/* * * Copyright 2015 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 "src/compiler/cpp_generator.h" #include namespace grpc_cpp_generator { namespace { template grpc::string as_string(T x) { std::ostringstream out; out << x; return out.str(); } inline bool ClientOnlyStreaming(const grpc_generator::Method* method) { return method->ClientStreaming() && !method->ServerStreaming(); } inline bool ServerOnlyStreaming(const grpc_generator::Method* method) { return !method->ClientStreaming() && method->ServerStreaming(); } grpc::string FilenameIdentifier(const grpc::string& filename) { grpc::string result; for (unsigned i = 0; i < filename.size(); i++) { char c = filename[i]; if (isalnum(c)) { result.push_back(c); } else { static char hex[] = "0123456789abcdef"; result.push_back('_'); result.push_back(hex[(c >> 4) & 0xf]); result.push_back(hex[c & 0xf]); } } return result; } } // namespace template T* array_end(T (&array)[N]) { return array + N; } void PrintIncludes(grpc_generator::Printer* printer, const std::vector& headers, bool use_system_headers, const grpc::string& search_path) { std::map vars; vars["l"] = use_system_headers ? '<' : '"'; vars["r"] = use_system_headers ? '>' : '"'; if (!search_path.empty()) { vars["l"] += search_path; if (search_path[search_path.size() - 1] != '/') { vars["l"] += '/'; } } for (auto i = headers.begin(); i != headers.end(); i++) { vars["h"] = *i; printer->Print(vars, "#include $l$$h$$r$\n"); } } grpc::string GetHeaderPrologue(grpc_generator::File* file, const Parameters& /*params*/) { grpc::string output; { // Scope the output stream so it closes and finalizes output to the string. auto printer = file->CreatePrinter(&output); std::map vars; vars["filename"] = file->filename(); vars["filename_identifier"] = FilenameIdentifier(file->filename()); vars["filename_base"] = file->filename_without_ext(); vars["message_header_ext"] = kCppGeneratorMessageHeaderExt; printer->Print(vars, "// Generated by the gRPC C++ plugin.\n"); printer->Print(vars, "// If you make any local change, they will be lost.\n"); printer->Print(vars, "// source: $filename$\n"); grpc::string leading_comments = file->GetLeadingComments("//"); if (!leading_comments.empty()) { printer->Print(vars, "// Original file comments:\n"); printer->PrintRaw(leading_comments.c_str()); } printer->Print(vars, "#ifndef GRPC_$filename_identifier$__INCLUDED\n"); printer->Print(vars, "#define GRPC_$filename_identifier$__INCLUDED\n"); printer->Print(vars, "\n"); printer->Print(vars, "#include \"$filename_base$$message_header_ext$\"\n"); printer->Print(vars, file->additional_headers().c_str()); printer->Print(vars, "\n"); } return output; } grpc::string GetHeaderIncludes(grpc_generator::File* file, const Parameters& params) { grpc::string output; { // Scope the output stream so it closes and finalizes output to the string. auto printer = file->CreatePrinter(&output); std::map vars; if (!params.additional_header_includes.empty()) { PrintIncludes(printer.get(), params.additional_header_includes, false, ""); } static const char* headers_strs[] = { "grpc++/impl/codegen/async_stream.h", "grpc++/impl/codegen/async_unary_call.h", "grpc++/impl/codegen/method_handler_impl.h", "grpc++/impl/codegen/proto_utils.h", "grpc++/impl/codegen/rpc_method.h", "grpc++/impl/codegen/service_type.h", "grpc++/impl/codegen/status.h", "grpc++/impl/codegen/stub_options.h", "grpc++/impl/codegen/sync_stream.h"}; std::vector headers(headers_strs, array_end(headers_strs)); PrintIncludes(printer.get(), headers, params.use_system_headers, params.grpc_search_path); printer->Print(vars, "\n"); printer->Print(vars, "namespace grpc {\n"); printer->Print(vars, "class CompletionQueue;\n"); printer->Print(vars, "class Channel;\n"); printer->Print(vars, "class ServerCompletionQueue;\n"); printer->Print(vars, "class ServerContext;\n"); printer->Print(vars, "} // namespace grpc\n\n"); if (!file->package().empty()) { std::vector parts = file->package_parts(); for (auto part = parts.begin(); part != parts.end(); part++) { vars["part"] = *part; printer->Print(vars, "namespace $part$ {\n"); } printer->Print(vars, "\n"); } } return output; } void PrintHeaderClientMethodInterfaces( grpc_generator::Printer* printer, const grpc_generator::Method* method, std::map* vars, bool is_public) { (*vars)["Method"] = method->name(); (*vars)["Request"] = method->input_type_name(); (*vars)["Response"] = method->output_type_name(); struct { grpc::string prefix; grpc::string method_params; // extra arguments to method grpc::string raw_args; // extra arguments to raw version of method } async_prefixes[] = {{"Async", ", void* tag", ", tag"}, {"PrepareAsync", "", ""}}; if (is_public) { if (method->NoStreaming()) { printer->Print( *vars, "virtual ::grpc::Status $Method$(::grpc::ClientContext* context, " "const $Request$& request, $Response$* response) = 0;\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; printer->Print( *vars, "std::unique_ptr< " "::grpc::ClientAsyncResponseReaderInterface< $Response$>> " "$AsyncPrefix$$Method$(::grpc::ClientContext* context, " "const $Request$& request, " "::grpc::CompletionQueue* cq) {\n"); printer->Indent(); printer->Print( *vars, "return std::unique_ptr< " "::grpc::ClientAsyncResponseReaderInterface< $Response$>>(" "$AsyncPrefix$$Method$Raw(context, request, cq));\n"); printer->Outdent(); printer->Print("}\n"); } } else if (ClientOnlyStreaming(method)) { printer->Print( *vars, "std::unique_ptr< ::grpc::ClientWriterInterface< $Request$>>" " $Method$(" "::grpc::ClientContext* context, $Response$* response) {\n"); printer->Indent(); printer->Print( *vars, "return std::unique_ptr< ::grpc::ClientWriterInterface< $Request$>>" "($Method$Raw(context, response));\n"); printer->Outdent(); printer->Print("}\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; (*vars)["AsyncMethodParams"] = async_prefix.method_params; (*vars)["AsyncRawArgs"] = async_prefix.raw_args; printer->Print( *vars, "std::unique_ptr< ::grpc::ClientAsyncWriterInterface< $Request$>>" " $AsyncPrefix$$Method$(::grpc::ClientContext* context, " "$Response$* " "response, " "::grpc::CompletionQueue* cq$AsyncMethodParams$) {\n"); printer->Indent(); printer->Print(*vars, "return