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Direktori : /lib/python3/dist-packages/twisted/python/ |
Current File : //lib/python3/dist-packages/twisted/python/modules.py |
# -*- test-case-name: twisted.test.test_modules -*- # Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. """ This module aims to provide a unified, object-oriented view of Python's runtime hierarchy. Python is a very dynamic language with wide variety of introspection utilities. However, these utilities can be hard to use, because there is no consistent API. The introspection API in python is made up of attributes (__name__, __module__, func_name, etc) on instances, modules, classes and functions which vary between those four types, utility modules such as 'inspect' which provide some functionality, the 'imp' module, the "compiler" module, the semantics of PEP 302 support, and setuptools, among other things. At the top, you have "PythonPath", an abstract representation of sys.path which includes methods to locate top-level modules, with or without loading them. The top-level exposed functions in this module for accessing the system path are "walkModules", "iterModules", and "getModule". From most to least specific, here are the objects provided:: PythonPath # sys.path | v PathEntry # one entry on sys.path: an importer | v PythonModule # a module or package that can be loaded | v PythonAttribute # an attribute of a module (function or class) | v PythonAttribute # an attribute of a function or class | v ... Here's an example of idiomatic usage: this is what you would do to list all of the modules outside the standard library's python-files directory:: import os stdlibdir = os.path.dirname(os.__file__) from twisted.python.modules import iterModules for modinfo in iterModules(): if (modinfo.pathEntry.filePath.path != stdlibdir and not modinfo.isPackage()): print('unpackaged: %s: %s' % ( modinfo.name, modinfo.filePath.path)) @var theSystemPath: The very top of the Python object space. @type theSystemPath: L{PythonPath} """ import inspect import sys import warnings import zipimport # let's try to keep path imports to a minimum... from os.path import dirname, split as splitpath from typing import cast from zope.interface import Interface, implementer from twisted.python.compat import nativeString from twisted.python.components import registerAdapter from twisted.python.filepath import FilePath, UnlistableError from twisted.python.reflect import namedAny from twisted.python.zippath import ZipArchive _nothing = object() PYTHON_EXTENSIONS = [".py"] OPTIMIZED_MODE = __doc__ is None if OPTIMIZED_MODE: PYTHON_EXTENSIONS.append(".pyo") else: PYTHON_EXTENSIONS.append(".pyc") def _isPythonIdentifier(string): """ cheezy fake test for proper identifier-ness. @param string: a L{str} which might or might not be a valid python identifier. @return: True or False """ textString = nativeString(string) return " " not in textString and "." not in textString and "-" not in textString def _isPackagePath(fpath): # Determine if a FilePath-like object is a Python package. TODO: deal with # __init__module.(so|dll|pyd)? extless = fpath.splitext()[0] basend = splitpath(extless)[1] return basend == "__init__" class _ModuleIteratorHelper: """ This mixin provides common behavior between python module and path entries, since the mechanism for searching sys.path and __path__ attributes is remarkably similar. """ def iterModules(self): """ Loop over the modules present below this entry or package on PYTHONPATH. For modules which are not packages, this will yield nothing. For packages and path entries, this will only yield modules one level down; i.e. if there is a package a.b.c, iterModules on a will only return a.b. If you want to descend deeply, use walkModules. @return: a generator which yields PythonModule instances that describe modules which can be, or have been, imported. """ yielded = {} if not self.filePath.exists(): return for placeToLook in self._packagePaths(): try: children = sorted(placeToLook.children()) except UnlistableError: continue for potentialTopLevel in children: ext = potentialTopLevel.splitext()[1] potentialBasename = potentialTopLevel.basename()[: -len(ext)] if ext in PYTHON_EXTENSIONS: # TODO: this should be a little choosier about which path entry # it selects first, and it should do all the .so checking and # crud if not _isPythonIdentifier(potentialBasename): continue modname = self._subModuleName(potentialBasename) if modname.split(".")[-1] == "__init__": # This marks the directory as a package so it can't be # a module. continue if modname not in yielded: yielded[modname] = True pm = PythonModule(modname, potentialTopLevel, self._getEntry()) assert pm != self yield pm else: if ( ext or not _isPythonIdentifier(potentialBasename) or not potentialTopLevel.isdir() ): continue modname = self._subModuleName(potentialTopLevel.basename()) for ext in PYTHON_EXTENSIONS: initpy = potentialTopLevel.child("__init__" + ext) if initpy.exists() and modname not in yielded: yielded[modname] = True pm = PythonModule(modname, initpy, self._getEntry()) assert pm != self yield pm break def walkModules(self, importPackages=False): """ Similar to L{iterModules}, this yields self, and then every module in my package or entry, and every submodule in each package or entry. In other words, this is deep, and L{iterModules} is