Vehicle-Anti-Theft-Face-Recognition-System/venv/Lib/site-packages/win32com/client/gencache.py

"""Manages the cache of generated Python code.

Description
  This file manages the cache of generated Python code.  When run from the 
  command line, it also provides a number of options for managing that cache.
  
Implementation
  Each typelib is generated into a filename of format "{guid}x{lcid}x{major}x{minor}.py"
  
  An external persistant dictionary maps from all known IIDs in all known type libraries
  to the type library itself.
  
  Thus, whenever Python code knows the IID of an object, it can find the IID, LCID and version of
  the type library which supports it.  Given this information, it can find the Python module
  with the support.
  
  If necessary, this support can be generated on the fly.
  
Hacks, to do, etc
  Currently just uses a pickled dictionary, but should used some sort of indexed file.
  Maybe an OLE2 compound file, or a bsddb file?
"""
import pywintypes, os, sys
import pythoncom
import win32com, win32com.client
import glob
import traceback
from . import CLSIDToClass
import operator
try:
	from imp import reload # exported by the imp module in py3k.
except:
	pass # a builtin on py2k.

bForDemandDefault = 0 # Default value of bForDemand - toggle this to change the world - see also makepy.py

# The global dictionary
clsidToTypelib = {}

# If we have a different version of the typelib generated, this
# maps the "requested version" to the "generated version".
versionRedirectMap = {}

# There is no reason we *must* be readonly in a .zip, but we are now,
# Rather than check for ".zip" or other tricks, PEP302 defines
# a "__loader__" attribute, so we use that.
# (Later, it may become necessary to check if the __loader__ can update files,
# as a .zip loader potentially could - but punt all that until a need arises)
is_readonly = is_zip = hasattr(win32com, "__loader__") and hasattr(win32com.__loader__, "archive")

# A dictionary of ITypeLibrary objects for demand generation explicitly handed to us
# Keyed by usual clsid, lcid, major, minor
demandGeneratedTypeLibraries = {}

import pickle as pickle

def __init__():
	# Initialize the module.  Called once explicitly at module import below.
	try:
		_LoadDicts()
	except IOError:
		Rebuild()

pickleVersion = 1
def _SaveDicts():
	if is_readonly:
		raise RuntimeError("Trying to write to a readonly gencache ('%s')!" \
		                    % win32com.__gen_path__)
	f = open(os.path.join(GetGeneratePath(), "dicts.dat"), "wb")
	try:
		p = pickle.Pickler(f)
		p.dump(pickleVersion)
		p.dump(clsidToTypelib)
	finally:
		f.close()

def _LoadDicts():
	# Load the dictionary from a .zip file if that is where we live.
	if is_zip:
		import io as io
		loader = win32com.__loader__
		arc_path = loader.archive
		dicts_path = os.path.join(win32com.__gen_path__, "dicts.dat")
		if dicts_path.startswith(arc_path):
			dicts_path = dicts_path[len(arc_path)+1:]
		else:
			# Hm. See below.
			return
		try:
			data = loader.get_data(dicts_path)
		except AttributeError:
			# The __loader__ has no get_data method.  See below.
			return
		except IOError:
			# Our gencache is in a .zip file (and almost certainly readonly)
			# but no dicts file.  That actually needn't be fatal for a frozen
			# application.  Assuming they call "EnsureModule" with the same
			# typelib IDs they have been frozen with, that EnsureModule will
			# correctly re-build the dicts on the fly.  However, objects that
			# rely on the gencache but have not done an EnsureModule will
			# fail (but their apps are likely to fail running from source
			# with a clean gencache anyway, as then they would be getting
			# Dynamic objects until the cache is built - so the best answer
			# for these apps is to call EnsureModule, rather than freezing
			# the dict)
			return
		f = io.BytesIO(data)
	else:
		# NOTE: IOError on file open must be caught by caller.
		f = open(os.path.join(win32com.__gen_path__, "dicts.dat"), "rb")
	try:
		p = pickle.Unpickler(f)
		version = p.load()
		global clsidToTypelib
		clsidToTypelib = p.load()
		versionRedirectMap.clear()
	finally:
		f.close()

def GetGeneratedFileName(clsid, lcid, major, minor):
	"""Given the clsid, lcid, major and  minor for a type lib, return
	the file name (no extension) providing this support.
	"""
	return str(clsid).upper()[1:-1] + "x%sx%sx%s" % (lcid, major, minor)

