generator/main.py - dawn - Git at Google

 #!/usr/bin/env python2
 # Copyright 2017 The Dawn Authors
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #     http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.

 ############################################################
 # COMMON
 ############################################################
 from collections import namedtuple
 from common import Name
 import common
 import wire_cmd

 ############################################################
 # PARSE
 ############################################################
 import json

 def is_native_method(method):
     return method.return_type.category == "natively defined" or \
         any([arg.type.category == "natively defined" for arg in method.arguments])

 def link_object(obj, types):
     def make_method(json_data):
         arguments = common.linked_record_members(json_data.get('args', []), types)
         return common.Method(Name(json_data['name']), types[json_data.get('returns', 'void')], arguments)

     methods = [make_method(m) for m in obj.json_data.get('methods', [])]
     obj.methods = [method for method in methods if not is_native_method(method)]
     obj.native_methods = [method for method in methods if is_native_method(method)]

     # Compute the built object type for builders
     if obj.is_builder:
         for method in obj.methods:
             if method.name.canonical_case() == "get result":
                 obj.built_type = method.return_type
                 break
         assert(obj.built_type != None)

 def link_structure(struct, types):
     struct.members = common.linked_record_members(struct.json_data['members'], types)

 # Sort structures so that if struct A has struct B as a member, then B is listed before A
 # This is a form of topological sort where we try to keep the order reasonably similar to the
 # original order (though th sort isn't technically stable).
 # It works by computing for each struct type what is the depth of its DAG of dependents, then
 # resorting based on that depth using Python's stable sort. This makes a toposort because if
 # A depends on B then its depth will be bigger than B's. It is also nice because all nodes
 # with the same depth are kept in the input order.
 def topo_sort_structure(structs):
     for struct in structs:
         struct.visited = False
         struct.subdag_depth = 0

     def compute_depth(struct):
         if struct.visited:
             return struct.subdag_depth

         max_dependent_depth = 0
         for member in struct.members:
             if member.type.category == 'structure':
                 max_dependent_depth = max(max_dependent_depth, compute_depth(member.type) + 1)

         struct.subdag_depth = max_dependent_depth
         struct.visited = True
         return struct.subdag_depth

     for struct in structs:
         compute_depth(struct)

     result = sorted(structs, key=lambda struct: struct.subdag_depth)

     for struct in structs:
         del struct.visited
         del struct.subdag_depth

     return result

 def parse_json(json):
     category_to_parser = {
         'bitmask': common.BitmaskType,
         'enum': common.EnumType,
         'native': common.NativeType,
         'natively defined': common.NativelyDefined,
         'object': common.ObjectType,
         'structure': common.StructureType,
     }

     types = {}

     by_category = {}
     for name in category_to_parser.keys():
         by_category[name] = []

     for (name, json_data) in json.items():
         if name[0] == '_':
             continue
         category = json_data['category']
         parsed = category_to_parser[category](name, json_data)
         by_category[category].append(parsed)
         types[name] = parsed

     for obj in by_category['object']:
         link_object(obj, types)

     for struct in by_category['structure']:
         link_structure(struct, types)

     for category in by_category.keys():
         by_category[category] = sorted(by_category[category], key=lambda typ: typ.name.canonical_case())

     by_category['structure'] = topo_sort_structure(by_category['structure'])

     for struct in by_category['structure']:
         struct.update_metadata()

     return {
         'types': types,
         'by_category': by_category
     }

 #############################################################
 # OUTPUT
 #############################################################
 import re, os, sys
 from collections import OrderedDict

 kExtraPythonPath = '--extra-python-path'

 # Try using an additional python path from the arguments if present. This
 # isn't done through the regular argparse because PreprocessingLoader uses
 # jinja2 in the global scope before "main" gets to run.
 if kExtraPythonPath in sys.argv:
     path = sys.argv[sys.argv.index(kExtraPythonPath) + 1]
     sys.path.insert(1, path)

 import jinja2

 # A custom Jinja2 template loader that removes the extra indentation
 # of the template blocks so that the output is correctly indented
 class PreprocessingLoader(jinja2.BaseLoader):
     def __init__(self, path):
         self.path = path

     def get_source(self, environment, template):
         path = os.path.join(self.path, template)
         if not os.path.exists(path):
             raise jinja2.TemplateNotFound(template)
         mtime = os.path.getmtime(path)
         with open(path) as f:
             source = self.preprocess(f.read())
         return source, path, lambda: mtime == os.path.getmtime(path)

     blockstart = re.compile('{%-?\s*(if|for|block)[^}]*%}')
     blockend = re.compile('{%-?\s*end(if|for|block)[^}]*%}')

     def preprocess(self, source):
         lines = source.split('\n')