shallow. """ yield self for package in self.iterModules(): yield from package.walkModules(importPackages=importPackages) def _subModuleName(self, mn): """ This is a hook to provide packages with the ability to specify their names as a prefix to submodules here. """ return mn def _packagePaths(self): """ Implement in subclasses to specify where to look for modules. @return: iterable of FilePath-like objects. """ raise NotImplementedError() def _getEntry(self): """ Implement in subclasses to specify what path entry submodules will come from. @return: a PathEntry instance. """ raise NotImplementedError() def __getitem__(self, modname): """ Retrieve a module from below this path or package. @param modname: a str naming a module to be loaded. For entries, this is a top-level, undotted package name, and for packages it is the name of the module without the package prefix. For example, if you have a PythonModule representing the 'twisted' package, you could use:: twistedPackageObj['python']['modules'] to retrieve this module. @raise KeyError: if the module is not found. @return: a PythonModule. """ for module in self.iterModules(): if module.name == self._subModuleName(modname): return module raise KeyError(modname) def __iter__(self): """ Implemented to raise NotImplementedError for clarity, so that attempting to loop over this object won't call __getitem__. Note: in the future there might be some sensible default for iteration, like 'walkEverything', so this is deliberately untested and undefined behavior. """ raise NotImplementedError() class PythonAttribute: """ I represent a function, class, or other object that is present. @ivar name: the fully-qualified python name of this attribute. @ivar onObject: a reference to a PythonModule or other PythonAttribute that is this attribute's logical parent. @ivar name: the fully qualified python name of the attribute represented by this class. """ def __init__(self, name, onObject, loaded, pythonValue): """ Create a PythonAttribute. This is a private constructor. Do not construct me directly, use PythonModule.iterAttributes. @param name: the FQPN @param onObject: see ivar @param loaded: always True, for now @param pythonValue: the value of the attribute we're pointing to. """ self.name = name self.onObject = onObject self._loaded = loaded self.pythonValue = pythonValue def __repr__(self) -> str: return f"PythonAttribute<{self.name!r}>" def isLoaded(self): """ Return a boolean describing whether the attribute this describes has actually been loaded into memory by importing its module. Note: this currently always returns true; there is no Python parser support in this module yet. """ return self._loaded def load(self, default=_nothing): """ Load the value associated with this attribute. @return: an arbitrary Python object, or 'default' if there is an error loading it. """ return self.pythonValue def iterAttributes(self): for name, val in inspect.getmembers(self.load()): yield PythonAttribute(self.name + "." + name, self, True, val) class PythonModule(_ModuleIteratorHelper): """ Representation of a module which could be imported from sys.path. @ivar name: the fully qualified python name of this module. @ivar filePath: a FilePath-like object which points to the location of this module. @ivar pathEntry: a L{PathEntry} instance which this module was located from. """ def __init__(self, name, filePath, pathEntry): """ Create a PythonModule. Do not construct this directly, instead inspect a PythonPath or other PythonModule instances. @param name: see ivar @param filePath: see ivar @param pathEntry: see ivar """ _name = nativeString(name) assert not _name.endswith(".__init__") self.name = _name self.filePath = filePath self.parentPath = filePath.parent() self.pathEntry = pathEntry def _getEntry(self): return self.pathEntry def __repr__(self) -> str: """ Return a string representation including the module name. """ return f"PythonModule<{self.name!r}>" def isLoaded(self): """ Determine if the module is loaded into sys.modules. @return: a boolean: true if loaded, false if not. """ return self.pathEntry.pythonPath.moduleDict.get(self.name) is not None def iterAttributes(self): """ List all the attributes defined in this module. Note: Future work is planned here to make it possible to list python attributes on a module without loading the module by inspecting ASTs or bytecode, but currently any iteration of PythonModule objects insists they must be loaded, and will use inspect.getmodule. @raise NotImplementedError: if this module is not loaded. @return: a generator yielding PythonAttribute instances describing the attributes of this module. """ if not self.isLoaded(): raise NotImplementedError( "You can't load attributes from non-loaded modules yet." ) for name, val in inspect.getmembers(self.load()): yield PythonAttribute(self.name + "." + name, self, True, val) def isPackage(self): """ Returns true if this module is also a package, and might yield something from iterModules. """ return _isPackagePath(self.filePath) def load(self, default=_nothing): """ Load this module. @param default: if specified, the value to return in case of an error. @return: a genuine python module. @raise Exception: Importing modules is a risky business; the erorrs of any code run at module scope may be raised from here, as well as ImportError if something bizarre happened