Lib/modulefinder.py - platform/external/python/cpython3 - Gitiles

 """Find modules used by a script, using introspection."""

 from __future__ import generators
 import dis
 import imp
 import marshal
 import os
 import sys
 import types
 import struct

 READ_MODE = "rU"

 # XXX Clean up once str8's cstor matches bytes.
 LOAD_CONST = bytes([dis.opname.index('LOAD_CONST')])
 IMPORT_NAME = bytes([dis.opname.index('IMPORT_NAME')])
 STORE_NAME = bytes([dis.opname.index('STORE_NAME')])
 STORE_GLOBAL = bytes([dis.opname.index('STORE_GLOBAL')])
 STORE_OPS = [STORE_NAME, STORE_GLOBAL]
 HAVE_ARGUMENT = bytes([dis.HAVE_ARGUMENT])

 # Modulefinder does a good job at simulating Python's, but it can not
 # handle __path__ modifications packages make at runtime.  Therefore there
 # is a mechanism whereby you can register extra paths in this map for a
 # package, and it will be honored.

 # Note this is a mapping is lists of paths.
 packagePathMap = {}

 # A Public interface
 def AddPackagePath(packagename, path):
     paths = packagePathMap.get(packagename, [])
     paths.append(path)
     packagePathMap[packagename] = paths

 replacePackageMap = {}

 # This ReplacePackage mechanism allows modulefinder to work around the
 # way the _xmlplus package injects itself under the name "xml" into
 # sys.modules at runtime by calling ReplacePackage("_xmlplus", "xml")
 # before running ModuleFinder.

 def ReplacePackage(oldname, newname):
     replacePackageMap[oldname] = newname


 class Module:

     def __init__(self, name, file=None, path=None):
         self.__name__ = name
         self.__file__ = file
         self.__path__ = path
         self.__code__ = None
         # The set of global names that are assigned to in the module.
         # This includes those names imported through starimports of
         # Python modules.
         self.globalnames = {}
         # The set of starimports this module did that could not be
         # resolved, ie. a starimport from a non-Python module.
         self.starimports = {}

     def __repr__(self):
         s = "Module(%r" % (self.__name__,)
         if self.__file__ is not None:
             s = s + ", %r" % (self.__file__,)
         if self.__path__ is not None:
             s = s + ", %r" % (self.__path__,)
         s = s + ")"
         return s

 class ModuleFinder:

     def __init__(self, path=None, debug=0, excludes=[], replace_paths=[]):
         if path is None:
             path = sys.path
         self.path = path
         self.modules = {}
         self.badmodules = {}
         self.debug = debug
         self.indent = 0
         self.excludes = excludes
         self.replace_paths = replace_paths
         self.processed_paths = []   # Used in debugging only

     def msg(self, level, str, *args):
         if level <= self.debug:
             for i in range(self.indent):
                 print("   ", end=' ')
             print(str, end=' ')
             for arg in args:
                 print(repr(arg), end=' ')
             print()

     def msgin(self, *args):
         level = args[0]
         if level <= self.debug:
             self.indent = self.indent + 1
             self.msg(*args)

     def msgout(self, *args):
         level = args[0]
         if level <= self.debug:
             self.indent = self.indent - 1
             self.msg(*args)

     def run_script(self, pathname):
         self.msg(2, "run_script", pathname)
         with open(pathname, READ_MODE) as fp:
             stuff = ("", "r", imp.PY_SOURCE)
             self.load_module('__main__', fp, pathname, stuff)

     def load_file(self, pathname):
         dir, name = os.path.split(pathname)
         name, ext = os.path.splitext(name)
         with open(pathname, READ_MODE) as fp:
             stuff = (ext, "r", imp.PY_SOURCE)
             self.load_module(name, fp, pathname, stuff)

     def import_hook(self, name, caller=None, fromlist=None, level=-1):
         self.msg(3, "import_hook", name, caller, fromlist, level)
         parent = self.determine_parent(caller, level=level)
         q, tail = self.find_head_package(parent, name)
         m = self.load_tail(q, tail)
         if not fromlist:
             return q
         if m.__path__:
             self.ensure_fromlist(m, fromlist)
         return None

     def determine_parent(self, caller, level=-1):
         self.msgin(4, "determine_parent", caller, level)
         if not caller or level == 0:
             self.msgout(4, "determine_parent -> None")
             return None
         pname = caller.__name__
         if level >= 1: # relative import
             if caller.__path__:
                 level -= 1
             if level == 0:
                 parent = self.modules[pname]
                 assert parent is caller
                 self.msgout(4, "determine_parent ->", parent)
                 return parent
             if pname.count(".") < level:
                 raise ImportError("relative importpath too deep")
             pname = ".".join(pname.split(".")[:-level])
             parent = self.modules[pname]
             self.msgout(4, "determine_parent ->", parent)
             return parent
         if caller.__path__:
             parent = self.modules[pname]
             assert caller is parent
             self.msgout(4, "determine_parent ->", parent)
             return parent
         if '.' in pname:
             i = pname.rfind('.')
             pname = pname[:i]
             parent = self.modules[pname]
             assert parent.__name__ == pname
             self.msgout(4, "determine_parent ->", parent)
             return parent
         self.msgout(4, "determine_parent -> None")
         return None