         # Compute the current indentation level of the template blocks and remove their indentation
         result = []
         indentation_level = 0

         for line in lines:
             # The capture in the regex adds one element per block start or end so we divide by two
             # there is also an extra line chunk corresponding to the line end, so we substract it.
             numends = (len(self.blockend.split(line)) - 1) // 2
             indentation_level -= numends

             line = self.remove_indentation(line, indentation_level)

             # Manually perform the lstrip_blocks jinja2 env options as it available starting from 2.7
             # and Travis only has Jinja 2.6
             if line.lstrip().startswith('{%'):
                 line = line.lstrip()

             result.append(line)

             numstarts = (len(self.blockstart.split(line)) - 1) // 2
             indentation_level += numstarts

         return '\n'.join(result) + '\n'

     def remove_indentation(self, line, n):
         for _ in range(n):
             if line.startswith(' '):
                 line = line[4:]
             elif line.startswith('\t'):
                 line = line[1:]
             else:
                 assert(line.strip() == '')
         return line

 FileRender = namedtuple('FileRender', ['template', 'output', 'params_dicts'])

 FileOutput = namedtuple('FileOutput', ['name', 'content'])

 def do_renders(renders, template_dir):
     env = jinja2.Environment(loader=PreprocessingLoader(template_dir), trim_blocks=True, line_comment_prefix='//*')

     outputs = []
     for render in renders:
         params = {}
         for param_dict in render.params_dicts:
             params.update(param_dict)
         content = env.get_template(render.template).render(**params)
         outputs.append(FileOutput(render.output, content))

     return outputs

 #############################################################
 # MAIN SOMETHING WHATEVER
 #############################################################
 import argparse, sys

 def as_varName(*names):
     return names[0].camelCase() + ''.join([name.CamelCase() for name in names[1:]])

 def as_cType(name):
     if name.native:
         return name.concatcase()
     else:
         return 'dawn' + name.CamelCase()

 def as_cppType(name):
     if name.native:
         return name.concatcase()
     else:
         return name.CamelCase()

 def decorate(name, typ, arg):
     if arg.annotation == 'value':
         return typ + ' ' + name
     elif arg.annotation == 'const*':
         return typ + ' const * ' + name
     elif arg.annotation == 'const*const*':
         return 'const ' + typ + '* const * ' + name
     else:
         assert(False)

 def annotated(typ, arg):
     name = as_varName(arg.name)
     return decorate(name, typ, arg)

 def as_cEnum(type_name, value_name):
     assert(not type_name.native and not value_name.native)
     return 'DAWN' + '_' + type_name.SNAKE_CASE() + '_' + value_name.SNAKE_CASE()

 def as_cppEnum(value_name):
     assert(not value_name.native)
     if value_name.concatcase()[0].isdigit():
         return "e" + value_name.CamelCase()
     return value_name.CamelCase()

 def as_cMethod(type_name, method_name):
     assert(not type_name.native and not method_name.native)
     return 'dawn' + type_name.CamelCase() + method_name.CamelCase()

 def as_MethodSuffix(type_name, method_name):
     assert(not type_name.native and not method_name.native)
     return type_name.CamelCase() + method_name.CamelCase()

 def as_cProc(type_name, method_name):
     assert(not type_name.native and not method_name.native)
     return 'dawn' + 'Proc' + type_name.CamelCase() + method_name.CamelCase()

 def as_frontendType(typ):
     if typ.category == 'object':
         if typ.is_builder:
             return typ.name.CamelCase() + '*'
         else:
             return typ.name.CamelCase() + 'Base*'
     elif typ.category in ['bitmask', 'enum']:
         return 'dawn::' + typ.name.CamelCase()
     elif typ.category == 'structure':
         return as_cppType(typ.name)
     else:
         return as_cType(typ.name)

 def cpp_native_methods(types, typ):
     methods = typ.methods + typ.native_methods

     if typ.is_builder:
         methods.append(common.Method(Name('set error callback'), types['void'], [
             common.RecordMember(Name('callback'), types['builder error callback'], 'value', False, False),
             common.RecordMember(Name('userdata1'), types['callback userdata'], 'value', False, False),
             common.RecordMember(Name('userdata2'), types['callback userdata'], 'value', False, False),
         ]))

     return methods

 def c_native_methods(types, typ):
     return cpp_native_methods(types, typ) + [
         common.Method(Name('reference'), types['void'], []),
         common.Method(Name('release'), types['void'], []),
     ]

 def js_native_methods(types, typ):
     return cpp_native_methods(types, typ)

 def debug(text):
     print(text)

 def do_assert(expr):
     assert expr
     return ''

 def get_renders_for_targets(api_params, wire_json, targets):
     base_params = {
         'enumerate': enumerate,
         'format': format,
         'len': len,
         'debug': debug,
         'assert': do_assert,

