"""Tests for process behavior of coverage.py.""" import glob import os import os.path import sys import textwrap import coverage from coverage import env from tests.coveragetest import CoverageTest HERE = os.path.dirname(__file__) class ProcessTest(CoverageTest): """Tests of the per-process behavior of coverage.py.""" def number_of_data_files(self): """Return the number of coverage data files in this directory.""" num = 0 for f in os.listdir('.'): if f.startswith('.coverage.') or f == '.coverage': num += 1 return num def test_save_on_exit(self): 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_environment(self): # Checks that we can import modules from the test 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") self.assertEqual(out, 'done\n') def test_combine_parallel_data(self): self.make_file("b_or_c.py", """\ import sys a = 1 if sys.argv[1] == 'b': b = 1 else: c = 1 d = 1 print('done') """) out = self.run_command("coverage run -p b_or_c.py b") self.assertEqual(out, 'done\n') self.assert_doesnt_exist(".coverage") out = self.run_command("coverage run -p b_or_c.py c") self.assertEqual(out, 'done\n') self.assert_doesnt_exist(".coverage") # After two -p runs, there should be two .coverage.machine.123 files. self.assertEqual(self.number_of_data_files(), 2) # 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.assertEqual(self.number_of_data_files(), 1) # Read the coverage file and see that b_or_c.py has all 7 lines # executed. data = coverage.CoverageData() data.read_file(".coverage") self.assertEqual(data.summary()['b_or_c.py'], 7) def test_combine_parallel_data_in_two_steps(self): self.make_file("b_or_c.py", """\ import sys a = 1 if sys.argv[1] == 'b': b = 1 else: c = 1 d = 1 print('done') """) out = self.run_command("coverage run -p b_or_c.py b") self.assertEqual(out, 'done\n') self.assert_doesnt_exist(".coverage") self.assertEqual(self.number_of_data_files(), 1) # Combine the (one) parallel coverage data file into .coverage . self.run_command("coverage combine") self.assert_exists(".coverage") self.assertEqual(self.number_of_data_files(), 1) out = self.run_command("coverage run --append -p b_or_c.py c") self.assertEqual(out, 'done\n') self.assert_exists(".coverage") self.assertEqual(self.number_of_data_files(), 2) # 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.assertEqual(self.number_of_data_files(), 1) # Read the coverage file and see that b_or_c.py has all 7 lines # executed. data = coverage.CoverageData() data.read_file(".coverage") self.assertEqual(data.summary()['b_or_c.py'], 7) def test_combine_with_rc(self): self.make_file("b_or_c.py", """\ import sys a = 1 if sys.argv[1] == 'b': b = 1 else: c = 1 d = 1 print('done') """) self.make_file(".coveragerc", """\ [run] parallel = true """) out = self.run_command("coverage run b_or_c.py b") self.assertEqual(out, 'done\n') self.assert_doesnt_exist(".coverage") out = self.run_command("coverage run b_or_c.py c") self.assertEqual(out, 'done\n') self.assert_doesnt_exist(".coverage") # After two runs, there should be two .coverage.machine.123 files. self.assertEqual(self.number_of_data_files(), 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.assertEqual(self.number_of_data_files(), 1) # Read the coverage file and see that b_or_c.py has all 7 lines # executed. data = coverage.CoverageData() data.read_file(".coverage") self.assertEqual(data.summary()['b_or_c.py'], 7) # Reporting should still work even with the .rc file out = self.run_command("coverage report") self.assertMultiLineEqual(out, textwrap.dedent("""\ Name Stmts Miss Cover ------------------------------- b_or_c.py 7 0 100% """)) def test_combine_with_aliases(self): self.make_file("d1/x.py", """\ a = 1 b = 2 print("%s %s" % (a, b)) """) self.make_file("d2/x.py", """\ # 1 # 2 # 3 c = 4 d = 5 print("%s %s" % (c, d)) """) self.make_file(".coveragerc", """\ [run] parallel = True [paths] source = src */d1 */d2 """) out = self.run_command("coverage run " + os.path.normpath("d1/x.py")) self.assertEqual(out, '1 