Mercurial Repositories > eric / file revision
DebugClients/Python/coverage/control.py@f1b3a73831c9
DebugClients/Python/coverage/control.py
Sat, 12 Jan 2019 11:26:32 +0100
- author
- Detlev Offenbach <detlev@die-offenbachs.de>
- date
- Sat, 12 Jan 2019 11:26:32 +0100
- changeset 6649
- f1b3a73831c9
- parent 6219
- d6c795b5ce33
- permissions
- -rw-r--r--
coverage: updated coverage.py to 4.5.1.
# Licensed under the Apache License: http://www.apache.org/licenses/LICENSE-2.0 # For details: https://bitbucket.org/ned/coveragepy/src/default/NOTICE.txt """Core control stuff for coverage.py.""" import atexit import inspect import itertools import os import platform import re import sys import time import traceback from coverage import env from coverage.annotate import AnnotateReporter from coverage.backward import string_class, iitems from coverage.collector import Collector from coverage.config import read_coverage_config from coverage.data import CoverageData, CoverageDataFiles from coverage.debug import DebugControl, write_formatted_info from coverage.files import TreeMatcher, FnmatchMatcher from coverage.files import PathAliases, find_python_files, prep_patterns from coverage.files import canonical_filename, set_relative_directory from coverage.files import ModuleMatcher, abs_file from coverage.html import HtmlReporter from coverage.misc import CoverageException, bool_or_none, join_regex from coverage.misc import file_be_gone, isolate_module from coverage.plugin import FileReporter from coverage.plugin_support import Plugins from coverage.python import PythonFileReporter, source_for_file from coverage.results import Analysis, Numbers from coverage.summary import SummaryReporter from coverage.xmlreport import XmlReporter try: from coverage.multiproc import patch_multiprocessing except ImportError: # pragma: only jython # Jython has no multiprocessing module. patch_multiprocessing = None os = isolate_module(os) # Pypy has some unusual stuff in the "stdlib". Consider those locations # when deciding where the stdlib is. These modules are not used for anything, # they are modules importable from the pypy lib directories, so that we can # find those directories. _structseq = _pypy_irc_topic = None if env.PYPY: try: import _structseq except ImportError: pass try: import _pypy_irc_topic except ImportError: pass class Coverage(object): """Programmatic access to coverage.py. To use:: from coverage import Coverage cov = Coverage() cov.start() #.. call your code .. cov.stop() cov.html_report(directory='covhtml') """ def __init__( self, data_file=None, data_suffix=None, cover_pylib=None, auto_data=False, timid=None, branch=None, config_file=True, source=None, omit=None, include=None, debug=None, concurrency=None, ): """ `data_file` is the base name of the data file to use, defaulting to ".coverage". `data_suffix` is appended (with a dot) to `data_file` to create the final file name. If `data_suffix` is simply True, then a suffix is created with the machine and process identity included. `cover_pylib` is a boolean determining whether Python code installed with the Python interpreter is measured. This includes the Python standard library and any packages installed with the interpreter. If `auto_data` is true, then any existing data file will be read when coverage measurement starts, and data will be saved automatically when measurement stops. If `timid` is true, then a slower and simpler trace function will be used. This is important for some environments where manipulation of tracing functions breaks the faster trace function. If `branch` is true, then branch coverage will be measured in addition to the usual statement coverage. `config_file` determines what configuration file to read: * If it is ".coveragerc", it is interpreted as if it were True, for backward compatibility. * If it is a string, it is the name of the file to read. If the file can't be read, it is an error. * If it is True, then a few standard files names are tried (".coveragerc", "setup.cfg", "tox.ini"). It is not an error for these files to not be found. * If it is False, then no configuration file is read. `source` is a list of file paths or package names. Only code located in the trees indicated by the file paths or package names will be measured. `include` and `omit` are lists of file name patterns. Files that match `include` will be measured, files that match `omit` will not. Each will also accept a single string argument. `debug` is a list of strings indicating what debugging information is desired. `concurrency` is a string indicating the concurrency library being used in the measured code. Without this, coverage.py will get incorrect results if these libraries are in use. Valid strings are "greenlet", "eventlet", "gevent", "multiprocessing", or "thread" (the default). This can also be a list of these strings. .. versionadded:: 4.0 The `concurrency` parameter. .. versionadded:: 4.2 The `concurrency` parameter can now be a list of strings. """ # Build our configuration from a number of sources. self.config_file, self.config = read_coverage_config( config_file=config_file, data_file=data_file, cover_pylib=cover_pylib, timid=timid, branch=branch, parallel=bool_or_none(data_suffix), source=source, run_omit=omit, run_include=include, debug=debug, report_omit=omit, report_include=include, concurrency=concurrency, ) # This is injectable by tests. self._debug_file = None self._auto_load = self._auto_save = auto_data self._data_suffix = data_suffix # The matchers for _should_trace. self.source_match = None self.source_pkgs_match = None self.pylib_match = self.cover_match = None self.include_match = self.omit_match = None # Is it ok for no data to be collected? self._warn_no_data = True self._warn_unimported_source = True # A record of all the warnings that have been issued. self._warnings = [] # Other instance attributes, set later. self.omit = self.include = self.source = None self.source_pkgs_unmatched = None self.source_pkgs = None self.data = self.data_files = self.collector = None self.plugins = None self.pylib_paths = self.cover_paths = None self.data_suffix = self.run_suffix = None self._exclude_re = None self.debug = None # State machine variables: # Have we initialized everything? self._inited = False # Have we started collecting and not stopped it? self._started = False # If we have sub-process measurement happening automatically, then we # want any explicit creation of a Coverage object to mean, this process # is already coverage-aware, so don't auto-measure it. By now, the # auto-creation of a Coverage object has already happened. But we can # find it and tell it not to save its data. if not env.METACOV: _prevent_sub_process_measurement() def _init(self): """Set all the initial state. This is called by the public methods to initialize state. This lets us construct a :class:`Coverage` object, then tweak its state before this function is called. """ if self._inited: return self._inited = True # Create and configure the debugging controller. COVERAGE_DEBUG_FILE # is an environment variable, the name of a file to append debug logs # to. if self._debug_file is None: debug_file_name = os.environ.get("COVERAGE_DEBUG_FILE") if debug_file_name: self._debug_file = open(debug_file_name, "a") else: self._debug_file = sys.stderr self.debug = DebugControl(self.config.debug, self._debug_file) # _exclude_re is a dict that maps exclusion list names to compiled regexes. self._exclude_re = {} set_relative_directory() # Load plugins self.plugins = Plugins.load_plugins(self.config.plugins, self.config, self.debug) # Run configuring plugins. for plugin in self.plugins.configurers: # We need an object with set_option and get_option. Either self or # self.config will do. Choosing randomly stops people from doing # other things with those objects, against the public API. Yes, # this is a bit childish. :) plugin.configure([self, self.config][int(time.time()) % 2]) # The source argument can be directories or package names. self.source = [] self.source_pkgs = [] for src in self.config.source or []: if os.path.isdir(src): self.source.append(canonical_filename(src)) else: self.source_pkgs.append(src) self.source_pkgs_unmatched = self.source_pkgs[:] self.omit = prep_patterns(self.config.run_omit) self.include = prep_patterns(self.config.run_include) concurrency = self.config.concurrency or [] if "multiprocessing" in concurrency: if not patch_multiprocessing: raise CoverageException( # pragma: only jython "multiprocessing is not supported on this Python" ) patch_multiprocessing(rcfile=self.config_file) # Multi-processing uses parallel for the subprocesses, so also use # it for the main process. self.config.parallel = True self.collector = Collector( should_trace=self._should_trace, check_include=self._check_include_omit_etc, timid=self.config.timid, branch=self.config.branch, warn=self._warn, concurrency=concurrency, ) # Early warning if we aren't going to be able to support plugins. if self.plugins.file_tracers and not self.collector.supports_plugins: self._warn( "Plugin file tracers (%s) aren't supported with %s" % ( ", ".join( plugin._coverage_plugin_name for plugin in self.plugins.file_tracers ), self.collector.tracer_name(), ) ) for plugin in self.plugins.file_tracers: plugin._coverage_enabled = False # Suffixes are a bit tricky. We want to use the data suffix only when # collecting data, not when combining data. So we save it as # `self.run_suffix` now, and promote it to `self.data_suffix` if we # find that we are collecting data later. if self._data_suffix or self.config.parallel: if not isinstance(self._data_suffix, string_class): # if data_suffix=True, use .machinename.pid.random self._data_suffix = True else: self._data_suffix = None self.data_suffix = None self.run_suffix = self._data_suffix # Create the data file. We do this at construction time so that