         'Name': lambda name: Name(name),

         'as_annotated_cType': lambda arg: annotated(as_cType(arg.type.name), arg),
         'as_annotated_cppType': lambda arg: annotated(as_cppType(arg.type.name), arg),
         'as_cEnum': as_cEnum,
         'as_cppEnum': as_cppEnum,
         'as_cMethod': as_cMethod,
         'as_MethodSuffix': as_MethodSuffix,
         'as_cProc': as_cProc,
         'as_cType': as_cType,
         'as_cppType': as_cppType,
         'as_varName': as_varName,
         'decorate': decorate,
     }

     renders = []

     c_params = {'native_methods': lambda typ: c_native_methods(api_params['types'], typ)}
     cpp_params = {'native_methods': lambda typ: cpp_native_methods(api_params['types'], typ)}

     if 'dawn_headers' in targets:
         renders.append(FileRender('api.h', 'dawn/dawn.h', [base_params, api_params, c_params]))
         renders.append(FileRender('apicpp.h', 'dawn/dawncpp.h', [base_params, api_params, cpp_params]))
         renders.append(FileRender('apicpp_traits.h', 'dawn/dawncpp_traits.h', [base_params, api_params, cpp_params]))

     if 'libdawn' in targets:
         additional_params = {'native_methods': lambda typ: cpp_native_methods(api_params['types'], typ)}
         renders.append(FileRender('api.c', 'dawn/dawn.c', [base_params, api_params, c_params]))
         renders.append(FileRender('apicpp.cpp', 'dawn/dawncpp.cpp', [base_params, api_params, cpp_params]))

     if 'mock_dawn' in targets:
         renders.append(FileRender('mock_api.h', 'mock/mock_dawn.h', [base_params, api_params, c_params]))
         renders.append(FileRender('mock_api.cpp', 'mock/mock_dawn.cpp', [base_params, api_params, c_params]))

     if 'dawn_native_utils' in targets:
         frontend_params = [
             base_params,
             api_params,
             c_params,
             {
                 'as_frontendType': lambda typ: as_frontendType(typ), # TODO as_frontendType and friends take a Type and not a Name :(
                 'as_annotated_frontendType': lambda arg: annotated(as_frontendType(arg.type), arg)
             }
         ]

         renders.append(FileRender('dawn_native/ValidationUtils.h', 'dawn_native/ValidationUtils_autogen.h', frontend_params))
         renders.append(FileRender('dawn_native/ValidationUtils.cpp', 'dawn_native/ValidationUtils_autogen.cpp', frontend_params))
         renders.append(FileRender('dawn_native/api_structs.h', 'dawn_native/dawn_structs_autogen.h', frontend_params))
         renders.append(FileRender('dawn_native/api_structs.cpp', 'dawn_native/dawn_structs_autogen.cpp', frontend_params))
         renders.append(FileRender('dawn_native/ProcTable.cpp', 'dawn_native/ProcTable.cpp', frontend_params))

     if 'dawn_wire' in targets:
         additional_params = wire_cmd.compute_wire_params(api_params, wire_json)

