"""Test cmdline.py for coverage.""" import pprint import re import shlex import sys import textwrap import mock import coverage import coverage.cmdline from coverage.config import CoverageConfig from coverage.misc import ExceptionDuringRun from tests.coveragetest import CoverageTest, OK, ERR class BaseCmdLineTest(CoverageTest): """Tests of execution paths through the command line interpreter.""" run_in_temp_dir = False # Make a dict mapping function names to the default values that cmdline.py # uses when calling the function. defaults = mock.Mock() defaults.coverage( cover_pylib=None, data_suffix=None, timid=None, branch=None, config_file=True, source=None, include=None, omit=None, debug=None, concurrency=None, ) defaults.annotate( directory=None, ignore_errors=None, include=None, omit=None, morfs=[], ) defaults.html_report( directory=None, ignore_errors=None, include=None, omit=None, morfs=[], title=None, ) defaults.report( ignore_errors=None, include=None, omit=None, morfs=[], show_missing=None, skip_covered=None ) defaults.xml_report( ignore_errors=None, include=None, omit=None, morfs=[], outfile=None, ) DEFAULT_KWARGS = dict((name, kw) for name, _, kw in defaults.mock_calls) def model_object(self): """Return a Mock suitable for use in CoverageScript.""" mk = mock.Mock() # We'll invoke .coverage as the constructor, and then keep using the # same object as the resulting coverage object. mk.coverage.return_value = mk mk.config = CoverageConfig() return mk def mock_command_line(self, args): """Run `args` through the command line, with a Mock. Returns the Mock it used and the status code returned. """ m = self.model_object() ret = coverage.CoverageScript( _covpkg=m, _run_python_file=m.run_python_file, _run_python_module=m.run_python_module, _help_fn=m.help_fn ).command_line(shlex.split(args)) return m, ret def cmd_executes(self, args, code, ret=OK): """Assert that the `args` end up executing the sequence in `code`.""" m1, r1 = self.mock_command_line(args) self.assertEqual( r1, ret, "Wrong status: got %s, wanted %s" % (r1, ret) ) # Remove all indentation, and change ".foo()" to "m2.foo()". code = re.sub(r"(?m)^\s+", "", code) code = re.sub(r"(?m)^\.", "m2.", code) m2 = self.model_object() code_obj = compile(code, "", "exec") eval(code_obj, globals(), { 'm2': m2 }) # pylint: disable=eval-used # Many of our functions take a lot of arguments, and cmdline.py # calls them with many. But most of them are just the defaults, which # we don't want to have to repeat in all tests. For each call, apply # the defaults. This lets the tests just mention the interesting ones. for name, args, kwargs in m2.method_calls: for k, v in self.DEFAULT_KWARGS.get(name, {}).items(): if k not in kwargs: kwargs[k] = v self.assert_same_method_calls(m1, m2) def cmd_executes_same(self, args1, args2): """Assert that the `args1` executes the same as `args2`.""" m1, r1 = self.mock_command_line(args1) m2, r2 = self.mock_command_line(args2) self.assertEqual(r1, r2) self.assert_same_method_calls(m1, m2) def assert_same_method_calls(self, m1, m2): """Assert that `m1.method_calls` and `m2.method_calls` are the same.""" # Use a real equality comparison, but if it fails, use a nicer assert # so we can tell what's going on. We have to use the real == first due # to CmdOptionParser.__eq__ if m1.method_calls != m2.method_calls: pp1 = pprint.pformat(m1.method_calls) pp2 = pprint.pformat(m2.method_calls) self.assertMultiLineEqual(pp1+'\n', pp2+'\n') def cmd_help(self, args, help_msg=None, topic=None, ret=ERR): """Run a command line, and check that it prints the right help. Only the last function call in the mock is checked, which should be the help message that we want to see. """ m, r = self.mock_command_line(args) self.assertEqual(r, ret, "Wrong status: got %s, wanted %s" % (r, ret) ) if help_msg: self.assertEqual(m.method_calls[-1], ('help_fn', (help_msg,), {}) ) else: self.assertEqual(m.method_calls[-1], ('help_fn', (), {'topic':topic}) ) class BaseCmdLineTestTest(BaseCmdLineTest): """Tests that our BaseCmdLineTest