build/android/gyp/java_cpp_features.py - chromium/src - Git at Google

 #!/usr/bin/env python3
 #
 # Copyright 2020 The Chromium Authors
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 import argparse
 import re
 import sys
 import zipfile

 from util import build_utils  # pylint: disable=unused-import
 from util import java_cpp_utils
 import action_helpers  # build_utils adds //build to sys.path.
 import zip_helpers


 class FeatureParserDelegate(java_cpp_utils.CppConstantParser.Delegate):
   # Ex. 'BASE_FEATURE(kConstantName, "StringNameOfTheFeature", ...);'
   # or 'BASE_FEATURE(kConstantName, ...);'
   # would parse as:
   #   ExtractConstantName() -> 'ConstantName'
   #   ExtractValue() -> '"StringNameOfTheFeature"' or '"ConstantName"'
   _FEATURE_RE = re.compile(r'BASE_FEATURE\(\s*(k\w+),')
   _STRING_LITERAL_RE = re.compile(r'"(?:\\"|[^"])*"')
   _constant_name = None  # The name of the current macro.
   _comma_count = 0  # Number of commas seen in the current macro.
   _string_literals = []  # All string literals seen in the current macro.

   def ExtractConstantName(self, line):
     # Reset to a clean state when extracting constant name.
     self._comma_count = 0
     self._string_literals = []
     self._constant_name = None

     match = self._FEATURE_RE.match(line)
     if match:
       # The regex ensures that the feature name starts with 'k'.
       feature_name = match.group(1)
       self._constant_name = feature_name[1:]
       return self._constant_name
     return None

   def ExtractValue(self, line):
     if line.strip().startswith('#') or line.strip().startswith("//"):
       # Skip C++ directives and comments within macros
       return None

     # Track all string literals.
     self._string_literals.extend(self._STRING_LITERAL_RE.findall(line))

     self._comma_count += line.count(',')

     # The value of a feature is determined once the whole macro has been parsed.
     if ')' not in line:
       return None

     # If there is exactly one string literal, that is the value. This handles
     # the 3-arg form of BASE_FEATURE.
     if len(self._string_literals) == 1:
       return self._string_literals[0]

     # If there are multiple string literals, we can't be sure which is correct.
     if len(self._string_literals) > 1:
       return None

     # If there is no string literal, this might be the 2-arg form. The value is
     # the constant name, quoted.
     if self._comma_count == 1:
       return f'"{self._constant_name}"'

     return None

   def CreateJavaConstant(self, name, value, comments):
     return java_cpp_utils.JavaString(name, value, comments)

   # This delegate requires multiline parsing to determine the feature string.
   def RequiresMultilineValueParsing(self):
     return True


 def _GenerateOutput(template, source_paths, features):
   description_template = """
     // This following string constants were inserted by
     //     {SCRIPT_NAME}
     // From
     //     {SOURCE_PATHS}

 """
   values = {
       'SCRIPT_NAME': java_cpp_utils.GetScriptName(),
       'SOURCE_PATHS': ',\n    //     '.join(source_paths),
   }
   description = description_template.format(**values)
   native_features = '\n\n'.join(x.Format() for x in features)

   # TODO(agrieve): Remove {{ and }} from input templates.
   template = template.replace('{{', '{').replace('}}', '}')
   return template.replace('{NATIVE_FEATURES}', description + native_features)


 def _ParseFeatureFile(path):
   with open(path, encoding='utf-8') as f:
     feature_file_parser = java_cpp_utils.CppConstantParser(
         FeatureParserDelegate(), f.readlines())
   return feature_file_parser.Parse()


 def _Generate(source_paths, template):
   package, class_name = java_cpp_utils.ParseTemplateFile(template)
   output_path = java_cpp_utils.GetJavaFilePath(package, class_name)

   features = []
   for source_path in source_paths:
     features.extend(_ParseFeatureFile(source_path))

   output = _GenerateOutput(template, source_paths, features)
   return output, output_path


 def _Main(argv):
   parser = argparse.ArgumentParser()
   parser.add_argument('--srcjar',
                       required=True,
                       help='The path at which to generate the .srcjar file')
   parser.add_argument('--template',
                       help='The template file with which to generate the Java '
                       'class. Must have "{NATIVE_FEATURES}" somewhere in '
                       'the template.')
   parser.add_argument('--class-name', help='FQN of Java class to generate')
   parser.add_argument('inputs',
                       nargs='+',
                       help='Input file(s)',
                       metavar='INPUTFILE')
   args = parser.parse_args(argv)

   if args.template:
     with open(args.template, encoding='utf-8') as f:
       template = f.read()
   else:
     template = java_cpp_utils.CreateDefaultTemplate(args.class_name,
                                                     '{NATIVE_FEATURES}')

   with action_helpers.atomic_output(args.srcjar) as f:
     with zipfile.ZipFile(f, 'w', zipfile.ZIP_STORED) as srcjar:
       data, path = _Generate(args.inputs, template)
       zip_helpers.add_to_zip_hermetic(srcjar, path, data=data)


