"""Base test case class for coverage testing.""" import imp, os, random, shlex, shutil, sys, tempfile, textwrap import coverage from coverage.backward import sorted, StringIO # pylint: disable-msg=W0622 from backtest import run_command from backunittest import TestCase class Tee(object): """A file-like that writes to all the file-likes it has.""" def __init__(self, *files): """Make a Tee that writes to all the files in `files.`""" self.files = files def write(self, data): """Write `data` to all the files.""" for f in self.files: f.write(data) # Status returns for the command line. OK, ERR = 0, 1 class CoverageTest(TestCase): """A base class for Coverage test cases.""" run_in_temp_dir = True def setUp(self): if self.run_in_temp_dir: # Create a temporary directory. self.noise = str(random.random())[2:] self.temp_root = os.path.join(tempfile.gettempdir(), 'test_cover') self.temp_dir = os.path.join(self.temp_root, self.noise) os.makedirs(self.temp_dir) self.old_dir = os.getcwd() os.chdir(self.temp_dir) # Preserve changes to PYTHONPATH. self.old_pypath = os.environ.get('PYTHONPATH', '') # Modules should be importable from this temp directory. self.old_syspath = sys.path[:] sys.path.insert(0, '') # Keep a counter to make every call to check_coverage unique. self.n = 0 # Use a Tee to capture stdout. self.old_stdout = sys.stdout self.captured_stdout = StringIO() sys.stdout = Tee(sys.stdout, self.captured_stdout) def tearDown(self): if self.run_in_temp_dir: # Restore the original sys.path and PYTHONPATH sys.path = self.old_syspath os.environ['PYTHONPATH'] = self.old_pypath # Get rid of the temporary directory. os.chdir(self.old_dir) shutil.rmtree(self.temp_root) # Restore stdout. sys.stdout = self.old_stdout def stdout(self): """Return the data written to stdout during the test.""" return self.captured_stdout.getvalue() def make_file(self, filename, text): """Create a temp file. `filename` is the file name, and `text` is the content. """ # Tests that call `make_file` should be run in a temp environment. assert self.run_in_temp_dir text = textwrap.dedent(text) # Create the file. f = open(filename, 'w') f.write(text) f.close() def import_module(self, modname): """Import the module named modname, and return the module object.""" modfile = modname + '.py' f = open(modfile, 'r') for suff in imp.get_suffixes(): if suff[0] == '.py': break try: # pylint: disable-msg=W0631 # (Using possibly undefined loop variable 'suff') mod = imp.load_module(modname, f, modfile, suff) finally: f.close() return mod def get_module_name(self): """Return the module name to use for this test run.""" # We append self.n because otherwise two calls in one test will use the # same filename and whether the test works or not depends on the # timestamps in the .pyc file, so it becomes random whether the second # call will use the compiled version of the first call's code or not! modname = 'coverage_test_' + self.noise + str(self.n) self.n += 1 return modname # Map chars to numbers for arcz_to_arcs _arcz_map = {'.': -1} _arcz_map.update(dict([(c, ord(c)-ord('0')) for c in '123456789'])) _arcz_map.update(dict( [(c, 10+ord(c)-ord('A')) for c in 'ABCDEFGHIJKLMNOPQRSTUVWXYZ'] )) def arcz_to_arcs(self, arcz): """Convert a compact textual representation of arcs to a list of pairs. The text has space-separated pairs of letters. Period is -1, 1-9 are 1-9, A-Z are 10 through 36. The resulting list is sorted regardless of the order of the input pairs. ".1 12 2." --> [(-1,1), (1,2), (2,-1)] """ arcs = [] for a,b in arcz.split(): arcs.append((self._arcz_map[a], self._arcz_map[b])) return sorted(arcs) def check_coverage(self, text, lines=None, missing="", excludes=None, report="", arcz=None, arcz_missing="", arcz_unpredicted=""): """Check the coverage measurement of `text`. The source `text` is run and measured. `lines` are the line numbers that are executable, `missing` are the lines not executed, `excludes` are regexes to match against for excluding lines, and `report` is the text of the measurement report. For arc measurement, `arcz` is a string that can be decoded into arcs in the code (see `arcz_to_arcs` for the encoding scheme), `arcz_missing` are the arcs that are not executed, and `arcs_unpredicted` are the arcs executed in the code, but not deducible from the code. """ # We write the code into a file so that we can import it. # Coverage wants to deal with things as modules with file names. modname = self.get_module_name() self.make_file(modname+".py", text) arcs = arcs_missing = arcs_unpredicted = None if arcz is not None: arcs = self.arcz_to_arcs(arcz) arcs_missing = self.arcz_to_arcs(arcz_missing or "") arcs_unpredicted = self.arcz_to_arcs(arcz_unpredicted or "") # Start up Coverage. cov = coverage.coverage(branch=(arcs_missing is not None)) cov.erase() for exc in excludes or []: cov.exclude(exc) cov.start() try: # Import the python file, executing it. mod = self.import_module(modname) finally: # Stop Coverage. cov.stop() # Clean up our side effects del sys.modules[modname] # Get the analysis results, and check that they are right. analysis = cov._analyze(mod) if lines is not None: if type(lines[0]) == type(1): self.assertEqual(analysis.statements, lines) else: for line_list in lines: if analysis.statements == line_list: break else: self.fail("None of the lines choices matched %r" % analysis.statements ) if missing is not None: if type(missing) == type(""): self.assertEqual(analysis.missing_formatted(), missing) else: for missing_list in missing: if analysis.missing == missing_list: break else: self.fail("None of the missing choices matched %r" % analysis.missing_formatted() ) if arcs is not None: self.assertEqual(analysis.arc_possibilities(), arcs) if arcs_missing is not None: self.assertEqual(analysis.arcs_missing(), arcs_missing) if arcs_unpredicted is not None: self.assertEqual(analysis.arcs_unpredicted(), arcs_unpredicted) if report: frep = StringIO() cov.report(mod, file=frep) rep = " ".join(frep.getvalue().split("\n")[2].split()[1:]) self.assertEqual(report, rep) def nice_file(self, *fparts): """Canonicalize the filename composed of the parts in `fparts`.""" fname = os.path.join(*fparts) return os.path.normcase(os.path.abspath(os.path.realpath(fname))) def command_line(self, args, ret=OK): """Run `args` through the command line. Use this when you want to run the full coverage machinery, but in the current process. Exceptions may be thrown from deep in the code. Asserts that `ret` is returned by `CoverageScript.command_line`. Compare with `run_command`. Returns None. """ ret_actual = coverage.CoverageScript().command_line(shlex.split(args)) self.assertEqual(ret_actual, ret) def run_command(self, cmd): """ Run the command-line `cmd` in a subprocess, and print its output. Use this when you need to test the process behavior of coverage. Compare with `command_line`. Returns the process' stdout text. """ # Add our test modules directory to PYTHONPATH. I'm sure there's too # much path munging here, but... here = os.path.dirname(self.nice_file(coverage.__file__, "..")) testmods = self.nice_file(here, 'test/modules') zipfile = self.nice_file(here, 'test/zipmods.zip') pypath = self.old_pypath if pypath: pypath += os.pathsep pypath += testmods + os.pathsep + zipfile os.environ['PYTHONPATH'] = pypath _, output = run_command(cmd) print(output) return output