         wire_params = [
             base_params,
             api_params,
             c_params,
             {
                 'as_wireType': lambda typ: typ.name.CamelCase() + '*' if typ.category == 'object' else as_cppType(typ.name)
             },
             additional_params
         ]
         renders.append(FileRender('dawn_wire/TypeTraits.h', 'dawn_wire/TypeTraits_autogen.h', wire_params))
         renders.append(FileRender('dawn_wire/WireCmd.h', 'dawn_wire/WireCmd_autogen.h', wire_params))
         renders.append(FileRender('dawn_wire/WireCmd.cpp', 'dawn_wire/WireCmd_autogen.cpp', wire_params))
         renders.append(FileRender('dawn_wire/client/ApiObjects.h', 'dawn_wire/client/ApiObjects_autogen.h', wire_params))
         renders.append(FileRender('dawn_wire/client/ApiProcs.cpp', 'dawn_wire/client/ApiProcs_autogen.cpp', wire_params))
         renders.append(FileRender('dawn_wire/client/ApiProcs.h', 'dawn_wire/client/ApiProcs_autogen.h', wire_params))
         renders.append(FileRender('dawn_wire/client/ClientBase.h', 'dawn_wire/client/ClientBase_autogen.h', wire_params))
         renders.append(FileRender('dawn_wire/client/ClientDoers.cpp', 'dawn_wire/client/ClientDoers_autogen.cpp', wire_params))
         renders.append(FileRender('dawn_wire/client/ClientHandlers.cpp', 'dawn_wire/client/ClientHandlers_autogen.cpp', wire_params))
         renders.append(FileRender('dawn_wire/client/ClientPrototypes.inl', 'dawn_wire/client/ClientPrototypes_autogen.inl', wire_params))
         renders.append(FileRender('dawn_wire/server/ServerBase.h', 'dawn_wire/server/ServerBase_autogen.h', wire_params))
         renders.append(FileRender('dawn_wire/server/ServerCallbacks.cpp', 'dawn_wire/server/ServerCallbacks_autogen.cpp', wire_params))
         renders.append(FileRender('dawn_wire/server/ServerDoers.cpp', 'dawn_wire/server/ServerDoers_autogen.cpp', wire_params))
         renders.append(FileRender('dawn_wire/server/ServerHandlers.cpp', 'dawn_wire/server/ServerHandlers_autogen.cpp', wire_params))
         renders.append(FileRender('dawn_wire/server/ServerPrototypes.inl', 'dawn_wire/server/ServerPrototypes_autogen.inl', wire_params))

     return renders

 def output_to_json(outputs, output_json):
     json_root = {}
     for output in outputs:
         json_root[output.name] = output.content

     with open(output_json, 'w') as f:
         f.write(json.dumps(json_root))

 def output_depfile(depfile, output, dependencies):
     with open(depfile, 'w') as f:
         f.write(output + ": " + " ".join(dependencies))

 def main():
     allowed_targets = ['dawn_headers', 'libdawn', 'mock_dawn', 'dawn_wire', "dawn_native_utils"]

     parser = argparse.ArgumentParser(
         description = 'Generates code for various target for Dawn.',
         formatter_class = argparse.ArgumentDefaultsHelpFormatter
     )
     parser.add_argument('json', metavar='DAWN_JSON', nargs=1, type=str, help ='The DAWN JSON definition to use.')
     parser.add_argument('--wire-json', default=None, type=str, help='The DAWN WIRE JSON definition to use.')
     parser.add_argument('-t', '--template-dir', default='templates', type=str, help='Directory with template files.')
     parser.add_argument('-T', '--targets', required=True, type=str, help='Comma-separated subset of targets to output. Available targets: ' + ', '.join(allowed_targets))
     parser.add_argument(kExtraPythonPath, default=None, type=str, help='Additional python path to set before loading Jinja2')
     parser.add_argument('--output-json-tarball', default=None, type=str, help='Name of the "JSON tarball" to create (tar is too annoying to use in python).')
     parser.add_argument('--depfile', default=None, type=str, help='Name of the Ninja depfile to create for the JSON tarball')
     parser.add_argument('--expected-outputs-file', default=None, type=str, help="File to compare outputs with and fail if it doesn't match")

     args = parser.parse_args()

     # Load and parse the API json file
     with open(args.json[0]) as f:
         loaded_json = json.loads(f.read())
     api_params = parse_json(loaded_json)

     targets = args.targets.split(',')
     dependencies = [
         os.path.join(os.path.abspath(os.path.dirname(__file__)), "common.py")
     ]

     loaded_wire_json = None
     if args.wire_json:
       with open(args.wire_json) as f:
           loaded_wire_json = json.loads(f.read())
       dependencies.append(args.wire_json)

     renders = get_renders_for_targets(api_params, loaded_wire_json, targets)

     # The caller wants to assert that the outputs are what it expects.
     # Load the file and compare with our renders.
     if args.expected_outputs_file != None:
         with open(args.expected_outputs_file) as f:
             expected = set([line.strip() for line in f.readlines()])

         actual = set()
         actual.update([render.output for render in renders])

         if actual != expected:
             print("Wrong expected outputs, caller expected:\n    " + repr(list(expected)))
             print("Actual output:\n    " + repr(list(actual)))
             return 1

     outputs = do_renders(renders, args.template_dir)

     # Output the tarball and its depfile
     if args.output_json_tarball != None:
         output_to_json(outputs, args.output_json_tarball)

         dependencies += [args.template_dir + os.path.sep + render.template for render in renders]
         dependencies.append(args.json[0])
         dependencies.append(os.path.join(os.path.abspath(os.path.dirname(__file__)), "wire_cmd.py"))
         output_depfile(args.depfile, args.output_json_tarball, dependencies)

 if __name__ == '__main__':
     sys.exit(main())
	#!/usr/bin/env python2
	# Copyright 2017 The Dawn Authors
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	############################################################
	# COMMON
	############################################################
	from collections import namedtuple
	from common import Name
	import common
	import wire_cmd