to the system path between the discovery of this PythonModule object and the attempt to import it. If you specify a default, the error will be swallowed entirely, and not logged. @rtype: types.ModuleType. """ try: return self.pathEntry.pythonPath.moduleLoader(self.name) except BaseException: # this needs more thought... if default is not _nothing: return default raise def __eq__(self, other: object) -> bool: """ PythonModules with the same name are equal. """ if isinstance(other, PythonModule): return cast(bool, other.name == self.name) return NotImplemented def walkModules(self, importPackages=False): if importPackages and self.isPackage(): self.load() return super().walkModules(importPackages=importPackages) def _subModuleName(self, mn): """ submodules of this module are prefixed with our name. """ return self.name + "." + mn def _packagePaths(self): """ Yield a sequence of FilePath-like objects which represent path segments. """ if not self.isPackage(): return if self.isLoaded(): load = self.load() if hasattr(load, "__path__"): for fn in load.__path__: if fn == self.parentPath.path: # this should _really_ exist. assert self.parentPath.exists() yield self.parentPath else: smp = self.pathEntry.pythonPath._smartPath(fn) if smp.exists(): yield smp else: yield self.parentPath class PathEntry(_ModuleIteratorHelper): """ I am a proxy for a single entry on sys.path. @ivar filePath: a FilePath-like object pointing at the filesystem location or archive file where this path entry is stored. @ivar pythonPath: a PythonPath instance. """ def __init__(self, filePath, pythonPath): """ Create a PathEntry. This is a private constructor. """ self.filePath = filePath self.pythonPath = pythonPath def _getEntry(self): return self def __repr__(self) -> str: return f"PathEntry<{self.filePath!r}>" def _packagePaths(self): yield self.filePath class IPathImportMapper(Interface): """ This is an internal interface, used to map importers to factories for FilePath-like objects. """ def mapPath(pathLikeString): """ Return a FilePath-like object. @param pathLikeString: a path-like string, like one that might be passed to an import hook. @return: a L{FilePath}, or something like it (currently only a L{ZipPath}, but more might be added later). """ @implementer(IPathImportMapper) class _DefaultMapImpl: """Wrapper for the default importer, i.e. None.""" def mapPath(self, fsPathString): return FilePath(fsPathString) _theDefaultMapper = _DefaultMapImpl() @implementer(IPathImportMapper) class _ZipMapImpl: """IPathImportMapper implementation for zipimport.ZipImporter.""" def __init__(self, importer): self.importer = importer def mapPath(self, fsPathString): """ Map the given FS path to a ZipPath, by looking at the ZipImporter's "archive" attribute and using it as our ZipArchive root, then walking down into the archive from there. @return: a L{zippath.ZipPath} or L{zippath.ZipArchive} instance. """ za = ZipArchive(self.importer.archive) myPath = FilePath(self.importer.archive) itsPath = FilePath(fsPathString) if myPath == itsPath: return za # This is NOT a general-purpose rule for sys.path or __file__: # zipimport specifically uses regular OS path syntax in its # pathnames, even though zip files specify that slashes are always # the separator, regardless of platform. segs = itsPath.segmentsFrom(myPath) zp = za for seg in segs: zp = zp.child(seg) return zp registerAdapter(_ZipMapImpl, zipimport.zipimporter, IPathImportMapper) def _defaultSysPathFactory(): """ Provide the default behavior of PythonPath's sys.path factory, which is to return the current value of sys.path. @return: L{sys.path} """ return sys.path class PythonPath: """ I represent the very top of the Python object-space, the module list in C{sys.path} and the modules list in C{sys.modules}. @ivar _sysPath: A sequence of strings like C{sys.path}. This attribute is read-only. @ivar sysPath: The current value of the module search path list. @type sysPath: C{list} @ivar moduleDict: A dictionary mapping string module names to module objects, like C{sys.modules}. @ivar sysPathHooks: A list of PEP-302 path hooks, like C{sys.path_hooks}. @ivar moduleLoader: A function that takes a fully-qualified python name and returns a module, like L{twisted.python.reflect.namedAny}. """ def __init__( self, sysPath=None, moduleDict=sys.modules, sysPathHooks=sys.path_hooks, importerCache=sys.path_importer_cache, moduleLoader=namedAny, sysPathFactory=None, ): """ Create a PythonPath. You almost certainly want to use modules.theSystemPath, or its aliased methods, rather than creating a new instance yourself, though. All parameters are optional, and if unspecified, will use 'system' equivalents that makes this PythonPath like the global L{theSystemPath} instance. @param sysPath: a sys.path-like list to use for this PythonPath, to specify where to load modules from. @param moduleDict: a sys.modules-like dictionary to use for keeping track of what modules this PythonPath has loaded. @param sysPathHooks: sys.path_hooks-like list of PEP-302 path hooks to be used for this PythonPath, to determie which importers should be used. @param importerCache: a sys.path_importer_cache-like list of PEP-302 importers. This will be used in conjunction with the given sysPathHooks. @param moduleLoader: a module loader function which takes a string and returns a module. That is to say, it