     def find_head_package(self, parent, name):
         self.msgin(4, "find_head_package", parent, name)
         if '.' in name:
             i = name.find('.')
             head = name[:i]
             tail = name[i+1:]
         else:
             head = name
             tail = ""
         if parent:
             qname = "%s.%s" % (parent.__name__, head)
         else:
             qname = head
         q = self.import_module(head, qname, parent)
         if q:
             self.msgout(4, "find_head_package ->", (q, tail))
             return q, tail
         if parent:
             qname = head
             parent = None
             q = self.import_module(head, qname, parent)
             if q:
                 self.msgout(4, "find_head_package ->", (q, tail))
                 return q, tail
         self.msgout(4, "raise ImportError: No module named", qname)
         raise ImportError("No module named " + qname)

     def load_tail(self, q, tail):
         self.msgin(4, "load_tail", q, tail)
         m = q
         while tail:
             i = tail.find('.')
             if i < 0: i = len(tail)
             head, tail = tail[:i], tail[i+1:]
             mname = "%s.%s" % (m.__name__, head)
             m = self.import_module(head, mname, m)
             if not m:
                 self.msgout(4, "raise ImportError: No module named", mname)
                 raise ImportError("No module named " + mname)
         self.msgout(4, "load_tail ->", m)
         return m

     def ensure_fromlist(self, m, fromlist, recursive=0):
         self.msg(4, "ensure_fromlist", m, fromlist, recursive)
         for sub in fromlist:
             if sub == "*":
                 if not recursive:
                     all = self.find_all_submodules(m)
                     if all:
                         self.ensure_fromlist(m, all, 1)
             elif not hasattr(m, sub):
                 subname = "%s.%s" % (m.__name__, sub)
                 submod = self.import_module(sub, subname, m)
                 if not submod:
                     raise ImportError("No module named " + subname)

     def find_all_submodules(self, m):
         if not m.__path__:
             return
         modules = {}
         # 'suffixes' used to be a list hardcoded to [".py", ".pyc", ".pyo"].
         # But we must also collect Python extension modules - although
         # we cannot separate normal dlls from Python extensions.
         suffixes = []
         for triple in imp.get_suffixes():
             suffixes.append(triple[0])
         for dir in m.__path__:
             try:
                 names = os.listdir(dir)
             except os.error:
                 self.msg(2, "can't list directory", dir)
                 continue
             for name in names:
                 mod = None
                 for suff in suffixes:
                     n = len(suff)
                     if name[-n:] == suff:
                         mod = name[:-n]
                         break
                 if mod and mod != "__init__":
                     modules[mod] = mod
         return modules.keys()

     def import_module(self, partname, fqname, parent):
         self.msgin(3, "import_module", partname, fqname, parent)
         try:
             m = self.modules[fqname]
         except KeyError:
             pass
         else:
             self.msgout(3, "import_module ->", m)
             return m
         if fqname in self.badmodules:
             self.msgout(3, "import_module -> None")
             return None
         if parent and parent.__path__ is None:
             self.msgout(3, "import_module -> None")
             return None
         try:
             fp, pathname, stuff = self.find_module(partname,
                                                    parent and parent.__path__, parent)
         except ImportError:
             self.msgout(3, "import_module ->", None)
             return None
         try:
             m = self.load_module(fqname, fp, pathname, stuff)
         finally:
             if fp: fp.close()
         if parent:
             setattr(parent, partname, m)
         self.msgout(3, "import_module ->", m)
         return m

     def load_module(self, fqname, fp, pathname, file_info):
         suffix, mode, type = file_info
         self.msgin(2, "load_module", fqname, fp and "fp", pathname)
         if type == imp.PKG_DIRECTORY:
             m = self.load_package(fqname, pathname)
             self.msgout(2, "load_module ->", m)
             return m
         if type == imp.PY_SOURCE:
             co = compile(fp.read()+'\n', pathname, 'exec')
         elif type == imp.PY_COMPILED:
             if fp.read(4) != imp.get_magic():
                 self.msgout(2, "raise ImportError: Bad magic number", pathname)
                 raise ImportError("Bad magic number in %s" % pathname)
             fp.read(4)
             co = marshal.load(fp)
         else:
             co = None
         m = self.add_module(fqname)
         m.__file__ = pathname
         if co:
             if self.replace_paths:
                 co = self.replace_paths_in_code(co)
             m.__code__ = co
             self.scan_code(co, m)
         self.msgout(2, "load_module ->", m)
         return m

     def _add_badmodule(self, name, caller):
         if name not in self.badmodules:
             self.badmodules[name] = {}
         if caller:
             self.badmodules[name][caller.__name__] = 1
         else:
             self.badmodules[name]["-"] = 1

     def _safe_import_hook(self, name, caller, fromlist, level=-1):
         # wrapper for self.import_hook() that won't raise ImportError
         if name in self.badmodules:
             self._add_badmodule(name, caller)
             return
         try:
             self.import_hook(name, caller, level=level)
         except ImportError as msg:
             self.msg(2, "ImportError:", str(msg))
             self._add_badmodule(name, caller)
         else:
             if fromlist:
                 for sub in fromlist:
                     if sub in self.badmodules:
                         self._add_badmodule(sub, caller)
                         continue
                     try:
                         self.import_hook(name, caller, [sub], level=level)
                     except ImportError as msg:
                         self.msg(2, "ImportError:", str(msg))
                         fullname = name + "." + sub
                         self._add_badmodule(fullname, caller)

