# Licensed under the Apache License: http://www.apache.org/licenses/LICENSE-2.0 # For details: https://github.com/nedbat/coveragepy/blob/master/NOTICE.txt """Tests for process behavior of coverage.py.""" from __future__ import annotations import glob import os import os.path import re import stat import sys import textwrap from typing import Any import pytest import coverage from coverage import env from coverage.data import line_counts from coverage.files import abs_file, python_reported_file from tests.coveragetest import CoverageTest, TESTS_DIR from tests.helpers import re_lines_text class ProcessTest(CoverageTest): """Tests of the per-process behavior of coverage.py.""" def test_save_on_exit(self) -> None: self.make_file("mycode.py", """\ h = "Hello" w = "world" """) self.assert_doesnt_exist(".coverage") self.run_command("coverage run mycode.py") self.assert_exists(".coverage") def test_tests_dir_is_importable(self) -> None: # Checks that we can import modules from the tests directory at all! self.make_file("mycode.py", """\ import covmod1 import covmodzip1 a = 1 print('done') """) self.assert_doesnt_exist(".coverage") out = self.run_command("coverage run mycode.py") self.assert_exists(".coverage") assert out == 'done\n' def test_coverage_run_envvar_is_in_coveragerun(self) -> None: # Test that we are setting COVERAGE_RUN when we run. self.make_file("envornot.py", """\ import os print(os.environ.get("COVERAGE_RUN", "nope")) """) self.del_environ("COVERAGE_RUN") # Regular Python doesn't have the environment variable. out = self.run_command("python envornot.py") assert out == "nope\n" self.del_environ("COVERAGE_RUN") # But `coverage run` does have it. out = self.run_command("coverage run envornot.py") assert out == "true\n" def make_b_or_c_py(self) -> None: """Create b_or_c.py, used in a few of these tests.""" # "b_or_c.py b" will run 6 lines. # "b_or_c.py c" will run 7 lines. # Together, they run 8 lines. self.make_file("b_or_c.py", """\ import sys a = 2 if sys.argv[1] == 'b': b = 4 else: c = 6 c2 = 7 d = 8 print('done') """) def test_append_data(self) -> None: self.make_b_or_c_py() out = self.run_command("coverage run b_or_c.py b") assert out == 'done\n' self.assert_exists(".coverage") self.assert_file_count(".coverage.*", 0) out = self.run_command("coverage run --append b_or_c.py c") assert out == 'done\n' self.assert_exists(".coverage") self.assert_file_count(".coverage.*", 0) # Read the coverage file and see that b_or_c.py has all 8 lines # executed. data = coverage.CoverageData() data.read() assert line_counts(data)['b_or_c.py'] == 8 def test_append_data_with_different_file(self) -> None: self.make_b_or_c_py() self.make_file(".coveragerc", """\ [run] data_file = .mycovdata """) out = self.run_command("coverage run b_or_c.py b") assert out == 'done\n' self.assert_doesnt_exist(".coverage") self.assert_exists(".mycovdata") out = self.run_command("coverage run --append b_or_c.py c") assert out == 'done\n' self.assert_doesnt_exist(".coverage") self.assert_exists(".mycovdata") # Read the coverage file and see that b_or_c.py has all 8 lines # executed. data = coverage.CoverageData(".mycovdata") data.read() assert line_counts(data)['b_or_c.py'] == 8 def test_append_can_create_a_data_file(self) -> None: self.make_b_or_c_py() out = self.run_command("coverage run --append b_or_c.py b") assert out == 'done\n' self.assert_exists(".coverage") self.assert_file_count(".coverage.*", 0) # Read the coverage file and see that b_or_c.py has only 6 lines # executed. data = coverage.CoverageData() data.read() assert line_counts(data)['b_or_c.py'] == 6 def test_combine_with_rc(self) -> None: self.make_b_or_c_py() self.make_file(".coveragerc", """\ [run] source = . parallel = true """) out = self.run_command("coverage run b_or_c.py b") assert out == 'done\n' self.assert_doesnt_exist(".coverage") out = self.run_command("coverage run b_or_c.py c") assert out == 'done\n' self.assert_doesnt_exist(".coverage") # After two runs, there should be two .coverage.machine.123 files. self.assert_file_count(".coverage.*", 2) # Combine the parallel coverage data files into .coverage . self.run_command("coverage combine") self.assert_exists(".coverage") self.assert_exists(".coveragerc") # After combining, there should be only the .coverage file. self.assert_file_count(".coverage.