the # data file will be written into the directory where the process # started rather than wherever the process eventually chdir'd to. self.data = CoverageData(debug=self.debug) self.data_files = CoverageDataFiles( basename=self.config.data_file, warn=self._warn, debug=self.debug, ) # The directories for files considered "installed with the interpreter". self.pylib_paths = set() if not self.config.cover_pylib: # Look at where some standard modules are located. That's the # indication for "installed with the interpreter". In some # environments (virtualenv, for example), these modules may be # spread across a few locations. Look at all the candidate modules # we've imported, and take all the different ones. for m in (atexit, inspect, os, platform, _pypy_irc_topic, re, _structseq, traceback): if m is not None and hasattr(m, "__file__"): self.pylib_paths.add(self._canonical_path(m, directory=True)) if _structseq and not hasattr(_structseq, '__file__'): # PyPy 2.4 has no __file__ in the builtin modules, but the code # objects still have the file names. So dig into one to find # the path to exclude. structseq_new = _structseq.structseq_new try: structseq_file = structseq_new.func_code.co_filename except AttributeError: structseq_file = structseq_new.__code__.co_filename self.pylib_paths.add(self._canonical_path(structseq_file)) # To avoid tracing the coverage.py code itself, we skip anything # located where we are. self.cover_paths = [self._canonical_path(__file__, directory=True)] if env.TESTING: # Don't include our own test code. self.cover_paths.append(os.path.join(self.cover_paths[0], "tests")) # When testing, we use PyContracts, which should be considered # part of coverage.py, and it uses six. Exclude those directories # just as we exclude ourselves. import contracts import six for mod in [contracts, six]: self.cover_paths.append(self._canonical_path(mod)) # Set the reporting precision. Numbers.set_precision(self.config.precision) atexit.register(self._atexit) # Create the matchers we need for _should_trace if self.source or self.source_pkgs: self.source_match = TreeMatcher(self.source) self.source_pkgs_match = ModuleMatcher(self.source_pkgs) else: if self.cover_paths: self.cover_match = TreeMatcher(self.cover_paths) if self.pylib_paths: self.pylib_match = TreeMatcher(self.pylib_paths) if self.include: self.include_match = FnmatchMatcher(self.include) if self.omit: self.omit_match = FnmatchMatcher(self.omit) # The user may want to debug things, show info if desired. self._write_startup_debug() def _write_startup_debug(self): """Write out debug info at startup if needed.""" wrote_any = False with self.debug.without_callers(): if self.debug.should('config'): config_info = sorted(self.config.__dict__.items()) write_formatted_info(self.debug, "config", config_info) wrote_any = True if self.debug.should('sys'): write_formatted_info(self.debug, "sys", self.sys_info()) for plugin in self.plugins: header = "sys: " + plugin._coverage_plugin_name info = plugin.sys_info() write_formatted_info(self.debug, header, info) wrote_any = True if wrote_any: write_formatted_info(self.debug, "end", ()) def _canonical_path(self, morf, directory=False): """Return the canonical path of the module or file `morf`. If the module is a package, then return its directory. If it is a module, then return its file, unless `directory` is True, in which case return its enclosing directory. """ morf_path = PythonFileReporter(morf, self).filename if morf_path.endswith("__init__.py") or directory: morf_path = os.path.split(morf_path)[0] return morf_path def _name_for_module(self, module_globals, filename): """Get the name of the module for a set of globals and file name. For configurability's sake, we allow __main__ modules to be matched by their importable name. If loaded via runpy (aka -m), we can usually recover the "original" full dotted module name, otherwise, we resort to interpreting the file name to get the module's name. In the case that the module name can't be determined, None is returned. """ if module_globals is None: # pragma: only ironpython # IronPython doesn't provide globals: https://github.com/IronLanguages/main/issues/1296 module_globals = {} dunder_name = module_globals.get('__name__', None) if isinstance(dunder_name, str) and dunder_name != '__main__': # This is the usual case: an imported module. return dunder_name loader = module_globals.get('__loader__', None) for attrname in ('fullname', 'name'): # attribute renamed in py3.2 if hasattr(loader, attrname): fullname = getattr(loader, attrname) else: continue if isinstance(fullname, str) and fullname != '__main__': # Module loaded via: runpy -m return fullname # Script as first argument to Python command line. inspectedname = inspect.getmodulename(filename) if inspectedname is not None: return inspectedname else: return dunder_name def _should_trace_internal(self, filename, frame): """Decide whether to trace