     def scan_opcodes(self, co,
                      unpack = struct.unpack):
         # Scan the code, and yield 'interesting' opcode combinations
         # Version for Python 2.4 and older
         code = co.co_code
         names = co.co_names
         consts = co.co_consts
         while code:
             c = code[0]
             if c in STORE_OPS:
                 oparg, = unpack('<H', code[1:3])
                 yield "store", (names[oparg],)
                 code = code[3:]
                 continue
             if c == LOAD_CONST and code[3] == IMPORT_NAME:
                 oparg_1, oparg_2 = unpack('<xHxH', code[:6])
                 yield "import", (consts[oparg_1], names[oparg_2])
                 code = code[6:]
                 continue
             if c >= HAVE_ARGUMENT:
                 code = code[3:]
             else:
                 code = code[1:]

     def scan_opcodes_25(self, co,
                      unpack = struct.unpack):
         # Scan the code, and yield 'interesting' opcode combinations
         # Python 2.5 version (has absolute and relative imports)
         code = co.co_code
         names = co.co_names
         consts = co.co_consts
         LOAD_LOAD_AND_IMPORT = LOAD_CONST + LOAD_CONST + IMPORT_NAME
         while code:
             c = bytes([code[0]])
             if c in STORE_OPS:
                 oparg, = unpack('<H', code[1:3])
                 yield "store", (names[oparg],)
                 code = code[3:]
                 continue
             if code[:9:3] == LOAD_LOAD_AND_IMPORT:
                 oparg_1, oparg_2, oparg_3 = unpack('<xHxHxH', code[:9])
                 level = consts[oparg_1]
                 if level == 0: # absolute import
                     yield "absolute_import", (consts[oparg_2], names[oparg_3])
                 else: # relative import
                     yield "relative_import", (level, consts[oparg_2], names[oparg_3])
                 code = code[9:]
                 continue
             if c >= HAVE_ARGUMENT:
                 code = code[3:]
             else:
                 code = code[1:]

     def scan_code(self, co, m):
         code = co.co_code
         if sys.version_info >= (2, 5):
             scanner = self.scan_opcodes_25
         else:
             scanner = self.scan_opcodes
         for what, args in scanner(co):
             if what == "store":
                 name, = args
                 m.globalnames[name] = 1
             elif what == "absolute_import":
                 fromlist, name = args
                 have_star = 0
                 if fromlist is not None:
                     if "*" in fromlist:
                         have_star = 1
                     fromlist = [f for f in fromlist if f != "*"]
                 self._safe_import_hook(name, m, fromlist, level=0)
                 if have_star:
                     # We've encountered an "import *". If it is a Python module,
                     # the code has already been parsed and we can suck out the
                     # global names.
                     mm = None
                     if m.__path__:
                         # At this point we don't know whether 'name' is a
                         # submodule of 'm' or a global module. Let's just try
                         # the full name first.
                         mm = self.modules.get(m.__name__ + "." + name)
                     if mm is None:
                         mm = self.modules.get(name)
                     if mm is not None:
                         m.globalnames.update(mm.globalnames)
                         m.starimports.update(mm.starimports)
                         if mm.__code__ is None:
                             m.starimports[name] = 1
                     else:
                         m.starimports[name] = 1
             elif what == "relative_import":
                 level, fromlist, name = args
                 if name:
                     self._safe_import_hook(name, m, fromlist, level=level)
                 else:
                     parent = self.determine_parent(m, level=level)
                     self._safe_import_hook(parent.__name__, None, fromlist, level=0)
             else:
                 # We don't expect anything else from the generator.
                 raise RuntimeError(what)

         for c in co.co_consts:
             if isinstance(c, type(co)):
                 self.scan_code(c, m)

     def load_package(self, fqname, pathname):
         self.msgin(2, "load_package", fqname, pathname)
         newname = replacePackageMap.get(fqname)
         if newname:
             fqname = newname
         m = self.add_module(fqname)
         m.__file__ = pathname
         m.__path__ = [pathname]

         # As per comment at top of file, simulate runtime __path__ additions.
         m.__path__ = m.__path__ + packagePathMap.get(fqname, [])

         fp, buf, stuff = self.find_module("__init__", m.__path__)
         try:
             self.load_module(fqname, fp, buf, stuff)
             self.msgout(2, "load_package ->", m)
             return m
         finally:
             if fp:
                 fp.close()

     def add_module(self, fqname):
         if fqname in self.modules:
             return self.modules[fqname]
         self.modules[fqname] = m = Module(fqname)
         return m

     def find_module(self, name, path, parent=None):
         if parent is not None:
             # assert path is not None
             fullname = parent.__name__+'.'+name
         else:
             fullname = name
         if fullname in self.excludes:
             self.msgout(3, "find_module -> Excluded", fullname)
             raise ImportError(name)

         if path is None:
             if name in sys.builtin_module_names:
                 return (None, None, ("", "", imp.C_BUILTIN))

             path = self.path
         return imp.find_module(name, path)

     def report(self):
         """Print a report to stdout, listing the found modules with their
         paths, as well as modules that are missing, or seem to be missing.
         """
         print()
         print("  %-25s %s" % ("Name", "File"))
         print("  %-25s %s" % ("----", "----"))
         # Print modules found
         keys = sorted(self.modules.keys())
         for key in keys:
             m = self.modules[key]
             if m.__path__:
                 print("P", end=' ')
             else:
                 print("m", end=' ')
             print("%-25s" % key, m.__file__ or "")

