#!/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. import json, os, sys from collections import namedtuple from generator_lib import Generator, run_generator, FileRender ############################################################ # OBJECT MODEL ############################################################ class Name: def __init__(self, name, native=False): self.native = native if native: self.chunks = [name] else: self.chunks = name.split(' ') def CamelChunk(self, chunk): return chunk[0].upper() + chunk[1:] def canonical_case(self): return (' '.join(self.chunks)).lower() def concatcase(self): return ''.join(self.chunks) def camelCase(self): return self.chunks[0] + ''.join([self.CamelChunk(chunk) for chunk in self.chunks[1:]]) def CamelCase(self): return ''.join([self.CamelChunk(chunk) for chunk in self.chunks]) def SNAKE_CASE(self): return '_'.join([chunk.upper() for chunk in self.chunks]) def snake_case(self): return '_'.join(self.chunks) def concat_names(*names): return ' '.join([name.canonical_case() for name in names]) class Type: def __init__(self, name, json_data, native=False): self.json_data = json_data self.dict_name = name self.name = Name(name, native=native) self.category = json_data['category'] EnumValue = namedtuple('EnumValue', ['name', 'value']) class EnumType(Type): def __init__(self, name, json_data): Type.__init__(self, name, json_data) self.values = [EnumValue(Name(m['name']), m['value']) for m in self.json_data['values']] # Assert that all values are unique in enums all_values = set() for value in self.values: if value.value in all_values: raise Exception("Duplicate value {} in enum {}".format(value.value, name)) all_values.add(value.value) BitmaskValue = namedtuple('BitmaskValue', ['name', 'value']) class BitmaskType(Type): def __init__(self, name, json_data): Type.__init__(self, name, json_data) self.values = [BitmaskValue(Name(m['name']), m['value']) for m in self.json_data['values']] self.full_mask = 0 for value in self.values: self.full_mask = self.full_mask | value.value class NativeType(Type): def __init__(self, name, json_data): Type.__init__(self, name, json_data, native=True) class NativelyDefined(Type): def __init__(self, name, json_data): Type.__init__(self, name, json_data) # Methods and structures are both "records", so record members correspond to # method arguments or structure members. class RecordMember: def __init__(self, name, typ, annotation, optional, is_return_value): self.name = name self.type = typ self.annotation = annotation self.length = None self.optional = optional self.is_return_value = is_return_value self.handle_type = None def set_handle_type(self, handle_type): assert self.type.dict_name == "ObjectHandle" self.handle_type = handle_type Method = namedtuple('Method', ['name', 'return_type', 'arguments']) class ObjectType(Type): def __init__(self, name, json_data): Type.__init__(self, name, json_data) self.methods = [] self.native_methods = [] self.built_type = None class Record: def __init__(self, name): self.name = Name(name) self.members = [] self.has_dawn_object = False def update_metadata(self): def has_dawn_object(member): if isinstance(member.type, ObjectType): return True elif isinstance(member.type, StructureType): return member.type.has_dawn_object else: return False self.has_dawn_object = any(has_dawn_object(member) for member in self.members) class StructureType(Record, Type): def __init__(self, name, json_data): Record.__init__(self, name) Type.__init__(self, name, json_data) self.extensible = json_data.get("extensible", False) class Command(Record): def __init__(self, name, members=None): Record.__init__(self, name) self.members = members or [] self.derived_object = None self.derived_method = None def linked_record_members(json_data, types): members = [] members_by_name = {} for m in json_data: member = RecordMember(Name(m['name']), types[m['type']], m.get('annotation', 'value'), m.get('optional', False), m.get('is_return_value', False)) handle_type = m.get('handle_type') if handle_type: member.set_handle_type(types[handle_type]) members.append(member) members_by_name[member.name.canonical_case()] = member for (member, m) in zip(members, json_data): if member.annotation != 'value': if not 'length' in m: if member.type.category != 'object': member.length = "constant" member.constant_length = 1 else: assert(False) elif m['length'] == 'strlen': member.length = 'strlen' else: member.length = members_by_name[m['length']] return members ############################################################ # PARSE ############################################################ 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 = linked_record_members(json_data.get('args', []), types) return 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)] def link_structure(struct, types): struct.members = 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': BitmaskType, 'enum': EnumType, 'native': NativeType, 'natively defined': NativelyDefined, 'object': ObjectType, 'structure': 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 } ############################################################ # WIRE STUFF ############################################################ # Create wire commands from api methods def compute_wire_params(api_params, wire_json): wire_params = api_params.copy() types = wire_params['types'] commands = [] return_commands = [] # Generate commands from object methods for api_object in wire_params['by_category']['object']: for method in api_object.methods: command_name = concat_names(api_object.name, method.name) command_suffix = Name(command_name).CamelCase() # Only object return values or void are supported. Other methods must be handwritten. if method.return_type.category != 'object' and method.return_type.name.canonical_case() != 'void': assert(command_suffix in wire_json['special items']['client_handwritten_commands']) continue if command_suffix in wire_json['special items']['client_side_commands']: continue # Create object method commands by prepending "self" members = [RecordMember(Name('self'), types[api_object.dict_name], 'value', False, False)] members += method.arguments # Client->Server commands that return an object return the result object handle if method.return_type.category == 'object': result = RecordMember(Name('result'), types['ObjectHandle'], 'value', False, True) result.set_handle_type(method.return_type) members.append(result) command = Command(command_name, members) command.derived_object = api_object command.derived_method = method commands.append(command) for (name, json_data) in wire_json['commands'].items(): commands.append(Command(name, linked_record_members(json_data, types))) for (name, json_data) in wire_json['return commands'].items(): return_commands.append(Command(name, linked_record_members(json_data, types))) wire_params['cmd_records'] = { 'command': commands, 'return command': return_commands } for commands in wire_params['cmd_records'].values(): for command in commands: command.update_metadata() commands.sort(key=lambda c: c.name.canonical_case()) wire_params.update(wire_json.get('special items', {})) return wire_params ############################################################# # Generator ############################################################# 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 convert_cType_to_cppType(typ, annotation, arg, indent=0): if typ.category == 'native': return arg if annotation == 'value': if typ.category == 'object': return '{}::Acquire({})'.format(as_cppType(typ.name), arg) elif typ.category == 'structure': converted_members = [ convert_cType_to_cppType( member.type, member.annotation, '{}.{}'.format(arg, as_varName(member.name)), indent + 1) for member in typ.members] converted_members = [(' ' * 4) + m for m in converted_members ] converted_members = ',\n'.join(converted_members) return as_cppType(typ.name) + ' {\n' + converted_members + '\n}' else: return 'static_cast<{}>({})'.format(as_cppType(typ.name), arg) else: return 'reinterpret_cast<{} {}>({})'.format(as_cppType(typ.name), annotation, arg) def decorate(name, typ, arg): if arg.annotation == 'value': return typ + ' ' + name elif arg.annotation == '*': 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': 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): return typ.methods + typ.native_methods def c_native_methods(types, typ): return cpp_native_methods(types, typ) + [ Method(Name('reference'), types['void'], []), Method(Name('release'), types['void'], []), ] class MultiGeneratorFromDawnJSON(Generator): def get_description(self): return 'Generates code for various target from Dawn.json.' def add_commandline_arguments(self, parser): allowed_targets = ['dawn_headers', 'libdawn', 'mock_dawn', 'dawn_wire', "dawn_native_utils"] parser.add_argument('--dawn-json', required=True, 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('--targets', required=True, type=str, help='Comma-separated subset of targets to output. Available targets: ' + ', '.join(allowed_targets)) def get_file_renders(self, args): with open(args.dawn_json) as f: loaded_json = json.loads(f.read()) api_params = parse_json(loaded_json) targets = args.targets.split(',') wire_json = None if args.wire_json: with open(args.wire_json) as f: wire_json = json.loads(f.read()) base_params = { '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, 'convert_cType_to_cppType': convert_cType_to_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])) 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 = 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/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/ClientHandlers.cpp', 'dawn_wire/client/ClientHandlers_autogen.cpp', wire_params)) renders.append(FileRender('dawn_wire/client/ClientPrototypes.inc', 'dawn_wire/client/ClientPrototypes_autogen.inc', wire_params)) renders.append(FileRender('dawn_wire/server/ServerBase.h', 'dawn_wire/server/ServerBase_autogen.h', 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.inc', 'dawn_wire/server/ServerPrototypes_autogen.inc', wire_params)) return renders def get_dependencies(self, args): deps = [os.path.abspath(args.dawn_json)] if args.wire_json != None: deps += [os.path.abspath(args.wire_json)] return deps if __name__ == '__main__': sys.exit(run_generator(MultiGeneratorFromDawnJSON()))