third_party/llvm-project/libcxx/utils/gen_link_script.py - cobalt - Git at Google

 #!/usr/bin/env python
 #===----------------------------------------------------------------------===##
 #
 #                     The LLVM Compiler Infrastructure
 #
 # This file is dual licensed under the MIT and the University of Illinois Open
 # Source Licenses. See LICENSE.TXT for details.
 #
 #===----------------------------------------------------------------------===##

 import os
 import sys

 def print_and_exit(msg):
     sys.stderr.write(msg + '\n')
     sys.exit(1)

 def usage_and_exit():
     print_and_exit("Usage: ./gen_link_script.py [--help] [--dryrun] <path/to/libcxx.so> <public_libs>...")

 def help_and_exit():
     help_msg = \
 """Usage

   gen_link_script.py [--help] [--dryrun] <path/to/libcxx.so> <public_libs>...

   Generate a linker script that links libc++ to the proper ABI library.
   The script replaces the specified libc++ symlink.
   An example script for c++abi would look like "INPUT(libc++.so.1 -lc++abi)".

 Arguments
   <path/to/libcxx.so> - The top level symlink to the versioned libc++ shared
                         library. This file is replaced with a linker script.
   <public_libs>       - List of library names to include in linker script.

 Exit Status:
   0 if OK,
   1 if the action failed.
 """
     print_and_exit(help_msg)

 def parse_args():
     args = list(sys.argv)
     del args[0]
     if len(args) == 0:
         usage_and_exit()
     if args[0] == '--help':
         help_and_exit()
     dryrun = '--dryrun' == args[0]
     if dryrun:
         del args[0]
     if len(args) < 2:
         usage_and_exit()
     symlink_file = args[0]
     public_libs = args[1:]
     return dryrun, symlink_file, public_libs

 def main():
     dryrun, symlink_file, public_libs = parse_args()

     # Check that the given libc++.so file is a valid symlink.
     if not os.path.islink(symlink_file):
         print_and_exit("symlink file %s is not a symlink" % symlink_file)

     # Read the symlink so we know what libc++ to link to in the linker script.
     linked_libcxx = os.readlink(symlink_file)

     # Prepare the list of public libraries to link.
     public_libs = ['-l%s' % l for l in public_libs]

     # Generate the linker script contents and print the script and destination
     # information.
     contents = "INPUT(%s %s)" % (linked_libcxx, ' '.join(public_libs))
     print("GENERATING SCRIPT: '%s' as file %s" % (contents, symlink_file))

     # Remove the existing libc++ symlink and replace it with the script.
     if not dryrun:
         os.unlink(symlink_file)
         with open(symlink_file, 'w') as f:
             f.write(contents + "\n")


 if __name__ == '__main__':
     main()
	#!/usr/bin/env python
	#===----------------------------------------------------------------------===##
	#
	# The LLVM Compiler Infrastructure
	#
	# This file is dual licensed under the MIT and the University of Illinois Open
	# Source Licenses. See LICENSE.TXT for details.
	#
	#===----------------------------------------------------------------------===##

	import os
	import sys

	def print_and_exit(msg):
	sys.stderr.write(msg + '\n')
	sys.exit(1)

	def usage_and_exit():
	print_and_exit("Usage: ./gen_link_script.py [--help] [--dryrun] <path/to/libcxx.so> <public_libs>...")

	def help_and_exit():
	help_msg = \
	"""Usage

	gen_link_script.py [--help] [--dryrun] <path/to/libcxx.so> <public_libs>...

	Generate a linker script that links libc++ to the proper ABI library.
	The script replaces the specified libc++ symlink.
	An example script for c++abi would look like "INPUT(libc++.so.1 -lc++abi)".

	Arguments
	<path/to/libcxx.so> - The top level symlink to the versioned libc++ shared
	library. This file is replaced with a linker script.
	<public_libs> - List of library names to include in linker script.

	Exit Status:
	0 if OK,
	1 if the action failed.
	"""
	print_and_exit(help_msg)

	def parse_args():
	args = list(sys.argv)
	del args[0]
	if len(args) == 0:
	usage_and_exit()
	if args[0] == '--help':
	help_and_exit()
	dryrun = '--dryrun' == args[0]
	if dryrun:
	del args[0]
	if len(args) < 2:
	usage_and_exit()
	symlink_file = args[0]
	public_libs = args[1:]
	return dryrun, symlink_file, public_libs

	def main():
	dryrun, symlink_file, public_libs = parse_args()

	# Check that the given libc++.so file is a valid symlink.
	if not os.path.islink(symlink_file):
	print_and_exit("symlink file %s is not a symlink" % symlink_file)

	# Read the symlink so we know what libc++ to link to in the linker script.
	linked_libcxx = os.readlink(symlink_file)

	# Prepare the list of public libraries to link.
	public_libs = ['-l%s' % l for l in public_libs]

	# Generate the linker script contents and print the script and destination
	# information.
	contents = "INPUT(%s %s)" % (linked_libcxx, ' '.join(public_libs))
	print("GENERATING SCRIPT: '%s' as file %s" % (contents, symlink_file))

	# Remove the existing libc++ symlink and replace it with the script.
	if not dryrun:
	os.unlink(symlink_file)
	with open(symlink_file, 'w') as f:
	f.write(contents + "\n")


	if __name__ == '__main__':
	main()