*", 0) # Read the coverage file and see that b_or_c.py has all 8 lines # executed. data = coverage.CoverageData() data.read() assert line_counts(data)['b_or_c.py'] == 8 # Reporting should still work even with the .rc file out = self.run_command("coverage report") assert out == textwrap.dedent("""\ Name Stmts Miss Cover ------------------------------- b_or_c.py 8 0 100% ------------------------------- TOTAL 8 0 100% """) def test_combine_with_aliases(self) -> None: self.make_file("d1/x.py", """\ a = 1 b = 2 print(f"{a} {b}") """) self.make_file("d2/x.py", """\ # 1 # 2 # 3 c = 4 d = 5 print(f"{c} {d}") """) self.make_file(".coveragerc", """\ [run] source = . parallel = True [paths] source = src */d1 */d2 """) out = self.run_command("coverage run " + os.path.normpath("d1/x.py")) assert out == '1 2\n' out = self.run_command("coverage run " + os.path.normpath("d2/x.py")) assert out == '4 5\n' self.assert_file_count(".coverage.*", 2) self.make_file("src/x.py", "") self.run_command("coverage combine") self.assert_exists(".coverage") # After combining, there should be only the .coverage file. self.assert_file_count(".coverage.*", 0) # Read the coverage data file and see that the two different x.py # files have been combined together. data = coverage.CoverageData() data.read() summary = line_counts(data, fullpath=True) assert len(summary) == 1 actual = abs_file(list(summary.keys())[0]) expected = abs_file('src/x.py') assert expected == actual assert list(summary.values())[0] == 6 def test_erase_parallel(self) -> None: self.make_file(".coveragerc", """\ [run] data_file = data.dat parallel = True """) self.make_file("data.dat") self.make_file("data.dat.fooey") self.make_file("data.dat.gooey") self.make_file(".coverage") self.run_command("coverage erase") self.assert_doesnt_exist("data.dat") self.assert_doesnt_exist("data.dat.fooey") self.assert_doesnt_exist("data.dat.gooey") self.assert_exists(".coverage") def test_missing_source_file(self) -> None: # Check what happens if the source is missing when reporting happens. self.make_file("fleeting.py", """\ s = 'goodbye, cruel world!' """) self.run_command("coverage run fleeting.py") os.remove("fleeting.py") out = self.run_command("coverage html -d htmlcov") assert re.search("No source for code: '.*fleeting.py'", out) assert "Traceback" not in out # It happens that the code paths are different for *.py and other # files, so try again with no extension. self.make_file("fleeting", """\ s = 'goodbye, cruel world!' """) self.run_command("coverage run fleeting") os.remove("fleeting") status, out = self.run_command_status("coverage html -d htmlcov") assert re.search("No source for code: '.*fleeting'", out) assert "Traceback" not in out assert status == 1 def test_running_missing_file(self) -> None: status, out = self.run_command_status("coverage run xyzzy.py") assert re.search("No file to run: .*xyzzy.py", out) assert "raceback" not in out assert "rror" not in out assert status == 1 def test_code_throws(self) -> None: self.make_file("throw.py", """\ class MyException(Exception): pass def f1(): raise MyException("hey!") def f2(): f1() f2() """) # The important thing is for "coverage run" and "python" to report the # same traceback. status, out = self.run_command_status("coverage run throw.py") out2 = self.run_command("python throw.py") if env.PYPY: # PyPy has an extra frame in the traceback for some reason out2 = re_lines_text("toplevel", out2, match=False) assert out == out2 # But also make sure that the output is what we expect. path = python_reported_file('throw.py') msg = f'File "{re.escape(path)}", line 8, in f2' assert re.search(msg, out) assert 'raise MyException("hey!")' in out assert status == 1 def test_code_exits(self) -> None: self.make_file("exit.py", """\ import sys def f1(): print("about to exit..") sys.exit(17) def f2(): f1() f2() """) # The important thing is for "coverage run" and "python" to have the # same output. No traceback. status, out = self.run_command_status("coverage run exit.py") status2, out2 = self.run_command_status("python exit.py") assert out == out2 assert out == "about to exit..\n" assert status == status2 assert status == 17 def test_code_exits_no_arg(self) -> None: self.make_file("exit_none.py", """\ import sys def f1(): print("about to exit quietly..") sys.exit() f1() """) status, out = self.run_command_status("coverage run exit_none.py") status2, out2 = self.run_command_status("python exit_none.py") assert out == out2 assert out == "about to exit quietly..\n" assert status == status2 assert status == 0 @pytest.mark.skipif(not hasattr(os, "fork"), reason="Can't test os.fork, it doesn't exist.") def test_fork(self) -> None: self.make_file("fork.py", """\ import os def child(): print('Child!') def main(): ret = os.fork() if ret == 0: child() else: os.waitpid(ret, 0) main() """) out = self.run_command("coverage run -p fork.py") assert out == 'Child!\n' self.assert_doesnt_exist(".coverage") # After running the forking program, there should be two # .coverage.machine.123 files. self.assert_file_count(".coverage.