	############################################################
	# PARSE
	############################################################
	import json

	def is_native_method(method):
	return method.return_type.category == "natively defined" or \
	any([arg.type.category == "natively defined" for arg in method.arguments])

	def link_object(obj, types):
	def make_method(json_data):
	arguments = common.linked_record_members(json_data.get('args', []), types)
	return common.Method(Name(json_data['name']), types[json_data.get('returns', 'void')], arguments)

	methods = [make_method(m) for m in obj.json_data.get('methods', [])]
	obj.methods = [method for method in methods if not is_native_method(method)]
	obj.native_methods = [method for method in methods if is_native_method(method)]

	# Compute the built object type for builders
	if obj.is_builder:
	for method in obj.methods:
	if method.name.canonical_case() == "get result":
	obj.built_type = method.return_type
	break
	assert(obj.built_type != None)

	def link_structure(struct, types):
	struct.members = common.linked_record_members(struct.json_data['members'], types)

	# Sort structures so that if struct A has struct B as a member, then B is listed before A
	# This is a form of topological sort where we try to keep the order reasonably similar to the
	# original order (though th sort isn't technically stable).
	# It works by computing for each struct type what is the depth of its DAG of dependents, then
	# resorting based on that depth using Python's stable sort. This makes a toposort because if
	# A depends on B then its depth will be bigger than B's. It is also nice because all nodes
	# with the same depth are kept in the input order.
	def topo_sort_structure(structs):
	for struct in structs:
	struct.visited = False
	struct.subdag_depth = 0

	def compute_depth(struct):
	if struct.visited:
	return struct.subdag_depth

	max_dependent_depth = 0
	for member in struct.members:
	if member.type.category == 'structure':
	max_dependent_depth = max(max_dependent_depth, compute_depth(member.type) + 1)

	struct.subdag_depth = max_dependent_depth
	struct.visited = True
	return struct.subdag_depth

	for struct in structs:
	compute_depth(struct)

	result = sorted(structs, key=lambda struct: struct.subdag_depth)

	for struct in structs:
	del struct.visited
	del struct.subdag_depth

	return result

	def parse_json(json):
	category_to_parser = {
	'bitmask': common.BitmaskType,
	'enum': common.EnumType,
	'native': common.NativeType,
	'natively defined': common.NativelyDefined,
	'object': common.ObjectType,
	'structure': common.StructureType,
	}

	types = {}

	by_category = {}
	for name in category_to_parser.keys():
	by_category[name] = []

	for (name, json_data) in json.items():
	if name[0] == '_':
	continue
	category = json_data['category']
	parsed = category_to_parser[category](name, json_data)
	by_category[category].append(parsed)
	types[name] = parsed

	for obj in by_category['object']:
	link_object(obj, types)

	for struct in by_category['structure']:
	link_structure(struct, types)

	for category in by_category.keys():
	by_category[category] = sorted(by_category[category], key=lambda typ: typ.name.canonical_case())

	by_category['structure'] = topo_sort_structure(by_category['structure'])

	for struct in by_category['structure']:
	struct.update_metadata()

	return {
	'types': types,
	'by_category': by_category
	}

	#############################################################
	# OUTPUT
	#############################################################
	import re, os, sys
	from collections import OrderedDict

	kExtraPythonPath = '--extra-python-path'

	# Try using an additional python path from the arguments if present. This
	# isn't done through the regular argparse because PreprocessingLoader uses
	# jinja2 in the global scope before "main" gets to run.
	if kExtraPythonPath in sys.argv:
	path = sys.argv[sys.argv.index(kExtraPythonPath) + 1]
	sys.path.insert(1, path)

	import jinja2

	# A custom Jinja2 template loader that removes the extra indentation
	# of the template blocks so that the output is correctly indented
	class PreprocessingLoader(jinja2.BaseLoader):
	def __init__(self, path):
	self.path = path

	def get_source(self, environment, template):
	path = os.path.join(self.path, template)
	if not os.path.exists(path):
	raise jinja2.TemplateNotFound(template)
	mtime = os.path.getmtime(path)
	with open(path) as f:
	source = self.preprocess(f.read())
	return source, path, lambda: mtime == os.path.getmtime(path)

	blockstart = re.compile('{%-?\s(if\|for\|block)[^}]%}')
	blockend = re.compile('{%-?\send(if\|for\|block)[^}]%}')

	def preprocess(self, source):
	lines = source.split('\n')