def SplitGeneratedFileName(fname):
	"""Reverse of GetGeneratedFileName()
	"""
	return tuple(fname.split('x',4))
	
def GetGeneratePath():
	"""Returns the name of the path to generate to.
	Checks the directory is OK.
	"""
	assert not is_readonly, "Why do you want the genpath for a readonly store?"
	try:
		os.makedirs(win32com.__gen_path__)
		#os.mkdir(win32com.__gen_path__)
	except os.error:
		pass
	try:
		fname = os.path.join(win32com.__gen_path__, "__init__.py")
		os.stat(fname)
	except os.error:
		f = open(fname,"w")
		f.write('# Generated file - this directory may be deleted to reset the COM cache...\n')
		f.write('import win32com\n')
		f.write('if __path__[:-1] != win32com.__gen_path__: __path__.append(win32com.__gen_path__)\n')
		f.close()
	
	return win32com.__gen_path__

#
# The helpers for win32com.client.Dispatch and OCX clients.
#
def GetClassForProgID(progid):
	"""Get a Python class for a Program ID
	
	Given a Program ID, return a Python class which wraps the COM object
	
	Returns the Python class, or None if no module is available.
	
	Params
	progid -- A COM ProgramID or IID (eg, "Word.Application")
	"""
	clsid = pywintypes.IID(progid) # This auto-converts named to IDs.
	return GetClassForCLSID(clsid)

def GetClassForCLSID(clsid):
	"""Get a Python class for a CLSID
	
	Given a CLSID, return a Python class which wraps the COM object
	
	Returns the Python class, or None if no module is available.
	
	Params
	clsid -- A COM CLSID (or string repr of one)
	"""
	# first, take a short-cut - we may already have generated support ready-to-roll.
	clsid = str(clsid)
	if CLSIDToClass.HasClass(clsid):
		return CLSIDToClass.GetClass(clsid)
	mod = GetModuleForCLSID(clsid)
	if mod is None:
		return None
	try:
		return CLSIDToClass.GetClass(clsid)
	except KeyError:
		return None

def GetModuleForProgID(progid):
	"""Get a Python module for a Program ID
	
	Given a Program ID, return a Python module which contains the
	class which wraps the COM object.
	
	Returns the Python module, or None if no module is available.
	
	Params
	progid -- A COM ProgramID or IID (eg, "Word.Application")
	"""
	try:
		iid = pywintypes.IID(progid)
	except pywintypes.com_error:
		return None
	return GetModuleForCLSID(iid)
	
def GetModuleForCLSID(clsid):
	"""Get a Python module for a CLSID
	
	Given a CLSID, return a Python module which contains the
	class which wraps the COM object.
	
	Returns the Python module, or None if no module is available.
	
	Params
	progid -- A COM CLSID (ie, not the description)
	"""
	clsid_str = str(clsid)
	try:
		typelibCLSID, lcid, major, minor = clsidToTypelib[clsid_str]
	except KeyError:
		return None

	try:
		mod = GetModuleForTypelib(typelibCLSID, lcid, major, minor)
	except ImportError:
		mod = None
	if mod is not None:
		sub_mod = mod.CLSIDToPackageMap.get(clsid_str)
		if sub_mod is None:
			sub_mod = mod.VTablesToPackageMap.get(clsid_str)
		if sub_mod is not None:
			sub_mod_name = mod.__name__ + "." + sub_mod
			try:
				__import__(sub_mod_name)
			except ImportError:
				info = typelibCLSID, lcid, major, minor
				# Force the generation.  If this typelibrary has explicitly been added,
				# use it (it may not be registered, causing a lookup by clsid to fail)
				if info in demandGeneratedTypeLibraries:
					info = demandGeneratedTypeLibraries[info]
				from . import makepy
				makepy.GenerateChildFromTypeLibSpec(sub_mod, info)
				# Generate does an import...
			mod = sys.modules[sub_mod_name]
	return mod

def GetModuleForTypelib(typelibCLSID, lcid, major, minor):
	"""Get a Python module for a type library ID
	
