# # imputil.py # # Written by Greg Stein. Public Domain. # No Copyright, no Rights Reserved, and no Warranties. # # Utilities to help out with custom import mechanisms. # # Additional modifications were contribed by Marc-Andre Lemburg and # Gordon McMillan. # # This module is maintained by Greg and is available at: # http://www.lyra.org/greg/python/imputil.py # # Since this isn't in the Python distribution yet, we'll use the CVS ID # for tracking: # $Id$ # # note: avoid importing non-builtin modules import imp import sys import strop import __builtin__ # for the DirectoryImporter import struct import marshal class Importer: "Base class for replacing standard import functions." def install(self): self.__chain_import = __builtin__.__import__ self.__chain_reload = __builtin__.reload __builtin__.__import__ = self._import_hook __builtin__.reload = self._reload_hook ###################################################################### # # PRIVATE METHODS # def _import_hook(self, name, globals=None, locals=None, fromlist=None): """Python calls this hook to locate and import a module. This method attempts to load the (dotted) module name. If it cannot find it, then it delegates the import to the next import hook in the chain (where "next" is defined as the import hook that was in place at the time this Importer instance was installed). """ ### insert a fast-path check for whether the module is already ### loaded? use a variant of _determine_import_context() which ### returns a context regardless of Importer used. generate an ### fqname and look in sys.modules for it. ### note that given module a.b which imports c, if c is already ### loaded, python still wants to look for a.c # determine the context of this import parent = self._determine_import_context(globals) # import the module within the context, or from the default context top, tail = self._import_top_module(parent, name) if top is None: # the module was not found; delegate to the next import hook return self.__chain_import(name, globals, locals, fromlist) # the top module may be under the control of a different importer. # if so, then defer to that importer for completion of the import. # note it may be self, or is undefined so we (self) may as well # finish the import. importer = top.__dict__.get('__importer__', self) return importer._finish_import(top, tail, fromlist) def _finish_import(self, top, tail, fromlist): # if "a.b.c" was provided, then load the ".b.c" portion down from # below the top-level module. bottom = self._load_tail(top, tail) # if the form is "import a.b.c", then return "a" if not fromlist: # no fromlist: return the top of the import tree return top # the top module was imported by self, or it was not imported through # the Importer mechanism and self is simply handling the import of # the sub-modules and fromlist. # # this means that the bottom module was also imported by self, or we # are handling things in the absence of a prior Importer # # ### why the heck are we handling it? what is the example scenario # ### where this happens? note that we can't determine is_package() # ### for non-Importer modules. # # since we imported/handled the bottom module, this means that we can # also handle its fromlist (and reliably determine is_package()). # if the bottom node is a package, then (potentially) import some modules. # # note: if it is not a package, then "fromlist" refers to names in # the bottom module rather than modules. # note: for a mix of names and modules in the fromlist, we will # import all modules and insert those into the namespace of # the package module. Python will pick up all fromlist names # from the bottom (package) module; some will be modules that # we imported and stored in the namespace, others are expected # to be present already. if self._is_package(bottom.__dict__): self._import_fromlist(bottom, fromlist) # if the form is "from a.b import c, d" then return "b" return bottom def _reload_hook(self, module): "Python calls this hook to reload a module." # reloading of a module may or may not be possible (depending on the # importer), but at least we can validate that it's ours to reload importer = module.__dict__.get('__importer__', None) if importer is not self: return self.__chain_reload(module) # okay. it is ours, but we don't know what to do (yet) ### we should blast the module dict and do another get_code(). need to ### flesh this out and add proper docco... raise SystemError, "reload not yet implemented" def _determine_import_context(self, globals): """Returns the context in which a module should be imported. The context could be a loaded (package) module and the imported module will be looked for within that package. The context could also be None, meaning there is no context -- the module should be looked for as a "top-level" module. """ if not globals or \ globals.get('__importer__', None) is not self: # globals does not refer to one of our modules or packages. # That implies there is no relative import context, and it # should just pick it off the standard path. return None # The globals refer to a module or package of ours. It will define # the context of the new import. Get the module/package fqname. parent_fqname = globals['__name__'] # for a package, return itself (imports refer to pkg contents) if self._is_package(globals): parent = sys.modules[parent_fqname] assert globals is parent.__dict__ return parent i = strop.rfind(parent_fqname, '.') # a module outside of a package has no particular import context if i == -1: return None # for a module in a package, return the package (imports refer to siblings) parent_fqname = parent_fqname[:i] parent = sys.modules[parent_fqname] assert parent.