src/tools/gypi_to_gn.py - cef - Git at Google

 # Copyright 2014 The Chromium Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.
 # Deleted from Chromium in https://crrev.com/097f64c631.

 """Converts a given gypi file to a python scope and writes the result to stdout.

 USING THIS SCRIPT IN CHROMIUM

 Forking Python to run this script in the middle of GN is slow, especially on
 Windows, and it makes both the GYP and GN files harder to follow. You can't
 use "git grep" to find files in the GN build any more, and tracking everything
 in GYP down requires a level of indirection. Any calls will have to be removed
 and cleaned up once the GYP-to-GN transition is complete.

 As a result, we only use this script when the list of files is large and
 frequently-changing. In these cases, having one canonical list outweights the
 downsides.

 As of this writing, the GN build is basically complete. It's likely that all
 large and frequently changing targets where this is appropriate use this
 mechanism already. And since we hope to turn down the GYP build soon, the time
 horizon is also relatively short. As a result, it is likely that no additional
 uses of this script should every be added to the build. During this later part
 of the transition period, we should be focusing more and more on the absolute
 readability of the GN build.


 HOW TO USE

 It is assumed that the file contains a toplevel dictionary, and this script
 will return that dictionary as a GN "scope" (see example below). This script
 does not know anything about GYP and it will not expand variables or execute
 conditions.

 It will strip conditions blocks.

 A variables block at the top level will be flattened so that the variables
 appear in the root dictionary. This way they can be returned to the GN code.

 Say your_file.gypi looked like this:
   {
      'sources': [ 'a.cc', 'b.cc' ],
      'defines': [ 'ENABLE_DOOM_MELON' ],
   }

 You would call it like this:
   gypi_values = exec_script("//build/gypi_to_gn.py",
                             [ rebase_path("your_file.gypi") ],
                             "scope",
                             [ "your_file.gypi" ])

 Notes:
  - The rebase_path call converts the gypi file from being relative to the
    current build file to being system absolute for calling the script, which
    will have a different current directory than this file.

  - The "scope" parameter tells GN to interpret the result as a series of GN
    variable assignments.

  - The last file argument to exec_script tells GN that the given file is a
    dependency of the build so Ninja can automatically re-run GN if the file
    changes.

 Read the values into a target like this:
   component("mycomponent") {
     sources = gypi_values.sources
     defines = gypi_values.defines
   }

 Sometimes your .gypi file will include paths relative to a different
 directory than the current .gn file. In this case, you can rebase them to
 be relative to the current directory.
   sources = rebase_path(gypi_values.sources, ".",
                         "//path/gypi/input/values/are/relative/to")

 This script will tolerate a 'variables' in the toplevel dictionary or not. If
 the toplevel dictionary just contains one item called 'variables', it will be
 collapsed away and the result will be the contents of that dictinoary. Some
 .gypi files are written with or without this, depending on how they expect to
 be embedded into a .gyp file.

 This script also has the ability to replace certain substrings in the input.
 Generally this is used to emulate GYP variable expansion. If you passed the
 argument "--replace=<(foo)=bar" then all instances of "<(foo)" in strings in
 the input will be replaced with "bar":

   gypi_values = exec_script("//build/gypi_to_gn.py",
                             [ rebase_path("your_file.gypi"),
                               "--replace=<(foo)=bar"],
                             "scope",
                             [ "your_file.gypi" ])

 """

 from __future__ import absolute_import
 from __future__ import print_function
 from optparse import OptionParser
 import os
 import sys

 try:
   # May already be in the import path.
   import gn_helpers
 except ImportError as e:
   # Add src/build to import path.
   cef_dir = os.path.abspath(os.path.join(os.path.dirname(__file__), os.pardir))
   src_dir = os.path.abspath(os.path.join(cef_dir, os.pardir))
   sys.path.append(os.path.join(src_dir, 'build'))
   import gn_helpers


 def LoadPythonDictionary(path):
   file_string = open(path).read()
   try:
     file_data = eval(file_string, {'__builtins__': None}, None)
   except SyntaxError as e:
     e.filename = path
     raise
   except Exception as e:
     raise Exception("Unexpected error while reading %s: %s" % (path, str(e)))

   assert isinstance(file_data, dict), "%s does not eval to a dictionary" % path

   # Flatten any variables to the top level.
   if 'variables' in file_data:
     file_data.update(file_data['variables'])
     del file_data['variables']

   # Strip all elements that this script can't process.
   elements_to_strip = [
     'conditions',
     'target_conditions',
     'target_defaults',
     'targets',
     'includes',
     'actions',
   ]
   for element in elements_to_strip:
     if element in file_data:
       del file_data[element]

   return file_data


 def ReplaceSubstrings(values, search_for, replace_with):
   """Recursively replaces substrings in a value.

