_count == 1 assert sys.modules == original assert all(sys.modules[x] is original[x] for x in sys.modules) def test_inline_run_sys_modules_snapshot_restore_preserving_modules( self, pytester: Pytester, monkeypatch: MonkeyPatch ) -> None: spy_factory = self.spy_factory() monkeypatch.setattr(pytester_mod, "SysModulesSnapshot", spy_factory) test_mod = pytester.makepyfile("def test_foo(): pass") pytester.inline_run(str(test_mod)) spy = spy_factory.instances[0] assert not spy._spy_preserve("black_knight") assert spy._spy_preserve("zope") assert spy._spy_preserve("zope.interface") assert spy._spy_preserve("zopelicious") def test_external_test_module_imports_not_cleaned_up( self, pytester: Pytester ) -> None: pytester.syspathinsert() pytester.makepyfile(imported="data = 'you son of a silly person'") import imported test_mod = pytester.makepyfile( """ def test_foo(): import imported imported.data = 42""" ) pytester.inline_run(str(test_mod)) assert imported.data == 42 def test_assert_outcomes_after_pytest_error(pytester: Pytester) -> None: pytester.makepyfile("def test_foo(): assert True") result = pytester.runpytest("--unexpected-argument") with pytest.raises(ValueError, match="Pytest terminal summary report not found"): result.assert_outcomes(passed=0) def test_cwd_snapshot(pytester: Pytester) -> None: foo = pytester.mkdir("foo") bar = pytester.mkdir("bar") os.chdir(foo) snapshot = CwdSnapshot() os.chdir(bar) assert Path().absolute() == bar snapshot.restore() assert Path().absolute() == foo class TestSysModulesSnapshot: key = "my-test-module" def test_remove_added(self) -> None: original = dict(sys.modules) assert self.key not in sys.modules snapshot = SysModulesSnapshot() sys.modules[self.key] = ModuleType("something") assert self.key in sys.modules snapshot.restore() assert sys.modules == original def test_add_removed(self, monkeypatch: MonkeyPatch) -> None: assert self.key not in sys.modules monkeypatch.setitem(sys.modules, self.key, ModuleType("something")) assert self.key in sys.modules original = dict(sys.modules) snapshot = SysModulesSnapshot() del sys.modules[self.key] assert self.key not in sys.modules snapshot.restore() assert sys.modules == original def test_restore_reloaded(self, monkeypatch: MonkeyPatch) -> None: assert self.key not in sys.modules monkeypatch.setitem(sys.modules, self.key, ModuleType("something")) assert self.key in sys.modules original = dict(sys.modules) snapshot = SysModulesSnapshot() sys.modules[self.key] = ModuleType("something else") snapshot.restore() assert sys.modules == original def test_preserve_modules(self, monkeypatch: MonkeyPatch) -> None: key = [self.key + str(i) for i in range(3)] assert not any(k in sys.modules for k in key) for i, k in enumerate(key): mod = ModuleType("something" + str(i)) monkeypatch.setitem(sys.modules, k, mod) original = dict(sys.modules) def preserve(name): return name in (key[0], key[1], "some-other-key") snapshot = SysModulesSnapshot(preserve=preserve) sys.modules[key[0]] = original[key[0]] = ModuleType("something else0") sys.modules[key[1]] = original[key[1]] = ModuleType("something else1") sys.modules[key[2]] = ModuleType("something else2") snapshot.restore() assert sys.modules == original def test_preserve_container(self, monkeypatch: MonkeyPatch) -> None: original = dict(sys.modules) assert self.key not in original replacement = dict(sys.modules) replacement[self.key] = ModuleType("life of brian") snapshot = SysModulesSnapshot() monkeypatch.setattr(sys, "modules", replacement) snapshot.restore() assert sys.modules is replacement assert sys.modules == original @pytest.mark.parametrize("path_type", ("path", "meta_path")) class TestSysPathsSnapshot: other_path = {"path": "meta_path", "meta_path": "path"} @staticmethod def path(n: int) -> str: return "my-dirty-little-secret-" + str(n) def test_restore(self, monkeypatch: MonkeyPatch, path_type) -> None: other_path_type = self.other_path[path_type] for i in range(10): assert self.path(i) not in getattr(sys, path_type) sys_path = [self.path(i) for