         # Print missing modules
         missing, maybe = self.any_missing_maybe()
         if missing:
             print()
             print("Missing modules:")
             for name in missing:
                 mods = sorted(self.badmodules[name].keys())
                 print("?", name, "imported from", ', '.join(mods))
         # Print modules that may be missing, but then again, maybe not...
         if maybe:
             print()
             print("Submodules thay appear to be missing, but could also be", end=' ')
             print("global names in the parent package:")
             for name in maybe:
                 mods = sorted(self.badmodules[name].keys())
                 print("?", name, "imported from", ', '.join(mods))

     def any_missing(self):
         """Return a list of modules that appear to be missing. Use
         any_missing_maybe() if you want to know which modules are
         certain to be missing, and which *may* be missing.
         """
         missing, maybe = self.any_missing_maybe()
         return missing + maybe

     def any_missing_maybe(self):
         """Return two lists, one with modules that are certainly missing
         and one with modules that *may* be missing. The latter names could
         either be submodules *or* just global names in the package.

         The reason it can't always be determined is that it's impossible to
         tell which names are imported when "from module import *" is done
         with an extension module, short of actually importing it.
         """
         missing = []
         maybe = []
         for name in self.badmodules:
             if name in self.excludes:
                 continue
             i = name.rfind(".")
             if i < 0:
                 missing.append(name)
                 continue
             subname = name[i+1:]
             pkgname = name[:i]
             pkg = self.modules.get(pkgname)
             if pkg is not None:
                 if pkgname in self.badmodules[name]:
                     # The package tried to import this module itself and
                     # failed. It's definitely missing.
                     missing.append(name)
                 elif subname in pkg.globalnames:
                     # It's a global in the package: definitely not missing.
                     pass
                 elif pkg.starimports:
                     # It could be missing, but the package did an "import *"
                     # from a non-Python module, so we simply can't be sure.
                     maybe.append(name)
                 else:
                     # It's not a global in the package, the package didn't
                     # do funny star imports, it's very likely to be missing.
                     # The symbol could be inserted into the package from the
                     # outside, but since that's not good style we simply list
                     # it missing.
                     missing.append(name)
             else:
                 missing.append(name)
         missing.sort()
         maybe.sort()
         return missing, maybe

     def replace_paths_in_code(self, co):
         new_filename = original_filename = os.path.normpath(co.co_filename)
         for f, r in self.replace_paths:
             if original_filename.startswith(f):
                 new_filename = r + original_filename[len(f):]
                 break

         if self.debug and original_filename not in self.processed_paths:
             if new_filename != original_filename:
                 self.msgout(2, "co_filename %r changed to %r" \
                                     % (original_filename,new_filename,))
             else:
                 self.msgout(2, "co_filename %r remains unchanged" \
                                     % (original_filename,))
             self.processed_paths.append(original_filename)

         consts = list(co.co_consts)
         for i in range(len(consts)):
             if isinstance(consts[i], type(co)):
                 consts[i] = self.replace_paths_in_code(consts[i])

         return types.CodeType(co.co_argcount, co.co_nlocals, co.co_stacksize,
                          co.co_flags, co.co_code, tuple(consts), co.co_names,
                          co.co_varnames, new_filename, co.co_name,
                          co.co_firstlineno, co.co_lnotab,
                          co.co_freevars, co.co_cellvars)


 def test():
     # Parse command line
     import getopt
     try:
         opts, args = getopt.getopt(sys.argv[1:], "dmp:qx:")
     except getopt.error as msg:
         print(msg)
         return

     # Process options
     debug = 1
     domods = 0
     addpath = []
     exclude = []
     for o, a in opts:
         if o == '-d':
             debug = debug + 1
         if o == '-m':
             domods = 1
         if o == '-p':
             addpath = addpath + a.split(os.pathsep)
         if o == '-q':
             debug = 0
         if o == '-x':
             exclude.append(a)

     # Provide default arguments
     if not args:
         script = "hello.py"
     else:
         script = args[0]

     # Set the path based on sys.path and the script directory
     path = sys.path[:]
     path[0] = os.path.dirname(script)
     path = addpath + path
     if debug > 1:
         print("path:")
         for item in path:
             print("   ", repr(item))

     # Create the module finder and turn its crank
     mf = ModuleFinder(path, debug, exclude)
     for arg in args[1:]:
         if arg == '-m':
             domods = 1
             continue
         if domods:
             if arg[-2:] == '.*':
                 mf.import_hook(arg[:-2], None, ["*"])
             else:
                 mf.import_hook(arg)
         else:
             mf.load_file(arg)
     mf.run_script(script)
     mf.report()
     return mf  # for -i debugging


 if __name__ == '__main__':
     try:
         mf = test()
     except KeyboardInterrupt:
         print("\n[interrupt]")
	"""Find modules used by a script, using introspection."""