	Given the CLSID of a typelibrary, return an imported Python module, 
	else None
	
	Params
	typelibCLSID -- IID of the type library.
	major -- Integer major version.
	minor -- Integer minor version
	lcid -- Integer LCID for the library.
	"""
	modName = GetGeneratedFileName(typelibCLSID, lcid, major, minor)
	mod = _GetModule(modName)
	# If the import worked, it doesn't mean we have actually added this
	# module to our cache though - check that here.
	if "_in_gencache_" not in mod.__dict__:
		AddModuleToCache(typelibCLSID, lcid, major, minor)
		assert "_in_gencache_" in mod.__dict__
	return mod

def MakeModuleForTypelib(typelibCLSID, lcid, major, minor, progressInstance = None, bForDemand = bForDemandDefault, bBuildHidden = 1):
	"""Generate support for a type library.
	
	Given the IID, LCID and version information for a type library, generate
	and import the necessary support files.
	
	Returns the Python module.  No exceptions are caught.

	Params
	typelibCLSID -- IID of the type library.
	major -- Integer major version.
	minor -- Integer minor version.
	lcid -- Integer LCID for the library.
	progressInstance -- Instance to use as progress indicator, or None to
	                    use the GUI progress bar.
	"""
	from . import makepy
	makepy.GenerateFromTypeLibSpec( (typelibCLSID, lcid, major, minor), progressInstance=progressInstance, bForDemand = bForDemand, bBuildHidden = bBuildHidden)
	return GetModuleForTypelib(typelibCLSID, lcid, major, minor)

def MakeModuleForTypelibInterface(typelib_ob, progressInstance = None, bForDemand = bForDemandDefault, bBuildHidden = 1):
	"""Generate support for a type library.
	
	Given a PyITypeLib interface generate and import the necessary support files.  This is useful
	for getting makepy support for a typelibrary that is not registered - the caller can locate
	and load the type library itself, rather than relying on COM to find it.
	
	Returns the Python module.

	Params
	typelib_ob -- The type library itself
	progressInstance -- Instance to use as progress indicator, or None to
	                    use the GUI progress bar.
	"""
	from . import makepy
	try:
		makepy.GenerateFromTypeLibSpec( typelib_ob, progressInstance=progressInstance, bForDemand = bForDemandDefault, bBuildHidden = bBuildHidden)
	except pywintypes.com_error:
		return None
	tla = typelib_ob.GetLibAttr()
	guid = tla[0]
	lcid = tla[1]
	major = tla[3]
	minor = tla[4]
	return GetModuleForTypelib(guid, lcid, major, minor)

def EnsureModuleForTypelibInterface(typelib_ob, progressInstance = None, bForDemand = bForDemandDefault, bBuildHidden = 1):
	"""Check we have support for a type library, generating if not.
	
	Given a PyITypeLib interface generate and import the necessary
	support files if necessary. This is useful for getting makepy support
	for a typelibrary that is not registered - the caller can locate and
	load the type library itself, rather than relying on COM to find it.
	
	Returns the Python module.

	Params
	typelib_ob -- The type library itself
	progressInstance -- Instance to use as progress indicator, or None to
	                    use the GUI progress bar.
	"""
	tla = typelib_ob.GetLibAttr()
	guid = tla[0]
	lcid = tla[1]
	major = tla[3]
	minor = tla[4]

	#If demand generated, save the typelib interface away for later use
	if bForDemand:
		demandGeneratedTypeLibraries[(str(guid), lcid, major, minor)] = typelib_ob

	try:
		return GetModuleForTypelib(guid, lcid, major, minor)
	except ImportError:
		pass
	# Generate it.
	return MakeModuleForTypelibInterface(typelib_ob, progressInstance, bForDemand, bBuildHidden)

def ForgetAboutTypelibInterface(typelib_ob):
	"""Drop any references to a typelib previously added with EnsureModuleForTypelibInterface and forDemand"""
	tla = typelib_ob.GetLibAttr()
	guid = tla[0]
	lcid = tla[1]
	major = tla[3]
	minor = tla[4]
	info = str(guid), lcid, major, minor
	try:
		del demandGeneratedTypeLibraries[info]
	except KeyError:
		# Not worth raising an exception - maybe they dont know we only remember for demand generated, etc.
		print("ForgetAboutTypelibInterface:: Warning - type library with info %s is not being remembered!" % (info,))
	# and drop any version redirects to it
	for key, val in list(versionRedirectMap.items()):
		if val==info:
			del versionRedirectMap[key]

def EnsureModule(typelibCLSID, lcid, major, minor, progressInstance = None, bValidateFile=not is_readonly, bForDemand = bForDemandDefault, bBuildHidden = 1):
	"""Ensure Python support is loaded for a type library, generating if necessary.
	