execution in `filename`, with a reason. This function is called from the trace function. As each new file name is encountered, this function determines whether it is traced or not. Returns a FileDisposition object. """ original_filename = filename disp = _disposition_init(self.collector.file_disposition_class, filename) def nope(disp, reason): """Simple helper to make it easy to return NO.""" disp.trace = False disp.reason = reason return disp # Compiled Python files have two file names: frame.f_code.co_filename is # the file name at the time the .pyc was compiled. The second name is # __file__, which is where the .pyc was actually loaded from. Since # .pyc files can be moved after compilation (for example, by being # installed), we look for __file__ in the frame and prefer it to the # co_filename value. dunder_file = frame.f_globals and frame.f_globals.get('__file__') if dunder_file: filename = source_for_file(dunder_file) if original_filename and not original_filename.startswith('<'): orig = os.path.basename(original_filename) if orig != os.path.basename(filename): # Files shouldn't be renamed when moved. This happens when # exec'ing code. If it seems like something is wrong with # the frame's file name, then just use the original. filename = original_filename if not filename: # Empty string is pretty useless. return nope(disp, "empty string isn't a file name") if filename.startswith('memory:'): return nope(disp, "memory isn't traceable") if filename.startswith('<'): # Lots of non-file execution is represented with artificial # file names like "<string>", "<doctest readme.txt[0]>", or # "<exec_function>". Don't ever trace these executions, since we # can't do anything with the data later anyway. return nope(disp, "not a real file name") # pyexpat does a dumb thing, calling the trace function explicitly from # C code with a C file name. if re.search(r"[/\\]Modules[/\\]pyexpat.c", filename): return nope(disp, "pyexpat lies about itself") # Jython reports the .class file to the tracer, use the source file. if filename.endswith("$py.class"): filename = filename[:-9] + ".py" canonical = canonical_filename(filename) disp.canonical_filename = canonical # Try the plugins, see if they have an opinion about the file. plugin = None for plugin in self.plugins.file_tracers: if not plugin._coverage_enabled: continue try: file_tracer = plugin.file_tracer(canonical) if file_tracer is not None: file_tracer._coverage_plugin = plugin disp.trace = True disp.file_tracer = file_tracer if file_tracer.has_dynamic_source_filename(): disp.has_dynamic_filename = True else: disp.source_filename = canonical_filename( file_tracer.source_filename() ) break except Exception: self._warn( "Disabling plug-in %r due to an exception:" % ( plugin._coverage_plugin_name ) ) traceback.print_exc() plugin._coverage_enabled = False continue else: # No plugin wanted it: it's Python. disp.trace = True disp.source_filename = canonical if not disp.has_dynamic_filename: if not disp.source_filename: raise CoverageException( "Plugin %r didn't set source_filename for %r" % (plugin, disp.original_filename) ) reason = self._check_include_omit_etc_internal( disp.source_filename, frame, ) if reason: nope(disp, reason) return disp def _check_include_omit_etc_internal(self, filename, frame): """Check a file name against the include, omit, etc, rules. Returns a string or None. String means, don't trace, and is the reason why. None means no reason found to not trace. """ modulename = self._name_for_module(frame.f_globals, filename) # If the user specified source or include, then that's authoritative # about the outer bound of what to measure and we don't have to apply # any canned exclusions. If they didn't, then we have to exclude the # stdlib and coverage.py directories. if self.source_match: if self.source_pkgs_match.match(modulename): if modulename in self.source_pkgs_unmatched: self.source_pkgs_unmatched.remove(modulename) elif not self.source_match.match(filename): return "falls outside the --source trees" elif self.include_match: if not self.include_match.match(filename): return "falls outside the --include trees" else: # If we aren't supposed to trace installed code, then check if this # is near the Python standard library and skip it if so. if self.pylib_match and self.pylib_match.match(filename): return "is in the stdlib" # We exclude the coverage.py code itself, since a little of it # will be measured otherwise. if self.cover_match and self.cover_match.match(filename): return "is part of coverage.py" # Check the file against the omit pattern. if self.omit_match and self.omit_match.match(filename): return "is inside an --omit pattern" # No reason found to skip this file. return None def _should_trace(self, filename, frame): """Decide whether to trace execution in `filename`. Calls `_should_trace_internal`, and returns the FileDisposition. """ disp = self._should_trace_internal(filename, frame) if