	from __future__ import generators
	import dis
	import imp
	import marshal
	import os
	import sys
	import types
	import struct

	READ_MODE = "rU"

	# XXX Clean up once str8's cstor matches bytes.
	LOAD_CONST = bytes([dis.opname.index('LOAD_CONST')])
	IMPORT_NAME = bytes([dis.opname.index('IMPORT_NAME')])
	STORE_NAME = bytes([dis.opname.index('STORE_NAME')])
	STORE_GLOBAL = bytes([dis.opname.index('STORE_GLOBAL')])
	STORE_OPS = [STORE_NAME, STORE_GLOBAL]
	HAVE_ARGUMENT = bytes([dis.HAVE_ARGUMENT])

	# Modulefinder does a good job at simulating Python's, but it can not
	# handle __path__ modifications packages make at runtime. Therefore there
	# is a mechanism whereby you can register extra paths in this map for a
	# package, and it will be honored.

	# Note this is a mapping is lists of paths.
	packagePathMap = {}

	# A Public interface
	def AddPackagePath(packagename, path):
	paths = packagePathMap.get(packagename, [])
	paths.append(path)
	packagePathMap[packagename] = paths

	replacePackageMap = {}

	# This ReplacePackage mechanism allows modulefinder to work around the
	# way the _xmlplus package injects itself under the name "xml" into
	# sys.modules at runtime by calling ReplacePackage("_xmlplus", "xml")
	# before running ModuleFinder.

	def ReplacePackage(oldname, newname):
	replacePackageMap[oldname] = newname


	class Module:

	def __init__(self, name, file=None, path=None):
	self.__name__ = name
	self.__file__ = file
	self.__path__ = path
	self.__code__ = None
	# The set of global names that are assigned to in the module.
	# This includes those names imported through starimports of
	# Python modules.
	self.globalnames = {}
	# The set of starimports this module did that could not be
	# resolved, ie. a starimport from a non-Python module.
	self.starimports = {}

	def __repr__(self):
	s = "Module(%r" % (self.__name__,)
	if self.__file__ is not None:
	s = s + ", %r" % (self.__file__,)
	if self.__path__ is not None:
	s = s + ", %r" % (self.__path__,)
	s = s + ")"
	return s

	class ModuleFinder:

	def __init__(self, path=None, debug=0, excludes=[], replace_paths=[]):
	if path is None:
	path = sys.path
	self.path = path
	self.modules = {}
	self.badmodules = {}
	self.debug = debug
	self.indent = 0
	self.excludes = excludes
	self.replace_paths = replace_paths
	self.processed_paths = [] # Used in debugging only

	def msg(self, level, str, *args):
	if level <= self.debug:
	for i in range(self.indent):
	print(" ", end=' ')
	print(str, end=' ')
	for arg in args:
	print(repr(arg), end=' ')
	print()

	def msgin(self, *args):
	level = args[0]
	if level <= self.debug:
	self.indent = self.indent + 1
	self.msg(*args)

	def msgout(self, *args):
	level = args[0]
	if level <= self.debug:
	self.indent = self.indent - 1
	self.msg(*args)

	def run_script(self, pathname):
	self.msg(2, "run_script", pathname)
	with open(pathname, READ_MODE) as fp:
	stuff = ("", "r", imp.PY_SOURCE)
	self.load_module('__main__', fp, pathname, stuff)

	def load_file(self, pathname):
	dir, name = os.path.split(pathname)
	name, ext = os.path.splitext(name)
	with open(pathname, READ_MODE) as fp:
	stuff = (ext, "r", imp.PY_SOURCE)
	self.load_module(name, fp, pathname, stuff)

	def import_hook(self, name, caller=None, fromlist=None, level=-1):
	self.msg(3, "import_hook", name, caller, fromlist, level)
	parent = self.determine_parent(caller, level=level)
	q, tail = self.find_head_package(parent, name)
	m = self.load_tail(q, tail)
	if not fromlist:
	return q
	if m.__path__:
	self.ensure_fromlist(m, fromlist)
	return None

	def determine_parent(self, caller, level=-1):
	self.msgin(4, "determine_parent", caller, level)
	if not caller or level == 0:
	self.msgout(4, "determine_parent -> None")
	return None
	pname = caller.__name__
	if level >= 1: # relative import
	if caller.__path__:
	level -= 1
	if level == 0:
	parent = self.modules[pname]
	assert parent is caller
	self.msgout(4, "determine_parent ->", parent)
	return parent
	if pname.count(".") < level:
	raise ImportError("relative importpath too deep")
	pname = ".".join(pname.split(".")[:-level])
	parent = self.modules[pname]
	self.msgout(4, "determine_parent ->", parent)
	return parent
	if caller.__path__:
	parent = self.modules[pname]
	assert caller is parent
	self.msgout(4, "determine_parent ->", parent)
	return parent
	if '.' in pname:
	i = pname.rfind('.')
	pname = pname[:i]
	parent = self.modules[pname]
	assert parent.__name__ == pname
	self.msgout(4, "determine_parent ->", parent)
	return parent
	self.msgout(4, "determine_parent -> None")
	return None