i in range(6)] monkeypatch.setattr(sys, path_type, sys_path) original = list(sys_path) original_other = list(getattr(sys, other_path_type)) snapshot = SysPathsSnapshot() transformation = {"source": (0, 1, 2, 3, 4, 5), "target": (6, 2, 9, 7, 5, 8)} assert sys_path == [self.path(x) for x in transformation["source"]] sys_path[1] = self.path(6) sys_path[3] = self.path(7) sys_path.append(self.path(8)) del sys_path[4] sys_path[3:3] = [self.path(9)] del sys_path[0] assert sys_path == [self.path(x) for x in transformation["target"]] snapshot.restore() assert getattr(sys, path_type) is sys_path assert getattr(sys, path_type) == original assert getattr(sys, other_path_type) == original_other def test_preserve_container(self, monkeypatch: MonkeyPatch, path_type) -> None: other_path_type = self.other_path[path_type] original_data = list(getattr(sys, path_type)) original_other = getattr(sys, other_path_type) original_other_data = list(original_other) new: List[object] = [] snapshot = SysPathsSnapshot() monkeypatch.setattr(sys, path_type, new) snapshot.restore() assert getattr(sys, path_type) is new assert getattr(sys, path_type) == original_data assert getattr(sys, other_path_type) is original_other assert getattr(sys, other_path_type) == original_other_data def test_pytester_subprocess(pytester: Pytester) -> None: testfile = pytester.makepyfile("def test_one(): pass") assert pytester.runpytest_subprocess(testfile).ret == 0 def test_pytester_subprocess_via_runpytest_arg(pytester: Pytester) -> None: testfile = pytester.makepyfile( """ def test_pytester_subprocess(pytester): import os testfile = pytester.makepyfile( \""" import os def test_one(): assert {} != os.getpid() \""".format(os.getpid()) ) assert pytester.runpytest(testfile).ret == 0 """ ) result = pytester.runpytest_inprocess( "-p", "pytester", "--runpytest", "subprocess", testfile ) assert result.ret == 0 def test_unicode_args(pytester: Pytester) -> None: result = pytester.runpytest("-k", "אבג") assert result.ret == ExitCode.NO_TESTS_COLLECTED def test_pytester_run_no_timeout(pytester: Pytester) -> None: testfile = pytester.makepyfile("def test_no_timeout(): pass") assert pytester.runpytest_subprocess(testfile).ret == ExitCode.OK def test_pytester_run_with_timeout(pytester: Pytester) -> None: testfile = pytester.makepyfile("def test_no_timeout(): pass") timeout = 120 start = time.time() result = pytester.runpytest_subprocess(testfile, timeout=timeout) end = time.time() duration = end - start assert result.ret == ExitCode.OK assert duration < timeout def test_pytester_run_timeout_expires(pytester: Pytester) -> None: testfile = pytester.makepyfile( """ import time def test_timeout(): time.sleep(10)""" ) with pytest.raises(pytester.TimeoutExpired): pytester.runpytest_subprocess(testfile, timeout=1) def test_linematcher_with_nonlist() -> None: """Test LineMatcher with regard to passing in a set (accidentally).""" from _pytest._code.source import Source lm = LineMatcher([]) with pytest.raises(TypeError, match="invalid type for lines2: set"): lm.fnmatch_lines(set()) # type: ignore[arg-type] with pytest.raises(TypeError, match="invalid type for lines2: dict"): lm.fnmatch_lines({}) # type: ignore[arg-type] with pytest.raises(TypeError, match="invalid type for lines2: set"): lm.re_match_lines(set()) # type: ignore[arg-type] with pytest.raises(TypeError, match="invalid type for lines2: dict"): lm.re_match_lines({}) # type: ignore[arg-type] with pytest.raises(TypeError, match="invalid type for lines2: Source"): lm.fnmatch_lines(Source()) # type: ignore[arg-type] lm.fnmatch_lines([]) lm.fnmatch_lines(()) lm.fnmatch_lines("") assert lm._getlines({}) == {} # type: ignore[arg-type,comparison-overlap] assert lm._getlines(set()) == set() # type: ignore[arg-type,comparison-overlap] assert lm._getlines(Source()) == [] assert lm._getlines(Source("pass\npass")) == ["pass", "pass"] def test_linematcher_match_failure() -> None: lm = LineMatcher(["foo", "foo", "bar"]) with pytest.raises(pytest.fail.Exception) as e: lm.fnmatch_lines(["foo", "f*", "baz"]) assert e.value.msg is not None assert e.value.msg.splitlines() == [ "exact match: 'foo'", "fnmatch: 'f*'", " with: 'foo'", "nomatch: 'baz'", " and: 'bar'", "remains unmatched: 'baz'", ] lm = LineMatcher(["foo", "foo", "bar"]) with pytest.raises(pytest.fail.Exception) as e: lm.re_match_lines(["foo", "^f.