2\n') out = self.run_command("coverage run " + os.path.normpath("d2/x.py")) self.assertEqual(out, '4 5\n') self.assertEqual(self.number_of_data_files(), 2) self.run_command("coverage combine") self.assert_exists(".coverage") # After combining, there should be only the .coverage file. self.assertEqual(self.number_of_data_files(), 1) # Read the coverage data file and see that the two different x.py # files have been combined together. data = coverage.CoverageData() data.read_file(".coverage") summary = data.summary(fullpath=True) self.assertEqual(len(summary), 1) actual = os.path.normcase(os.path.abspath(list(summary.keys())[0])) expected = os.path.normcase(os.path.abspath('src/x.py')) self.assertEqual(actual, expected) self.assertEqual(list(summary.values())[0], 6) def test_missing_source_file(self): # 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") self.assertRegex(out, "No source for code: '.*fleeting.py'") self.assertNotIn("Traceback", 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") self.assertRegex(out, "No source for code: '.*fleeting'") self.assertNotIn("Traceback", out) self.assertEqual(status, 1) def test_running_missing_file(self): status, out = self.run_command_status("coverage run xyzzy.py") self.assertRegex(out, "No file to run: .*xyzzy.py") self.assertNotIn("raceback", out) self.assertNotIn("rror", out) self.assertEqual(status, 1) def test_code_throws(self): self.make_file("throw.py", """\ def f1(): raise Exception("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 lines2 = out2.splitlines() out2 = "".join(l+"\n" for l in lines2 if "toplevel" not in l) self.assertMultiLineEqual(out, out2) # But also make sure that the output is what we expect. self.assertIn('File "throw.py", line 5, in f2', out) self.assertIn('raise Exception("hey!")', out) self.assertNotIn('coverage', out) self.assertEqual(status, 1) def test_code_exits(self): 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") self.assertMultiLineEqual(out, out2) self.assertMultiLineEqual(out, "about to exit..\n") self.assertEqual(status, status2) self.assertEqual(status, 17) def test_code_exits_no_arg(self): 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") self.assertMultiLineEqual(out, out2) self.assertMultiLineEqual(out, "about to exit quietly..\n") self.assertEqual(status, status2) self.assertEqual(status, 0) def test_coverage_run_is_like_python(self): tryfile = os.path.join(HERE, "try_execfile.py") with open(tryfile) as f: self.make_file("run_me.py", f.read()) out_cov = self.run_command("coverage run run_me.py") out_py = self.run_command("python run_me.py") self.assertMultiLineEqual(out_cov, out_py) def test_coverage_run_dashm_is_like_python_dashm(self): # These -m commands assume the coverage tree is on the path. out_cov = self.run_command("coverage run -m tests.try_execfile") out_py = self.run_command("python -m tests.try_execfile") self.assertMultiLineEqual(out_cov, out_py) def test_coverage_run_dashm_equal_to_doubledashsource(self): """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. out_cov = self.run_command( "coverage run --source tests.try_execfile -m tests.try_execfile" ) out_py = self.run_command("python -m tests.try_execfile") self.assertMultiLineEqual(out_cov, out_py) def test_coverage_run_dashm_superset_of_doubledashsource(self): """Edge case: --source foo -m foo.bar""" # These -m commands assume the coverage tree is on the path. out_cov = self.run_command( "coverage run --source tests -m tests.try_execfile" ) out_py = self.run_command("python -m tests.try_execfile") self.assertMultiLineEqual(out_cov, out_py) st, out = self.run_command_status("coverage report") self.assertEqual(st, 0) self.assertEqual(self.line_count(out), 6, out) def test_coverage_run_script_imports_doubledashsource(self): # 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 tests.try_execfile """) # These -m commands assume the coverage tree is on the path. out_cov = self.run_command( "coverage run --source