	def find_head_package(self, parent, name):
	self.msgin(4, "find_head_package", parent, name)
	if '.' in name:
	i = name.find('.')
	head = name[:i]
	tail = name[i+1:]
	else:
	head = name
	tail = ""
	if parent:
	qname = "%s.%s" % (parent.__name__, head)
	else:
	qname = head
	q = self.import_module(head, qname, parent)
	if q:
	self.msgout(4, "find_head_package ->", (q, tail))
	return q, tail
	if parent:
	qname = head
	parent = None
	q = self.import_module(head, qname, parent)
	if q:
	self.msgout(4, "find_head_package ->", (q, tail))
	return q, tail
	self.msgout(4, "raise ImportError: No module named", qname)
	raise ImportError("No module named " + qname)

	def load_tail(self, q, tail):
	self.msgin(4, "load_tail", q, tail)
	m = q
	while tail:
	i = tail.find('.')
	if i < 0: i = len(tail)
	head, tail = tail[:i], tail[i+1:]
	mname = "%s.%s" % (m.__name__, head)
	m = self.import_module(head, mname, m)
	if not m:
	self.msgout(4, "raise ImportError: No module named", mname)
	raise ImportError("No module named " + mname)
	self.msgout(4, "load_tail ->", m)
	return m

	def ensure_fromlist(self, m, fromlist, recursive=0):
	self.msg(4, "ensure_fromlist", m, fromlist, recursive)
	for sub in fromlist:
	if sub == "*":
	if not recursive:
	all = self.find_all_submodules(m)
	if all:
	self.ensure_fromlist(m, all, 1)
	elif not hasattr(m, sub):
	subname = "%s.%s" % (m.__name__, sub)
	submod = self.import_module(sub, subname, m)
	if not submod:
	raise ImportError("No module named " + subname)

	def find_all_submodules(self, m):
	if not m.__path__:
	return
	modules = {}
	# 'suffixes' used to be a list hardcoded to [".py", ".pyc", ".pyo"].
	# But we must also collect Python extension modules - although
	# we cannot separate normal dlls from Python extensions.
	suffixes = []
	for triple in imp.get_suffixes():
	suffixes.append(triple[0])
	for dir in m.__path__:
	try:
	names = os.listdir(dir)
	except os.error:
	self.msg(2, "can't list directory", dir)
	continue
	for name in names:
	mod = None
	for suff in suffixes:
	n = len(suff)
	if name[-n:] == suff:
	mod = name[:-n]
	break
	if mod and mod != "__init__":
	modules[mod] = mod
	return modules.keys()

	def import_module(self, partname, fqname, parent):
	self.msgin(3, "import_module", partname, fqname, parent)
	try:
	m = self.modules[fqname]
	except KeyError:
	pass
	else:
	self.msgout(3, "import_module ->", m)
	return m
	if fqname in self.badmodules:
	self.msgout(3, "import_module -> None")
	return None
	if parent and parent.__path__ is None:
	self.msgout(3, "import_module -> None")
	return None
	try:
	fp, pathname, stuff = self.find_module(partname,
	parent and parent.__path__, parent)
	except ImportError:
	self.msgout(3, "import_module ->", None)
	return None
	try:
	m = self.load_module(fqname, fp, pathname, stuff)
	finally:
	if fp: fp.close()
	if parent:
	setattr(parent, partname, m)
	self.msgout(3, "import_module ->", m)
	return m

	def load_module(self, fqname, fp, pathname, file_info):
	suffix, mode, type = file_info
	self.msgin(2, "load_module", fqname, fp and "fp", pathname)
	if type == imp.PKG_DIRECTORY:
	m = self.load_package(fqname, pathname)
	self.msgout(2, "load_module ->", m)
	return m
	if type == imp.PY_SOURCE:
	co = compile(fp.read()+'\n', pathname, 'exec')
	elif type == imp.PY_COMPILED:
	if fp.read(4) != imp.get_magic():
	self.msgout(2, "raise ImportError: Bad magic number", pathname)
	raise ImportError("Bad magic number in %s" % pathname)
	fp.read(4)
	co = marshal.load(fp)
	else:
	co = None
	m = self.add_module(fqname)
	m.__file__ = pathname
	if co:
	if self.replace_paths:
	co = self.replace_paths_in_code(co)
	m.__code__ = co
	self.scan_code(co, m)
	self.msgout(2, "load_module ->", m)
	return m

	def _add_badmodule(self, name, caller):
	if name not in self.badmodules:
	self.badmodules[name] = {}
	if caller:
	self.badmodules[name][caller.__name__] = 1
	else:
	self.badmodules[name]["-"] = 1