std::unique_ptr< " "::grpc::ClientAsyncWriterInterface< $Request$>>(" "$AsyncPrefix$$Method$Raw(context, response, " "cq$AsyncRawArgs$));\n"); printer->Outdent(); printer->Print("}\n"); } } else if (ServerOnlyStreaming(method)) { printer->Print( *vars, "std::unique_ptr< ::grpc::ClientReaderInterface< $Response$>>" " $Method$(::grpc::ClientContext* context, const $Request$& request)" " {\n"); printer->Indent(); printer->Print( *vars, "return std::unique_ptr< ::grpc::ClientReaderInterface< $Response$>>" "($Method$Raw(context, request));\n"); printer->Outdent(); printer->Print("}\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; (*vars)["AsyncMethodParams"] = async_prefix.method_params; (*vars)["AsyncRawArgs"] = async_prefix.raw_args; printer->Print( *vars, "std::unique_ptr< ::grpc::ClientAsyncReaderInterface< $Response$>> " "$AsyncPrefix$$Method$(" "::grpc::ClientContext* context, const $Request$& request, " "::grpc::CompletionQueue* cq$AsyncMethodParams$) {\n"); printer->Indent(); printer->Print( *vars, "return std::unique_ptr< " "::grpc::ClientAsyncReaderInterface< $Response$>>(" "$AsyncPrefix$$Method$Raw(context, request, cq$AsyncRawArgs$));\n"); printer->Outdent(); printer->Print("}\n"); } } else if (method->BidiStreaming()) { printer->Print(*vars, "std::unique_ptr< ::grpc::ClientReaderWriterInterface< " "$Request$, $Response$>> " "$Method$(::grpc::ClientContext* context) {\n"); printer->Indent(); printer->Print( *vars, "return std::unique_ptr< " "::grpc::ClientReaderWriterInterface< $Request$, $Response$>>(" "$Method$Raw(context));\n"); printer->Outdent(); printer->Print("}\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; (*vars)["AsyncMethodParams"] = async_prefix.method_params; (*vars)["AsyncRawArgs"] = async_prefix.raw_args; printer->Print( *vars, "std::unique_ptr< " "::grpc::ClientAsyncReaderWriterInterface< $Request$, $Response$>> " "$AsyncPrefix$$Method$(::grpc::ClientContext* context, " "::grpc::CompletionQueue* cq$AsyncMethodParams$) {\n"); printer->Indent(); printer->Print( *vars, "return std::unique_ptr< " "::grpc::ClientAsyncReaderWriterInterface< $Request$, $Response$>>(" "$AsyncPrefix$$Method$Raw(context, cq$AsyncRawArgs$));\n"); printer->Outdent(); printer->Print("}\n"); } } } else { if (method->NoStreaming()) { for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; printer->Print( *vars, "virtual ::grpc::ClientAsyncResponseReaderInterface< $Response$>* " "$AsyncPrefix$$Method$Raw(::grpc::ClientContext* context, " "const $Request$& request, " "::grpc::CompletionQueue* cq) = 0;\n"); } } else if (ClientOnlyStreaming(method)) { printer->Print( *vars, "virtual ::grpc::ClientWriterInterface< $Request$>*" " $Method$Raw(" "::grpc::ClientContext* context, $Response$* response) = 0;\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; (*vars)["AsyncMethodParams"] = async_prefix.method_params; printer->Print( *vars, "virtual ::grpc::ClientAsyncWriterInterface< $Request$>*" " $AsyncPrefix$$Method$Raw(::grpc::ClientContext* context, " "$Response$* response, " "::grpc::CompletionQueue* cq$AsyncMethodParams$) = 0;\n"); } } else if (ServerOnlyStreaming(method)) { printer->Print( *vars, "virtual ::grpc::ClientReaderInterface< $Response$>* " "$Method$Raw(" "::grpc::ClientContext* context, const $Request$& request) = 0;\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; (*vars)["AsyncMethodParams"] = async_prefix.method_params; printer->Print( *vars, "virtual ::grpc::ClientAsyncReaderInterface< $Response$>* " "$AsyncPrefix$$Method$Raw(" "::grpc::ClientContext* context, const $Request$& request, " "::grpc::CompletionQueue* cq$AsyncMethodParams$) = 0;\n"); } } else if (method->BidiStreaming()) { printer->Print(*vars, "virtual ::grpc::ClientReaderWriterInterface< $Request$, " "$Response$>* " "$Method$Raw(::grpc::ClientContext* context) = 0;\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; (*vars)["AsyncMethodParams"] = async_prefix.method_params; printer->Print( *vars, "virtual ::grpc::ClientAsyncReaderWriterInterface< " "$Request$, $Response$>* " "$AsyncPrefix$$Method$Raw(::grpc::ClientContext* context, " "::grpc::CompletionQueue* cq$AsyncMethodParams$) = 0;\n"); } } } } void PrintHeaderClientMethod(grpc_generator::Printer* printer, const grpc_generator::Method* method, std::map* vars, bool is_public) { (*vars)["Method"] = method->name(); (*vars)["Request"] = method->input_type_name(); (*vars)["Response"] = method->output_type_name(); struct { grpc::string prefix; grpc::string method_params; // extra arguments to method grpc::string raw_args; // extra arguments to raw version of method } async_prefixes[] = {{"Async", ", void* tag", ", tag"}, {"PrepareAsync", "", ""}}; if (is_public) { if (method->NoStreaming()) { printer->Print( *vars, "::grpc::Status $Method$(::grpc::ClientContext* context, " "const $Request$& request, $Response$* response) override;\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; printer->Print( *vars, "std::unique_ptr< ::grpc::ClientAsyncResponseReader< $Response$>> " "$AsyncPrefix$$Method$(::grpc::ClientContext* context, " "const $Request$& request, " "::grpc::CompletionQueue* cq) {\n"); printer->Indent(); printer->Print(*vars, "return std::unique_ptr< " "::grpc::ClientAsyncResponseReader< $Response$>>(" "$AsyncPrefix$$Method$Raw(context, request, cq));\n"); printer->Outdent(); printer->Print("}\n"); } } else if (ClientOnlyStreaming(method)) { printer->Print( *vars, "std::unique_ptr< ::grpc::ClientWriter< $Request$>>" " $Method$(" "::grpc::ClientContext* context, $Response$* response) {\n"); printer->Indent(); printer->Print(*vars, "return std::unique_ptr< ::grpc::ClientWriter< $Request$>>" "($Method$Raw(context, response));\n"); printer->Outdent(); printer->Print("}\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; (*vars)["AsyncMethodParams"] = async_prefix.method_params; (*vars)["AsyncRawArgs"] = async_prefix.raw_args; printer->Print(*vars, "std::unique_ptr< ::grpc::ClientAsyncWriter< $Request$>>" " $AsyncPrefix$$Method$(::grpc::ClientContext* context, " "$Response$* response, " "::grpc::CompletionQueue* cq$AsyncMethodParams$) {\n"); printer->Indent(); printer->Print( *vars, "return