	# Compute the current indentation level of the template blocks and remove their indentation
	result = []
	indentation_level = 0

	for line in lines:
	# The capture in the regex adds one element per block start or end so we divide by two
	# there is also an extra line chunk corresponding to the line end, so we substract it.
	numends = (len(self.blockend.split(line)) - 1) // 2
	indentation_level -= numends

	line = self.remove_indentation(line, indentation_level)

	# Manually perform the lstrip_blocks jinja2 env options as it available starting from 2.7
	# and Travis only has Jinja 2.6
	if line.lstrip().startswith('{%'):
	line = line.lstrip()

	result.append(line)

	numstarts = (len(self.blockstart.split(line)) - 1) // 2
	indentation_level += numstarts

	return '\n'.join(result) + '\n'

	def remove_indentation(self, line, n):
	for _ in range(n):
	if line.startswith(' '):
	line = line[4:]
	elif line.startswith('\t'):
	line = line[1:]
	else:
	assert(line.strip() == '')
	return line

	FileRender = namedtuple('FileRender', ['template', 'output', 'params_dicts'])

	FileOutput = namedtuple('FileOutput', ['name', 'content'])

	def do_renders(renders, template_dir):
	env = jinja2.Environment(loader=PreprocessingLoader(template_dir), trim_blocks=True, line_comment_prefix='//*')

	outputs = []
	for render in renders:
	params = {}
	for param_dict in render.params_dicts:
	params.update(param_dict)
	content = env.get_template(render.template).render(**params)
	outputs.append(FileOutput(render.output, content))

	return outputs

	#############################################################
	# MAIN SOMETHING WHATEVER
	#############################################################
	import argparse, sys

	def as_varName(*names):
	return names[0].camelCase() + ''.join([name.CamelCase() for name in names[1:]])

	def as_cType(name):
	if name.native:
	return name.concatcase()
	else:
	return 'dawn' + name.CamelCase()

	def as_cppType(name):
	if name.native:
	return name.concatcase()
	else:
	return name.CamelCase()

	def decorate(name, typ, arg):
	if arg.annotation == 'value':
	return typ + ' ' + name
	elif arg.annotation == 'const*':
	return typ + ' const * ' + name
	elif arg.annotation == 'constconst':
	return 'const ' + typ + '* const * ' + name
	else:
	assert(False)

	def annotated(typ, arg):
	name = as_varName(arg.name)
	return decorate(name, typ, arg)

	def as_cEnum(type_name, value_name):
	assert(not type_name.native and not value_name.native)
	return 'DAWN' + '_' + type_name.SNAKE_CASE() + '_' + value_name.SNAKE_CASE()

	def as_cppEnum(value_name):
	assert(not value_name.native)
	if value_name.concatcase()[0].isdigit():
	return "e" + value_name.CamelCase()
	return value_name.CamelCase()

	def as_cMethod(type_name, method_name):
	assert(not type_name.native and not method_name.native)
	return 'dawn' + type_name.CamelCase() + method_name.CamelCase()

	def as_MethodSuffix(type_name, method_name):
	assert(not type_name.native and not method_name.native)
	return type_name.CamelCase() + method_name.CamelCase()

	def as_cProc(type_name, method_name):
	assert(not type_name.native and not method_name.native)
	return 'dawn' + 'Proc' + type_name.CamelCase() + method_name.CamelCase()

	def as_frontendType(typ):
	if typ.category == 'object':
	if typ.is_builder:
	return typ.name.CamelCase() + '*'
	else:
	return typ.name.CamelCase() + 'Base*'
	elif typ.category in ['bitmask', 'enum']:
	return 'dawn::' + typ.name.CamelCase()
	elif typ.category == 'structure':
	return as_cppType(typ.name)
	else:
	return as_cType(typ.name)

	def cpp_native_methods(types, typ):
	methods = typ.methods + typ.native_methods

	if typ.is_builder:
	methods.append(common.Method(Name('set error callback'), types['void'], [
	common.RecordMember(Name('callback'), types['builder error callback'], 'value', False, False),
	common.RecordMember(Name('userdata1'), types['callback userdata'], 'value', False, False),
	common.RecordMember(Name('userdata2'), types['callback userdata'], 'value', False, False),
	]))

	return methods

	def c_native_methods(types, typ):
	return cpp_native_methods(types, typ) + [
	common.Method(Name('reference'), types['void'], []),
	common.Method(Name('release'), types['void'], []),
	]

	def js_native_methods(types, typ):
	return cpp_native_methods(types, typ)

	def debug(text):
	print(text)

	def do_assert(expr):
	assert expr
	return ''

	def get_renders_for_targets(api_params, wire_json, targets):
	base_params = {
	'enumerate': enumerate,
	'format': format,
	'len': len,
	'debug': debug,
	'assert': do_assert,

