third_party/llvm-project/clang/utils/hmaptool/hmaptool - cobalt - Git at Google

 #!/usr/bin/env python
 from __future__ import print_function

 import json
 import optparse
 import os
 import struct
 import sys

 ###

 k_header_magic_LE = 'pamh'
 k_header_magic_BE = 'hmap'

 def hmap_hash(str):
     """hash(str) -> int

     Apply the "well-known" headermap hash function.
     """

     return sum((ord(c.lower()) * 13
                 for c in str), 0)

 class HeaderMap(object):
     @staticmethod
     def frompath(path):
         with open(path, 'rb') as f:
             magic = f.read(4)
             if magic == k_header_magic_LE:
                 endian_code = '<'
             elif magic == k_header_magic_BE:
                 endian_code = '>'
             else:
                 raise SystemExit("error: %s: not a headermap" % (
                         path,))

             # Read the header information.
             header_fmt = endian_code + 'HHIIII'
             header_size = struct.calcsize(header_fmt)
             data = f.read(header_size)
             if len(data) != header_size:
                 raise SystemExit("error: %s: truncated headermap header" % (
                         path,))

             (version, reserved, strtable_offset, num_entries,
              num_buckets, max_value_len) = struct.unpack(header_fmt, data)

             if version != 1:
                 raise SystemExit("error: %s: unknown headermap version: %r" % (
                         path, version))
             if reserved != 0:
                 raise SystemExit("error: %s: invalid reserved value in header" % (
                         path,))

             # The number of buckets must be a power of two.
             if num_buckets == 0 or (num_buckets & num_buckets - 1) != 0:
                 raise SystemExit("error: %s: invalid number of buckets" % (
                         path,))

             # Read all of the buckets.
             bucket_fmt = endian_code + 'III'
             bucket_size = struct.calcsize(bucket_fmt)
             buckets_data = f.read(num_buckets * bucket_size)
             if len(buckets_data) != num_buckets * bucket_size:
                 raise SystemExit("error: %s: truncated headermap buckets" % (
                         path,))
             buckets = [struct.unpack(bucket_fmt,
                                      buckets_data[i*bucket_size:(i+1)*bucket_size])
                        for i in range(num_buckets)]

             # Read the string table; the format doesn't explicitly communicate the
             # size of the string table (which is dumb), so assume it is the rest of
             # the file.
             f.seek(0, 2)
             strtable_size = f.tell() - strtable_offset
             f.seek(strtable_offset)

             if strtable_size == 0:
                 raise SystemExit("error: %s: unable to read zero-sized string table"%(
                         path,))
             strtable = f.read(strtable_size)

             if len(strtable) != strtable_size:
                 raise SystemExit("error: %s: unable to read complete string table"%(
                         path,))
             if strtable[-1] != '\0':
                 raise SystemExit("error: %s: invalid string table in headermap" % (
                         path,))

             return HeaderMap(num_entries, buckets, strtable)

     def __init__(self, num_entries, buckets, strtable):
         self.num_entries = num_entries
         self.buckets = buckets
         self.strtable = strtable

     def get_string(self, idx):
         if idx >= len(self.strtable):
             raise SystemExit("error: %s: invalid string index" % (
                     path,))
         end_idx = self.strtable.index('\0', idx)
         return self.strtable[idx:end_idx]

     @property
     def mappings(self):
         for key_idx,prefix_idx,suffix_idx in self.buckets:
             if key_idx == 0:
                 continue
             yield (self.get_string(key_idx),
                    self.get_string(prefix_idx) + self.get_string(suffix_idx))

 ###

 def action_dump(name, args):
     "dump a headermap file"

     parser = optparse.OptionParser("%%prog %s [options] <headermap path>" % (
             name,))
     parser.add_option("-v", "--verbose", dest="verbose",
                       help="show more verbose output [%default]",
                       action="store_true", default=False)
     (opts, args) = parser.parse_args(args)

     if len(args) != 1:
         parser.error("invalid number of arguments")

     path, = args

     hmap = HeaderMap.frompath(path)