	Given the IID, LCID and version information for a type library, check and if
	necessary (re)generate, then import the necessary support files. If we regenerate the file, there
	is no way to totally snuff out all instances of the old module in Python, and thus we will regenerate the file more than necessary,
	unless makepy/genpy is modified accordingly.
	
	
	Returns the Python module.  No exceptions are caught during the generate process.

	Params
	typelibCLSID -- IID of the type library.
	major -- Integer major version.
	minor -- Integer minor version
	lcid -- Integer LCID for the library.
	progressInstance -- Instance to use as progress indicator, or None to
	                    use the GUI progress bar.
	bValidateFile -- Whether or not to perform cache validation or not
	bForDemand -- Should a complete generation happen now, or on demand?
	bBuildHidden -- Should hidden members/attributes etc be generated?
	"""
	bReloadNeeded = 0
	try:
		try:
			module = GetModuleForTypelib(typelibCLSID, lcid, major, minor)
		except ImportError:
			# If we get an ImportError
			# We may still find a valid cache file under a different MinorVersion #
			# (which windows will search out for us)
			#print "Loading reg typelib", typelibCLSID, major, minor, lcid
			module = None
			try:
				tlbAttr = pythoncom.LoadRegTypeLib(typelibCLSID, major, minor, lcid).GetLibAttr()
				# if the above line doesn't throw a pythoncom.com_error, check if
				# it is actually a different lib than we requested, and if so, suck it in
				if tlbAttr[1] != lcid or tlbAttr[4]!=minor:
					#print "Trying 2nd minor #", tlbAttr[1], tlbAttr[3], tlbAttr[4]
					try:
						module = GetModuleForTypelib(typelibCLSID, tlbAttr[1], tlbAttr[3], tlbAttr[4])
					except ImportError:
						# We don't have a module, but we do have a better minor
						# version - remember that.
						minor = tlbAttr[4]
				# else module remains None
			except pythoncom.com_error:
				# couldn't load any typelib - mod remains None
				pass
		if module is not None and bValidateFile:
			assert not is_readonly, "Can't validate in a read-only gencache"
			try:
				typLibPath = pythoncom.QueryPathOfRegTypeLib(typelibCLSID, major, minor, lcid)
				# windows seems to add an extra \0 (via the underlying BSTR)
				# The mainwin toolkit does not add this erroneous \0
				if typLibPath[-1]=='\0':
					typLibPath=typLibPath[:-1]
				suf = getattr(os.path, "supports_unicode_filenames", 0)
				if not suf:
					# can't pass unicode filenames directly - convert
					try:
						typLibPath=typLibPath.encode(sys.getfilesystemencoding())
					except AttributeError: # no sys.getfilesystemencoding
						typLibPath=str(typLibPath)
				tlbAttributes = pythoncom.LoadRegTypeLib(typelibCLSID, major, minor, lcid).GetLibAttr()
			except pythoncom.com_error:
				# We have a module, but no type lib - we should still
				# run with what we have though - the typelib may not be
				# deployed here.
				bValidateFile = 0
		if module is not None and bValidateFile:
			assert not is_readonly, "Can't validate in a read-only gencache"
			filePathPrefix  = "%s\\%s" % (GetGeneratePath(), GetGeneratedFileName(typelibCLSID, lcid, major, minor))
			filePath = filePathPrefix + ".py"
			filePathPyc = filePathPrefix + ".py"
			if __debug__:
				filePathPyc = filePathPyc + "c"
			else:
				filePathPyc = filePathPyc + "o"
			# Verify that type library is up to date.
			# If we have a differing MinorVersion or genpy has bumped versions, update the file
			from . import genpy
			if module.MinorVersion != tlbAttributes[4] or genpy.makepy_version != module.makepy_version:
				#print "Version skew: %d, %d" % (module.MinorVersion, tlbAttributes[4])
				# try to erase the bad file from the cache
				try:
					os.unlink(filePath)
				except os.error:
					pass
				try:
					os.unlink(filePathPyc)
				except os.error:
					pass
				if os.path.isdir(filePathPrefix):
					import shutil
					shutil.rmtree(filePathPrefix)
				minor = tlbAttributes[4]
				module = None
				bReloadNeeded = 1
			else:
				minor = module.MinorVersion
				filePathPrefix  = "%s\\%s" % (GetGeneratePath(), GetGeneratedFileName(typelibCLSID, lcid, major, minor))
				filePath = filePathPrefix + ".py"
				filePathPyc = filePathPrefix + ".pyc"
				#print "Trying py stat: ", filePath
				fModTimeSet = 0
				try:
					pyModTime = os.stat(filePath)[8]
					fModTimeSet = 1
				except os.error as e:
					# If .py file fails, try .pyc file
					#print "Trying pyc stat", filePathPyc
					try:
						pyModTime = os.stat(filePathPyc)[8]
						fModTimeSet = 1
					except os.error as e:
						pass
				#print "Trying stat typelib", pyModTime
				#print str(typLibPath)
				typLibModTime = os.stat(typLibPath)[8]
				if fModTimeSet and (typLibModTime > pyModTime):
					bReloadNeeded = 1
					module = None
	except (ImportError, os.error):	
		module = None
	if module is None:
		# We need to build an item.  If we are in a read-only cache, we
		# can't/don't want to do this - so before giving up, check for
		# a different minor version in our cache - according to COM, this is OK
		if is_readonly:
			key = str(typelibCLSID), lcid, major, minor
			# If we have been asked before, get last result.
			try:
				return versionRedirectMap[key]
			except KeyError:
				pass
			# Find other candidates.
			items = []
			for desc in GetGeneratedInfos():
				if key[0]==desc[0] and key[1]==desc[1] and key[2]==desc[2]:
					items.append(desc)
			if items:
				# Items are all identical, except for last tuple element
				# We want the latest minor version we have - so just sort and grab last
				items.sort()
				new_minor = items[-1][3]
				ret = GetModuleForTypelib(typelibCLSID, lcid, major, new_minor)
			else:
				ret = None
			# remember and return
			versionRedirectMap[key] = ret
			return ret
		#print "Rebuilding: ", major, minor
		module = MakeModuleForTypelib(typelibCLSID, lcid, major, minor, progressInstance, bForDemand = bForDemand, bBuildHidden = bBuildHidden)
		# If we replaced something, reload it
		if bReloadNeeded:
			module = reload(module)
			AddModuleToCache(typelibCLSID, lcid, major, minor)
	return module