*", "baz"]) assert e.value.msg is not None assert e.value.msg.splitlines() == [ "exact match: 'foo'", "re.match: '^f.*'", " with: 'foo'", " nomatch: 'baz'", " and: 'bar'", "remains unmatched: 'baz'", ] def test_linematcher_consecutive() -> None: lm = LineMatcher(["1", "", "2"]) with pytest.raises(pytest.fail.Exception) as excinfo: lm.fnmatch_lines(["1", "2"], consecutive=True) assert str(excinfo.value).splitlines() == [ "exact match: '1'", "no consecutive match: '2'", " with: ''", ] lm.re_match_lines(["1", r"\d?", "2"], consecutive=True) with pytest.raises(pytest.fail.Exception) as excinfo: lm.re_match_lines(["1", r"\d", "2"], consecutive=True) assert str(excinfo.value).splitlines() == [ "exact match: '1'", r"no consecutive match: '\\d'", " with: ''", ] @pytest.mark.parametrize("function", ["no_fnmatch_line", "no_re_match_line"]) def test_linematcher_no_matching(function: str) -> None: if function == "no_fnmatch_line": good_pattern = "*.py OK*" bad_pattern = "*X.py OK*" else: assert function == "no_re_match_line" good_pattern = r".*py OK" bad_pattern = r".*Xpy OK" lm = LineMatcher( [ "cachedir: .pytest_cache", "collecting ... collected 1 item", "", "show_fixtures_per_test.py OK", "=== elapsed 1s ===", ] ) # check the function twice to ensure we don't accumulate the internal buffer for i in range(2): with pytest.raises(pytest.fail.Exception) as e: func = getattr(lm, function) func(good_pattern) obtained = str(e.value).splitlines() if function == "no_fnmatch_line": assert obtained == [ f"nomatch: '{good_pattern}'", " and: 'cachedir: .pytest_cache'", " and: 'collecting ... collected 1 item'", " and: ''", f"fnmatch: '{good_pattern}'", " with: 'show_fixtures_per_test.py OK'", ] else: assert obtained == [ f" nomatch: '{good_pattern}'", " and: 'cachedir: .pytest_cache'", " and: 'collecting ... collected 1 item'", " and: ''", f"re.match: '{good_pattern}'", " with: 'show_fixtures_per_test.py OK'", ] func = getattr(lm, function) func(bad_pattern) # bad pattern does not match any line: passes def test_linematcher_no_matching_after_match() -> None: lm = LineMatcher(["1", "2", "3"]) lm.fnmatch_lines(["1", "3"]) with pytest.raises(pytest.fail.Exception) as e: lm.no_fnmatch_line("*") assert str(e.value).splitlines() == ["fnmatch: '*'", " with: '1'"] def test_linematcher_string_api() -> None: lm = LineMatcher(["foo", "bar"]) assert str(lm) == "foo\nbar" def test_pytest_addopts_before_pytester(request, monkeypatch: MonkeyPatch) -> None: monkeypatch.setenv("PYTEST_ADDOPTS", "--orig-unused") _: Pytester = request.getfixturevalue("pytester") assert "PYTEST_ADDOPTS" not in os.environ def test_run_stdin(pytester: Pytester) -> None: with pytest.raises(pytester.TimeoutExpired): pytester.run( sys.executable, "-c", "import sys, time; time.sleep(1); print(sys.stdin.read())", stdin=subprocess.PIPE, timeout=0.1, ) with pytest.raises(pytester.TimeoutExpired): result = pytester.run( sys.executable, "-c", "import sys, time; time.sleep(1); print(sys.stdin.read())", stdin=b"input\n2ndline", timeout=0.1, ) result = pytester.run( sys.executable, "-c", "import sys; print(sys.stdin.read())", stdin=b"input\n2ndline", ) assert result.stdout.lines == ["input", "2ndline"] assert result.stderr.str() == "" assert result.ret == 0 def test_popen_stdin_pipe(pytester: Pytester) -> None: proc = pytester.popen( [sys.executable, "-c", "import sys; print(sys.stdin.read())"], stdout=subprocess.PIPE, stderr=subprocess.PIPE, stdin=subprocess.PIPE, ) stdin = b"input\n2ndline" stdout, stderr = proc.communicate(input=stdin) assert stdout.decode("utf8").splitlines() == ["input", "2ndline"] assert stderr == b"" assert proc.returncode == 0 def test_popen_stdin_bytes(pytester: Pytester) -> None: proc = pytester.popen( [sys.executable, "-c", "import sys; print(sys.stdin.read())"], stdout=subprocess.PIPE, stderr=subprocess.PIPE, stdin=b"input\n2ndline", ) stdout, stderr = proc.communicate() assert stdout.decode("utf8").splitlines() == ["input", "2ndline"] assert stderr == b"" assert proc.returncode == 0 def test_popen_default_stdin_stderr_and_stdin_None(pytester: Pytester) -> None: # stdout, stderr default to pipes, # stdin can be None to not close the pipe, avoiding # "ValueError: flush of closed file" with `communicate()`. # # Wraps the test to make it not hang when run with "-s". p1 = pytester.makepyfile( ''' import sys def test_inner(pytester): p1 = pytester.makepyfile( """ import sys print(sys.stdin.read()) # empty print('stdout') sys.stderr.write('stderr') """ ) proc = pytester.popen([sys.executable, str(p1)], stdin=None) stdout, stderr = proc.communicate(b"ignored") assert stdout.splitlines() == [b"", b"stdout"] assert stderr.splitlines() == [b"stderr"] assert proc.returncode == 0 ''' ) result = pytester.runpytest("-p", "pytester", str(p1)) assert result.ret == 0 def test_spawn_uses_tmphome(pytester: Pytester) -> None: tmphome = str(pytester.path) assert os.environ.get("HOME") == tmphome pytester._monkeypatch.setenv("CUSTOMENV", "42") p1 = pytester.makepyfile( """ import os def test(): assert os.environ["HOME"] == {tmphome!r} assert os.environ["CUSTOMENV"] == "42" """.format( tmphome=tmphome ) ) child = pytester.spawn_pytest(str(p1)) out = child.read() assert child.wait() == 0, out.decode("utf8") def test_run_result_repr() -> None: outlines = ["some", "normal", "output"] errlines = ["some", "nasty", "errors", "happened"] # known exit code r = pytester_mod.RunResult(1, outlines, errlines, duration=0.5) assert repr(r) == ( f"" ) # unknown exit code: just the number r = pytester_mod.RunResult(99, outlines, errlines, duration=0.5) assert ( repr(r) == "" ) def test_pytester_outcomes_with_multiple_errors(pytester: Pytester) -> None: p1 = pytester.makepyfile( """ import pytest @pytest.fixture def bad_fixture(): raise Exception("bad") def test_error1(bad_fixture): pass def test_error2(bad_fixture): pass """ ) result = pytester.runpytest(str(p1)) result.assert_outcomes(errors=2) assert result.parseoutcomes() == {"errors": 2} def test_parse_summary_line_always_plural() -> None: """Parsing summaries always returns plural nouns (#6505)""" lines = [ "some output 1", "some output 2", "======= 1 failed, 1 passed, 1 warning, 1 error in 0.13s ====", "done.", ] assert pytester_mod.RunResult.parse_summary_nouns(lines) == { "errors": 1, "failed": 1, "passed": 1, "warnings": 1, } lines = [ "some output 1", "some output 2", "======= 1 failed, 1 passed, 2 warnings, 2 errors in 0.13s ====", "done.", ] assert pytester_mod.RunResult.parse_summary_nouns(lines) == { "errors": 2, "failed": 1, "passed": 1, "warnings": 2, } def test_makefile_joins_absolute_path(pytester: Pytester) -> None: absfile = pytester.path / "absfile" p1 = pytester.makepyfile(**{str(absfile): ""}) assert str(p1) == str(pytester.path / "absfile.py") def test_pytester_makefile_dot_prefixes_extension_with_warning( pytester: Pytester, ) -> None: with pytest.raises( ValueError, match="pytester.makefile expects a file extension, try .foo.bar instead of foo.bar", ): pytester.makefile("foo.bar", "") @pytest.mark.filterwarnings("default") def test_pytester_assert_outcomes_warnings(pytester: Pytester) -> None: pytester.makepyfile( """ import warnings def test_with_warning(): warnings.warn(UserWarning("some custom warning")) """ ) result = pytester.runpytest() result.assert_outcomes(passed=1, warnings=1) # If warnings is not passed, it is not checked at all. result.assert_outcomes(passed=1) def test_pytester_outcomes_deselected(pytester: Pytester) -> None: pytester.makepyfile( """ def test_one(): pass def test_two(): pass """ ) result = pytester.runpytest("-k", "test_one") result.assert_outcomes(passed=1, deselected=1) # If deselected is not passed, it is not checked at all. result.assert_outcomes(passed=1)