*", 2) # The two data files should have different random numbers at the end of # the file name. data_files = glob.glob(".coverage.*") nums = {name.rpartition(".")[-1] for name in data_files} assert len(nums) == 2, f"Same random: {data_files}" # Combine the parallel coverage data files into .coverage . self.run_command("coverage combine") self.assert_exists(".coverage") # After combining, there should be only the .coverage file. self.assert_file_count(".coverage.*", 0) data = coverage.CoverageData() data.read() assert line_counts(data)['fork.py'] == 9 def test_warnings_during_reporting(self) -> None: # While fixing issue #224, the warnings were being printed far too # often. Make sure they're not any more. self.make_file("hello.py", """\ import sys, os, the_other print("Hello") """) self.make_file("the_other.py", """\ print("What?") """) self.make_file(".coveragerc", """\ [run] source = . xyzzy """) self.run_command("coverage run hello.py") out = self.run_command("coverage html") assert out.count("Module xyzzy was never imported.") == 0 def test_warns_if_never_run(self) -> None: # Note: the name of the function can't have "warning" in it, or the # absolute path of the file will have "warning" in it, and an assertion # will fail. out = self.run_command("coverage run i_dont_exist.py") path = python_reported_file('i_dont_exist.py') assert f"No file to run: '{path}'" in out assert "warning" not in out assert "Exception" not in out out = self.run_command("coverage run -m no_such_module") assert ( ("No module named no_such_module" in out) or ("No module named 'no_such_module'" in out) ) assert "warning" not in out assert "Exception" not in out @pytest.mark.skipif(env.METACOV, reason="Can't test tracers changing during metacoverage") def test_warnings_trace_function_changed_with_threads(self) -> None: # https://github.com/nedbat/coveragepy/issues/164 self.make_file("bug164.py", """\ import threading import time class MyThread (threading.Thread): def run(self): print("Hello") thr = MyThread() thr.start() thr.join() """) out = self.run_command("coverage run --timid bug164.py") assert "Hello\n" in out assert "warning" not in out def test_warning_trace_function_changed(self) -> None: self.make_file("settrace.py", """\ import sys print("Hello") sys.settrace(None) print("Goodbye") """) out = self.run_command("coverage run --timid settrace.py") assert "Hello\n" in out assert "Goodbye\n" in out assert "Trace function changed" in out # When meta-coverage testing, this test doesn't work, because it finds # coverage.py's own trace function. @pytest.mark.skipif(env.METACOV, reason="Can't test timid during coverage measurement.") def test_timid(self) -> None: # Test that the --timid command line argument properly swaps the tracer # function for a simpler one. # # This is complicated by the fact that the tests are run twice for each # version: once with a compiled C-based trace function, and once without # it, to also test the Python trace function. So this test has to examine # an environment variable set in igor.py to know whether to expect to see # the C trace function or not. self.make_file("showtrace.py", """\ # Show the current frame's trace function, so that we can test what the # command-line options do to the trace function used. import sys # Show what the trace function is. If a C-based function is used, then f_trace # may be None. trace_fn = sys._getframe(0).f_trace if trace_fn is None: trace_name = "None" else: # Get the name of the tracer class. Py3k has a different way to get it. try: trace_name = trace_fn.im_class.__name__ except AttributeError: try: trace_name = trace_fn.__self__.__class__.__name__ except AttributeError: # A C-based function could also manifest as an f_trace value # which doesn't have im_class or __self__. trace_name = trace_fn.__class__.__name__ print(trace_name) """) # When running without coverage, no trace function py_out = self.run_command("python showtrace.py") assert py_out == "None\n" cov_out = self.run_command("coverage run showtrace.py") if os.environ.get('COVERAGE_TEST_TRACER', 'c') == 'c': # If the C trace function is being tested, then regular running should have # the C function, which registers itself as f_trace. assert cov_out == "CTracer\n" else: # If the Python trace function is being tested, then regular running will # also show the Python function. assert cov_out == "PyTracer\n" # When running timidly, the trace function is always Python. timid_out = self.run_command("coverage run --timid showtrace.py") assert timid_out == "PyTracer\n" def test_warn_preimported(self) -> None: self.make_file("hello.py", """\ import goodbye import coverage cov = coverage.Coverage(include=["good*"], check_preimported=True) cov.start() print(goodbye.f()) cov.stop() """) self.make_file("goodbye.py", """\ def f(): return "Goodbye!" """) goodbye_path = os.path.abspath("goodbye.py") out = self.run_command("python hello.py") assert "Goodbye!" in out msg = ( f"CoverageWarning: Already imported a file that will be measured: {goodbye_path} " + "(already-imported)" ) assert msg in out @pytest.mark.expensive @pytest.mark.skipif(not env.C_TRACER, reason="fullcoverage only works with the C tracer.") @pytest.mark.skipif(env.METACOV, reason="Can't test fullcoverage when measuring ourselves") def test_fullcoverage(self) -> None: # fullcoverage is a trick to get stdlib modules measured from # the very beginning of the process. Here we import os and # then check how many lines are measured. self.make_file("getenv.py", """\ import os print("FOOEY == %s" % os.getenv("FOOEY")) """) fullcov = os.path.join(os.path.dirname(coverage.__file__), "fullcoverage") self.set_environ("FOOEY", "BOO") self.set_environ("PYTHONPATH", fullcov) out = self.run_command("python -X frozen_modules=off -m coverage run -L getenv.py") assert out == "FOOEY == BOO\n" data = coverage.CoverageData() data.read() # The actual number of executed lines in os.py when it's # imported is 120 or so. Just running os.getenv executes # about 5. assert line_counts(data)['os.py'] > 50 # Pypy passes locally, but fails in CI? Perhaps the version of macOS is # significant? https://foss.heptapod.net/pypy/pypy/-/issues/3074 @pytest.mark.skipif(env.PYPY, reason="PyPy is unreliable with this test") def test_lang_c(self) -> None: # LANG=C forces getfilesystemencoding on Linux to 'ascii', which causes # failures with non-ascii file names. We don't want to make a real file # with strange characters, though, because that gets the test runners # tangled up. This will isolate the concerns to the coverage.py code. # https://github.com/nedbat/coveragepy/issues/533 self.make_file("weird_file.py", r""" globs = {} code = "a = 1\nb = 2\n" exec(compile(code, "wut\xe9\xea\xeb\xec\x01\x02.py", 'exec'), globs) print(globs['a']) print(globs['b']) """) self.set_environ("LANG", "C") out = self.run_command("coverage run weird_file.py") assert out == "1\n2\n" def test_deprecation_warnings(self) -> None: # Test that coverage doesn't trigger deprecation warnings. # https://github.com/nedbat/coveragepy/issues/305 self.make_file("allok.py", """\ import warnings warnings.simplefilter('default') import coverage print("No warnings!") """) # Some of our testing infrastructure can issue warnings. # Turn it all off for the sub-process. self.del_environ("COVERAGE_TESTING") out = self.run_command("python allok.py") assert out == "No warnings!\n" def test_run_twice(self) -> None: # https://github.com/nedbat/coveragepy/issues/353 self.make_file("foo.py", """\ def foo(): pass """) self.make_file("run_twice.py", """\ import sys import coverage for i in [1, 2]: sys.stderr.write(f"Run {i}\\n") inst = coverage.Coverage(source=['foo']) inst.load() inst.start() import foo inst.stop() inst.save() """) out = self.run_command("python run_twice.py") # Remove the file location and source line from the warning. out = re.sub(r"(?m)^[\\/\w.:~_-]+:\d+: CoverageWarning: ", "f:d: CoverageWarning: ", out) out = re.sub(r"(?m)^\s+self.warn.*$\n", "", out) expected = ( "Run 1\n" + "Run 2\n" + "f:d: CoverageWarning: Module foo was previously imported, but not measured " + "(module-not-measured)\n" ) assert expected == out def test_module_name(self) -> None: # https://github.com/nedbat/coveragepy/issues/478 # Make sure help doesn't show a silly command name when run as a # module, like it used to: # $ python -m coverage # Code coverage for Python. Use '__main__.py help' for help. out = self.run_command("python -m coverage") assert "Use 'coverage help' for help" in out TRY_EXECFILE = os.path.join(os.path.dirname(__file__), "modules/process_test/try_execfile.py") class EnvironmentTest(CoverageTest): """Tests using try_execfile.py to test the execution environment.""" def assert_tryexecfile_output(self, expected: str, actual: str) -> None: """Assert that the output we got is a successful run of try_execfile.py. `expected` and `actual` must be the same, modulo a few slight known platform differences. """ # First, is this even credible try_execfile.py output? assert '"DATA": "xyzzy"' in actual assert actual == expected def test_coverage_run_is_like_python(self) -> None: with open(TRY_EXECFILE) as f: self.make_file("run_me.py", f.read()) expected = self.run_command("python run_me.py") actual = self.run_command("coverage run run_me.py") self.assert_tryexecfile_output(expected, actual) def test_coverage_run_far_away_is_like_python(self) -> None: with open(TRY_EXECFILE) as f: self.make_file("sub/overthere/prog.py", f.read()) expected = self.run_command("python sub/overthere/prog.py") actual = self.run_command("coverage run sub/overthere/prog.py") self.assert_tryexecfile_output(expected, actual) def test_coverage_run_dashm_is_like_python_dashm(self) -> None: # These -m commands assume the coverage tree is on the path. expected = self.run_command("python -m process_test.try_execfile") actual = self.run_command("coverage run -m process_test.try_execfile") self.assert_tryexecfile_output(expected, actual) def test_coverage_run_dir_is_like_python_dir(self) -> None: with open(TRY_EXECFILE) as f: self.make_file("with_main/__main__.py", f.read()) expected = self.run_command("python with_main") actual = self.run_command("coverage run with_main") self.assert_tryexecfile_output(expected, actual) def test_coverage_run_dashm_dir_no_init_is_like_python(self) -> None: with open(TRY_EXECFILE) as f: self.make_file("with_main/__main__.py", f.read()) expected = self.run_command("python -m with_main") actual = self.run_command("coverage run -m with_main") self.assert_tryexecfile_output(expected, actual) def test_coverage_run_dashm_dir_with_init_is_like_python(self) -> None: with open(TRY_EXECFILE) as f: self.make_file("with_main/__main__.py", f.read()) self.make_file("with_main/__init__.py", "") expected = self.run_command("python -m with_main") actual = self.run_command("coverage run -m with_main") self.assert_tryexecfile_output(expected, actual) def test_coverage_run_dashm_equal_to_doubledashsource(self) -> None: """regression test for #328 When imported by -m, a module's __name__ is __main__, but we need the --source machinery to know and respect the original name. """ # These -m commands assume the coverage tree is on the path. expected = self.run_command("python -m process_test.try_execfile") actual = self.run_command( "coverage run --source process_test.try_execfile -m process_test.try_execfile" ) self.assert_tryexecfile_output(expected, actual) def test_coverage_run_dashm_superset_of_doubledashsource(self) -> None: """Edge case: --source foo -m foo.bar""" # Ugh: without this config file, we'll get a warning about # CoverageWarning: Module process_test was previously imported, # but not measured (module-not-measured) # # This is because process_test/__init__.py is imported while looking # for process_test.try_execfile. That import happens while setting # sys.path before start() is called. self.make_file(".coveragerc", """\ [run] disable_warnings = module-not-measured """) # These -m commands assume the coverage tree is on the path. expected = self.run_command("python -m process_test.try_execfile") actual = self.run_command( "coverage run --source process_test -m process_test.try_execfile" ) self.assert_tryexecfile_output(expected, actual) st, out = self.run_command_status("coverage report") assert st == 0 assert self.line_count(out) == 6, out def test_coverage_run_script_imports_doubledashsource(self) -> None: # This file imports try_execfile, which compiles it to .pyc, so the # first run will have __file__ == "try_execfile.py" and the second will # have __file__ == "try_execfile.pyc", which throws off the comparison. # Setting dont_write_bytecode True stops the compilation to .pyc and # keeps the test working. self.make_file("myscript", """\ import sys; sys.dont_write_bytecode = True import process_test.try_execfile """) expected = self.run_command("python myscript") actual = self.run_command("coverage run --source process_test myscript") self.assert_tryexecfile_output(expected, actual) st, out = self.run_command_status("coverage report") assert st == 0 assert self.line_count(out) == 6, out def test_coverage_run_dashm_is_like_python_dashm_off_path(self) -> None: # https://github.com/nedbat/coveragepy/issues/242 self.make_file("sub/__init__.py", "") with open(TRY_EXECFILE) as f: self.make_file("sub/run_me.py", f.read()) expected = self.run_command("python -m sub.run_me") actual = self.run_command("coverage run -m sub.run_me") self.assert_tryexecfile_output(expected, actual) def test_coverage_run_dashm_is_like_python_dashm_with__main__207(self) -> None: # https://github.com/nedbat/coveragepy/issues/207 self.make_file("package/__init__.py", "print('init')") self.make_file("package/__main__.py", "print('main')") expected = self.run_command("python -m package") actual = self.run_command("coverage run -m package") assert expected == actual def test_coverage_zip_is_like_python(self) -> None: # Test running coverage from a zip file itself. Some environments # (windows?) zip up the coverage main to be used as the coverage # command. with open(TRY_EXECFILE) as f: self.make_file("run_me.py", f.read()) expected = self.run_command("python run_me.py") cov_main = os.path.join(TESTS_DIR, "covmain.zip") actual = self.run_command(f"python {cov_main} run run_me.py") self.assert_tryexecfile_output(expected, actual) def test_coverage_custom_script(self) -> None: # https://github.com/nedbat/coveragepy/issues/678 # If sys.path[0] isn't the Python default, then coverage.py won't # fiddle with it. self.make_file("a/b/c/thing.py", """\ SOMETHING = "hello-xyzzy" """) abc = os.path.abspath("a/b/c") self.make_file("run_coverage.py", """\ import sys sys.path[0:0] = [ r'{abc}', '/Users/somebody/temp/something/eggs/something-4.5.1-py2.7-xxx-10.13-x86_64.egg', ] import coverage.cmdline if __name__ == '__main__': sys.exit(coverage.cmdline.main()) """.format(abc=abc)) self.make_file("how_is_it.py", """\ import pprint, sys pprint.pprint(sys.path) import thing print(thing.SOMETHING) """) # If this test fails, it will be with "can't import thing". out = self.run_command("python run_coverage.py run how_is_it.py") assert "hello-xyzzy" in out out = self.run_command("python -m run_coverage run how_is_it.py") assert "hello-xyzzy" in out @pytest.mark.skipif(env.WINDOWS, reason="Windows can't make symlinks") def test_bug_862(self) -> None: # This simulates how pyenv and pyenv-virtualenv end up creating the # coverage executable. self.make_file("elsewhere/bin/fake-coverage", """\ #!{executable} import sys, pkg_resources sys.exit(pkg_resources.load_entry_point('coverage', 'console_scripts', 'coverage')()) """.format(executable=sys.executable)) os.chmod("elsewhere/bin/fake-coverage", stat.S_IREAD | stat.S_IEXEC) os.symlink("elsewhere", "somewhere") self.make_file("foo.py", "print('inside foo')") self.make_file("bar.py", "import foo") out = self.run_command("somewhere/bin/fake-coverage run bar.py") assert "inside foo\n" == out def test_bug_909(self) -> None: # https://github.com/nedbat/coveragepy/issues/909 # The __init__ files were being imported before measurement started, # so the line in __init__.py was being marked as missed, and there were # warnings about measured files being imported before start. self.make_file("proj/__init__.py", "print('Init')") self.make_file("proj/thecode.py", "print('The code')") self.make_file("proj/tests/__init__.py", "") self.make_file("proj/tests/test_it.py", "import proj.thecode") expected = "Init\nThe code\n" actual = self.run_command("coverage run --source=proj -m proj.tests.test_it") assert expected == actual report = self.run_command("coverage report -m") # Name Stmts Miss Cover Missing # ------------------------------------------------------ # proj/__init__.py 1 0 100% # proj/tests/__init__.py 0 0 100% # proj/tests/test_it.py 1 0 100% # proj/thecode.py 1 0 100% # ------------------------------------------------------ # TOTAL 3 0 100% squeezed = self.squeezed_lines(report) assert squeezed[2].replace("\\", "/") == "proj/__init__.py 1 0 100%" class ExcepthookTest(CoverageTest): """Tests of sys.excepthook support.""" # TODO: do we need these as process tests if we have test_execfile.py:RunFileTest? def test_excepthook(self) -> None: self.make_file("excepthook.py", """\ import sys def excepthook(*args): print('in excepthook') if maybe == 2: print('definitely') sys.excepthook = excepthook maybe = 1 raise RuntimeError('Error Outside') """) cov_st, cov_out = self.run_command_status("coverage run excepthook.py") py_st, py_out = self.run_command_status("python excepthook.py") assert cov_st == py_st assert cov_st == 1 assert "in excepthook" in py_out assert cov_out == py_out # Read the coverage file and see that excepthook.py has 7 lines # executed. data = coverage.CoverageData() data.read() assert line_counts(data)['excepthook.py'] == 7 @pytest.mark.skipif(not env.CPYTHON, reason="non-CPython handles excepthook exits differently, punt for now." ) def test_excepthook_exit(self) -> None: self.make_file("excepthook_exit.py", """\ import sys def excepthook(*args): print('in excepthook') sys.exit(0) sys.excepthook = excepthook raise RuntimeError('Error Outside') """) cov_st, cov_out = self.run_command_status("coverage run excepthook_exit.py") py_st, py_out = self.run_command_status("python excepthook_exit.py") assert cov_st == py_st assert cov_st == 0 assert py_out == "in excepthook\n" assert cov_out == py_out @pytest.mark.skipif(env.PYPY, reason="PyPy handles excepthook throws differently.") def test_excepthook_throw(self) -> None: self.make_file("excepthook_throw.py", """\ import sys def excepthook(*args): # Write this message to stderr so that we don't have to deal # with interleaved stdout/stderr comparisons in the assertions # in the test. sys.stderr.write('in excepthook\\n') raise RuntimeError('Error Inside') sys.excepthook = excepthook raise RuntimeError('Error Outside') """) cov_st, cov_out = self.run_command_status("coverage