tests myscript" ) out_py = self.run_command("python myscript") self.assertMultiLineEqual(out_cov, out_py) st, out = self.run_command_status("coverage report") self.assertEqual(st, 0) self.assertEqual(self.line_count(out), 6, out) def test_coverage_run_dashm_is_like_python_dashm_off_path(self): # https://bitbucket.org/ned/coveragepy/issue/242 tryfile = os.path.join(HERE, "try_execfile.py") self.make_file("sub/__init__.py", "") with open(tryfile) as f: self.make_file("sub/run_me.py", f.read()) out_cov = self.run_command("coverage run -m sub.run_me") out_py = self.run_command("python -m sub.run_me") self.assertMultiLineEqual(out_cov, out_py) def test_coverage_run_dashm_is_like_python_dashm_with__main__207(self): if sys.version_info < (2, 7): # Coverage isn't bug-for-bug compatible in the behavior of -m for # Pythons < 2.7 self.skip("-m doesn't work the same < Python 2.7") # https://bitbucket.org/ned/coveragepy/issue/207 self.make_file("package/__init__.py", "print('init')") self.make_file("package/__main__.py", "print('main')") out_cov = self.run_command("coverage run -m package") out_py = self.run_command("python -m package") self.assertMultiLineEqual(out_cov, out_py) def test_fork(self): if not hasattr(os, 'fork'): self.skip("Can't test os.fork since it doesn't exist.") 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") self.assertEqual(out, 'Child!\n') self.assert_doesnt_exist(".coverage") # After running the forking program, there should be two # .coverage.machine.123 files. self.assertEqual(self.number_of_data_files(), 2) # 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.assertEqual(self.number_of_data_files(), 1) # Read the coverage file and see that b_or_c.py has all 7 lines # executed. data = coverage.CoverageData() data.read_file(".coverage") self.assertEqual(data.summary()['fork.py'], 9) def test_warnings(self): self.make_file("hello.py", """\ import sys, os print("Hello") """) out = self.run_command("coverage run --source=sys,xyzzy,quux hello.py") self.assertIn("Hello\n", out) self.assertIn(textwrap.dedent("""\ Coverage.py warning: Module sys has no Python source. Coverage.py warning: Module xyzzy was never imported. Coverage.py warning: Module quux was never imported. Coverage.py warning: No data was collected. """), out) def test_warnings_during_reporting(self): # 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") self.assertEqual(out.count("Module xyzzy was never imported."), 0) def test_warnings_if_never_run(self): out = self.run_command("coverage run i_dont_exist.py") self.assertIn("No file to run: 'i_dont_exist.py'", out) self.assertNotIn("warning", out) self.assertNotIn("Exception", out) out = self.run_command("coverage run -m no_such_module") self.assertTrue( ("No module named no_such_module" in out) or ("No module named 'no_such_module'" in out) ) self.assertNotIn("warning", out) self.assertNotIn("Exception", out) def test_warnings_trace_function_changed_with_threads(self): # https://bitbucket.org/ned/coveragepy/issue/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") self.assertIn("Hello\n", out) self.assertNotIn("warning", out) def test_warning_trace_function_changed(self): self.make_file("settrace.py", """\ import sys print("Hello") sys.settrace(None) print("Goodbye") """) out = self.run_command("coverage run --timid settrace.py") self.assertIn("Hello\n", out) self.assertIn("Goodbye\n", out) self.assertIn("Trace function changed", out) def test_fullcoverage(self): # pragma: not covered if env.PY2: # This doesn't work on Python 2. self.skip("fullcoverage doesn't work on Python 2.") # It only works with the C tracer, and if we aren't measuring ourselves. if not env.C_TRACER or env.METACOV: self.skip("fullcoverage only works with the C tracer.") # 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 -m coverage run -L getenv.py") self.assertEqual(out, "FOOEY == BOO\n") data = coverage.CoverageData() data.read_file(".coverage") # The actual number of executed lines in os.py when it's # imported is 120 or so. Just running os.getenv executes # about 5. self.assertGreater(data.summary()['os.py'], 50) def test_deprecation_warnings(self): # Test that coverage doesn't trigger deprecation warnings. # https://bitbucket.org/ned/coveragepy/issue/305/pendingdeprecationwarning-the-imp-module self.make_file("allok.py", """\ import warnings warnings.simplefilter('default') import coverage print("No warnings!") """) out = self.run_command("python allok.py") self.assertEqual(out, "No warnings!