std::unique_ptr< ::grpc::ClientAsyncWriter< $Request$>>(" "$AsyncPrefix$$Method$Raw(context, response, " "cq$AsyncRawArgs$));\n"); printer->Outdent(); printer->Print("}\n"); } } else if (ServerOnlyStreaming(method)) { printer->Print( *vars, "std::unique_ptr< ::grpc::ClientReader< $Response$>>" " $Method$(::grpc::ClientContext* context, const $Request$& request)" " {\n"); printer->Indent(); printer->Print( *vars, "return std::unique_ptr< ::grpc::ClientReader< $Response$>>" "($Method$Raw(context, request));\n"); printer->Outdent(); printer->Print("}\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; (*vars)["AsyncMethodParams"] = async_prefix.method_params; (*vars)["AsyncRawArgs"] = async_prefix.raw_args; printer->Print( *vars, "std::unique_ptr< ::grpc::ClientAsyncReader< $Response$>> " "$AsyncPrefix$$Method$(" "::grpc::ClientContext* context, const $Request$& request, " "::grpc::CompletionQueue* cq$AsyncMethodParams$) {\n"); printer->Indent(); printer->Print( *vars, "return std::unique_ptr< ::grpc::ClientAsyncReader< $Response$>>(" "$AsyncPrefix$$Method$Raw(context, request, cq$AsyncRawArgs$));\n"); printer->Outdent(); printer->Print("}\n"); } } else if (method->BidiStreaming()) { printer->Print( *vars, "std::unique_ptr< ::grpc::ClientReaderWriter< $Request$, $Response$>>" " $Method$(::grpc::ClientContext* context) {\n"); printer->Indent(); printer->Print(*vars, "return std::unique_ptr< " "::grpc::ClientReaderWriter< $Request$, $Response$>>(" "$Method$Raw(context));\n"); printer->Outdent(); printer->Print("}\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; (*vars)["AsyncMethodParams"] = async_prefix.method_params; (*vars)["AsyncRawArgs"] = async_prefix.raw_args; printer->Print(*vars, "std::unique_ptr< ::grpc::ClientAsyncReaderWriter< " "$Request$, $Response$>> " "$AsyncPrefix$$Method$(::grpc::ClientContext* context, " "::grpc::CompletionQueue* cq$AsyncMethodParams$) {\n"); printer->Indent(); printer->Print( *vars, "return std::unique_ptr< " "::grpc::ClientAsyncReaderWriter< $Request$, $Response$>>(" "$AsyncPrefix$$Method$Raw(context, cq$AsyncRawArgs$));\n"); printer->Outdent(); printer->Print("}\n"); } } } else { if (method->NoStreaming()) { for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; printer->Print( *vars, "::grpc::ClientAsyncResponseReader< $Response$>* " "$AsyncPrefix$$Method$Raw(::grpc::ClientContext* context, " "const $Request$& request, " "::grpc::CompletionQueue* cq) override;\n"); } } else if (ClientOnlyStreaming(method)) { printer->Print(*vars, "::grpc::ClientWriter< $Request$>* $Method$Raw(" "::grpc::ClientContext* context, $Response$* response) " "override;\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; (*vars)["AsyncMethodParams"] = async_prefix.method_params; (*vars)["AsyncRawArgs"] = async_prefix.raw_args; printer->Print( *vars, "::grpc::ClientAsyncWriter< $Request$>* $AsyncPrefix$$Method$Raw(" "::grpc::ClientContext* context, $Response$* response, " "::grpc::CompletionQueue* cq$AsyncMethodParams$) override;\n"); } } else if (ServerOnlyStreaming(method)) { printer->Print(*vars, "::grpc::ClientReader< $Response$>* $Method$Raw(" "::grpc::ClientContext* context, const $Request$& request)" " override;\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; (*vars)["AsyncMethodParams"] = async_prefix.method_params; (*vars)["AsyncRawArgs"] = async_prefix.raw_args; printer->Print( *vars, "::grpc::ClientAsyncReader< $Response$>* $AsyncPrefix$$Method$Raw(" "::grpc::ClientContext* context, const $Request$& request, " "::grpc::CompletionQueue* cq$AsyncMethodParams$) override;\n"); } } else if (method->BidiStreaming()) { printer->Print(*vars, "::grpc::ClientReaderWriter< $Request$, $Response$>* " "$Method$Raw(::grpc::ClientContext* context) override;\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; (*vars)["AsyncMethodParams"] = async_prefix.method_params; (*vars)["AsyncRawArgs"] = async_prefix.raw_args; printer->Print( *vars, "::grpc::ClientAsyncReaderWriter< $Request$, $Response$>* " "$AsyncPrefix$$Method$Raw(::grpc::ClientContext* context, " "::grpc::CompletionQueue* cq$AsyncMethodParams$) override;\n"); } } } } void PrintHeaderClientMethodData(grpc_generator::Printer* printer, const grpc_generator::Method* method, std::map* vars) { (*vars)["Method"] = method->name(); printer->Print(*vars, "const ::grpc::internal::RpcMethod rpcmethod_$Method$_;\n"); } void PrintHeaderServerMethodSync(grpc_generator::Printer* printer, const grpc_generator::Method* method, std::map* vars) { (*vars)["Method"] = method->name(); (*vars)["Request"] = method->input_type_name(); (*vars)["Response"] = method->output_type_name(); printer->Print(method->GetLeadingComments("//").c_str()); if (method->NoStreaming()) { printer->Print(*vars, "virtual ::grpc::Status $Method$(" "::grpc::ServerContext* context, const $Request$* request, " "$Response$* response);\n"); } else if (ClientOnlyStreaming(method)) { printer->Print(*vars, "virtual ::grpc::Status $Method$(" "::grpc::ServerContext* context, " "::grpc::ServerReader< $Request$>* reader, " "$Response$* response);\n"); } else if (ServerOnlyStreaming(method)) { printer->Print(*vars, "virtual ::grpc::Status $Method$(" "::grpc::ServerContext* context, const $Request$* request, " "::grpc::ServerWriter< $Response$>* writer);\n"); } else if (method->BidiStreaming()) { printer->Print( *vars, "virtual ::grpc::Status $Method$(" "::grpc::ServerContext* context, " "::grpc::ServerReaderWriter< $Response$, $Request$>* stream);" "\n"); } printer->Print(method->GetTrailingComments("//").c_str()); } void PrintHeaderServerMethodAsync(grpc_generator::Printer* printer, const grpc_generator::Method* method, std::map* vars) { (*vars)["Method"] = method->name(); (*vars)["Request"] = method->input_type_name(); (*vars)["Response"] = method->output_type_name(); printer->Print(*vars, "template \n"); printer->Print(*vars, "class WithAsyncMethod_$Method$ : public BaseClass {\n"); printer->Print( " private:\n" " void BaseClassMustBeDerivedFromService(const Service *service) {}\n"); printer->Print(" public:\n"); printer->Indent(); printer->Print(*vars, "WithAsyncMethod_$Method$() {\n" " ::grpc::Service::MarkMethodAsync($Idx$);\n" "}\n"); printer->Print(*vars, "~WithAsyncMethod_$Method$() override {\n" " BaseClassMustBeDerivedFromService(this);\n" "}\n"); if (method->NoStreaming()) { printer->Print( *vars, "// disable synchronous version of this method\n" "::grpc::Status $Method$(" "::grpc::ServerContext* context, const $Request$* request, " "$Response$* response) final override {\n" " abort();\n" " return ::grpc::Status(::grpc::StatusCode::UNIMPLEMENTED, \"\");\n" "}\n"); printer->Print( *vars, "void Request$Method$(" "::grpc::ServerContext* context, $Request$* request, " "::grpc::ServerAsyncResponseWriter< $Response$>* response, " "::grpc::CompletionQueue* new_call_cq, " "::grpc::ServerCompletionQueue* notification_cq, void *tag) {\n"); printer->Print(*vars, " ::grpc::Service::RequestAsyncUnary($Idx$, context, " "request, response, new_call_cq, notification_cq, tag);\n"); printer->Print("}\n"); } else if (ClientOnlyStreaming(method)) { printer->Print( *vars, "// disable synchronous version of this method\n" "::grpc::Status $Method$(" "::grpc::ServerContext* context, " "::grpc::ServerReader< $Request$>* reader, " "$Response$* response) final override {\n" " abort();\n" " return ::grpc::Status(::grpc::StatusCode::UNIMPLEMENTED, \"\");\n" "}\n"); printer->Print( *vars, "void Request$Method$(" "::grpc::ServerContext* context, " "::grpc::ServerAsyncReader< $Response$, $Request$>* reader, " "::grpc::CompletionQueue* new_call_cq, " "::grpc::ServerCompletionQueue* notification_cq, void *tag) {\n"); printer->Print(*vars, " ::grpc::Service::RequestAsyncClientStreaming($Idx$, " "context, reader, new_call_cq, notification_cq, tag);\n"); printer->Print("}\n"); } else if (ServerOnlyStreaming(method)) { printer->Print( *vars, "// disable synchronous version of this method\n" "::grpc::Status $Method$(" "::grpc::ServerContext* context, const $Request$* request, " "::grpc::ServerWriter< $Response$>* writer) final override " "{\n" " abort();\n" " return ::grpc::Status(::grpc::StatusCode::UNIMPLEMENTED, \"\");\n" "}\n"); printer->Print( *vars, "void Request$Method$(" "::grpc::ServerContext* context, $Request$* request, " "::grpc::ServerAsyncWriter< $Response$>* writer, " "::grpc::CompletionQueue* new_call_cq, " "::grpc::ServerCompletionQueue* notification_cq, void *tag) {\n"); printer->Print( *vars, " ::grpc::Service::RequestAsyncServerStreaming($Idx$, " "context, request, writer, new_call_cq, notification_cq, tag);\n"); printer->Print("}\n"); } else if (method->BidiStreaming()) { printer->Print( *vars, "// disable synchronous version of this method\n" "::grpc::Status $Method$(" "::grpc::ServerContext* context, " "::grpc::ServerReaderWriter< $Response$, $Request$>* stream) " "final override {\n" " abort();\n" " return ::grpc::Status(::grpc::StatusCode::UNIMPLEMENTED, \"\");\n" "}\n"); printer->Print( *vars, "void Request$Method$(" "::grpc::ServerContext* context, " "::grpc::ServerAsyncReaderWriter< $Response$, $Request$>* stream, " "::grpc::CompletionQueue* new_call_cq, " "::grpc::ServerCompletionQueue* notification_cq, void *tag) {\n"); printer->Print(*vars, " ::grpc::Service::RequestAsyncBidiStreaming($Idx$, " "context, stream, new_call_cq, notification_cq, tag);\n"); printer->Print("}\n"); } printer->Outdent(); printer->Print(*vars, "};\n"); } void PrintHeaderServerMethodStreamedUnary( grpc_generator::Printer* printer, const grpc_generator::Method* method, std::map* vars) { (*vars)["Method"] = method->name(); (*vars)["Request"] = method->input_type_name(); (*vars)["Response"] = method->output_type_name(); if (method->NoStreaming()) { printer->Print(*vars, "template \n"); printer->Print(*vars, "class WithStreamedUnaryMethod_$Method$ : " "public BaseClass {\n"); printer->Print( " private:\n" " void BaseClassMustBeDerivedFromService(const Service *service) " "{}\n"); printer->Print(" public:\n"); printer->Indent(); printer->Print(*vars, "WithStreamedUnaryMethod_$Method$() {\n" " ::grpc::Service::MarkMethodStreamed($Idx$,\n" " new ::grpc::internal::StreamedUnaryHandler< $Request$, " "$Response$>(std::bind" "(&WithStreamedUnaryMethod_$Method$::" "Streamed$Method$, this, std::placeholders::_1, " "std::placeholders::_2)));\n" "}\n"); printer->Print(*vars, "~WithStreamedUnaryMethod_$Method$() override {\n" " BaseClassMustBeDerivedFromService(this);\n" "}\n"); printer->Print( *vars, "// disable regular version of this method\n" "::grpc::Status $Method$(" "::grpc::ServerContext* context, const $Request$* request, " "$Response$* response) final override {\n" " abort();\n" " return ::grpc::Status(::grpc::StatusCode::UNIMPLEMENTED, \"\");\n" "}\n"); printer->Print(*vars, "// replace default version of method with streamed unary\n" "virtual ::grpc::Status Streamed$Method$(" "::grpc::ServerContext* context, " "::grpc::ServerUnaryStreamer< " "$Request$,$Response$>* server_unary_streamer)" " = 0;\n"); printer->Outdent(); printer->Print(*vars, "};\n"); } } void PrintHeaderServerMethodSplitStreaming( grpc_generator::Printer* printer, const grpc_generator::Method* method, std::map* vars) { (*vars)["Method"] = method->name(); (*vars)["Request"] = method->input_type_name(); (*vars)["Response"] = method->output_type_name(); if (ServerOnlyStreaming(method)) { printer->Print(*vars, "template \n"); printer->Print(*vars, "class WithSplitStreamingMethod_$Method$ : " "public BaseClass {\n"); printer->Print( " private:\n" " void BaseClassMustBeDerivedFromService(const Service *service) " "{}\n"); printer->Print(" public:\n"); printer->Indent(); printer->Print( *vars, "WithSplitStreamingMethod_$Method$() {\n" " ::grpc::Service::MarkMethodStreamed($Idx$,\n" " new ::grpc::internal::SplitServerStreamingHandler< $Request$, " "$Response$>(std::bind" "(&WithSplitStreamingMethod_$Method$::" "Streamed$Method$, this, std::placeholders::_1, " "std::placeholders::_2)));\n" "}\n"); printer->Print(*vars, "~WithSplitStreamingMethod_$Method$() override {\n" " BaseClassMustBeDerivedFromService(this);\n" "}\n"); printer->Print( *vars, "// disable regular version of this method\n" "::grpc::Status $Method$(" "::grpc::ServerContext* context, const $Request$* request, " "::grpc::ServerWriter< $Response$>* writer) final override " "{\n" " abort();\n" " return ::grpc::Status(::grpc::StatusCode::UNIMPLEMENTED, \"\");\n" "}\n"); printer->Print(*vars, "// replace default version of method with split streamed\n" "virtual ::grpc::Status Streamed$Method$(" "::grpc::ServerContext* context, " "::grpc::ServerSplitStreamer< " "$Request$,$Response$>* server_split_streamer)" " = 0;\n"); printer->Outdent(); printer->Print(*vars, "};\n"); } } void PrintHeaderServerMethodGeneric( grpc_generator::Printer* printer, const grpc_generator::Method* method, std::map* vars) { (*vars)["Method"] = method->name(); (*vars)["Request"] = method->input_type_name(); (*vars)["Response"] = method->output_type_name(); printer->Print(*vars, "template \n"); printer->Print(*vars, "class WithGenericMethod_$Method$ : public BaseClass {\n"); printer->Print( " private:\n" " void BaseClassMustBeDerivedFromService(const Service *service) {}\n"); printer->Print(" public:\n"); printer->Indent(); printer->Print(*vars, "WithGenericMethod_$Method$() {\n" " ::grpc::Service::MarkMethodGeneric($Idx$);\n" "}\n"); printer->Print(*vars, "~WithGenericMethod_$Method$() override {\n" " BaseClassMustBeDerivedFromService(this);\n" "}\n"); if (method->NoStreaming()) { printer->Print( *vars, "// disable synchronous version of this method\n" "::grpc::Status $Method$(" "::grpc::ServerContext* context, const $Request$* request, " "$Response$* response) final override {\n" " abort();\n" " return ::grpc::Status(::grpc::StatusCode::UNIMPLEMENTED, \"\");\n" "}\n"); } else if (ClientOnlyStreaming(method)) { printer->Print( *vars, "// disable synchronous version of this method\n" "::grpc::Status $Method$(" "::grpc::ServerContext* context, " "::grpc::ServerReader< $Request$>* reader, " "$Response$* response) final override {\n" " abort();\n" " return ::grpc::Status(::grpc::StatusCode::UNIMPLEMENTED, \"\");\n" "}\n"); } else if (ServerOnlyStreaming(method)) { printer->Print( *vars, "// disable synchronous version of this method\n" "::grpc::Status $Method$(" "::grpc::ServerContext* context, const $Request$* request, " "::grpc::ServerWriter< $Response$>* writer) final override " "{\n" " abort();\n" " return ::grpc::Status(::grpc::StatusCode::UNIMPLEMENTED, \"\");\n" "}\n"); } else if (method->BidiStreaming()) { printer->Print( *vars, "// disable synchronous version of this method\n" "::grpc::Status $Method$(" "::grpc::ServerContext* context, " "::grpc::ServerReaderWriter< $Response$, $Request$>* stream) " "final override {\n" " abort();\n" " return ::grpc::Status(::grpc::StatusCode::UNIMPLEMENTED, \"\");\n" "}\n"); } printer->Outdent(); printer->Print(*vars, "};\n"); } void PrintHeaderService(grpc_generator::Printer* printer, const grpc_generator::Service* service, std::map* vars) { (*vars)["Service"] = service->name(); printer->Print(service->GetLeadingComments("//").c_str()); printer->Print(*vars, "class $Service$ final {\n" " public:\n"); printer->Indent(); // Service metadata printer->Print(*vars, "static constexpr char const* service_full_name() {\n" " return \"$Package$$Service$\";\n" "}\n"); // Client side printer->Print( "class StubInterface {\n" " public:\n"); printer->Indent(); printer->Print("virtual ~StubInterface() {}\n"); for (int i = 0; i < service->method_count(); ++i) { printer->Print(service->method(i)->GetLeadingComments("//").c_str()); PrintHeaderClientMethodInterfaces(printer, service->method(i).get(), vars, true); printer->Print(service->method(i)->GetTrailingComments("//").c_str()); } printer->Outdent(); printer->Print("private:\n"); printer->Indent(); for (int i = 0; i < service->method_count(); ++i) { PrintHeaderClientMethodInterfaces(printer, service->method(i).get(), vars, false); } printer->Outdent(); printer->Print("};\n"); printer->Print( "class Stub final : public StubInterface" " {\n public:\n"); printer->Indent(); printer->Print( "Stub(const std::shared_ptr< ::grpc::ChannelInterface>& " "channel);\n"); for (int i = 0; i < service->method_count(); ++i) { PrintHeaderClientMethod(printer, service->method(i).get(), vars, true); } printer->Outdent(); printer->Print("\n private:\n"); printer->Indent(); printer->Print("std::shared_ptr< ::grpc::ChannelInterface> channel_;\n"); for (int i = 0; i < service->method_count(); ++i) { PrintHeaderClientMethod(printer, service->method(i).get(), vars, false); } for (int i = 0; i < service->method_count(); ++i) { PrintHeaderClientMethodData(printer, service->method(i).get(), vars); } printer->Outdent(); printer->Print("};\n"); printer->Print( "static std::unique_ptr NewStub(const std::shared_ptr< " "::grpc::ChannelInterface>& channel, " "const ::grpc::StubOptions& options = ::grpc::StubOptions());\n"); printer->Print("\n"); // Server side - base printer->Print( "class Service : public ::grpc::Service {\n" " public:\n"); printer->Indent(); printer->Print("Service();\n"); printer->Print("virtual ~Service();\n"); for (int i = 0; i < service->method_count(); ++i) { PrintHeaderServerMethodSync(printer, service->method(i).get(), vars); } printer->Outdent(); printer->Print("};\n"); // Server side - Asynchronous for (int i = 0; i < service->method_count(); ++i) { (*vars)["Idx"] = as_string(i); PrintHeaderServerMethodAsync(printer, service->method(i).get(), vars); } printer->Print("typedef "); for (int i = 0; i < service->method_count(); ++i) { (*vars)["method_name"] = service->method(i).get()->name(); printer->Print(*vars, "WithAsyncMethod_$method_name$<"); } printer->Print("Service"); for (int i = 0; i < service->method_count(); ++i) { printer->Print(" >"); } printer->Print(" AsyncService;\n"); // Server side - Generic for (int i = 0; i < service->method_count(); ++i) { (*vars)["Idx"] = as_string(i); PrintHeaderServerMethodGeneric(printer, service->method(i).get(), vars); } // Server side - Streamed Unary for (int i = 0; i < service->method_count(); ++i) { (*vars)["Idx"] = as_string(i); PrintHeaderServerMethodStreamedUnary(printer, service->method(i).get(), vars); } printer->Print("typedef "); for (int i = 0; i < service->method_count(); ++i) { (*vars)["method_name"] = service->method(i).get()->name(); if (service->method(i)->NoStreaming()) { printer->Print(*vars, "WithStreamedUnaryMethod_$method_name$<"); } } printer->Print("Service"); for (int i = 0; i < service->method_count(); ++i) { if (service->method(i)->NoStreaming()) { printer->Print(" >"); } } printer->Print(" StreamedUnaryService;\n"); // Server side - controlled server-side streaming for (int i = 0; i < service->method_count(); ++i) { (*vars)["Idx"] = as_string(i); PrintHeaderServerMethodSplitStreaming(printer, service->method(i).get(), vars); } printer->Print("typedef "); for (int i = 0; i < service->method_count(); ++i) { (*vars)["method_name"] = service->method(i).get()->name(); auto method = service->method(i); if (ServerOnlyStreaming(method.get())) { printer->Print(*vars, "WithSplitStreamingMethod_$method_name$<"); } } printer->Print("Service"); for (int i = 0; i < service->method_count(); ++i) { auto method = service->method(i); if (ServerOnlyStreaming(method.get())) { printer->Print(" >"); } } printer->Print(" SplitStreamedService;\n"); // Server side - typedef for controlled both unary and server-side streaming printer->Print("typedef "); for (int i = 0; i < service->method_count(); ++i) { (*vars)["method_name"] = service->method(i).get()->name(); auto method = service->method(i); if (ServerOnlyStreaming(method.get())) { printer->Print(*vars, "WithSplitStreamingMethod_$method_name$<"); } if (service->method(i)->NoStreaming()) { printer->Print(*vars, "WithStreamedUnaryMethod_$method_name$<"); } } printer->Print("Service"); for (int i = 0; i < service->method_count(); ++i) { auto method = service->method(i); if (service->method(i)->NoStreaming() || ServerOnlyStreaming(method.get())) { printer->Print(" >"); } } printer->Print(" StreamedService;\n"); printer->Outdent(); printer->Print("};\n"); printer->Print(service->GetTrailingComments("//").c_str()); } grpc::string GetHeaderServices(grpc_generator::File* file, const Parameters& params) { grpc::string output; { // Scope the output stream so it closes and finalizes output to the string. auto printer = file->CreatePrinter(&output); std::map vars; // Package string is empty or ends with a dot. It is used to fully qualify // method names. vars["Package"] = file->package(); if (!file->package().empty()) { vars["Package"].append("."); } if (!params.services_namespace.empty()) { vars["services_namespace"] = params.services_namespace; printer->Print(vars, "\nnamespace $services_namespace$ {\n\n"); } for (int i = 0; i < file->service_count(); ++i) { PrintHeaderService(printer.get(), file->service(i).get(), &vars); printer->Print("\n"); } if (!params.services_namespace.empty()) { printer->Print(vars, "} // namespace $services_namespace$\n\n"); } } return output; } grpc::string GetHeaderEpilogue(grpc_generator::File* file, const Parameters& /*params*/) { grpc::string output; { // Scope the output stream so it closes and finalizes output to the string. auto printer = file->CreatePrinter(&output); std::map vars; vars["filename"] = file->filename(); vars["filename_identifier"] = FilenameIdentifier(file->filename()); if (!file->package().empty()) { std::vector parts = file->package_parts(); for (auto part = parts.rbegin(); part != parts.rend(); part++) { vars["part"] = *part; printer->Print(vars, "} // namespace $part$\n"); } printer->Print(vars, "\n"); } printer->Print(vars, "\n"); printer->Print(vars, "#endif // GRPC_$filename_identifier$__INCLUDED\n"); printer->Print(file->GetTrailingComments("//").c_str()); } return output; } grpc::string GetSourcePrologue(grpc_generator::File* file, const Parameters& /*params*/) { grpc::string output; { // Scope the output stream so it closes and finalizes output to the string. auto printer = file->CreatePrinter(&output); std::map vars; vars["filename"] = file->filename(); vars["filename_base"] = file->filename_without_ext(); vars["message_header_ext"] = kCppGeneratorMessageHeaderExt; vars["service_header_ext"] = kCppGeneratorServiceHeaderExt; printer->Print(vars, "// Generated by the gRPC C++ plugin.\n"); printer->Print(vars, "// If you make any local change, they will be lost.\n"); printer->Print(vars, "// source: $filename$\n\n"); printer->Print(vars, "#include \"$filename_base$$message_header_ext$\"\n"); printer->Print(vars, "#include \"$filename_base$$service_header_ext$\"\n"); printer->Print(vars, "\n"); } return output; } grpc::string GetSourceIncludes(grpc_generator::File* file, const Parameters& params) { grpc::string output; { // Scope the output stream so it closes and finalizes output to the string. auto printer = file->CreatePrinter(&output); std::map vars; static const char* headers_strs[] = { "grpc++/impl/codegen/async_stream.h", "grpc++/impl/codegen/async_unary_call.h", "grpc++/impl/codegen/channel_interface.h", "grpc++/impl/codegen/client_unary_call.h", "grpc++/impl/codegen/method_handler_impl.h", "grpc++/impl/codegen/rpc_service_method.h", "grpc++/impl/codegen/service_type.h", "grpc++/impl/codegen/sync_stream.h"}; std::vector headers(headers_strs, array_end(headers_strs)); PrintIncludes(printer.get(), headers, params.use_system_headers, params.grpc_search_path); if (!file->package().empty()) { std::vector parts = file->package_parts(); for (auto part = parts.begin(); part != parts.end(); part++) { vars["part"] = *part; printer->Print(vars, "namespace $part$ {\n"); } } printer->Print(vars, "\n"); } return output; } void PrintSourceClientMethod(grpc_generator::Printer* printer, const grpc_generator::Method* method, std::map* vars) { (*vars)["Method"] = method->name(); (*vars)["Request"] = method->input_type_name(); (*vars)["Response"] = method->output_type_name(); struct { grpc::string prefix; grpc::string start; // bool literal expressed as string grpc::string method_params; // extra arguments to method grpc::string create_args; // extra arguments to creator } async_prefixes[] = {{"Async", "true", ", void* tag", ", tag"}, {"PrepareAsync", "false", "", ", nullptr"}}; if (method->NoStreaming()) { printer->Print(*vars, "::grpc::Status $ns$$Service$::Stub::$Method$(" "::grpc::ClientContext* context, " "const $Request$& request, $Response$* response) {\n"); printer->Print(*vars, " return ::grpc::internal::BlockingUnaryCall" "(channel_.get(), rpcmethod_$Method$_, " "context, request, response);\n}\n\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; (*vars)["AsyncStart"] = async_prefix.start; printer->Print(*vars, "::grpc::ClientAsyncResponseReader< $Response$>* " "$ns$$Service$::Stub::$AsyncPrefix$$Method$Raw(::grpc::" "ClientContext* context, " "const $Request$& request, " "::grpc::CompletionQueue* cq) {\n"); printer->Print( *vars, " return " "::grpc::internal::ClientAsyncResponseReaderFactory< $Response$>" "::Create(channel_.get(), cq, " "rpcmethod_$Method$_, " "context, request, $AsyncStart$);\n" "}\n\n"); } } else if (ClientOnlyStreaming(method)) { printer->Print(*vars, "::grpc::ClientWriter< $Request$>* " "$ns$$Service$::Stub::$Method$Raw(" "::grpc::ClientContext* context, $Response$* response) {\n"); printer->Print( *vars, " return ::grpc::internal::ClientWriterFactory< $Request$>::Create(" "channel_.get(), " "rpcmethod_$Method$_, " "context, response);\n" "}\n\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; (*vars)["AsyncStart"] = async_prefix.start; (*vars)["AsyncMethodParams"] = async_prefix.method_params; (*vars)["AsyncCreateArgs"] = async_prefix.create_args; printer->Print(*vars, "::grpc::ClientAsyncWriter< $Request$>* " "$ns$$Service$::Stub::$AsyncPrefix$$Method$Raw(" "::grpc::ClientContext* context, $Response$* response, " "::grpc::CompletionQueue* cq$AsyncMethodParams$) {\n"); printer->Print( *vars, " return ::grpc::internal::ClientAsyncWriterFactory< $Request$>" "::Create(channel_.get(), cq, " "rpcmethod_$Method$_, " "context, response, $AsyncStart$$AsyncCreateArgs$);\n" "}\n\n"); } } else if (ServerOnlyStreaming(method)) { printer->Print( *vars, "::grpc::ClientReader< $Response$>* " "$ns$$Service$::Stub::$Method$Raw(" "::grpc::ClientContext* context, const $Request$& request) {\n"); printer->Print( *vars, " return ::grpc::internal::ClientReaderFactory< $Response$>::Create(" "channel_.get(), " "rpcmethod_$Method$_, " "context, request);\n" "}\n\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; (*vars)["AsyncStart"] = async_prefix.start; (*vars)["AsyncMethodParams"] = async_prefix.method_params; (*vars)["AsyncCreateArgs"] = async_prefix.create_args; printer->Print( *vars, "::grpc::ClientAsyncReader< $Response$>* " "$ns$$Service$::Stub::$AsyncPrefix$$Method$Raw(" "::grpc::ClientContext* context, const $Request$& request, " "::grpc::CompletionQueue* cq$AsyncMethodParams$) {\n"); printer->Print( *vars, " return ::grpc::internal::ClientAsyncReaderFactory< $Response$>" "::Create(channel_.get(), cq, " "rpcmethod_$Method$_, " "context, request, $AsyncStart$$AsyncCreateArgs$);\n" "}\n\n"); } } else if (method->BidiStreaming()) { printer->Print( *vars, "::grpc::ClientReaderWriter< $Request$, $Response$>* " "$ns$$Service$::Stub::$Method$Raw(::grpc::ClientContext* context) {\n"); printer->Print(*vars, " return ::grpc::internal::ClientReaderWriterFactory< " "$Request$, $Response$>::Create(" "channel_.get(), " "rpcmethod_$Method$_, " "context);\n" "}\n\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; (*vars)["AsyncStart"] = async_prefix.start; (*vars)["AsyncMethodParams"] = async_prefix.method_params; (*vars)["AsyncCreateArgs"] = async_prefix.create_args; printer->Print(*vars, "::grpc::ClientAsyncReaderWriter< $Request$, $Response$>* " "$ns$$Service$::Stub::$AsyncPrefix$$Method$Raw(::grpc::" "ClientContext* context, " "::grpc::CompletionQueue* cq$AsyncMethodParams$) {\n"); printer->Print(*vars, " return " "::grpc::internal::ClientAsyncReaderWriterFactory< " "$Request$, $Response$>::Create(" "channel_.get(), cq, " "rpcmethod_$Method$_, " "context, $AsyncStart$$AsyncCreateArgs$);\n" "}\n\n"); } } } void PrintSourceServerMethod(grpc_generator::Printer* printer, const grpc_generator::Method* method, std::map* vars) { (*vars)["Method"] = method->name(); (*vars)["Request"] = method->input_type_name(); (*vars)["Response"] = method->output_type_name(); if (method->NoStreaming()) { printer->Print(*vars, "::grpc::Status $ns$$Service$::Service::$Method$(" "::grpc::ServerContext* context, " "const $Request$* request, $Response$* response) {\n"); printer->Print(" (void) context;\n"); printer->Print(" (void) request;\n"); printer->Print(" (void) response;\n"); printer->Print( " return ::grpc::Status(" "::grpc::StatusCode::UNIMPLEMENTED, \"\");\n"); printer->Print("}\n\n"); } else if (ClientOnlyStreaming(method)) { printer->Print(*vars, "::grpc::Status $ns$$Service$::Service::$Method$(" "::grpc::ServerContext* context, " "::grpc::ServerReader< $Request$>* reader, " "$Response$* response) {\n"); printer->Print(" (void) context;\n"); printer->Print(" (void) reader;\n"); printer->Print(" (void) response;\n"); printer->Print( " return ::grpc::Status(" "::grpc::StatusCode::UNIMPLEMENTED, \"\");\n"); printer->Print("}\n\n"); } else if (ServerOnlyStreaming(method)) { printer->Print(*vars, "::grpc::Status $ns$$Service$::Service::$Method$(" "::grpc::ServerContext* context, " "const $Request$* request, " "::grpc::ServerWriter< $Response$>* writer) {\n"); printer->Print(" (void) context;\n"); printer->Print(" (void) request;\n"); printer->Print(" (void) writer;\n"); printer->Print( " return ::grpc::Status(" "::grpc::StatusCode::UNIMPLEMENTED, \"\");\n"); printer->Print("}\n\n"); } else if (method->BidiStreaming()) { printer->Print(*vars, "::grpc::Status $ns$$Service$::Service::$Method$(" "::grpc::ServerContext* context, " "::grpc::ServerReaderWriter< $Response$, $Request$>* " "stream) {\n"); printer->Print(" (void) context;\n"); printer->Print(" (void) stream;\n"); printer->Print( " return ::grpc::Status(" "::grpc::StatusCode::UNIMPLEMENTED, \"\");\n"); printer->Print("}\n\n"); } } void PrintSourceService(grpc_generator::Printer* printer, const grpc_generator::Service* service, std::map* vars) { (*vars)["Service"] = service->name(); if (service->method_count() > 0) { printer->Print(*vars, "static const char* $prefix$$Service$_method_names[] = {\n"); for (int i = 0; i < service->method_count(); ++i) { (*vars)["Method"] = service->method(i).get()->name(); printer->Print(*vars, " \"/$Package$$Service$/$Method$\",\n"); } printer->Print(*vars, "};\n\n"); } printer->Print(*vars, "std::unique_ptr< $ns$$Service$::Stub> $ns$$Service$::NewStub(" "const