run excepthook_throw.py") py_st, py_out = self.run_command_status("python excepthook_throw.py") assert cov_st == py_st assert cov_st == 1 assert "in excepthook" in py_out assert cov_out == py_out class AliasedCommandTest(CoverageTest): """Tests of the version-specific command aliases.""" run_in_temp_dir = False def test_major_version_works(self) -> None: # "coverage3" works on py3 cmd = "coverage%d" % sys.version_info[0] out = self.run_command(cmd) assert "Code coverage for Python" in out def test_wrong_alias_doesnt_work(self) -> None: # "coverage2" doesn't work on py3 assert sys.version_info[0] in [2, 3] # Let us know when Python 4 is out... badcmd = "coverage%d" % (5 - sys.version_info[0]) out = self.run_command(badcmd) assert "Code coverage for Python" not in out def test_specific_alias_works(self) -> None: # "coverage-3.9" works on py3.9 cmd = "coverage-%d.%d" % sys.version_info[:2] out = self.run_command(cmd) assert "Code coverage for Python" in out @pytest.mark.parametrize("cmd", [ "coverage", "coverage%d" % sys.version_info[0], "coverage-%d.%d" % sys.version_info[:2], ]) def test_aliases_used_in_messages(self, cmd: str) -> None: out = self.run_command(f"{cmd} foobar") assert "Unknown command: 'foobar'" in out assert f"Use '{cmd} help' for help" in out class PydocTest(CoverageTest): """Test that pydoc can get our information.""" run_in_temp_dir = False def assert_pydoc_ok(self, name: str, thing: Any) -> None: """Check that pydoc of `name` finds the docstring from `thing`.""" # Run pydoc. out = self.run_command("python -m pydoc " + name) # It should say "Help on..", and not have a traceback assert out.startswith("Help on ") assert "Traceback" not in out # All of the lines in the docstring should be there somewhere. for line in thing.__doc__.splitlines(): assert line.strip() in out def test_pydoc_coverage(self) -> None: self.assert_pydoc_ok("coverage", coverage) def test_pydoc_coverage_coverage(self) -> None: self.assert_pydoc_ok("coverage.Coverage", coverage.Coverage) class FailUnderTest(CoverageTest): """Tests of the --fail-under switch.""" def setUp(self) -> None: super().setUp() self.make_file("forty_two_plus.py", """\ # I have 42.857% (3/7) coverage! a = 1 b = 2 if a > 3: b = 4 c = 5 d = 6 e = 7 """) self.make_data_file(lines={abs_file("forty_two_plus.py"): [2, 3, 4]}) def test_report_43_is_ok(self) -> None: st, out = self.run_command_status("coverage report --fail-under=43") assert st == 0 assert self.last_line_squeezed(out) == "TOTAL 7 4 43%" def test_report_43_is_not_ok(self) -> None: st, out = self.run_command_status("coverage report --fail-under=44") assert st == 2 expected = "Coverage failure: total of 43 is less than fail-under=44" assert expected == self.last_line_squeezed(out) def test_report_42p86_is_not_ok(self) -> None: self.make_file(".coveragerc", "[report]\nprecision = 2") st, out = self.run_command_status("coverage report --fail-under=42.88") assert st == 2 expected = "Coverage failure: total of 42.86 is less than fail-under=42.88" assert expected == self.last_line_squeezed(out) def test_report_99p9_is_not_ok(self) -> None: # A file with 99.9% coverage: self.make_file("ninety_nine_plus.py", "a = 1\n" + "b = 2\n" * 2000 + "if a > 3:\n" + " c = 4\n" ) self.make_data_file(lines={abs_file("ninety_nine_plus.py"): range(1, 2002)}) st, out = self.run_command_status("coverage report --fail-under=100") assert st == 2 expected = "Coverage failure: total of 99 is less than fail-under=100" assert expected == self.last_line_squeezed(out) class FailUnderNoFilesTest(CoverageTest): """Test that nothing to report results in an error exit status.""" def test_report(self) -> None: self.make_file(".coveragerc", "[report]\nfail_under = 99\n") st, out = self.run_command_status("coverage report") assert 'No data to report.' in out assert st == 1 class FailUnderEmptyFilesTest(CoverageTest): """Test that empty files produce the proper fail_under exit status.""" def test_report(self) -> None: self.make_file(".coveragerc", "[report]\nfail_under = 99\n") self.make_file("empty.py", "") st, _ = self.run_command_status("coverage run empty.py") assert st == 0 st, _ = self.run_command_status("coverage report") # An empty file is marked as 100% covered, so this is ok. assert st == 0 @pytest.mark.skipif(env.WINDOWS, reason="Windows can't delete the directory in use.") class YankedDirectoryTest(CoverageTest): """Tests of what happens when the current directory is deleted.""" BUG_806 = """\ import os import sys import tempfile tmpdir = tempfile.mkdtemp() os.chdir(tmpdir) os.rmdir(tmpdir) print(sys.argv[1]) """ def test_removing_directory(self) -> None: self.make_file("bug806.py", self.BUG_806) out = self.run_command("coverage