self.debug.should('trace'): self.debug.write(_disposition_debug_msg(disp)) return disp def _check_include_omit_etc(self, filename, frame): """Check a file name against the include/omit/etc, rules, verbosely. Returns a boolean: True if the file should be traced, False if not. """ reason = self._check_include_omit_etc_internal(filename, frame) if self.debug.should('trace'): if not reason: msg = "Including %r" % (filename,) else: msg = "Not including %r: %s" % (filename, reason) self.debug.write(msg) return not reason def _warn(self, msg, slug=None): """Use `msg` as a warning. For warning suppression, use `slug` as the shorthand. """ if slug in self.config.disable_warnings: # Don't issue the warning return self._warnings.append(msg) if slug: msg = "%s (%s)" % (msg, slug) if self.debug.should('pid'): msg = "[%d] %s" % (os.getpid(), msg) sys.stderr.write("Coverage.py warning: %s\n" % msg) def get_option(self, option_name): """Get an option from the configuration. `option_name` is a colon-separated string indicating the section and option name. For example, the ``branch`` option in the ``[run]`` section of the config file would be indicated with `"run:branch"`. Returns the value of the option. .. versionadded:: 4.0 """ return self.config.get_option(option_name) def set_option(self, option_name, value): """Set an option in the configuration. `option_name` is a colon-separated string indicating the section and option name. For example, the ``branch`` option in the ``[run]`` section of the config file would be indicated with ``"run:branch"``. `value` is the new value for the option. This should be an appropriate Python value. For example, use True for booleans, not the string ``"True"``. As an example, calling:: cov.set_option("run:branch", True) has the same effect as this configuration file:: [run] branch = True .. versionadded:: 4.0 """ self.config.set_option(option_name, value) def use_cache(self, usecache): """Obsolete method.""" self._init() if not usecache: self._warn("use_cache(False) is no longer supported.") def load(self): """Load previously-collected coverage data from the data file.""" self._init() self.collector.reset() self.data_files.read(self.data) def start(self): """Start measuring code coverage. Coverage measurement only occurs in functions called after :meth:`start` is invoked. Statements in the same scope as :meth:`start` won't be measured. Once you invoke :meth:`start`, you must also call :meth:`stop` eventually, or your process might not shut down cleanly. """ self._init() if self.include: if self.source or self.source_pkgs: self._warn("--include is ignored because --source is set", slug="include-ignored") if self.run_suffix: # Calling start() means we're running code, so use the run_suffix # as the data_suffix when we eventually save the data. self.data_suffix = self.run_suffix if self._auto_load: self.load() self.collector.start() self._started = True def stop(self): """Stop measuring code coverage.""" if self._started: self.collector.stop() self._started = False def _atexit(self): """Clean up on process shutdown.""" if self.debug.should("process"): self.debug.write("atexit: {0!r}".format(self)) if self._started: self.stop() if self._auto_save: self.save() def erase(self): """Erase previously-collected coverage data. This removes the in-memory data collected in this session as well as discarding the data file. """ self._init() self.collector.reset() self.data.erase() self.data_files.erase(parallel=self.config.parallel) def clear_exclude(self, which='exclude'): """Clear the exclude list.""" self._init() setattr(self.config, which + "_list", []) self._exclude_regex_stale() def exclude(self, regex, which='exclude'): """Exclude source lines from execution consideration. A number of lists of regular expressions are maintained. Each list selects lines that are treated differently during reporting. `which` determines which list is modified. The "exclude" list selects lines that are not considered executable at all. The "partial" list indicates lines with branches that are not taken. `regex` is a regular expression. The regex is added to the specified list. If any of the regexes in the list is found in a line, the line is marked for special treatment during reporting. """ self._init() excl_list = getattr(self.config, which + "_list") excl_list.append(regex) self._exclude_regex_stale() def _exclude_regex_stale(self): """Drop all the compiled exclusion regexes, a list was modified.""" self._exclude_re.clear() def _exclude_regex(self, which): """Return a compiled regex for the given exclusion list.""" if which not in self._exclude_re: excl_list = getattr(self.config, which + "_list") self._exclude_re[which] = join_regex(excl_list) return self._exclude_re[which] def get_exclude_list(self, which='exclude'): """Return a list of excluded regex patterns. `which` indicates which list is desired. See :meth:`exclude` for the lists that are available, and