	'Name': lambda name: Name(name),

	'as_annotated_cType': lambda arg: annotated(as_cType(arg.type.name), arg),
	'as_annotated_cppType': lambda arg: annotated(as_cppType(arg.type.name), arg),
	'as_cEnum': as_cEnum,
	'as_cppEnum': as_cppEnum,
	'as_cMethod': as_cMethod,
	'as_MethodSuffix': as_MethodSuffix,
	'as_cProc': as_cProc,
	'as_cType': as_cType,
	'as_cppType': as_cppType,
	'as_varName': as_varName,
	'decorate': decorate,
	}

	renders = []

	c_params = {'native_methods': lambda typ: c_native_methods(api_params['types'], typ)}
	cpp_params = {'native_methods': lambda typ: cpp_native_methods(api_params['types'], typ)}

	if 'dawn_headers' in targets:
	renders.append(FileRender('api.h', 'dawn/dawn.h', [base_params, api_params, c_params]))
	renders.append(FileRender('apicpp.h', 'dawn/dawncpp.h', [base_params, api_params, cpp_params]))
	renders.append(FileRender('apicpp_traits.h', 'dawn/dawncpp_traits.h', [base_params, api_params, cpp_params]))

	if 'libdawn' in targets:
	additional_params = {'native_methods': lambda typ: cpp_native_methods(api_params['types'], typ)}
	renders.append(FileRender('api.c', 'dawn/dawn.c', [base_params, api_params, c_params]))
	renders.append(FileRender('apicpp.cpp', 'dawn/dawncpp.cpp', [base_params, api_params, cpp_params]))

	if 'mock_dawn' in targets:
	renders.append(FileRender('mock_api.h', 'mock/mock_dawn.h', [base_params, api_params, c_params]))
	renders.append(FileRender('mock_api.cpp', 'mock/mock_dawn.cpp', [base_params, api_params, c_params]))

	if 'dawn_native_utils' in targets:
	frontend_params = [
	base_params,
	api_params,
	c_params,
	{
	'as_frontendType': lambda typ: as_frontendType(typ), # TODO as_frontendType and friends take a Type and not a Name :(
	'as_annotated_frontendType': lambda arg: annotated(as_frontendType(arg.type), arg)
	}
	]

	renders.append(FileRender('dawn_native/ValidationUtils.h', 'dawn_native/ValidationUtils_autogen.h', frontend_params))
	renders.append(FileRender('dawn_native/ValidationUtils.cpp', 'dawn_native/ValidationUtils_autogen.cpp', frontend_params))
	renders.append(FileRender('dawn_native/api_structs.h', 'dawn_native/dawn_structs_autogen.h', frontend_params))
	renders.append(FileRender('dawn_native/api_structs.cpp', 'dawn_native/dawn_structs_autogen.cpp', frontend_params))
	renders.append(FileRender('dawn_native/ProcTable.cpp', 'dawn_native/ProcTable.cpp', frontend_params))

	if 'dawn_wire' in targets:
	additional_params = wire_cmd.compute_wire_params(api_params, wire_json)