def EnsureDispatch(prog_id, bForDemand = 1): # New fn, so we default the new demand feature to on!
	"""Given a COM prog_id, return an object that is using makepy support, building if necessary"""
	disp = win32com.client.Dispatch(prog_id)
	if not disp.__dict__.get("CLSID"): # Eeek - no makepy support - try and build it.
		try:
			ti = disp._oleobj_.GetTypeInfo()
			disp_clsid = ti.GetTypeAttr()[0]
			tlb, index = ti.GetContainingTypeLib()
			tla = tlb.GetLibAttr()
			mod = EnsureModule(tla[0], tla[1], tla[3], tla[4], bForDemand=bForDemand)
			GetModuleForCLSID(disp_clsid)
			# Get the class from the module.
			from . import CLSIDToClass
			disp_class = CLSIDToClass.GetClass(str(disp_clsid))
			disp = disp_class(disp._oleobj_)
		except pythoncom.com_error:
			raise TypeError("This COM object can not automate the makepy process - please run makepy manually for this object")
	return disp

def AddModuleToCache(typelibclsid, lcid, major, minor, verbose = 1, bFlushNow = not is_readonly):
	"""Add a newly generated file to the cache dictionary.
	"""
	fname = GetGeneratedFileName(typelibclsid, lcid, major, minor)
	mod = _GetModule(fname)
	# if mod._in_gencache_ is already true, then we are reloading this
	# module - this doesn't mean anything special though!
	mod._in_gencache_ = 1
	dict = mod.CLSIDToClassMap
	info = str(typelibclsid), lcid, major, minor
	for clsid, cls in dict.items():
		clsidToTypelib[clsid] = info

	dict = mod.CLSIDToPackageMap
	for clsid, name in dict.items():
		clsidToTypelib[clsid] = info

	dict = mod.VTablesToClassMap
	for clsid, cls in dict.items():
		clsidToTypelib[clsid] = info

	dict = mod.VTablesToPackageMap
	for clsid, cls in dict.items():
		clsidToTypelib[clsid] = info