\n") def test_run_twice(self): # https://bitbucket.org/ned/coveragepy/issue/353/40a3-introduces-an-unexpected-third-case self.make_file("foo.py", """\ def foo(): pass """) self.make_file("run_twice.py", """\ import coverage for _ in [1, 2]: inst = coverage.Coverage(source=['foo']) inst.load() inst.start() import foo inst.stop() inst.combine() inst.save() """) out = self.run_command("python run_twice.py") self.assertEqual( out, "Coverage.py warning: " "Module foo was previously imported, but not measured.\n" ) class AliasedCommandTest(CoverageTest): """Tests of the version-specific command aliases.""" run_in_temp_dir = False def test_major_version_works(self): # "coverage2" works on py2 cmd = "coverage%d" % sys.version_info[0] out = self.run_command(cmd) self.assertIn("Code coverage for Python", out) def test_wrong_alias_doesnt_work(self): # "coverage3" doesn't work on py2 badcmd = "coverage%d" % (5 - sys.version_info[0]) out = self.run_command(badcmd) self.assertNotIn("Code coverage for Python", out) def test_specific_alias_works(self): # "coverage-2.7" works on py2.7 cmd = "coverage-%d.%d" % sys.version_info[:2] out = self.run_command(cmd) self.assertIn("Code coverage for Python", out) class PydocTest(CoverageTest): """Test that pydoc can get our information.""" run_in_temp_dir = False def assert_pydoc_ok(self, name, thing): """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 self.assert_starts_with(out, "Help on ") self.assertNotIn("Traceback", out) # All of the lines in the docstring should be there somewhere. for line in thing.__doc__.splitlines(): self.assertIn(line.strip(), out) def test_pydoc_coverage(self): self.assert_pydoc_ok("coverage", coverage) def test_pydoc_coverage_coverage(self): self.assert_pydoc_ok("coverage.Coverage", coverage.Coverage) class FailUnderTest(CoverageTest): """Tests of the --fail-under switch.""" def setUp(self): super(FailUnderTest, self).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 """) st, _ = self.run_command_status("coverage run forty_two_plus.py") self.assertEqual(st, 0) st, out = self.run_command_status("coverage report") self.assertEqual(st, 0) self.assertEqual( self.last_line_squeezed(out), "forty_two_plus.py 7 4 43%" ) def test_report(self): st, _ = self.run_command_status("coverage report --fail-under=42") self.assertEqual(st, 0) st, _ = self.run_command_status("coverage report --fail-under=43") self.assertEqual(st, 0) st, _ = self.run_command_status("coverage report --fail-under=44") self.assertEqual(st, 2) def test_html_report(self): st, _ = self.run_command_status("coverage html --fail-under=42") self.assertEqual(st, 0) st, _ = self.run_command_status("coverage html --fail-under=43") self.assertEqual(st, 0) st, _ = self.run_command_status("coverage html --fail-under=44") self.assertEqual(st, 2) def test_xml_report(self): st, _ = self.run_command_status("coverage xml --fail-under=42") self.assertEqual(st, 0) st, _ = self.run_command_status("coverage xml --fail-under=43") self.assertEqual(st, 0) st, _ = self.run_command_status("coverage xml --fail-under=44") self.assertEqual(st, 2) def test_fail_under_in_config(self): self.make_file(".coveragerc", "[report]\nfail_under = 43\n") st, _ = self.run_command_status("coverage report") self.assertEqual(st, 0) self.make_file(".coveragerc", "[report]\nfail_under = 44\n") st, _ = self.run_command_status("coverage report") self.assertEqual(st, 2) def possible_pth_dirs(): """Produce a sequence of directories for trying to