     # Dump all of the buckets.
     print ('Header Map: %s' % (path,))
     if opts.verbose:
         print ('headermap: %r' % (path,))
         print ('  num entries: %d' % (hmap.num_entries,))
         print ('  num buckets: %d' % (len(hmap.buckets),))
         print ('  string table size: %d' % (len(hmap.strtable),))
         for i,bucket in enumerate(hmap.buckets):
             key_idx,prefix_idx,suffix_idx = bucket

             if key_idx == 0:
                 continue

             # Get the strings.
             key = hmap.get_string(key_idx)
             prefix = hmap.get_string(prefix_idx)
             suffix = hmap.get_string(suffix_idx)

             print ("  bucket[%d]: %r -> (%r, %r) -- %d" % (
                 i, key, prefix, suffix, (hmap_hash(key) & (num_buckets - 1))))
     else:
         mappings = sorted(hmap.mappings)
         for key,value in mappings:
             print ("%s -> %s" % (key, value))
     print ()

 def next_power_of_two(value):
     if value < 0:
         raise ArgumentError
     return 1 if value == 0 else 2**(value - 1).bit_length()

 def action_write(name, args):
     "write a headermap file from a JSON definition"

     parser = optparse.OptionParser("%%prog %s [options] <input path> <output path>" % (
             name,))
     (opts, args) = parser.parse_args(args)

     if len(args) != 2:
         parser.error("invalid number of arguments")

     input_path,output_path = args

     with open(input_path, "r") as f:
         input_data = json.load(f)

     # Compute the headermap contents, we make a table that is 1/3 full.
     mappings = input_data['mappings']
     num_buckets = next_power_of_two(len(mappings) * 3)

     table = [(0, 0, 0)
              for i in range(num_buckets)]
     max_value_len = 0
     strtable = "\0"
     for key,value in mappings.items():
         if not isinstance(key, str):
             key = key.decode('utf-8')
         if not isinstance(value, str):
             value = value.decode('utf-8')
         max_value_len = max(max_value_len, len(value))

         key_idx = len(strtable)
         strtable += key + '\0'
         prefix = os.path.dirname(value) + '/'
         suffix = os.path.basename(value)
         prefix_idx = len(strtable)
         strtable += prefix + '\0'
         suffix_idx = len(strtable)
         strtable += suffix + '\0'

         hash = hmap_hash(key)
         for i in range(num_buckets):
             idx = (hash + i) % num_buckets
             if table[idx][0] == 0:
                 table[idx] = (key_idx, prefix_idx, suffix_idx)
                 break
         else:
             raise RuntimeError

     endian_code = '<'
     magic = k_header_magic_LE
     magic_size = 4
     header_fmt = endian_code + 'HHIIII'
     header_size = struct.calcsize(header_fmt)
     bucket_fmt = endian_code + 'III'
     bucket_size = struct.calcsize(bucket_fmt)
     strtable_offset = magic_size + header_size + num_buckets * bucket_size
     header = (1, 0, strtable_offset, len(mappings),
               num_buckets, max_value_len)

     # Write out the headermap.
     with open(output_path, 'wb') as f:
         f.write(magic.encode())
         f.write(struct.pack(header_fmt, *header))
         for bucket in table:
             f.write(struct.pack(bucket_fmt, *bucket))
         f.write(strtable.encode())

 def action_tovfs(name, args):
     "convert a headermap to a VFS layout"

     parser = optparse.OptionParser("%%prog %s [options] <headermap path>" % (
             name,))
     parser.add_option("", "--build-path", dest="build_path",
                       help="build path prefix",
                       action="store", type=str)
     (opts, args) = parser.parse_args(args)

     if len(args) != 2:
         parser.error("invalid number of arguments")
     if opts.build_path is None:
         parser.error("--build-path is required")

     input_path,output_path = args

     hmap = HeaderMap.frompath(input_path)

     # Create the table for all the objects.
     vfs = {}
     vfs['version'] = 0
     build_dir_contents = []
     vfs['roots'] = [{
             'name' : opts.build_path,
             'type' : 'directory',
             'contents' : build_dir_contents }]

     # We assume we are mapping framework paths, so a key of "Foo/Bar.h" maps to
     # "<build path>/Foo.framework/Headers/Bar.h".
     for key,value in hmap.mappings:
         # If this isn't a framework style mapping, ignore it.
         components = key.split('/')
         if len(components) != 2:
             continue
         framework_name,header_name = components
         build_dir_contents.append({
                 'name' : '%s.framework/Headers/%s' % (framework_name,
                                                       header_name),
                 'type' : 'file',
                 'external-contents' : value })

     with open(output_path, 'w') as f:
         json.dump(vfs, f, indent=2)

 commands = dict((name[7:].replace("_","-"), f)
                 for name,f in locals().items()
                 if name.startswith('action_'))

 def usage():
     print ("Usage: %s command [options]" % (
         os.path.basename(sys.argv[0])), file=sys.stderr)
     print (file=sys.stderr)
     print ("Available commands:", file=sys.stderr)
     cmds_width = max(map(len, commands))
     for name,func in sorted(commands.items()):
         print ("  %-*s - %s" % (cmds_width, name, func.__doc__), file=sys.stderr)
     sys.exit(1)

 def main():
     if len(sys.argv) < 2 or sys.argv[1] not in commands:
         usage()