   Replaces all substrings of the "search_for" with "repace_with" for all
   strings occurring in "values". This is done by recursively iterating into
   lists as well as the keys and values of dictionaries."""
   if isinstance(values, str):
     return values.replace(search_for, replace_with)

   if isinstance(values, list):
     return [ReplaceSubstrings(v, search_for, replace_with) for v in values]

   if isinstance(values, dict):
     # For dictionaries, do the search for both the key and values.
     result = {}
     for key, value in values.items():
       new_key = ReplaceSubstrings(key, search_for, replace_with)
       new_value = ReplaceSubstrings(value, search_for, replace_with)
       result[new_key] = new_value
     return result

   # Assume everything else is unchanged.
   return values

 def main():
   parser = OptionParser()
   parser.add_option("-r", "--replace", action="append",
     help="Replaces substrings. If passed a=b, replaces all substrs a with b.")
   (options, args) = parser.parse_args()

   if len(args) != 1:
     raise Exception("Need one argument which is the .gypi file to read.")

   data = LoadPythonDictionary(args[0])
   if options.replace:
     # Do replacements for all specified patterns.
     for replace in options.replace:
       split = replace.split('=')
       # Allow "foo=" to replace with nothing.
       if len(split) == 1:
         split.append('')
       assert len(split) == 2, "Replacement must be of the form 'key=value'."
       data = ReplaceSubstrings(data, split[0], split[1])

   # Sometimes .gypi files use the GYP syntax with percents at the end of the
   # variable name (to indicate not to overwrite a previously-defined value):
   #   'foo%': 'bar',
   # Convert these to regular variables.
   for key in data:
     if len(key) > 1 and key[len(key) - 1] == '%':
       data[key[:-1]] = data[key]
       del data[key]

   print(gn_helpers.ToGNString(data))

 if __name__ == '__main__':
   try:
     main()
   except Exception as e:
     print(str(e))
     sys.exit(1)
	# Copyright 2014 The Chromium Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.
	# Deleted from Chromium in https://crrev.com/097f64c631.

	"""Converts a given gypi file to a python scope and writes the result to stdout.

	USING THIS SCRIPT IN CHROMIUM

	Forking Python to run this script in the middle of GN is slow, especially on
	Windows, and it makes both the GYP and GN files harder to follow. You can't
	use "git grep" to find files in the GN build any more, and tracking everything
	in GYP down requires a level of indirection. Any calls will have to be removed
	and cleaned up once the GYP-to-GN transition is complete.

	As a result, we only use this script when the list of files is large and
	frequently-changing. In these cases, having one canonical list outweights the
	downsides.

	As of this writing, the GN build is basically complete. It's likely that all
	large and frequently changing targets where this is appropriate use this
	mechanism already. And since we hope to turn down the GYP build soon, the time
	horizon is also relatively short. As a result, it is likely that no additional
	uses of this script should every be added to the build. During this later part
	of the transition period, we should be focusing more and more on the absolute
	readability of the GN build.


	HOW TO USE

	It is assumed that the file contains a toplevel dictionary, and this script
	will return that dictionary as a GN "scope" (see example below). This script
	does not know anything about GYP and it will not expand variables or execute
	conditions.

	It will strip conditions blocks.

	A variables block at the top level will be flattened so that the variables
	appear in the root dictionary. This way they can be returned to the GN code.

	Say your_file.gypi looked like this:
	{
	'sources': [ 'a.cc', 'b.cc' ],
	'defines': [ 'ENABLE_DOOM_MELON' ],
	}

	You would call it like this:
	gypi_values = exec_script("//build/gypi_to_gn.py",
	[ rebase_path("your_file.gypi") ],
	"scope",
	[ "your_file.gypi" ])

	Notes:
	- The rebase_path call converts the gypi file from being relative to the
	current build file to being system absolute for calling the script, which
	will have a different current directory than this file.

	- The "scope" parameter tells GN to interpret the result as a series of GN
	variable assignments.

	- The last file argument to exec_script tells GN that the given file is a
	dependency of the build so Ninja can automatically re-run GN if the file
	changes.

