Tools/freeze/checkextensions_win32.py - platform/external/python/cpython2 - Gitiles

 """Extension management for Windows.

 Under Windows it is unlikely the .obj files are of use, as special compiler options
 are needed (primarily to toggle the behaviour of "public" symbols.

 I dont consider it worth parsing the MSVC makefiles for compiler options.  Even if
 we get it just right, a specific freeze application may have specific compiler
 options anyway (eg, to enable or disable specific functionality)

 So my basic stragtegy is:

 * Have a Windows INI file which "describes" an extension module.
 * This description can include:
   - The MSVC .dsp file for the extension.  The .c source file names
     are extraced from there.
   - Specific compiler options
   - Flag to indicate if Unicode compilation is expected.

 At the moment the name and location of this INI file is hardcoded,
 but an obvious enhancement would be to provide command line options.
 """

 import os, string, sys
 try:
 	import win32api
 except ImportError:
 	win32api = None # User has already been warned

 class CExtension:
 	"""An abstraction of an extension implemented in C/C++
 	"""
 	def __init__(self, name, sourceFiles):
 		self.name = name
 		# A list of strings defining additional compiler options.
 		self.sourceFiles = sourceFiles
 		# A list of special compiler options to be applied to
 		# all source modules in this extension.
 		self.compilerOptions = []
 		# A list of .lib files the final .EXE will need.
 		self.linkerLibs = []

 	def GetSourceFiles(self):
 		return self.sourceFiles

 	def AddCompilerOption(self, option):
 		self.compilerOptions.append(option)
 	def GetCompilerOptions(self):
 		return self.compilerOptions

 	def AddLinkerLib(self, lib):
 		self.linkerLibs.append(lib)
 	def GetLinkerLibs(self):
 		return self.linkerLibs

 def checkextensions(unknown, ignored):
         # Create a table of frozen extensions

 	mapFileName = os.path.join( os.path.split(sys.argv[0])[0], "extensions_win32.ini")
 	ret = []
 	for mod in unknown:
 		defn = get_extension_defn( mod, mapFileName )
 		if defn is not None:
 			ret.append( defn )
 	return ret

 def get_extension_defn(moduleName, mapFileName):
 	if win32api is None: return None
 	dsp = win32api.GetProfileVal(moduleName, "dsp", "", mapFileName)
 	if dsp=="":
 		sys.stderr.write("No definition of module %s in map file '%s'\n" % (moduleName, mapFileName))
 		return None

 	# We allow environment variables in the file name
 	dsp = win32api.ExpandEnvironmentStrings(dsp)
 	sourceFiles = parse_dsp(dsp)
 	if sourceFiles is None:
 		return None

 	module = CExtension(moduleName, sourceFiles)

 	cl_options = win32api.GetProfileVal(moduleName, "cl", "", mapFileName)
 	if cl_options:
 		module.AddCompilerOption(win32api.ExpandEnvironmentStrings(cl_options))

 	exclude = win32api.GetProfileVal(moduleName, "exclude", "", mapFileName)
 	exclude = string.split(exclude)

 	if win32api.GetProfileVal(moduleName, "Unicode", 0, mapFileName):
 		module.AddCompilerOption('/D UNICODE /D _UNICODE')

 	libs = string.split(win32api.GetProfileVal(moduleName, "libs", "", mapFileName))
 	for lib in libs:
 		module.AddLinkerLib(lib)

 	for exc in exclude:
 		if exc in module.sourceFiles:
 			modules.sourceFiles.remove(exc)

 	return module

 # Given an MSVC DSP file, locate C source files it uses
 # returns a list of source files.
 def parse_dsp(dsp):
 #	print "Processing", dsp
 	# For now, only support
 	ret = []
 	dsp_path, dsp_name = os.path.split(dsp)
 	try:
 		lines = open(dsp, "r").readlines()
 	except IOError, msg:
 		sys.stderr.write("%s: %s\n" % (dsp, msg))
 		return None
 	for line in lines:
 		fields = string.split(string.strip(line), "=", 2)
 		if fields[0]=="SOURCE":
 			if string.lower(os.path.splitext(fields[1])[1]) in ['.cpp', '.c']:
 				ret.append( win32api.GetFullPathName(os.path.join(dsp_path, fields[1] ) ) )
 	return ret

 def write_extension_table(fname, modules):
 	fp = open(fname, "w")
 	try:
 		fp.write (ext_src_header)
 		# Write fn protos
 		for module in modules:
 			# bit of a hack for .pyd's as part of packages.
 			name = string.split(module.name,'.')[-1]
 			fp.write('extern void init%s(void);\n' % (name) )
 		# Write the table
 		fp.write (ext_tab_header)
 		for module in modules:
 			name = string.split(module.name,'.')[-1]
 			fp.write('\t{"%s", init%s},\n' % (name, name) )

 		fp.write (ext_tab_footer)
 		fp.write(ext_src_footer)
 	finally:
 		fp.close()


 ext_src_header = """\
 #include "Python.h"
 """

 ext_tab_header = """\

 static struct _inittab extensions[] = {
 """

 ext_tab_footer = """\
         /* Sentinel */
         {0, 0}
 };
 """

 ext_src_footer = """\
 extern int PyImport_ExtendInittab(struct _inittab *newtab);

 int PyInitFrozenExtensions()
 {
 	return PyImport_ExtendInittab(extensions);
 }

 """
	"""Extension management for Windows.

