"""Code unit (module) handling for Coverage.""" import glob, os from coverage.backward import open_source, string_class, StringIO from coverage.misc import CoverageException def code_unit_factory(morfs, file_locator): """Construct a list of CodeUnits from polymorphic inputs. `morfs` is a module or a filename, or a list of same. `file_locator` is a FileLocator that can help resolve filenames. Returns a list of CodeUnit objects. """ # Be sure we have a list. if not isinstance(morfs, (list, tuple)): morfs = [morfs] # On Windows, the shell doesn't expand wildcards. Do it here. globbed = [] for morf in morfs: if isinstance(morf, string_class) and ('?' in morf or '*' in morf): globbed.extend(glob.glob(morf)) else: globbed.append(morf) morfs = globbed code_units = [CodeUnit(morf, file_locator) for morf in morfs] return code_units class CodeUnit(object): """Code unit: a filename or module. Instance attributes: `name` is a human-readable name for this code unit. `filename` is the os path from which we can read the source. `relative` is a boolean. """ def __init__(self, morf, file_locator): self.file_locator = file_locator if hasattr(morf, '__file__'): f = morf.__file__ else: f = morf # .pyc files should always refer to a .py instead. if f.endswith('.pyc') or f.endswith('.pyo'): f = f[:-1] elif f.endswith('$py.class'): # Jython f = f[:-9] + ".py" self.filename = self.file_locator.canonical_filename(f) if hasattr(morf, '__name__'): n = modname = morf.__name__ self.relative = True else: n = os.path.splitext(morf)[0] rel = self.file_locator.relative_filename(n) if os.path.isabs(n): self.relative = (rel != n) else: self.relative = True n = rel modname = None self.name = n self.modname = modname def __repr__(self): return "" % (self.name, self.filename) # Annoying comparison operators. Py3k wants __lt__ etc, and Py2k needs all # of them defined. def __lt__(self, other): return self.name < other.name def __le__(self, other): return self.name <= other.name def __eq__(self, other): return self.name == other.name def __ne__(self, other): return self.name != other.name def __gt__(self, other): return self.name > other.name def __ge__(self, other): return self.name >= other.name def flat_rootname(self): """A base for a flat filename to correspond to this code unit. Useful for writing files about the code where you want all the files in the same directory, but need to differentiate same-named files from different directories. For example, the file a/b/c.py might return 'a_b_c' """ if self.modname: return self.modname.replace('.', '_') else: root = os.path.splitdrive(self.name)[1] return root.replace('\\', '_').replace('/', '_').replace('.', '_') def source_file(self): """Return an open file for reading the source of the code unit.""" if os.path.exists(self.filename): # A regular text file: open it. return open_source(self.filename) # Maybe it's in a zip file? source = self.file_locator.get_zip_data(self.filename) if source is not None: return StringIO(source) # Couldn't find source. raise CoverageException( "No source for code '%s'." % self.filename ) def should_be_python(self): """Does it seem like this file should contain Python? This is used to decide if a file reported as part of the exection of a program was really likely to have contained Python in the first place. """ # Get the file extension. _, ext = os.path.splitext(self.filename) # Anything named *.py* should be Python. if ext.startswith('.py'): return True # A file with no extension should be Python. if not ext: return True # Everything else is probably not Python. return False