     cmd = sys.argv[1]
     commands[cmd](cmd, sys.argv[2:])

 if __name__ == '__main__':
     main()
	#!/usr/bin/env python
	from __future__ import print_function

	import json
	import optparse
	import os
	import struct
	import sys

	###

	k_header_magic_LE = 'pamh'
	k_header_magic_BE = 'hmap'

	def hmap_hash(str):
	"""hash(str) -> int

	Apply the "well-known" headermap hash function.
	"""

	return sum((ord(c.lower()) * 13
	for c in str), 0)

	class HeaderMap(object):
	@staticmethod
	def frompath(path):
	with open(path, 'rb') as f:
	magic = f.read(4)
	if magic == k_header_magic_LE:
	endian_code = '<'
	elif magic == k_header_magic_BE:
	endian_code = '>'
	else:
	raise SystemExit("error: %s: not a headermap" % (
	path,))

	# Read the header information.
	header_fmt = endian_code + 'HHIIII'
	header_size = struct.calcsize(header_fmt)
	data = f.read(header_size)
	if len(data) != header_size:
	raise SystemExit("error: %s: truncated headermap header" % (
	path,))

	(version, reserved, strtable_offset, num_entries,
	num_buckets, max_value_len) = struct.unpack(header_fmt, data)

	if version != 1:
	raise SystemExit("error: %s: unknown headermap version: %r" % (
	path, version))
	if reserved != 0:
	raise SystemExit("error: %s: invalid reserved value in header" % (
	path,))

	# The number of buckets must be a power of two.
	if num_buckets == 0 or (num_buckets & num_buckets - 1) != 0:
	raise SystemExit("error: %s: invalid number of buckets" % (
	path,))

	# Read all of the buckets.
	bucket_fmt = endian_code + 'III'
	bucket_size = struct.calcsize(bucket_fmt)
	buckets_data = f.read(num_buckets * bucket_size)
	if len(buckets_data) != num_buckets * bucket_size:
	raise SystemExit("error: %s: truncated headermap buckets" % (
	path,))
	buckets = [struct.unpack(bucket_fmt,
	buckets_data[ibucket_size:(i+1)bucket_size])
	for i in range(num_buckets)]

	# Read the string table; the format doesn't explicitly communicate the
	# size of the string table (which is dumb), so assume it is the rest of
	# the file.
	f.seek(0, 2)
	strtable_size = f.tell() - strtable_offset
	f.seek(strtable_offset)

	if strtable_size == 0:
	raise SystemExit("error: %s: unable to read zero-sized string table"%(
	path,))
	strtable = f.read(strtable_size)

	if len(strtable) != strtable_size:
	raise SystemExit("error: %s: unable to read complete string table"%(
	path,))
	if strtable[-1] != '\0':
	raise SystemExit("error: %s: invalid string table in headermap" % (
	path,))

	return HeaderMap(num_entries, buckets, strtable)

	def __init__(self, num_entries, buckets, strtable):
	self.num_entries = num_entries
	self.buckets = buckets
	self.strtable = strtable

	def get_string(self, idx):
	if idx >= len(self.strtable):
	raise SystemExit("error: %s: invalid string index" % (
	path,))
	end_idx = self.strtable.index('\0', idx)
	return self.strtable[idx:end_idx]

	@property
	def mappings(self):
	for key_idx,prefix_idx,suffix_idx in self.buckets:
	if key_idx == 0:
	continue
	yield (self.get_string(key_idx),
	self.get_string(prefix_idx) + self.get_string(suffix_idx))

	###

	def action_dump(name, args):
	"dump a headermap file"

	parser = optparse.OptionParser("%%prog %s [options] <headermap path>" % (
	name,))
	parser.add_option("-v", "--verbose", dest="verbose",
	help="show more verbose output [%default]",
	action="store_true", default=False)
	(opts, args) = parser.parse_args(args)

	if len(args) != 1:
	parser.error("invalid number of arguments")

	path, = args

	hmap = HeaderMap.frompath(path)

	# Dump all of the buckets.
	print ('Header Map: %s' % (path,))
	if opts.verbose:
	print ('headermap: %r' % (path,))
	print (' num entries: %d' % (hmap.num_entries,))
	print (' num buckets: %d' % (len(hmap.buckets),))
	print (' string table size: %d' % (len(hmap.strtable),))
	for i,bucket in enumerate(hmap.buckets):
	key_idx,prefix_idx,suffix_idx = bucket

	if key_idx == 0:
	continue

	# Get the strings.
	key = hmap.get_string(key_idx)
	prefix = hmap.get_string(prefix_idx)
	suffix = hmap.get_string(suffix_idx)