their meaning. """ self._init() return getattr(self.config, which + "_list") def save(self): """Save the collected coverage data to the data file.""" self._init() self.get_data() self.data_files.write(self.data, suffix=self.data_suffix) def combine(self, data_paths=None, strict=False): """Combine together a number of similarly-named coverage data files. All coverage data files whose name starts with `data_file` (from the coverage() constructor) will be read, and combined together into the current measurements. `data_paths` is a list of files or directories from which data should be combined. If no list is passed, then the data files from the directory indicated by the current data file (probably the current directory) will be combined. If `strict` is true, then it is an error to attempt to combine when there are no data files to combine. .. versionadded:: 4.0 The `data_paths` parameter. .. versionadded:: 4.3 The `strict` parameter. """ self._init() self.get_data() aliases = None if self.config.paths: aliases = PathAliases() for paths in self.config.paths.values(): result = paths[0] for pattern in paths[1:]: aliases.add(pattern, result) self.data_files.combine_parallel_data( self.data, aliases=aliases, data_paths=data_paths, strict=strict, ) def get_data(self): """Get the collected data. Also warn about various problems collecting data. Returns a :class:`coverage.CoverageData`, the collected coverage data. .. versionadded:: 4.0 """ self._init() if self.collector.save_data(self.data): self._post_save_work() return self.data def _post_save_work(self): """After saving data, look for warnings, post-work, etc. Warn about things that should have happened but didn't. Look for unexecuted files. """ # If there are still entries in the source_pkgs_unmatched list, # then we never encountered those packages. if self._warn_unimported_source: for pkg in self.source_pkgs_unmatched: self._warn_about_unmeasured_code(pkg) # Find out if we got any data. if not self.data and self._warn_no_data: self._warn("No data was collected.", slug="no-data-collected") # Find files that were never executed at all. for pkg in self.source_pkgs: if (not pkg in sys.modules or not module_has_file(sys.modules[pkg])): continue pkg_file = source_for_file(sys.modules[pkg].__file__) self._find_unexecuted_files(self._canonical_path(pkg_file)) for src in self.source: self._find_unexecuted_files(src) if self.config.note: self.data.add_run_info(note=self.config.note) def _warn_about_unmeasured_code(self, pkg): """Warn about a package or module that we never traced. `pkg` is a string, the name of the package or module. """ mod = sys.modules.get(pkg) if mod is None: self._warn("Module %s was never imported." % pkg, slug="module-not-imported") return if module_is_namespace(mod): # A namespace package. It's OK for this not to have been traced, # since there is no code directly in it. return if not module_has_file(mod): self._warn("Module %s has no Python source." % pkg, slug="module-not-python") return # The module was in sys.modules, and seems like a module with code, but # we never measured it. I guess that means it was imported before # coverage even started. self._warn( "Module %s was previously imported, but not measured" % pkg, slug="module-not-measured", ) def _find_plugin_files(self, src_dir): """Get executable files from the plugins.""" for plugin in self.plugins.file_tracers: for x_file in plugin.find_executable_files(src_dir): yield x_file, plugin._coverage_plugin_name def _find_unexecuted_files(self, src_dir): """Find unexecuted files in `src_dir`. Search for files in `src_dir` that are probably importable, and add them as unexecuted files in `self.data`. """ py_files = ((py_file, None) for py_file in find_python_files(src_dir)) plugin_files = self._find_plugin_files(src_dir) for file_path, plugin_name in itertools.chain(py_files, plugin_files): file_path = canonical_filename(file_path) if self.omit_match and self.omit_match.match(file_path): # Turns out this file was omitted, so don't pull it back # in as unexecuted. continue self.data.touch_file(file_path, plugin_name) # Backward compatibility with version 1. def analysis(self, morf): """Like `analysis2` but doesn't return excluded line numbers.""" f, s, _, m, mf = self.analysis2(morf) return f, s, m, mf def analysis2(self, morf): """Analyze a module. `morf` is a module or a file name. It will be analyzed to determine its coverage statistics. The return value is a 5-tuple: * The file name for the module. * A list of line numbers of executable statements. * A list of line numbers of excluded statements. * A list of line numbers of statements not run (missing from execution). * A readable formatted string of the missing line numbers. The analysis uses the source file itself and the current measured coverage data. """ self._init() analysis = self._analyze(morf) return ( analysis.filename, sorted(analysis.statements), sorted(analysis.excluded), sorted(analysis.missing), analysis.missing_formatted(), ) def _analyze(self, it): """Analyze a single morf or code unit. Returns an `Analysis` object. """ self.get_data() if not isinstance(it, FileReporter): it = self._get_file_reporter(it) return Analysis(self.data, it) def _get_file_reporter(self, morf): """Get a FileReporter for a module or file name.""" plugin = None file_reporter = "python" if isinstance(morf, string_class): abs_morf = abs_file(morf) plugin_name = self.data.file_tracer(abs_morf) if plugin_name: plugin = self.plugins.get(plugin_name) if plugin: file_reporter = plugin.file_reporter(abs_morf) if file_reporter is None: raise CoverageException( "Plugin %r did not provide a file reporter for %r." % ( plugin._coverage_plugin_name, morf ) ) if file_reporter == "python": file_reporter = PythonFileReporter(morf, self) return file_reporter def _get_file_reporters(self, morfs=None): """Get a list of FileReporters for a list of modules or file names. For each module or file name in `morfs`, find a FileReporter. Return the list of FileReporters. If `morfs` is a single module or file name, this returns a list of one FileReporter. If `morfs` is empty or None, then the list of all files measured is used to find the FileReporters. """ if not morfs: morfs = self.data.measured_files() # Be sure we have a list. if not isinstance(morfs, (list, tuple)): morfs = [morfs] file_reporters = [] for morf in morfs: file_reporter = self._get_file_reporter(morf) file_reporters.append(file_reporter) return file_reporters def report( self, morfs=None, show_missing=None, ignore_errors=None, file=None, # pylint: disable=redefined-builtin omit=None, include=None, skip_covered=None, ): """Write a summary report to `file`. Each module in `morfs` is listed, with counts of statements, executed statements, missing statements, and a list of lines missed. `include` is a list of file name patterns. Files that match will be included in the report. Files matching `omit` will not be included in the report. If `skip_covered` is True, don't report on files with 100% coverage. Returns a float, the total percentage covered. """ self.get_data() self.config.from_args( ignore_errors=ignore_errors, report_omit=omit, report_include=include, show_missing=show_missing, skip_covered=skip_covered, ) reporter = SummaryReporter(self, self.config) return reporter.report(morfs, outfile=file) def annotate( self, morfs=None, directory=None, ignore_errors=None, omit=None, include=None, ): """Annotate a list of modules. Each module in `morfs` is annotated. The source is written to a new file, named with a ",cover" suffix, with each line prefixed with a marker to indicate the coverage of the line. Covered lines have ">", excluded lines have "-", and missing lines have "!". See :meth:`report` for other arguments. """ self.get_data() self.config.from_args( ignore_errors=ignore_errors, report_omit=omit, report_include=include ) reporter = AnnotateReporter(self, self.config) reporter.report(morfs, directory=directory) def html_report(self, morfs=None, directory=None, ignore_errors=None, omit=None, include=None, extra_css=None, title=None, skip_covered=None): """Generate an HTML report. The HTML is written to `directory`. The file "index.html" is the overview starting point, with links to more detailed pages for individual modules. `extra_css` is a path to a file of other CSS to apply on the page. It will be copied into the HTML directory. `title` is a text string (not HTML) to use as the title of the HTML report. See :meth:`report` for other arguments. Returns a float, the total percentage covered. """ self.get_data() self.config.from_args( ignore_errors=ignore_errors, report_omit=omit, report_include=include, html_dir=directory, extra_css=extra_css, html_title=title, skip_covered=skip_covered, ) reporter = HtmlReporter(self, self.config) return reporter.report(morfs) def xml_report( self, morfs=None, outfile=None, ignore_errors=None, omit=None, include=None, ): """Generate an XML report of coverage results. The report is compatible with Cobertura reports. Each module in `morfs` is included in the report. `outfile` is the path to write the file to, "-" will write to stdout. See :meth:`report` for other arguments. Returns a float, the total percentage covered. """ self.get_data() self.config.from_args( ignore_errors=ignore_errors, report_omit=omit, report_include=include, xml_output=outfile, ) file_to_close = None delete_file = False if self.config.xml_output: if self.config.xml_output == '-': outfile = sys.stdout else: # Ensure that the output directory is created; done here # because this report pre-opens the output file. # HTMLReport does this using the Report plumbing because # its task is more complex, being multiple files. output_dir = os.path.dirname(self.config.xml_output) if output_dir and not os.path.isdir(output_dir): os.makedirs(output_dir) open_kwargs = {} if env.PY3: open_kwargs['encoding'] = 'utf8' outfile = open(self.config.xml_output, "w", **open_kwargs) file_to_close = outfile try: reporter = XmlReporter(self, self.config) return reporter.report(morfs, outfile=outfile) except CoverageException: delete_file = True raise finally: if file_to_close: file_to_close.close() if delete_file: file_be_gone(self.config.xml_output) def sys_info(self): """Return a list of (key, value) pairs showing internal information.""" import coverage as covmod self._init() def plugin_info(plugins): """Make an entry for the sys_info from a list of plug-ins.""" entries = [] for plugin in plugins: entry = plugin._coverage_plugin_name if not plugin._coverage_enabled: entry += " (disabled)" entries.append(entry) return entries info = [ ('version', covmod.__version__), ('coverage', covmod.__file__), ('cover_paths', self.cover_paths), ('pylib_paths', self.pylib_paths), ('tracer', self.collector.tracer_name()), ('plugins.file_tracers', plugin_info(self.plugins.file_tracers)), ('plugins.configurers', plugin_info(self.plugins.configurers)), ('config_files', self.config.attempted_config_files), ('configs_read', self.config.config_files), ('data_path', self.data_files.filename), ('python', sys.version.replace('\n', '')), ('platform', platform.platform()), ('implementation', platform.python_implementation()), ('executable', sys.executable), ('cwd', os.getcwd()), ('path', sys.path), ('environment', sorted( ("%s = %s" % (k, v)) for k, v in iitems(os.environ) if k.startswith(("COV", "PY")) )), ('command_line', " ".join(getattr(sys, 'argv', ['???']))), ] matcher_names = [ 'source_match', 'source_pkgs_match', 'include_match', 'omit_match', 'cover_match', 'pylib_match', ] for matcher_name in matcher_names: matcher = getattr(self, matcher_name) if matcher: matcher_info = matcher.info() else: matcher_info = '-none-' info.append((matcher_name, matcher_info)) return info def module_is_namespace(mod): """Is the module object `mod` a PEP420 namespace module?""" return hasattr(mod, '__path__') and getattr(mod, '__file__', None) is None def module_has_file(mod): """Does the module object `mod` have an existing __file__ ?""" mod__file__ = getattr(mod, '__file__', None) if mod__file__ is None: return False return os.path.exists(mod__file__) # FileDisposition "methods": FileDisposition is a pure value object, so it can # be implemented in either C or Python. Acting on them is done with these # functions. def _disposition_init(cls, original_filename): """Construct and initialize a new FileDisposition object.""" disp = cls() disp.original_filename = original_filename disp.canonical_filename = original_filename disp.source_filename = None disp.trace = False disp.reason = "" disp.file_tracer = None disp.has_dynamic_filename = False return disp def _disposition_debug_msg(disp): """Make a nice debug message of what the FileDisposition is doing.""" if disp.trace: msg = "Tracing %r" % (disp.original_filename,) if disp.file_tracer: msg += ": will be traced by %r" % disp.file_tracer else: msg = "Not tracing %r: %s" % (disp.original_filename, disp.reason) return msg def process_startup(): """Call this at Python start-up to perhaps measure coverage. If the environment variable COVERAGE_PROCESS_START is defined, coverage measurement is started. The value of the variable is the config file to use. There are two ways to configure your Python installation to invoke this function when Python starts: #. Create or append to sitecustomize.py to add these lines:: import coverage coverage.process_startup() #. Create a .pth file in your Python installation containing:: import coverage; coverage.process_startup() Returns the :class:`Coverage` instance that was started, or None if it was not started by this call. """ cps = os.environ.get("COVERAGE_PROCESS_START") if not cps: # No request for coverage, nothing to do. return None # This function can be called more than once in a process. This happens # because some virtualenv configurations make the same directory visible # twice in sys.path. This means that the .pth file will be found twice, # and executed twice, executing this function twice. We set a global # flag (an attribute on this function) to indicate that coverage.py has # already been started, so we can avoid doing it twice. # # https://bitbucket.org/ned/coveragepy/issue/340/keyerror-subpy has more # details. if hasattr(process_startup, "coverage"): # We've annotated this function before, so we must have already # started coverage.py in this process. Nothing to do. return None cov = Coverage(config_file=cps) process_startup.coverage = cov cov.start() cov._warn_no_data = False cov._warn_unimported_source = False cov._auto_save = True return cov def _prevent_sub_process_measurement(): """Stop any subprocess auto-measurement from writing data.""" auto_created_coverage = getattr(process_startup, "coverage", None) if auto_created_coverage is not None: auto_created_coverage._auto_save = False