helpers work.""" def test_assert_same_method_calls(self): # All the other tests here use self.cmd_executes_same in successful # ways, so here we just check that it fails. with self.assertRaises(AssertionError): self.cmd_executes_same("run", "debug") class FakeCoverageForDebugData(object): """Just enough of a fake coverage package for the 'debug data' tests.""" def __init__(self, summary, plugin_data=None): self._summary = summary self._plugin_data = plugin_data or {} self.filename = "FILENAME" self.data = self # package members def coverage(self, *unused_args, **unused_kwargs): """The coverage class in the package.""" return self # coverage methods def load(self): """Fake coverage().load()""" pass # data methods def has_arcs(self): """Fake coverage().data.has_arcs()""" return False def summary(self, fullpath): # pylint: disable=unused-argument """Fake coverage().data.summary()""" return self._summary def plugin_data(self): """Fake coverage().data.plugin_data()""" return self._plugin_data class CmdLineTest(BaseCmdLineTest): """Tests of the coverage.py command line.""" def test_annotate(self): # coverage annotate [-d DIR] [-i] [--omit DIR,...] [FILE1 FILE2 ...] self.cmd_executes("annotate", """\ .coverage() .load() .annotate() """) self.cmd_executes("annotate -d dir1", """\ .coverage() .load() .annotate(directory="dir1") """) self.cmd_executes("annotate -i", """\ .coverage() .load() .annotate(ignore_errors=True) """) self.cmd_executes("annotate --omit fooey", """\ .coverage(omit=["fooey"]) .load() .annotate(omit=["fooey"]) """) self.cmd_executes("annotate --omit fooey,booey", """\ .coverage(omit=["fooey", "booey"]) .load() .annotate(omit=["fooey", "booey"]) """) self.cmd_executes("annotate mod1", """\ .coverage() .load() .annotate(morfs=["mod1"]) """) self.cmd_executes("annotate mod1 mod2 mod3", """\ .coverage() .load() .annotate(morfs=["mod1", "mod2", "mod3"]) """) def test_combine(self): # coverage combine self.cmd_executes("combine", """\ .coverage() .load() .combine() .save() """) def test_debug(self): self.cmd_help("debug", "What information would you like: data, sys?") self.cmd_help("debug foo", "Don't know what you mean by 'foo'") def test_debug_data(self): fake = FakeCoverageForDebugData( summary={ 'file1.py': 17, 'file2.py': 23, }, plugin_data={ 'file1.py': 'a_plugin', }, ) self.command_line("debug data", _covpkg=fake) self.assertMultiLineEqual(self.stdout(), textwrap.dedent("""\ -- data ------------------------------------------------------ path: FILENAME has_arcs: False 2 files: file1.py: 17 lines [a_plugin] file2.py: 23 lines """)) def test_debug_data_with_no_data(self): fake = FakeCoverageForDebugData(summary={}) self.command_line("debug data", _covpkg=fake) self.assertMultiLineEqual(self.stdout(), textwrap.dedent("""\ -- data ------------------------------------------------------ path: FILENAME has_arcs: False No data collected """)) def test_debug_sys(self): self.command_line("debug sys") out = self.stdout() self.assertIn("version:", out) self.assertIn("data_path:", out) def test_erase(self): # coverage erase self.cmd_executes("erase", """\ .coverage() .erase() """) def test_version(self): # coverage --version self.cmd_help("--version", topic="version", ret=OK) def test_help_option(self): # coverage -h self.cmd_help("-h", topic="help", ret=OK) self.cmd_help("--help", topic="help", ret=OK) def test_help_command(self): self.cmd_executes("help", ".help_fn(topic='help')") def test_cmd_help(self): self.cmd_executes("run --help", ".help_fn(parser='')") self.cmd_executes_same("help run", "run --help") def test_html(self): # coverage html -d DIR [-i] [--omit DIR,...] [FILE1 FILE2 ...] self.cmd_executes("html", """\ .coverage() .load() .html_report() """) self.cmd_executes("html -d dir1", """\ .coverage() .load() .html_report(directory="dir1") """) self.cmd_executes("html -i", """\ .coverage() .load() .html_report(ignore_errors=True) """) self.cmd_executes("html --omit fooey", """\ .coverage(omit=["fooey"]) .load() .html_report(omit=["fooey"]) """) self.cmd_executes("html --omit fooey,booey", """\ .coverage(omit=["fooey", "booey"]) .load() .html_report(omit=["fooey", "booey"]) """) self.cmd_executes("html mod1", """\ .coverage() .load() .html_report(morfs=["mod1"]) """) self.cmd_executes("html mod1 mod2 mod3", """\ .coverage() .load() .html_report(morfs=["mod1", "mod2", "mod3"]) """) self.cmd_executes("html --title=Hello_there", """\ .coverage() .load() .html_report(title='Hello_there') """) def test_report(self): # coverage report [-m] [-i] [-o DIR,...] [FILE1 FILE2 ...] self.cmd_executes("report", """\ .coverage() .load() .report(show_missing=None) """) self.cmd_executes("report -i", """\ .coverage() .load() .report(ignore_errors=True) """) self.cmd_executes("report -m", """\ .coverage() .load() .report(show_missing=True) """) self.cmd_executes("report --omit fooey", """\ .coverage(omit=["fooey"]) .load() .report(omit=["fooey"]) """) self.cmd_executes("report --omit fooey,booey", """\ .coverage(omit=["fooey", "booey"]) .load() .report(omit=["fooey", "booey"]) """) self.cmd_executes("report mod1", """\ .coverage() .load() .report(morfs=["mod1"]) """) self.cmd_executes("report mod1 mod2 mod3", """\ .coverage() .load() .report(morfs=["mod1", "mod2", "mod3"]) """) self.cmd_executes("report --skip-covered", """\ .coverage() .load() .report(skip_covered=True) """) def test_run(self): # coverage run [-p] [-L] [--timid] MODULE.py [ARG1 ARG2 ...] # run calls coverage.erase first. self.cmd_executes("run foo.py", """\ .coverage() .erase() .start() .run_python_file('foo.py', ['foo.py']) .stop() .save() """) # run -a calls coverage.load first without erasing. self.cmd_executes("run -a foo.py", """\ .coverage() .load() .start() .run_python_file('foo.py', ['foo.py']) .stop() .save() """) # --timid sets a flag, and program arguments get passed through. self.cmd_executes("run --timid foo.py abc 123", """\ .coverage(timid=True) .erase() .start() .run_python_file('foo.py', ['foo.py', 'abc', '123']) .stop() .save() """) # -L sets a flag, and flags for the program don't confuse us. self.cmd_executes("run -p -L foo.py -a -b", """\ .coverage(cover_pylib=True, data_suffix=True) .erase() .start() .run_python_file('foo.py', ['foo.py', '-a', '-b']) .stop() .save() """) self.cmd_executes("run --branch foo.py", """\ .coverage(branch=True) .erase() .start() .run_python_file('foo.py', ['foo.py']) .stop() .save() """) self.cmd_executes("run --rcfile=myrc.rc foo.py", """\ .coverage(config_file="myrc.rc") .erase() .start() .run_python_file('foo.py', ['foo.py']) .stop() .save() """) self.cmd_executes("run --include=pre1,pre2 foo.py", """\ .coverage(include=["pre1", "pre2"]) .erase() .start() .run_python_file('foo.py', ['foo.py']) .stop() .save() """) self.cmd_executes("run --omit=opre1,opre2 foo.py", """\ .coverage(omit=["opre1", "opre2"]) .erase() .start() .run_python_file('foo.py', ['foo.py']) .stop() .save() """) self.cmd_executes("run --include=pre1,pre2 --omit=opre1,opre2 foo.py", """\ .coverage(include=["pre1", "pre2"], omit=["opre1", "opre2"]) .erase() .start() .run_python_file('foo.py', ['foo.py']) .stop() .save() """) self.cmd_executes("run --source=quux,hi.there,/home/bar foo.py", """\ .coverage(source=["quux", "hi.there", "/home/bar"]) .erase() .start() .run_python_file('foo.py', ['foo.py']) .stop() .save() """) self.cmd_executes("run --concurrency=gevent foo.py", """\ .coverage(concurrency='gevent') .erase() .start() .run_python_file('foo.py', ['foo.py']) .stop() .save() """) def test_bad_concurrency(self): self.command_line("run --concurrency=nothing", ret=ERR) out = self.stdout() self.assertIn("option --concurrency: invalid choice: 'nothing'", out) def test_run_debug(self): self.cmd_executes("run --debug=opt1 foo.py", """\ .coverage(debug=["opt1"]) .erase() .start() .run_python_file('foo.py', ['foo.py']) .stop() .save() """) self.cmd_executes("run --debug=opt1,opt2 foo.py", """\ .coverage(debug=["opt1","opt2"]) .erase() .start() .run_python_file('foo.py', ['foo.py']) .stop() .save() """) def test_run_module(self): self.cmd_executes("run -m mymodule", """\ .coverage() .erase() .start() .run_python_module('mymodule', ['mymodule']) .stop() .save() """) self.cmd_executes("run -m mymodule -qq arg1 arg2", """\ .coverage() .erase() .start() .run_python_module('mymodule', ['mymodule', '-qq', 'arg1', 'arg2']) .stop() .save() """) self.cmd_executes("run --branch -m mymodule", """\ .coverage(branch=True) .erase() .start() .run_python_module('mymodule', ['mymodule']) .stop() .save() """) self.cmd_executes_same("run -m mymodule", "run --module mymodule") def test_xml(self): # coverage xml [-i] [--omit DIR,...] [FILE1 FILE2 ...] self.cmd_executes("xml", """\ .coverage() .load() .xml_report() """) self.cmd_executes("xml -i", """\ .coverage() .load() .xml_report(ignore_errors=True) """) self.cmd_executes("xml -o myxml.foo", """\ .coverage() .load() .xml_report(outfile="myxml.foo") """) self.cmd_executes("xml -o -", """\ .coverage() .load() .xml_report(outfile="-") """) self.cmd_executes("xml --omit fooey", """\ .coverage(omit=["fooey"]) .load() .xml_report(omit=["fooey"]) """) self.cmd_executes("xml --omit fooey,booey", """\ .coverage(omit=["fooey", "booey"]) .load() .xml_report(omit=["fooey", "booey"]) """) self.cmd_executes("xml mod1", """\ .coverage() .load() .xml_report(morfs=["mod1"]) """) self.cmd_executes("xml mod1 mod2 mod3", """\ .coverage() .load() .xml_report(morfs=["mod1", "mod2", "mod3"]) """) def test_no_arguments_at_all(self): self.cmd_help("", topic="minimum_help", ret=OK) def test_bad_command(self): self.cmd_help("xyzzy", "Unknown command: 'xyzzy'") class CmdLineStdoutTest(BaseCmdLineTest): """Test the command line with real stdout output.""" def test_minimum_help(self): self.command_line("") out = self.stdout() self.assertIn("Code coverage for Python.", out) self.assertLess(out.count("\n"), 4) def test_version(self): self.command_line("--version") out = self.stdout() self.assertIn("ersion ", out) self.assertLess(out.count("\n"), 4) def test_help(self): self.command_line("help") out = self.stdout() self.assertIn("readthedocs.org", out) self.assertGreater(out.count("\n"), 10) def test_cmd_help(self): self.command_line("help run") out = self.stdout() self.assertIn("", out) self.assertIn("--timid", out) self.assertGreater(out.count("\n"), 10) def test_error(self): self.command_line("fooey kablooey", ret=ERR) out = self.stdout() self.assertIn("fooey", out) self.assertIn("help", out) class CmdMainTest(CoverageTest): """Tests of coverage.cmdline.main(), using mocking for isolation.""" run_in_temp_dir = False class CoverageScriptStub(object): """A stub for coverage.cmdline.CoverageScript, used by CmdMainTest.""" def command_line(self, argv): """Stub for command_line, the arg determines what it will do.""" if argv[0] == 'hello': print("Hello, world!") elif argv[0] == 'raise': try: raise Exception("oh noes!") except: raise ExceptionDuringRun(*sys.exc_info()) elif argv[0] == 'internalraise': raise ValueError("coverage is broken") elif argv[0] == 'exit': sys.exit(23) else: raise AssertionError("Bad CoverageScriptStub: %r"% (argv,)) return 0 def setUp(self): super(CmdMainTest, self).setUp() self.old_CoverageScript = coverage.cmdline.CoverageScript coverage.cmdline.CoverageScript = self.CoverageScriptStub self.addCleanup(self.restore_coverage_script) def restore_coverage_script(self): coverage.cmdline.CoverageScript = self.old_CoverageScript def test_normal(self): ret = coverage.cmdline.main(['hello']) self.assertEqual(ret, 0) self.assertEqual(self.stdout(), "Hello, world!\n") def test_raise(self): ret = coverage.cmdline.main(['raise']) self.assertEqual(ret, 1) self.assertEqual(self.stdout(), "") err = self.stderr().split('\n') self.assertEqual(err[0], 'Traceback (most recent call last):') self.assertEqual(err[-3], ' raise Exception("oh noes!")') self.assertEqual(err[-2], 'Exception: oh noes!') def test_internalraise(self): with self.assertRaisesRegex(ValueError, "coverage is broken"): coverage.cmdline.main(['internalraise']) def test_exit(self): ret = coverage.cmdline.main(['exit']) self.assertEqual(ret, 23)