	print (" bucket[%d]: %r -> (%r, %r) -- %d" % (
	i, key, prefix, suffix, (hmap_hash(key) & (num_buckets - 1))))
	else:
	mappings = sorted(hmap.mappings)
	for key,value in mappings:
	print ("%s -> %s" % (key, value))
	print ()

	def next_power_of_two(value):
	if value < 0:
	raise ArgumentError
	return 1 if value == 0 else 2**(value - 1).bit_length()

	def action_write(name, args):
	"write a headermap file from a JSON definition"

	parser = optparse.OptionParser("%%prog %s [options] <input path> <output path>" % (
	name,))
	(opts, args) = parser.parse_args(args)

	if len(args) != 2:
	parser.error("invalid number of arguments")

	input_path,output_path = args

	with open(input_path, "r") as f:
	input_data = json.load(f)

	# Compute the headermap contents, we make a table that is 1/3 full.
	mappings = input_data['mappings']
	num_buckets = next_power_of_two(len(mappings) * 3)

	table = [(0, 0, 0)
	for i in range(num_buckets)]
	max_value_len = 0
	strtable = "\0"
	for key,value in mappings.items():
	if not isinstance(key, str):
	key = key.decode('utf-8')
	if not isinstance(value, str):
	value = value.decode('utf-8')
	max_value_len = max(max_value_len, len(value))

	key_idx = len(strtable)
	strtable += key + '\0'
	prefix = os.path.dirname(value) + '/'
	suffix = os.path.basename(value)
	prefix_idx = len(strtable)
	strtable += prefix + '\0'
	suffix_idx = len(strtable)
	strtable += suffix + '\0'

	hash = hmap_hash(key)
	for i in range(num_buckets):
	idx = (hash + i) % num_buckets
	if table[idx][0] == 0:
	table[idx] = (key_idx, prefix_idx, suffix_idx)
	break
	else:
	raise RuntimeError

	endian_code = '<'
	magic = k_header_magic_LE
	magic_size = 4
	header_fmt = endian_code + 'HHIIII'
	header_size = struct.calcsize(header_fmt)
	bucket_fmt = endian_code + 'III'
	bucket_size = struct.calcsize(bucket_fmt)
	strtable_offset = magic_size + header_size + num_buckets * bucket_size
	header = (1, 0, strtable_offset, len(mappings),
	num_buckets, max_value_len)

	# Write out the headermap.
	with open(output_path, 'wb') as f:
	f.write(magic.encode())
	f.write(struct.pack(header_fmt, *header))
	for bucket in table:
	f.write(struct.pack(bucket_fmt, *bucket))
	f.write(strtable.encode())

	def action_tovfs(name, args):
	"convert a headermap to a VFS layout"

	parser = optparse.OptionParser("%%prog %s [options] <headermap path>" % (
	name,))
	parser.add_option("", "--build-path", dest="build_path",
	help="build path prefix",
	action="store", type=str)
	(opts, args) = parser.parse_args(args)

	if len(args) != 2:
	parser.error("invalid number of arguments")
	if opts.build_path is None:
	parser.error("--build-path is required")

	input_path,output_path = args

	hmap = HeaderMap.frompath(input_path)

	# Create the table for all the objects.
	vfs = {}
	vfs['version'] = 0
	build_dir_contents = []
	vfs['roots'] = [{
	'name' : opts.build_path,
	'type' : 'directory',
	'contents' : build_dir_contents }]

	# We assume we are mapping framework paths, so a key of "Foo/Bar.h" maps to
	# "<build path>/Foo.framework/Headers/Bar.h".
	for key,value in hmap.mappings:
	# If this isn't a framework style mapping, ignore it.
	components = key.split('/')
	if len(components) != 2:
	continue
	framework_name,header_name = components
	build_dir_contents.append({
	'name' : '%s.framework/Headers/%s' % (framework_name,
	header_name),
	'type' : 'file',
	'external-contents' : value })

	with open(output_path, 'w') as f:
	json.dump(vfs, f, indent=2)

	commands = dict((name[7:].replace("_","-"), f)
	for name,f in locals().items()
	if name.startswith('action_'))

	def usage():
	print ("Usage: %s command [options]" % (
	os.path.basename(sys.argv[0])), file=sys.stderr)
	print (file=sys.stderr)
	print ("Available commands:", file=sys.stderr)
	cmds_width = max(map(len, commands))
	for name,func in sorted(commands.items()):
	print (" %-*s - %s" % (cmds_width, name, func.__doc__), file=sys.stderr)
	sys.exit(1)

	def main():
	if len(sys.argv) < 2 or sys.argv[1] not in commands:
	usage()

	cmd = sys.argv[1]
	commands[cmd](cmd, sys.argv[2:])

	if __name__ == '__main__':
	main()