	wire_params = [
	base_params,
	api_params,
	c_params,
	{
	'as_wireType': lambda typ: typ.name.CamelCase() + '*' if typ.category == 'object' else as_cppType(typ.name)
	},
	additional_params
	]
	renders.append(FileRender('dawn_wire/TypeTraits.h', 'dawn_wire/TypeTraits_autogen.h', wire_params))
	renders.append(FileRender('dawn_wire/WireCmd.h', 'dawn_wire/WireCmd_autogen.h', wire_params))
	renders.append(FileRender('dawn_wire/WireCmd.cpp', 'dawn_wire/WireCmd_autogen.cpp', wire_params))
	renders.append(FileRender('dawn_wire/client/ApiObjects.h', 'dawn_wire/client/ApiObjects_autogen.h', wire_params))
	renders.append(FileRender('dawn_wire/client/ApiProcs.cpp', 'dawn_wire/client/ApiProcs_autogen.cpp', wire_params))
	renders.append(FileRender('dawn_wire/client/ApiProcs.h', 'dawn_wire/client/ApiProcs_autogen.h', wire_params))
	renders.append(FileRender('dawn_wire/client/ClientBase.h', 'dawn_wire/client/ClientBase_autogen.h', wire_params))
	renders.append(FileRender('dawn_wire/client/ClientDoers.cpp', 'dawn_wire/client/ClientDoers_autogen.cpp', wire_params))
	renders.append(FileRender('dawn_wire/client/ClientHandlers.cpp', 'dawn_wire/client/ClientHandlers_autogen.cpp', wire_params))
	renders.append(FileRender('dawn_wire/client/ClientPrototypes.inl', 'dawn_wire/client/ClientPrototypes_autogen.inl', wire_params))
	renders.append(FileRender('dawn_wire/server/ServerBase.h', 'dawn_wire/server/ServerBase_autogen.h', wire_params))
	renders.append(FileRender('dawn_wire/server/ServerCallbacks.cpp', 'dawn_wire/server/ServerCallbacks_autogen.cpp', wire_params))
	renders.append(FileRender('dawn_wire/server/ServerDoers.cpp', 'dawn_wire/server/ServerDoers_autogen.cpp', wire_params))
	renders.append(FileRender('dawn_wire/server/ServerHandlers.cpp', 'dawn_wire/server/ServerHandlers_autogen.cpp', wire_params))
	renders.append(FileRender('dawn_wire/server/ServerPrototypes.inl', 'dawn_wire/server/ServerPrototypes_autogen.inl', wire_params))

	return renders

	def output_to_json(outputs, output_json):
	json_root = {}
	for output in outputs:
	json_root[output.name] = output.content

	with open(output_json, 'w') as f:
	f.write(json.dumps(json_root))

	def output_depfile(depfile, output, dependencies):
	with open(depfile, 'w') as f:
	f.write(output + ": " + " ".join(dependencies))

	def main():
	allowed_targets = ['dawn_headers', 'libdawn', 'mock_dawn', 'dawn_wire', "dawn_native_utils"]

	parser = argparse.ArgumentParser(
	description = 'Generates code for various target for Dawn.',
	formatter_class = argparse.ArgumentDefaultsHelpFormatter
	)
	parser.add_argument('json', metavar='DAWN_JSON', nargs=1, type=str, help ='The DAWN JSON definition to use.')
	parser.add_argument('--wire-json', default=None, type=str, help='The DAWN WIRE JSON definition to use.')
	parser.add_argument('-t', '--template-dir', default='templates', type=str, help='Directory with template files.')
	parser.add_argument('-T', '--targets', required=True, type=str, help='Comma-separated subset of targets to output. Available targets: ' + ', '.join(allowed_targets))
	parser.add_argument(kExtraPythonPath, default=None, type=str, help='Additional python path to set before loading Jinja2')
	parser.add_argument('--output-json-tarball', default=None, type=str, help='Name of the "JSON tarball" to create (tar is too annoying to use in python).')
	parser.add_argument('--depfile', default=None, type=str, help='Name of the Ninja depfile to create for the JSON tarball')
	parser.add_argument('--expected-outputs-file', default=None, type=str, help="File to compare outputs with and fail if it doesn't match")

	args = parser.parse_args()

	# Load and parse the API json file
	with open(args.json[0]) as f:
	loaded_json = json.loads(f.read())
	api_params = parse_json(loaded_json)

	targets = args.targets.split(',')
	dependencies = [
	os.path.join(os.path.abspath(os.path.dirname(__file__)), "common.py")
	]

	loaded_wire_json = None
	if args.wire_json:
	with open(args.wire_json) as f:
	loaded_wire_json = json.loads(f.read())
	dependencies.append(args.wire_json)

	renders = get_renders_for_targets(api_params, loaded_wire_json, targets)

	# The caller wants to assert that the outputs are what it expects.
	# Load the file and compare with our renders.
	if args.expected_outputs_file != None:
	with open(args.expected_outputs_file) as f:
	expected = set([line.strip() for line in f.readlines()])

	actual = set()
	actual.update([render.output for render in renders])

	if actual != expected:
	print("Wrong expected outputs, caller expected:\n " + repr(list(expected)))
	print("Actual output:\n " + repr(list(actual)))
	return 1

	outputs = do_renders(renders, args.template_dir)

	# Output the tarball and its depfile
	if args.output_json_tarball != None:
	output_to_json(outputs, args.output_json_tarball)

	dependencies += [args.template_dir + os.path.sep + render.template for render in renders]
	dependencies.append(args.json[0])
	dependencies.append(os.path.join(os.path.abspath(os.path.dirname(__file__)), "wire_cmd.py"))
	output_depfile(args.depfile, args.output_json_tarball, dependencies)

	if __name__ == '__main__':
	sys.exit(main())