	Under Windows it is unlikely the .obj files are of use, as special compiler options
	are needed (primarily to toggle the behaviour of "public" symbols.

	I dont consider it worth parsing the MSVC makefiles for compiler options. Even if
	we get it just right, a specific freeze application may have specific compiler
	options anyway (eg, to enable or disable specific functionality)

	So my basic stragtegy is:

	* Have a Windows INI file which "describes" an extension module.
	* This description can include:
	- The MSVC .dsp file for the extension. The .c source file names
	are extraced from there.
	- Specific compiler options
	- Flag to indicate if Unicode compilation is expected.

	At the moment the name and location of this INI file is hardcoded,
	but an obvious enhancement would be to provide command line options.
	"""

	import os, string, sys
	try:
	import win32api
	except ImportError:
	win32api = None # User has already been warned

	class CExtension:
	"""An abstraction of an extension implemented in C/C++
	"""
	def __init__(self, name, sourceFiles):
	self.name = name
	# A list of strings defining additional compiler options.
	self.sourceFiles = sourceFiles
	# A list of special compiler options to be applied to
	# all source modules in this extension.
	self.compilerOptions = []
	# A list of .lib files the final .EXE will need.
	self.linkerLibs = []

	def GetSourceFiles(self):
	return self.sourceFiles

	def AddCompilerOption(self, option):
	self.compilerOptions.append(option)
	def GetCompilerOptions(self):
	return self.compilerOptions

	def AddLinkerLib(self, lib):
	self.linkerLibs.append(lib)
	def GetLinkerLibs(self):
	return self.linkerLibs

	def checkextensions(unknown, ignored):
	# Create a table of frozen extensions

	mapFileName = os.path.join( os.path.split(sys.argv[0])[0], "extensions_win32.ini")
	ret = []
	for mod in unknown:
	defn = get_extension_defn( mod, mapFileName )
	if defn is not None:
	ret.append( defn )
	return ret

	def get_extension_defn(moduleName, mapFileName):
	if win32api is None: return None
	dsp = win32api.GetProfileVal(moduleName, "dsp", "", mapFileName)
	if dsp=="":
	sys.stderr.write("No definition of module %s in map file '%s'\n" % (moduleName, mapFileName))
	return None

	# We allow environment variables in the file name
	dsp = win32api.ExpandEnvironmentStrings(dsp)
	sourceFiles = parse_dsp(dsp)
	if sourceFiles is None:
	return None

	module = CExtension(moduleName, sourceFiles)

	cl_options = win32api.GetProfileVal(moduleName, "cl", "", mapFileName)
	if cl_options:
	module.AddCompilerOption(win32api.ExpandEnvironmentStrings(cl_options))

	exclude = win32api.GetProfileVal(moduleName, "exclude", "", mapFileName)
	exclude = string.split(exclude)

	if win32api.GetProfileVal(moduleName, "Unicode", 0, mapFileName):
	module.AddCompilerOption('/D UNICODE /D _UNICODE')

	libs = string.split(win32api.GetProfileVal(moduleName, "libs", "", mapFileName))
	for lib in libs:
	module.AddLinkerLib(lib)

	for exc in exclude:
	if exc in module.sourceFiles:
	modules.sourceFiles.remove(exc)

	return module

	# Given an MSVC DSP file, locate C source files it uses
	# returns a list of source files.
	def parse_dsp(dsp):
	# print "Processing", dsp
	# For now, only support
	ret = []
	dsp_path, dsp_name = os.path.split(dsp)
	try:
	lines = open(dsp, "r").readlines()
	except IOError, msg:
	sys.stderr.write("%s: %s\n" % (dsp, msg))
	return None
	for line in lines:
	fields = string.split(string.strip(line), "=", 2)
	if fields[0]=="SOURCE":
	if string.lower(os.path.splitext(fields[1])[1]) in ['.cpp', '.c']:
	ret.append( win32api.GetFullPathName(os.path.join(dsp_path, fields[1] ) ) )
	return ret

	def write_extension_table(fname, modules):
	fp = open(fname, "w")
	try:
	fp.write (ext_src_header)
	# Write fn protos
	for module in modules:
	# bit of a hack for .pyd's as part of packages.
	name = string.split(module.name,'.')[-1]
	fp.write('extern void init%s(void);\n' % (name) )
	# Write the table
	fp.write (ext_tab_header)
	for module in modules:
	name = string.split(module.name,'.')[-1]
	fp.write('\t{"%s", init%s},\n' % (name, name) )

	fp.write (ext_tab_footer)
	fp.write(ext_src_footer)
	finally:
	fp.close()


	ext_src_header = """\
	#include "Python.h"
	"""

	ext_tab_header = """\

	static struct _inittab extensions[] = {
	"""

	ext_tab_footer = """\
	/* Sentinel */
	{0, 0}
	};
	"""

	ext_src_footer = """\
	extern int PyImport_ExtendInittab(struct _inittab *newtab);

	int PyInitFrozenExtensions()
	{
	return PyImport_ExtendInittab(extensions);
	}

	"""