	# If this lib was previously redirected, drop it
	if info in versionRedirectMap:
		del versionRedirectMap[info]
	if bFlushNow:
		_SaveDicts()

def GetGeneratedInfos():
	zip_pos = win32com.__gen_path__.find(".zip\\")
	if zip_pos >= 0:
		import zipfile
		zip_file = win32com.__gen_path__[:zip_pos+4]
		zip_path = win32com.__gen_path__[zip_pos+5:].replace("\\", "/")
		zf = zipfile.ZipFile(zip_file)
		infos = {}
		for n in zf.namelist():
			if not n.startswith(zip_path):
				continue
			base = n[len(zip_path)+1:].split("/")[0]
			try:
				iid, lcid, major, minor = base.split("x")
				lcid = int(lcid)
				major = int(major)
				minor = int(minor)
				iid = pywintypes.IID("{" + iid + "}")
			except ValueError:
				continue
			except pywintypes.com_error:
				# invalid IID
				continue
			infos[(iid, lcid, major, minor)] = 1
		zf.close()
		return list(infos.keys())
	else:
		# on the file system
		files = glob.glob(win32com.__gen_path__+ "\\*")
		ret = []
		for file in files:
			if not os.path.isdir(file) and not os.path.splitext(file)[1]==".py":
				continue
			name = os.path.splitext(os.path.split(file)[1])[0]
			try:
				iid, lcid, major, minor = name.split("x")
				iid = pywintypes.IID("{" + iid + "}")
				lcid = int(lcid)
				major = int(major)
				minor = int(minor)
			except ValueError:
				continue
			except pywintypes.com_error:
				# invalid IID
				continue
			ret.append((iid, lcid, major, minor))
		return ret

def _GetModule(fname):
	"""Given the name of a module in the gen_py directory, import and return it.
	"""
	mod_name = "win32com.gen_py.%s" % fname
	mod = __import__(mod_name)
	return sys.modules[mod_name]

def Rebuild(verbose = 1):
	"""Rebuild the cache indexes from the file system.
	"""
	clsidToTypelib.clear()
	infos = GetGeneratedInfos()
	if verbose and len(infos): # Dont bother reporting this when directory is empty!
		print("Rebuilding cache of generated files for COM support...")
	for info in infos:
		iid, lcid, major, minor = info
		if verbose:
			print("Checking", GetGeneratedFileName(*info))
		try:
			AddModuleToCache(iid, lcid, major, minor, verbose, 0)
		except:
			print("Could not add module %s - %s: %s" % (info, sys.exc_info()[0],sys.exc_info()[1]))
	if verbose and len(infos): # Dont bother reporting this when directory is empty!
		print("Done.")
	_SaveDicts()

def _Dump():
	print("Cache is in directory", win32com.__gen_path__)
	# Build a unique dir
	d = {}
	for clsid, (typelibCLSID, lcid, major, minor) in clsidToTypelib.items():
		d[typelibCLSID, lcid, major, minor] = None
	for typelibCLSID, lcid, major, minor in d.keys():
		mod = GetModuleForTypelib(typelibCLSID, lcid, major, minor)
		print("%s - %s" % (mod.__doc__, typelibCLSID))

# Boot up
__init__()

def usage():
	usageString = """\
	  Usage: gencache [-q] [-d] [-r]
	  
			 -q         - Quiet
			 -d         - Dump the cache (typelibrary description and filename).
			 -r         - Rebuild the cache dictionary from the existing .py files
	"""
	print(usageString)
	sys.exit(1)

if __name__=='__main__':
	import getopt
	try:
		opts, args = getopt.getopt(sys.argv[1:], "qrd")
	except getopt.error as message:
		print(message)
		usage()

	# we only have options - complain about real args, or none at all!
	if len(sys.argv)==1 or args:
		print(usage())
		
	verbose = 1
	for opt, val in opts:
		if opt=='-d': # Dump
			_Dump()
		if opt=='-r':
			Rebuild(verbose)
		if opt=='-q':
			verbose = 0