	def _safe_import_hook(self, name, caller, fromlist, level=-1):
	# wrapper for self.import_hook() that won't raise ImportError
	if name in self.badmodules:
	self._add_badmodule(name, caller)
	return
	try:
	self.import_hook(name, caller, level=level)
	except ImportError as msg:
	self.msg(2, "ImportError:", str(msg))
	self._add_badmodule(name, caller)
	else:
	if fromlist:
	for sub in fromlist:
	if sub in self.badmodules:
	self._add_badmodule(sub, caller)
	continue
	try:
	self.import_hook(name, caller, [sub], level=level)
	except ImportError as msg:
	self.msg(2, "ImportError:", str(msg))
	fullname = name + "." + sub
	self._add_badmodule(fullname, caller)

	def scan_opcodes(self, co,
	unpack = struct.unpack):
	# Scan the code, and yield 'interesting' opcode combinations
	# Version for Python 2.4 and older
	code = co.co_code
	names = co.co_names
	consts = co.co_consts
	while code:
	c = code[0]
	if c in STORE_OPS:
	oparg, = unpack('<H', code[1:3])
	yield "store", (names[oparg],)
	code = code[3:]
	continue
	if c == LOAD_CONST and code[3] == IMPORT_NAME:
	oparg_1, oparg_2 = unpack('<xHxH', code[:6])
	yield "import", (consts[oparg_1], names[oparg_2])
	code = code[6:]
	continue
	if c >= HAVE_ARGUMENT:
	code = code[3:]
	else:
	code = code[1:]

	def scan_opcodes_25(self, co,
	unpack = struct.unpack):
	# Scan the code, and yield 'interesting' opcode combinations
	# Python 2.5 version (has absolute and relative imports)
	code = co.co_code
	names = co.co_names
	consts = co.co_consts
	LOAD_LOAD_AND_IMPORT = LOAD_CONST + LOAD_CONST + IMPORT_NAME
	while code:
	c = bytes([code[0]])
	if c in STORE_OPS:
	oparg, = unpack('<H', code[1:3])
	yield "store", (names[oparg],)
	code = code[3:]
	continue
	if code[:9:3] == LOAD_LOAD_AND_IMPORT:
	oparg_1, oparg_2, oparg_3 = unpack('<xHxHxH', code[:9])
	level = consts[oparg_1]
	if level == 0: # absolute import
	yield "absolute_import", (consts[oparg_2], names[oparg_3])
	else: # relative import
	yield "relative_import", (level, consts[oparg_2], names[oparg_3])
	code = code[9:]
	continue
	if c >= HAVE_ARGUMENT:
	code = code[3:]
	else:
	code = code[1:]

	def scan_code(self, co, m):
	code = co.co_code
	if sys.version_info >= (2, 5):
	scanner = self.scan_opcodes_25
	else:
	scanner = self.scan_opcodes
	for what, args in scanner(co):
	if what == "store":
	name, = args
	m.globalnames[name] = 1
	elif what == "absolute_import":
	fromlist, name = args
	have_star = 0
	if fromlist is not None:
	if "*" in fromlist:
	have_star = 1
	fromlist = [f for f in fromlist if f != "*"]
	self._safe_import_hook(name, m, fromlist, level=0)
	if have_star:
	# We've encountered an "import *". If it is a Python module,
	# the code has already been parsed and we can suck out the
	# global names.
	mm = None
	if m.__path__:
	# At this point we don't know whether 'name' is a
	# submodule of 'm' or a global module. Let's just try
	# the full name first.
	mm = self.modules.get(m.__name__ + "." + name)
	if mm is None:
	mm = self.modules.get(name)
	if mm is not None:
	m.globalnames.update(mm.globalnames)
	m.starimports.update(mm.starimports)
	if mm.__code__ is None:
	m.starimports[name] = 1
	else:
	m.starimports[name] = 1
	elif what == "relative_import":
	level, fromlist, name = args
	if name:
	self._safe_import_hook(name, m, fromlist, level=level)
	else:
	parent = self.determine_parent(m, level=level)
	self._safe_import_hook(parent.__name__, None, fromlist, level=0)
	else:
	# We don't expect anything else from the generator.
	raise RuntimeError(what)

	for c in co.co_consts:
	if isinstance(c, type(co)):
	self.scan_code(c, m)

	def load_package(self, fqname, pathname):
	self.msgin(2, "load_package", fqname, pathname)
	newname = replacePackageMap.get(fqname)
	if newname:
	fqname = newname
	m = self.add_module(fqname)
	m.__file__ = pathname
	m.__path__ = [pathname]

	# As per comment at top of file, simulate runtime __path__ additions.
	m.__path__ = m.__path__ + packagePathMap.get(fqname, [])

	fp, buf, stuff = self.find_module("__init__", m.__path__)
	try:
	self.load_module(fqname, fp, buf, stuff)
	self.msgout(2, "load_package ->", m)
	return m
	finally:
	if fp:
	fp.close()

	def add_module(self, fqname):
	if fqname in self.modules:
	return self.modules[fqname]
	self.modules[fqname] = m = Module(fqname)
	return m

	def find_module(self, name, path, parent=None):
	if parent is not None:
	# assert path is not None
	fullname = parent.__name__+'.'+name
	else:
	fullname = name
	if fullname in self.excludes:
	self.msgout(3, "find_module -> Excluded", fullname)
	raise ImportError(name)

	if path is None:
	if name in sys.builtin_module_names:
	return (None, None, ("", "", imp.C_BUILTIN))

	path = self.path
	return imp.find_module(name, path)

	def report(self):
	"""Print a report to stdout, listing the found modules with their
	paths, as well as modules that are missing, or seem to be missing.
	"""
	print()
	print(" %-25s %s" % ("Name", "File"))
	print(" %-25s %s" % ("----", "----"))
	# Print modules found
	keys = sorted(self.modules.keys())
	for key in keys:
	m = self.modules[key]
	if m.__path__:
	print("P", end=' ')
	else:
	print("m", end=' ')
	print("%-25s" % key, m.__file__ or "")

