Tools/freeze/makefreeze.py - platform/external/python/cpython3 - Gitiles

 import marshal
 import bkfile


 # Write a file containing frozen code for the modules in the dictionary.

 header = """
 #include "Python.h"

 static struct _frozen _PyImport_FrozenModules[] = {
 """
 trailer = """\
     {0, 0, 0} /* sentinel */
 };
 """

 # if __debug__ == 0 (i.e. -O option given), set Py_OptimizeFlag in frozen app.
 default_entry_point = """
 int
 main(int argc, char **argv)
 {
         extern int Py_FrozenMain(int, char **);
 """ + ((not __debug__ and """
         Py_OptimizeFlag++;
 """) or "")  + """
         PyImport_FrozenModules = _PyImport_FrozenModules;
         return Py_FrozenMain(argc, argv);
 }

 """

 def makefreeze(base, dict, debug=0, entry_point=None, fail_import=()):
     if entry_point is None: entry_point = default_entry_point
     done = []
     files = []
     mods = sorted(dict.keys())
     for mod in mods:
         m = dict[mod]
         mangled = "__".join(mod.split("."))
         if m.__code__:
             file = 'M_' + mangled + '.c'
             with bkfile.open(base + file, 'w') as outfp:
                 files.append(file)
                 if debug:
                     print("freezing", mod, "...")
                 str = marshal.dumps(m.__code__)
                 size = len(str)
                 if m.__path__:
                     # Indicate package by negative size
                     size = -size
                 done.append((mod, mangled, size))
                 writecode(outfp, mangled, str)
     if debug:
         print("generating table of frozen modules")
     with bkfile.open(base + 'frozen.c', 'w') as outfp:
         for mod, mangled, size in done:
             outfp.write('extern unsigned char M_%s[];\n' % mangled)
         outfp.write(header)
         for mod, mangled, size in done:
             outfp.write('\t{"%s", M_%s, %d},\n' % (mod, mangled, size))
         outfp.write('\n')
         # The following modules have a NULL code pointer, indicating
         # that the frozen program should not search for them on the host
         # system. Importing them will *always* raise an ImportError.
         # The zero value size is never used.
         for mod in fail_import:
             outfp.write('\t{"%s", NULL, 0},\n' % (mod,))
         outfp.write(trailer)
         outfp.write(entry_point)
     return files


 # Write a C initializer for a module containing the frozen python code.
 # The array is called M_<mod>.

 def writecode(outfp, mod, str):
     outfp.write('unsigned char M_%s[] = {' % mod)
     for i in range(0, len(str), 16):
         outfp.write('\n\t')
         for c in bytes(str[i:i+16]):
             outfp.write('%d,' % c)
     outfp.write('\n};\n')

 ## def writecode(outfp, mod, str):
 ##     outfp.write('unsigned char M_%s[%d] = "%s";\n' % (mod, len(str),
 ##     '\\"'.join(map(lambda s: repr(s)[1:-1], str.split('"')))))
	import marshal
	import bkfile


	# Write a file containing frozen code for the modules in the dictionary.

	header = """
	#include "Python.h"

	static struct _frozen _PyImport_FrozenModules[] = {
	"""
	trailer = """\
	{0, 0, 0} /* sentinel */
	};
	"""

	# if __debug__ == 0 (i.e. -O option given), set Py_OptimizeFlag in frozen app.
	default_entry_point = """
	int
	main(int argc, char **argv)
	{
	extern int Py_FrozenMain(int, char **);
	""" + ((not __debug__ and """
	Py_OptimizeFlag++;
	""") or "") + """
	PyImport_FrozenModules = _PyImport_FrozenModules;
	return Py_FrozenMain(argc, argv);
	}

	"""

	def makefreeze(base, dict, debug=0, entry_point=None, fail_import=()):
	if entry_point is None: entry_point = default_entry_point
	done = []
	files = []
	mods = sorted(dict.keys())
	for mod in mods:
	m = dict[mod]
	mangled = "__".join(mod.split("."))
	if m.__code__:
	file = 'M_' + mangled + '.c'
	with bkfile.open(base + file, 'w') as outfp:
	files.append(file)
	if debug:
	print("freezing", mod, "...")
	str = marshal.dumps(m.__code__)
	size = len(str)
	if m.__path__:
	# Indicate package by negative size
	size = -size
	done.append((mod, mangled, size))
	writecode(outfp, mangled, str)
	if debug:
	print("generating table of frozen modules")
	with bkfile.open(base + 'frozen.c', 'w') as outfp:
	for mod, mangled, size in done:
	outfp.write('extern unsigned char M_%s[];\n' % mangled)
	outfp.write(header)
	for mod, mangled, size in done:
	outfp.write('\t{"%s", M_%s, %d},\n' % (mod, mangled, size))
	outfp.write('\n')
	# The following modules have a NULL code pointer, indicating
	# that the frozen program should not search for them on the host
	# system. Importing them will always raise an ImportError.
	# The zero value size is never used.
	for mod in fail_import:
	outfp.write('\t{"%s", NULL, 0},\n' % (mod,))
	outfp.write(trailer)
	outfp.write(entry_point)
	return files



	# Write a C initializer for a module containing the frozen python code.
	# The array is called M_<mod>.

	def writecode(outfp, mod, str):
	outfp.write('unsigned char M_%s[] = {' % mod)
	for i in range(0, len(str), 16):
	outfp.write('\n\t')
	for c in bytes(str[i:i+16]):
	outfp.write('%d,' % c)
	outfp.write('\n};\n')

	## def writecode(outfp, mod, str):
	## outfp.write('unsigned char M_%s[%d] = "%s";\n' % (mod, len(str),
	## '\\"'.join(map(lambda s: repr(s)[1:-1], str.split('"')))))