// Copyright 2016 gRPC 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. #include #include #include "src/compiler/python_generator.h" #include "grpc_tools/main.h" #include #include #include #include #include #include #include #include #include #include using ::google::protobuf::FileDescriptor; using ::google::protobuf::compiler::CodeGenerator; using ::google::protobuf::compiler::DiskSourceTree; using ::google::protobuf::compiler::GeneratorContext; using ::google::protobuf::compiler::Importer; using ::google::protobuf::compiler::MultiFileErrorCollector; using ::google::protobuf::io::StringOutputStream; using ::google::protobuf::io::ZeroCopyOutputStream; namespace grpc_tools { int protoc_main(int argc, char* argv[]) { google::protobuf::compiler::CommandLineInterface cli; cli.AllowPlugins("protoc-"); // Proto2 Python google::protobuf::compiler::python::Generator py_generator; cli.RegisterGenerator("--python_out", &py_generator, "Generate Python source file."); // gRPC Python grpc_python_generator::GeneratorConfiguration grpc_py_config; grpc_python_generator::PythonGrpcGenerator grpc_py_generator(grpc_py_config); cli.RegisterGenerator("--grpc_python_out", &grpc_py_generator, "Generate Python source file."); return cli.Run(argc, argv); } namespace internal { class GeneratorContextImpl : public GeneratorContext { public: GeneratorContextImpl( const std::vector& parsed_files, std::vector>* files_out) : files_(files_out), parsed_files_(parsed_files) {} ZeroCopyOutputStream* Open(const std::string& filename) { files_->emplace_back(filename, ""); return new StringOutputStream(&(files_->back().second)); } // NOTE(rbellevi): Equivalent to Open, since all files start out empty. ZeroCopyOutputStream* OpenForAppend(const std::string& filename) { return Open(filename); } // NOTE(rbellevi): Equivalent to Open, since all files start out empty. ZeroCopyOutputStream* OpenForInsert(const std::string& filename, const std::string& insertion_point) { return Open(filename); } void ListParsedFiles( std::vector* output) { *output = parsed_files_; } private: std::vector>* files_; const std::vector& parsed_files_; }; class ErrorCollectorImpl : public MultiFileErrorCollector { public: ErrorCollectorImpl(std::vector<::grpc_tools::ProtocError>* errors, std::vector<::grpc_tools::ProtocWarning>* warnings) : errors_(errors), warnings_(warnings) {} void AddError(const std::string& filename, int line, int column, const std::string& message) { errors_->emplace_back(filename, line, column, message); } void AddWarning(const std::string& filename, int line, int column, const std::string& message) { warnings_->emplace_back(filename, line, column, message); } private: std::vector<::grpc_tools::ProtocError>* errors_; std::vector<::grpc_tools::ProtocWarning>* warnings_; }; static void calculate_transitive_closure( const FileDescriptor* descriptor, std::vector* transitive_closure, std::unordered_set* visited) { for (int i = 0; i < descriptor->dependency_count(); ++i) { const FileDescriptor* dependency = descriptor->dependency(i); if (visited->find(dependency) == visited->end()) { calculate_transitive_closure(dependency, transitive_closure, visited); } } transitive_closure->push_back(descriptor); visited->insert(descriptor); } } // end namespace internal static int generate_code( CodeGenerator* code_generator, char* protobuf_path, const std::vector* include_paths, std::vector>* files_out, std::vector<::grpc_tools::ProtocError>* errors, std::vector<::grpc_tools::ProtocWarning>* warnings) { std::unique_ptr error_collector( new internal::ErrorCollectorImpl(errors, warnings)); std::unique_ptr source_tree(new DiskSourceTree()); for (const auto& include_path : *include_paths) { source_tree->MapPath("", include_path); } Importer importer(source_tree.get(), error_collector.get()); const FileDescriptor* parsed_file = importer.Import(protobuf_path); if (parsed_file == nullptr) { return 1; } std::vector transitive_closure; std::unordered_set visited; internal::calculate_transitive_closure(parsed_file, &transitive_closure, &visited); internal::GeneratorContextImpl generator_context(transitive_closure, files_out); std::string error; for (const auto descriptor : transitive_closure) { code_generator->Generate(descriptor, "", &generator_context, &error); } return 0; } int protoc_get_protos( char* protobuf_path, const std::vector* include_paths, std::vector>* files_out, std::vector<::grpc_tools::ProtocError>* errors, std::vector<::grpc_tools::ProtocWarning>* warnings) { ::google::protobuf::compiler::python::Generator python_generator; return generate_code(&python_generator, protobuf_path, include_paths, files_out, errors, warnings); } int protoc_get_services( char* protobuf_path, const std::vector* include_paths, std::vector>* files_out, std::vector<::grpc_tools::ProtocError>* errors, std::vector<::grpc_tools::ProtocWarning>* warnings) { grpc_python_generator::GeneratorConfiguration grpc_py_config; grpc_python_generator::PythonGrpcGenerator grpc_py_generator(grpc_py_config); return generate_code(&grpc_py_generator, protobuf_path, include_paths, files_out, errors, warnings); } } // end namespace grpc_tools