is like L{namedAny} - *not* like L{__import__}. @param sysPathFactory: a 0-argument callable which returns the current value of a sys.path-like list of strings. Specify either this, or sysPath, not both. This alternative interface is provided because the way the Python import mechanism works, you can re-bind the 'sys.path' name and that is what is used for current imports, so it must be a factory rather than a value to deal with modification by rebinding rather than modification by mutation. Note: it is not recommended to rebind sys.path. Although this mechanism can deal with that, it is a subtle point which some tools that it is easy for tools which interact with sys.path to miss. """ if sysPath is not None: sysPathFactory = lambda: sysPath elif sysPathFactory is None: sysPathFactory = _defaultSysPathFactory self._sysPathFactory = sysPathFactory self._sysPath = sysPath self.moduleDict = moduleDict self.sysPathHooks = sysPathHooks self.importerCache = importerCache self.moduleLoader = moduleLoader @property def sysPath(self): """ Retrieve the current value of the module search path list. """ return self._sysPathFactory() def _findEntryPathString(self, modobj): """ Determine where a given Python module object came from by looking at path entries. """ topPackageObj = modobj while "." in topPackageObj.__name__: topPackageObj = self.moduleDict[ ".".join(topPackageObj.__name__.split(".")[:-1]) ] if _isPackagePath(FilePath(topPackageObj.__file__)): # if package 'foo' is on sys.path at /a/b/foo, package 'foo's # __file__ will be /a/b/foo/__init__.py, and we are looking for # /a/b here, the path-entry; so go up two steps. rval = dirname(dirname(topPackageObj.__file__)) else: # the module is completely top-level, not within any packages. The # path entry it's on is just its dirname. rval = dirname(topPackageObj.__file__) # There are probably some awful tricks that an importer could pull # which would break this, so let's just make sure... it's a loaded # module after all, which means that its path MUST be in # path_importer_cache according to PEP 302 -glyph if rval not in self.importerCache: warnings.warn( "%s (for module %s) not in path importer cache " "(PEP 302 violation - check your local configuration)." % (rval, modobj.__name__), stacklevel=3, ) return rval def _smartPath(self, pathName): """ Given a path entry from sys.path which may refer to an importer, return the appropriate FilePath-like instance. @param pathName: a str describing the path. @return: a FilePath-like object. """ importr = self.importerCache.get(pathName, _nothing) if importr is _nothing: for hook in self.sysPathHooks: try: importr = hook(pathName) except ImportError: pass if importr is _nothing: # still importr = None return IPathImportMapper(importr, _theDefaultMapper).mapPath(pathName) def iterEntries(self): """ Iterate the entries on my sysPath. @return: a generator yielding PathEntry objects """ for pathName in self.sysPath: fp = self._smartPath(pathName) yield PathEntry(fp, self) def __getitem__(self, modname): """ Get a python module by its given fully-qualified name. @param modname: The fully-qualified Python module name to load. @type modname: C{str} @return: an object representing the module identified by C{modname} @rtype: L{PythonModule} @raise KeyError: if the module name is not a valid module name, or no such module can be identified as loadable. """ # See if the module is already somewhere in Python-land. moduleObject = self.moduleDict.get(modname) if moduleObject is not None: # we need 2 paths; one of the path entry and one for the module. pe = PathEntry( self._smartPath(self._findEntryPathString(moduleObject)), self ) mp = self._smartPath(moduleObject.__file__) return PythonModule(modname, mp, pe) # Recurse if we're trying to get a submodule. if "." in modname: pkg = self for name in modname.split("."): pkg = pkg[name] return pkg # Finally do the slowest possible thing and iterate for module in self.iterModules(): if module.name == modname: return module raise KeyError(modname) def __contains__(self, module): """ Check to see whether or not a module exists on my import path. @param module: The name of the module to look for on my import path. @type module: C{str} """ try: self.__getitem__(module) return True except KeyError: return False def __repr__(self) -> str: """ Display my sysPath and moduleDict in a string representation. """ return f"PythonPath({self.sysPath!r},{self.moduleDict!r})" def iterModules(self): """ Yield all top-level modules on my sysPath. """ for entry in self.iterEntries(): yield from entry.iterModules() def walkModules(self, importPackages=False): """ Similar to L{iterModules}, this yields every module on the path, then every submodule in each package or entry. """ for package in self.iterModules(): yield from package.walkModules(importPackages=False) theSystemPath = PythonPath() def walkModules(importPackages=False): """ Deeply iterate all modules on the global python path. @param importPackages: Import packages as they are seen. """ return theSystemPath.walkModules(importPackages=importPackages) def iterModules(): """ Iterate all modules and top-level packages on the global Python path, but do not descend into packages. """ return theSystemPath.iterModules() def getModule(moduleName): """ Retrieve a module from the system path. """ return theSystemPath[moduleName]