	Read the values into a target like this:
	component("mycomponent") {
	sources = gypi_values.sources
	defines = gypi_values.defines
	}

	Sometimes your .gypi file will include paths relative to a different
	directory than the current .gn file. In this case, you can rebase them to
	be relative to the current directory.
	sources = rebase_path(gypi_values.sources, ".",
	"//path/gypi/input/values/are/relative/to")

	This script will tolerate a 'variables' in the toplevel dictionary or not. If
	the toplevel dictionary just contains one item called 'variables', it will be
	collapsed away and the result will be the contents of that dictinoary. Some
	.gypi files are written with or without this, depending on how they expect to
	be embedded into a .gyp file.

	This script also has the ability to replace certain substrings in the input.
	Generally this is used to emulate GYP variable expansion. If you passed the
	argument "--replace=<(foo)=bar" then all instances of "<(foo)" in strings in
	the input will be replaced with "bar":

	gypi_values = exec_script("//build/gypi_to_gn.py",
	[ rebase_path("your_file.gypi"),
	"--replace=<(foo)=bar"],
	"scope",
	[ "your_file.gypi" ])

	"""

	from __future__ import absolute_import
	from __future__ import print_function
	from optparse import OptionParser
	import os
	import sys

	try:
	# May already be in the import path.
	import gn_helpers
	except ImportError as e:
	# Add src/build to import path.
	cef_dir = os.path.abspath(os.path.join(os.path.dirname(__file__), os.pardir))
	src_dir = os.path.abspath(os.path.join(cef_dir, os.pardir))
	sys.path.append(os.path.join(src_dir, 'build'))
	import gn_helpers


	def LoadPythonDictionary(path):
	file_string = open(path).read()
	try:
	file_data = eval(file_string, {'__builtins__': None}, None)
	except SyntaxError as e:
	e.filename = path
	raise
	except Exception as e:
	raise Exception("Unexpected error while reading %s: %s" % (path, str(e)))

	assert isinstance(file_data, dict), "%s does not eval to a dictionary" % path

	# Flatten any variables to the top level.
	if 'variables' in file_data:
	file_data.update(file_data['variables'])
	del file_data['variables']

	# Strip all elements that this script can't process.
	elements_to_strip = [
	'conditions',
	'target_conditions',
	'target_defaults',
	'targets',
	'includes',
	'actions',
	]
	for element in elements_to_strip:
	if element in file_data:
	del file_data[element]

	return file_data


	def ReplaceSubstrings(values, search_for, replace_with):
	"""Recursively replaces substrings in a value.

	Replaces all substrings of the "search_for" with "repace_with" for all
	strings occurring in "values". This is done by recursively iterating into
	lists as well as the keys and values of dictionaries."""
	if isinstance(values, str):
	return values.replace(search_for, replace_with)

	if isinstance(values, list):
	return [ReplaceSubstrings(v, search_for, replace_with) for v in values]

	if isinstance(values, dict):
	# For dictionaries, do the search for both the key and values.
	result = {}
	for key, value in values.items():
	new_key = ReplaceSubstrings(key, search_for, replace_with)
	new_value = ReplaceSubstrings(value, search_for, replace_with)
	result[new_key] = new_value
	return result

	# Assume everything else is unchanged.
	return values

	def main():
	parser = OptionParser()
	parser.add_option("-r", "--replace", action="append",
	help="Replaces substrings. If passed a=b, replaces all substrs a with b.")
	(options, args) = parser.parse_args()

	if len(args) != 1:
	raise Exception("Need one argument which is the .gypi file to read.")

	data = LoadPythonDictionary(args[0])
	if options.replace:
	# Do replacements for all specified patterns.
	for replace in options.replace:
	split = replace.split('=')
	# Allow "foo=" to replace with nothing.
	if len(split) == 1:
	split.append('')
	assert len(split) == 2, "Replacement must be of the form 'key=value'."
	data = ReplaceSubstrings(data, split[0], split[1])

	# Sometimes .gypi files use the GYP syntax with percents at the end of the
	# variable name (to indicate not to overwrite a previously-defined value):
	# 'foo%': 'bar',
	# Convert these to regular variables.
	for key in data:
	if len(key) > 1 and key[len(key) - 1] == '%':
	data[key[:-1]] = data[key]
	del data[key]

	print(gn_helpers.ToGNString(data))

	if __name__ == '__main__':
	try:
	main()
	except Exception as e:
	print(str(e))
	sys.exit(1)