write .pth files.""" # First look through sys.path, and we find a .pth file, then it's a good # place to put ours. for d in sys.path: g = glob.glob(os.path.join(d, "*.pth")) if g: yield d # If we're still looking, then try the Python library directory. # https://bitbucket.org/ned/coveragepy/issue/339/pth-test-malfunctions import distutils.sysconfig yield distutils.sysconfig.get_python_lib() class ProcessCoverageMixin(object): """Set up a .pth file that causes all sub-processes to be coverage'd""" def setUp(self): super(ProcessCoverageMixin, self).setUp() # Find a place to put a .pth file. pth_contents = "import coverage; coverage.process_startup()\n" for pth_dir in possible_pth_dirs(): # pragma: part covered pth_path = os.path.join(pth_dir, "subcover.pth") with open(pth_path, "w") as pth: try: pth.write(pth_contents) self.pth_path = pth_path break except (IOError, OSError): # pragma: not covered pass else: # pragma: not covered raise Exception("Couldn't find a place for the .pth file") self.addCleanup(os.remove, self.pth_path) class ProcessStartupTest(ProcessCoverageMixin, CoverageTest): """Test that we can measure coverage in sub-processes.""" def test_subprocess_with_pth_files(self): # pragma: not covered if env.METACOV: self.skip( "Can't test sub-process pth file suppport during metacoverage" ) # 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", """\ with open("out.txt", "w") as f: f.write("Hello, world!\\n") """) self.make_file("coverage.ini", """\ [run] data_file = .mycovdata """) self.set_environ("COVERAGE_PROCESS_START", "coverage.ini") import main # pylint: disable=import-error,unused-variable with open("out.txt") as f: self.assertEqual(f.read(), "Hello, world!\n") # Read the data from .coverage self.assert_exists(".mycovdata") data = coverage.CoverageData() data.read_file(".mycovdata") self.assertEqual(data.summary()['sub.py'], 2) class ProcessStartupWithSourceTest(ProcessCoverageMixin, 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. """ def assert_pth_and_source_work_together( self, dashm, package, source ): # pragma: not covered if env.METACOV: self.skip( "Can't test sub-process pth file suppport during metacoverage" ) def fullname(modname): if package and dashm: return '.'.join((package, modname)) else: return modname def path(basename): return os.path.join(package, basename) # Main will run sub.py. self.make_file(path("main.py"), """\ import %s if True: pass """ % fullname('sub')) if package: self.make_file(path("__init__.py"), "") # sub.py will write a few lines. self.make_file(path("sub.py"), """\ with open("out.txt", "w") as f: f.write("Hello, world!") """) self.make_file("coverage.ini", """\ [run] source = %s """ % fullname(source)) self.set_environ("COVERAGE_PROCESS_START", "coverage.ini") if dashm: cmd = (sys.executable, dashm, fullname('main')) else: cmd = (sys.executable, path('main.py')) # TODO: can we use run_command here instead of Popen? from subprocess import Popen Popen(cmd).wait() with open("out.txt") as f: self.assertEqual(f.read(), "Hello, world!") # Read the data from .coverage self.assert_exists(".coverage") data = coverage.CoverageData() data.read_file(".coverage") summary = data.summary() print(summary) self.assertEqual(summary[source + '.py'], 2) self.assertEqual(len(summary), 1) def test_dashm_main(self): self.assert_pth_and_source_work_together('-m', '', 'main') def test_script_main(self): self.assert_pth_and_source_work_together('', '', 'main') def test_dashm_sub(self): self.assert_pth_and_source_work_together('-m', '', 'sub') def test_script_sub(self): self.assert_pth_and_source_work_together('', '', 'sub') def test_dashm_pkg_main(self): self.assert_pth_and_source_work_together('-m', 'pkg', 'main') def test_script_pkg_main(self): self.assert_pth_and_source_work_together('', 'pkg', 'main') def test_dashm_pkg_sub(self): self.assert_pth_and_source_work_together('-m', 'pkg', 'sub') def test_script_pkg_sub(self): self.assert_pth_and_source_work_together('', 'pkg', 'sub')