run bug806.py noerror") assert out == "noerror\n" def test_removing_directory_with_error(self) -> None: self.make_file("bug806.py", self.BUG_806) out = self.run_command("coverage run bug806.py") path = python_reported_file('bug806.py') # Python 3.11 adds an extra line to the traceback. # Check that the lines we expect are there. lines = textwrap.dedent(f"""\ Traceback (most recent call last): File "{path}", line 8, in print(sys.argv[1]) IndexError: list index out of range """).splitlines(keepends=True) assert all(line in out for line in lines) @pytest.mark.skipif(env.METACOV, reason="Can't test sub-process pth file during metacoverage") class ProcessStartupTest(CoverageTest): """Test that we can measure coverage in sub-processes.""" def setUp(self) -> None: super().setUp() # Main will run sub.py self.make_file("main.py", """\ import os, os.path, sys ex = os.path.basename(sys.executable) os.system(ex + " sub.py") """) # sub.py will write a few lines. self.make_file("sub.py", """\ f = open("out.txt", "w") f.write("Hello, world!\\n") f.close() """) def test_subprocess_with_pth_files(self) -> None: # An existing data file should not be read when a subprocess gets # measured automatically. Create the data file here with bogus data in # it. data = coverage.CoverageData(".mycovdata") data.add_lines({os.path.abspath('sub.py'): range(100)}) data.write() self.make_file("coverage.ini", """\ [run] data_file = .mycovdata """) self.set_environ("COVERAGE_PROCESS_START", "coverage.ini") import main # pylint: disable=unused-import, import-error with open("out.txt") as f: assert f.read() == "Hello, world!\n" # Read the data from .coverage self.assert_exists(".mycovdata") data = coverage.CoverageData(".mycovdata") data.read() assert line_counts(data)['sub.py'] == 3 def test_subprocess_with_pth_files_and_parallel(self) -> None: # https://github.com/nedbat/coveragepy/issues/492 self.make_file("coverage.ini", """\ [run] parallel = true """) self.set_environ("COVERAGE_PROCESS_START", "coverage.ini") self.run_command("coverage run main.py") with open("out.txt") as f: assert f.read() == "Hello, world!\n" self.run_command("coverage combine") # assert that the combined .coverage data file is correct self.assert_exists(".coverage") data = coverage.CoverageData() data.read() assert line_counts(data)['sub.py'] == 3 # assert that there are *no* extra data files left over after a combine data_files = glob.glob(os.getcwd() + '/.coverage*') msg = ( "Expected only .coverage after combine, looks like there are " + f"extra data files that were not cleaned up: {data_files!r}" ) assert len(data_files) == 1, msg class ProcessStartupWithSourceTest(CoverageTest): """Show that we can configure {[run]source} during process-level coverage. There are three interesting variables, for a total of eight tests: 1. -m versus a simple script argument (for example, `python myscript`), 2. filtering for the top-level (main.py) or second-level (sub.py) module, and 3. whether the files are in a package or not. """ @pytest.mark.parametrize("dashm", ["-m", ""]) @pytest.mark.parametrize("package", ["pkg", ""]) @pytest.mark.parametrize("source", ["main", "sub"]) def test_pth_and_source_work_together(self, dashm: str, package: str, source: str) -> None: """Run the test for a particular combination of factors. The arguments are all strings: * `dashm`: Either "" (run the program as a file) or "-m" (run the program as a module). * `package`: Either "" (put the source at the top level) or a package name to use to hold the source. * `source`: Either "main" or "sub", which file to use as the ``--source`` argument. """ def fullname(modname: str) -> str: """What is the full module name for `modname` for this test?""" if package and dashm: return '.'.join((package, modname)) else: return modname def path(basename: str) -> str: """Where should `basename` be created for this test?""" return os.path.join(package, basename) # Main will run sub.py. self.make_file(path("main.py"), """\ import %s a = 2 b = 3 """ % fullname('sub')) if package: self.make_file(path("__init__.py"), "") # sub.py will write a few lines. self.make_file(path("sub.py"), """\ f = open("out.txt", "w") f.write("Hello, world!") f.close() """) self.make_file("coverage.ini", """\ [run] source = %s """ % fullname(source)) self.set_environ("COVERAGE_PROCESS_START", "coverage.ini") if dashm: cmd = "python -m %s" % fullname('main') else: cmd = "python %s" % path('main.py') self.run_command(cmd) with open("out.txt") as f: assert f.read() == "Hello, world!" # Read the data from .coverage self.assert_exists(".coverage") data = coverage.CoverageData() data.read() summary = line_counts(data) assert summary[source + '.py'] == 3 assert len(summary) == 1