	# Print missing modules
	missing, maybe = self.any_missing_maybe()
	if missing:
	print()
	print("Missing modules:")
	for name in missing:
	mods = sorted(self.badmodules[name].keys())
	print("?", name, "imported from", ', '.join(mods))
	# Print modules that may be missing, but then again, maybe not...
	if maybe:
	print()
	print("Submodules thay appear to be missing, but could also be", end=' ')
	print("global names in the parent package:")
	for name in maybe:
	mods = sorted(self.badmodules[name].keys())
	print("?", name, "imported from", ', '.join(mods))

	def any_missing(self):
	"""Return a list of modules that appear to be missing. Use
	any_missing_maybe() if you want to know which modules are
	certain to be missing, and which may be missing.
	"""
	missing, maybe = self.any_missing_maybe()
	return missing + maybe

	def any_missing_maybe(self):
	"""Return two lists, one with modules that are certainly missing
	and one with modules that may be missing. The latter names could
	either be submodules or just global names in the package.

	The reason it can't always be determined is that it's impossible to
	tell which names are imported when "from module import *" is done
	with an extension module, short of actually importing it.
	"""
	missing = []
	maybe = []
	for name in self.badmodules:
	if name in self.excludes:
	continue
	i = name.rfind(".")
	if i < 0:
	missing.append(name)
	continue
	subname = name[i+1:]
	pkgname = name[:i]
	pkg = self.modules.get(pkgname)
	if pkg is not None:
	if pkgname in self.badmodules[name]:
	# The package tried to import this module itself and
	# failed. It's definitely missing.
	missing.append(name)
	elif subname in pkg.globalnames:
	# It's a global in the package: definitely not missing.
	pass
	elif pkg.starimports:
	# It could be missing, but the package did an "import *"
	# from a non-Python module, so we simply can't be sure.
	maybe.append(name)
	else:
	# It's not a global in the package, the package didn't
	# do funny star imports, it's very likely to be missing.
	# The symbol could be inserted into the package from the
	# outside, but since that's not good style we simply list
	# it missing.
	missing.append(name)
	else:
	missing.append(name)
	missing.sort()
	maybe.sort()
	return missing, maybe

	def replace_paths_in_code(self, co):
	new_filename = original_filename = os.path.normpath(co.co_filename)
	for f, r in self.replace_paths:
	if original_filename.startswith(f):
	new_filename = r + original_filename[len(f):]
	break

	if self.debug and original_filename not in self.processed_paths:
	if new_filename != original_filename:
	self.msgout(2, "co_filename %r changed to %r" \
	% (original_filename,new_filename,))
	else:
	self.msgout(2, "co_filename %r remains unchanged" \
	% (original_filename,))
	self.processed_paths.append(original_filename)

	consts = list(co.co_consts)
	for i in range(len(consts)):
	if isinstance(consts[i], type(co)):
	consts[i] = self.replace_paths_in_code(consts[i])

	return types.CodeType(co.co_argcount, co.co_nlocals, co.co_stacksize,
	co.co_flags, co.co_code, tuple(consts), co.co_names,
	co.co_varnames, new_filename, co.co_name,
	co.co_firstlineno, co.co_lnotab,
	co.co_freevars, co.co_cellvars)


	def test():
	# Parse command line
	import getopt
	try:
	opts, args = getopt.getopt(sys.argv[1:], "dmp:qx:")
	except getopt.error as msg:
	print(msg)
	return

	# Process options
	debug = 1
	domods = 0
	addpath = []
	exclude = []
	for o, a in opts:
	if o == '-d':
	debug = debug + 1
	if o == '-m':
	domods = 1
	if o == '-p':
	addpath = addpath + a.split(os.pathsep)
	if o == '-q':
	debug = 0
	if o == '-x':
	exclude.append(a)

	# Provide default arguments
	if not args:
	script = "hello.py"
	else:
	script = args[0]

	# Set the path based on sys.path and the script directory
	path = sys.path[:]
	path[0] = os.path.dirname(script)
	path = addpath + path
	if debug > 1:
	print("path:")
	for item in path:
	print(" ", repr(item))

	# Create the module finder and turn its crank
	mf = ModuleFinder(path, debug, exclude)
	for arg in args[1:]:
	if arg == '-m':
	domods = 1
	continue
	if domods:
	if arg[-2:] == '.*':
	mf.import_hook(arg[:-2], None, ["*"])
	else:
	mf.import_hook(arg)
	else:
	mf.load_file(arg)
	mf.run_script(script)
	mf.report()
	return mf # for -i debugging


	if __name__ == '__main__':
	try:
	mf = test()
	except KeyboardInterrupt:
	print("\n[interrupt]")