 if __name__ == '__main__':
   _Main(sys.argv[1:])
	#!/usr/bin/env python3
	#
	# Copyright 2020 The Chromium Authors
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	import argparse
	import re
	import sys
	import zipfile

	from util import build_utils # pylint: disable=unused-import
	from util import java_cpp_utils
	import action_helpers # build_utils adds //build to sys.path.
	import zip_helpers


	class FeatureParserDelegate(java_cpp_utils.CppConstantParser.Delegate):
	# Ex. 'BASE_FEATURE(kConstantName, "StringNameOfTheFeature", ...);'
	# or 'BASE_FEATURE(kConstantName, ...);'
	# would parse as:
	# ExtractConstantName() -> 'ConstantName'
	# ExtractValue() -> '"StringNameOfTheFeature"' or '"ConstantName"'
	_FEATURE_RE = re.compile(r'BASE_FEATURE\(\s*(k\w+),')
	_STRING_LITERAL_RE = re.compile(r'"(?:\\"\|[^"])*"')
	_constant_name = None # The name of the current macro.
	_comma_count = 0 # Number of commas seen in the current macro.
	_string_literals = [] # All string literals seen in the current macro.

	def ExtractConstantName(self, line):
	# Reset to a clean state when extracting constant name.
	self._comma_count = 0
	self._string_literals = []
	self._constant_name = None

	match = self._FEATURE_RE.match(line)
	if match:
	# The regex ensures that the feature name starts with 'k'.
	feature_name = match.group(1)
	self._constant_name = feature_name[1:]
	return self._constant_name
	return None

	def ExtractValue(self, line):
	if line.strip().startswith('#') or line.strip().startswith("//"):
	# Skip C++ directives and comments within macros
	return None

	# Track all string literals.
	self._string_literals.extend(self._STRING_LITERAL_RE.findall(line))

	self._comma_count += line.count(',')

	# The value of a feature is determined once the whole macro has been parsed.
	if ')' not in line:
	return None

	# If there is exactly one string literal, that is the value. This handles
	# the 3-arg form of BASE_FEATURE.
	if len(self._string_literals) == 1:
	return self._string_literals[0]

	# If there are multiple string literals, we can't be sure which is correct.
	if len(self._string_literals) > 1:
	return None

	# If there is no string literal, this might be the 2-arg form. The value is
	# the constant name, quoted.
	if self._comma_count == 1:
	return f'"{self._constant_name}"'

	return None

	def CreateJavaConstant(self, name, value, comments):
	return java_cpp_utils.JavaString(name, value, comments)

	# This delegate requires multiline parsing to determine the feature string.
	def RequiresMultilineValueParsing(self):
	return True


	def _GenerateOutput(template, source_paths, features):
	description_template = """
	// This following string constants were inserted by
	// {SCRIPT_NAME}
	// From
	// {SOURCE_PATHS}

	"""
	values = {
	'SCRIPT_NAME': java_cpp_utils.GetScriptName(),
	'SOURCE_PATHS': ',\n // '.join(source_paths),
	}
	description = description_template.format(**values)
	native_features = '\n\n'.join(x.Format() for x in features)

	# TODO(agrieve): Remove {{ and }} from input templates.
	template = template.replace('{{', '{').replace('}}', '}')
	return template.replace('{NATIVE_FEATURES}', description + native_features)


	def _ParseFeatureFile(path):
	with open(path, encoding='utf-8') as f:
	feature_file_parser = java_cpp_utils.CppConstantParser(
	FeatureParserDelegate(), f.readlines())
	return feature_file_parser.Parse()


	def _Generate(source_paths, template):
	package, class_name = java_cpp_utils.ParseTemplateFile(template)
	output_path = java_cpp_utils.GetJavaFilePath(package, class_name)

	features = []
	for source_path in source_paths:
	features.extend(_ParseFeatureFile(source_path))

	output = _GenerateOutput(template, source_paths, features)
	return output, output_path


	def _Main(argv):
	parser = argparse.ArgumentParser()
	parser.add_argument('--srcjar',
	required=True,
	help='The path at which to generate the .srcjar file')
	parser.add_argument('--template',
	help='The template file with which to generate the Java '
	'class. Must have "{NATIVE_FEATURES}" somewhere in '
	'the template.')
	parser.add_argument('--class-name', help='FQN of Java class to generate')
	parser.add_argument('inputs',
	nargs='+',
	help='Input file(s)',
	metavar='INPUTFILE')
	args = parser.parse_args(argv)

	if args.template:
	with open(args.template, encoding='utf-8') as f:
	template = f.read()
	else:
	template = java_cpp_utils.CreateDefaultTemplate(args.class_name,
	'{NATIVE_FEATURES}')

	with action_helpers.atomic_output(args.srcjar) as f:
	with zipfile.ZipFile(f, 'w', zipfile.ZIP_STORED) as srcjar:
	data, path = _Generate(args.inputs, template)
	zip_helpers.add_to_zip_hermetic(srcjar, path, data=data)


	if __name__ == '__main__':
	_Main(sys.argv[1:])