__name__ == parent_fqname return parent def _import_top_module(self, parent, name): """Locate the top of the import tree (relative or absolute). parent defines the context in which the import should occur. See _determine_import_context() for details. Returns a tuple (module, tail). module is the loaded (top-level) module, or None if the module is not found. tail is the remaining portion of the dotted name. """ i = strop.find(name, '.') if i == -1: head = name tail = "" else: head = name[:i] tail = name[i+1:] if parent: fqname = "%s.%s" % (parent.__name__, head) else: fqname = head module = self._import_one(parent, head, fqname) if module: # the module was relative, or no context existed (the module was # simply found on the path). return module, tail if parent: # we tried relative, now try an absolute import (from the path) module = self._import_one(None, head, head) if module: return module, tail # the module wasn't found return None, None def _import_one(self, parent, modname, fqname): "Import a single module." # has the module already been imported? try: return sys.modules[fqname] except KeyError: pass # load the module's code, or fetch the module itself result = self.get_code(parent, modname, fqname) if result is None: return None # did get_code() return an actual module? (rather than a code object) is_module = type(result[1]) is type(sys) # use the returned module, or create a new one to exec code into if is_module: module = result[1] else: module = imp.new_module(fqname) ### record packages a bit differently?? module.__importer__ = self module.__ispkg__ = result[0] # if present, the third item is a set of values to insert into the module if len(result) > 2: module.__dict__.update(result[2]) # the module is almost ready... make it visible sys.modules[fqname] = module # execute the code within the module's namespace if not is_module: exec result[1] in module.__dict__ # insert the module into its parent if parent: setattr(parent, modname, module) return module def _load_tail(self, m, tail): """Import the rest of the modules, down from the top-level module. Returns the last module in the dotted list of modules. """ if tail: for part in strop.splitfields(tail, '.'): fqname = "%s.%s" % (m.__name__, part) m = self._import_one(m, part, fqname) if not m: raise ImportError, "No module named " + fqname return m def _import_fromlist(self, package, fromlist): 'Import any sub-modules in the "from" list.' # if '*' is present in the fromlist, then look for the '__all__' variable # to find additional items (modules) to import. if '*' in fromlist: fromlist = list(fromlist) + list(package.__dict__.get('__all__', [])) for sub in fromlist: # if the name is already present, then don't try to import it (it # might not be a module!). if sub != '*' and not hasattr(package, sub): subname = "%s.%s" % (package.__name__, sub) submod = self._import_one(package, sub, subname) if not submod: raise ImportError, "cannot import name " + subname def _is_package(self, module_dict): """Determine if a given module (dictionary) specifies a package. The package status is in the module-level name __ispkg__. The module must also have been imported by self, so that we can reliably apply semantic meaning to __ispkg__. ### weaken the test to issubclass(Importer)? """ return module_dict.get('__importer__', None) is self and \ module_dict['__ispkg__'] ###################################################################### # # METHODS TO OVERRIDE # def get_code(self, parent, modname, fqname): """Find and retrieve the code for the given module. parent specifies a parent module to define a context for importing. It may be None, indicating no particular context for the search. modname specifies a single module (not dotted) within the parent. fqname specifies the fully-qualified module name. This is a (potentially) dotted name from the "root" of the module namespace down to the modname. If there is no parent, then modname==fqname. This method should return None, a 2-tuple, or a 3-tuple. * If the module was not found, then None should be returned. * The first item of the 2- or 3-tuple should be the integer 0 or 1, specifying whether the module that was found is a package or not. * The second item is the code object for the module (it will be executed within the new module's namespace). This item can also be a fully-loaded module object (e.g. loaded from a shared lib). * If present, the third item is a dictionary of name/value pairs that will be inserted into new module before the code object is executed. This provided in case the module's code expects certain values (such as where the module was found). When the second item is a module object, then these names/values will be inserted *after* the module has been loaded/initialized. """ raise RuntimeError, "get_code not implemented" ###################################################################### # # Some handy stuff for the Importers # # byte-compiled file suffic character _suffix_char = __debug__ and 'c' or 'o' # byte-compiled file suffix _suffix = '.py' + _suffix_char # the C_EXTENSION suffixes _c_suffixes = filter(lambda x: x[2] == imp.C_EXTENSION, imp.get_suffixes()) def _compile(pathname, timestamp): """Compile (and cache) a Python source file. The file specified by is compiled to a code object and returned. Presuming the appropriate privileges exist, the bytecodes will be saved back to the filesystem for future imports. The source file's modification timestamp must be provided as a Long value. """ codestring = open(pathname, 'r').read() if codestring and codestring[-1] != '\n': codestring = codestring + '\n' code = __builtin__.compile(codestring, pathname, 'exec') # try to cache the compiled code try: f = open(pathname + _suffix_char, 'wb') except IOError: pass else: f.write('\0\0\0\0') f.write(struct.pack(' ':': a = a + ':' return a + b else: raise ImportError, 'no os specific module found' if join is None: def join(a, b, sep=sep): if a == '': return b lastchar = a[-1:] if lastchar == '/' or lastchar == sep: return a + b return a + sep + b global _os_stat _os_stat = stat global _os_path_join _os_path_join = join def _os_path_isdir(pathname): "Local replacement for os.path.isdir()." try: s = _os_stat(pathname) except OSError: return None return (s[0] & 0170000) == 0040000 def _timestamp(pathname): "Return the file modification time as a Long." try: s = _os_stat(pathname) except OSError: return None return long(s[8]) def _fs_import(dir, modname, fqname): "Fetch a module from the filesystem." pathname = _os_path_join(dir, modname) if _os_path_isdir(pathname): values = { '__pkgdir__' : pathname, '__path__' : [ pathname ] } ispkg = 1 pathname = _os_path_join(pathname, '__init__') else: values = { } ispkg = 0 # look for dynload modules for desc in _c_suffixes: file = pathname + desc[0] try: fp = open(file, desc[1]) except IOError: pass else: module = imp.load_module(fqname, fp, file, desc) values['__file__'] = file return 0, module, values t_py = _timestamp(pathname + '.py') t_pyc = _timestamp(pathname + _suffix) if t_py is None and t_pyc is None: return None code = None if t_py is None or (t_pyc is not None and t_pyc >= t_py): file = pathname + _suffix f = open(file, 'rb') if f.read(4) == imp.get_magic(): t = struct.unpack('., where can be located using a subclass-specific mechanism and the is found in the archive using a subclass-specific mechanism. This class defines two hooks for subclasses: one to locate an archive (and possibly return some context for future subfile lookups), and one to locate subfiles. """ def get_code(self, parent, modname, fqname): if parent: # the Importer._finish_import logic ensures that we handle imports # under the top level module (package / archive). assert parent.__importer__ == self # if a parent "package" is provided, then we are importing a sub-file # from the archive. result = self.get_subfile(parent.__archive__, modname) if result is None: return None if type(result) == type(()): return (0,) + result return 0, result # no parent was provided, so the archive should exist somewhere on the # default "path". archive = self.get_archive(modname) if archive is None: return None return 1, "", {'__archive__':archive} def get_archive(self, modname): """Get an archive of modules. This method should locate an archive and return a value which can be used by get_subfile to load modules from it. The value may be a simple pathname, an open file, or a complex object that caches information for future imports. Return None if the archive was not found. """ raise RuntimeError, "get_archive not implemented" def get_subfile(self, archive, modname): """Get code from a subfile in the specified archive. Given the specified archive (as returned by get_archive()), locate and return a code object for the specified module name. A 2-tuple may be returned, consisting of a code object and a dict of name/values to place into the target module. Return None if the subfile was not found. """ raise RuntimeError, "get_subfile not implemented" class PackageArchive(PackageArchiveImporter): "PackageArchiveImporter subclass that refers to a specific archive." def __init__(self, modname, archive_pathname): self.__modname = modname self.__path = archive_pathname def get_archive(self, modname): if modname == self.__modname: return self.__path return None # get_subfile is passed the full pathname of the archive ###################################################################### # # Emulate the standard directory-based import mechanism # class DirectoryImporter(Importer): "Importer subclass to emulate the standard importer." def __init__(self, dir): self.dir = dir def get_code(self, parent, modname, fqname): if parent: dir = parent.__pkgdir__ else: dir = self.dir # defer the loading of OS-related facilities if not _os_stat: _os_bootstrap() # Return the module (and other info) if found in the specified # directory. Otherwise, return None. return _fs_import(dir, modname, fqname) def __repr__(self): return '<%s.%s for "%s" at 0x%x>' % (self.__class__.__module__, self.__class__.__name__, self.dir, id(self)) ###################################################################### # # Emulate the standard path-style import mechanism # class PathImporter(Importer): def __init__(self, path=sys.path): self.path = path # we're definitely going to be importing something in the future, # so let's just load the OS-related facilities. if not _os_stat: _os_bootstrap() def get_code(self, parent, modname, fqname): if parent: # we are looking for a module inside of a specific package return _fs_import(parent.__pkgdir__, modname, fqname) # scan sys.path, looking for the requested module for dir in self.path: result = _fs_import(dir, modname, fqname) if result: return result # not found return None ###################################################################### # # Emulate the import mechanism for builtin and frozen modules # class BuiltinImporter(Importer): def get_code(self, parent, modname, fqname): if parent: # these modules definitely do not occur within a package context return None # look for the module if imp.is_builtin(modname): type = imp.C_BUILTIN elif imp.is_frozen(modname): type = imp.PY_FROZEN else: # not found return None # got it. now load and return it. module = imp.load_module(modname, None, modname, ('', '', type)) return 0, module, { } ###################################################################### def _test_dir(): "Debug/test function to create DirectoryImporters from sys.path." path = sys.path[:] path.reverse() for d in path: DirectoryImporter(d).install() def _test_revamp(): "Debug/test function for the revamped import system." PathImporter().install() BuiltinImporter().install() def _print_importers(): items = sys.modules.items() items.sort() for name, module in items: if module: print name, module.__dict__.get('__importer__', '-- no importer') else: print name, '-- non-existent module' ######################################################################