std::shared_ptr< ::grpc::ChannelInterface>& channel, " "const ::grpc::StubOptions& options) {\n" " (void)options;\n" " std::unique_ptr< $ns$$Service$::Stub> stub(new " "$ns$$Service$::Stub(channel));\n" " return stub;\n" "}\n\n"); printer->Print(*vars, "$ns$$Service$::Stub::Stub(const std::shared_ptr< " "::grpc::ChannelInterface>& channel)\n"); printer->Indent(); printer->Print(": channel_(channel)"); for (int i = 0; i < service->method_count(); ++i) { auto method = service->method(i); (*vars)["Method"] = method->name(); (*vars)["Idx"] = as_string(i); if (method->NoStreaming()) { (*vars)["StreamingType"] = "NORMAL_RPC"; // NOTE: There is no reason to consider streamed-unary as a separate // category here since this part is setting up the client-side stub // and this appears as a NORMAL_RPC from the client-side. } else if (ClientOnlyStreaming(method.get())) { (*vars)["StreamingType"] = "CLIENT_STREAMING"; } else if (ServerOnlyStreaming(method.get())) { (*vars)["StreamingType"] = "SERVER_STREAMING"; } else { (*vars)["StreamingType"] = "BIDI_STREAMING"; } printer->Print(*vars, ", rpcmethod_$Method$_(" "$prefix$$Service$_method_names[$Idx$], " "::grpc::internal::RpcMethod::$StreamingType$, " "channel" ")\n"); } printer->Print("{}\n\n"); printer->Outdent(); for (int i = 0; i < service->method_count(); ++i) { (*vars)["Idx"] = as_string(i); PrintSourceClientMethod(printer, service->method(i).get(), vars); } printer->Print(*vars, "$ns$$Service$::Service::Service() {\n"); printer->Indent(); for (int i = 0; i < service->method_count(); ++i) { auto method = service->method(i); (*vars)["Idx"] = as_string(i); (*vars)["Method"] = method->name(); (*vars)["Request"] = method->input_type_name(); (*vars)["Response"] = method->output_type_name(); if (method->NoStreaming()) { printer->Print( *vars, "AddMethod(new ::grpc::internal::RpcServiceMethod(\n" " $prefix$$Service$_method_names[$Idx$],\n" " ::grpc::internal::RpcMethod::NORMAL_RPC,\n" " new ::grpc::internal::RpcMethodHandler< $ns$$Service$::Service, " "$Request$, " "$Response$>(\n" " std::mem_fn(&$ns$$Service$::Service::$Method$), this)));\n"); } else if (ClientOnlyStreaming(method.get())) { printer->Print( *vars, "AddMethod(new ::grpc::internal::RpcServiceMethod(\n" " $prefix$$Service$_method_names[$Idx$],\n" " ::grpc::internal::RpcMethod::CLIENT_STREAMING,\n" " new ::grpc::internal::ClientStreamingHandler< " "$ns$$Service$::Service, $Request$, $Response$>(\n" " std::mem_fn(&$ns$$Service$::Service::$Method$), this)));\n"); } else if (ServerOnlyStreaming(method.get())) { printer->Print( *vars, "AddMethod(new ::grpc::internal::RpcServiceMethod(\n" " $prefix$$Service$_method_names[$Idx$],\n" " ::grpc::internal::RpcMethod::SERVER_STREAMING,\n" " new ::grpc::internal::ServerStreamingHandler< " "$ns$$Service$::Service, $Request$, $Response$>(\n" " std::mem_fn(&$ns$$Service$::Service::$Method$), this)));\n"); } else if (method->BidiStreaming()) { printer->Print( *vars, "AddMethod(new ::grpc::internal::RpcServiceMethod(\n" " $prefix$$Service$_method_names[$Idx$],\n" " ::grpc::internal::RpcMethod::BIDI_STREAMING,\n" " new ::grpc::internal::BidiStreamingHandler< " "$ns$$Service$::Service, $Request$, $Response$>(\n" " std::mem_fn(&$ns$$Service$::Service::$Method$), this)));\n"); } } printer->Outdent(); printer->Print(*vars, "}\n\n"); printer->Print(*vars, "$ns$$Service$::Service::~Service() {\n" "}\n\n"); for (int i = 0; i < service->method_count(); ++i) { (*vars)["Idx"] = as_string(i); PrintSourceServerMethod(printer, service->method(i).get(), vars); } } grpc::string GetSourceServices(grpc_generator::File* file, const Parameters& params) { grpc::string output; { // Scope the output stream so it closes and finalizes output to the string. auto printer = file->CreatePrinter(&output); std::map vars; // Package string is empty or ends with a dot. It is used to fully qualify // method names. vars["Package"] = file->package(); if (!file->package().empty()) { vars["Package"].append("."); } if (!params.services_namespace.empty()) { vars["ns"] = params.services_namespace + "::"; vars["prefix"] = params.services_namespace; } else { vars["ns"] = ""; vars["prefix"] = ""; } for (int i = 0; i < file->service_count(); ++i) { PrintSourceService(printer.get(), file->service(i).get(), &vars); printer->Print("\n"); } } return output; } grpc::string GetSourceEpilogue(grpc_generator::File* file, const Parameters& /*params*/) { grpc::string temp; if (!file->package().empty()) { std::vector parts = file->package_parts(); for (auto part = parts.begin(); part != parts.end(); part++) { temp.append("} // namespace "); temp.append(*part); temp.append("\n"); } temp.append("\n"); } return temp; } // TODO(mmukhi): Make sure we need parameters or not. grpc::string GetMockPrologue(grpc_generator::File* file, const Parameters& /*params*/) { grpc::string output; { // Scope the output stream so it closes and finalizes output to the string. auto printer = file->CreatePrinter(&output); std::map vars; vars["filename"] = file->filename(); vars["filename_base"] = file->filename_without_ext(); vars["message_header_ext"] = kCppGeneratorMessageHeaderExt; vars["service_header_ext"] = kCppGeneratorServiceHeaderExt; printer->Print(vars, "// Generated by the gRPC C++ plugin.\n"); printer->Print(vars, "// If you make any local change, they will be lost.\n"); printer->Print(vars, "// source: $filename$\n\n"); printer->Print(vars, "#include \"$filename_base$$message_header_ext$\"\n"); printer->Print(vars, "#include \"$filename_base$$service_header_ext$\"\n"); printer->Print(vars, file->additional_headers().c_str()); printer->Print(vars, "\n"); } return output; } // TODO(mmukhi): Add client-stream and completion-queue headers. grpc::string GetMockIncludes(grpc_generator::File* file, const Parameters& params) { grpc::string output; { // Scope the output stream so it closes and finalizes output to the string. auto printer = file->CreatePrinter(&output); std::map vars; static const char* headers_strs[] = { "grpc++/impl/codegen/async_stream.h", "grpc++/impl/codegen/sync_stream.h", }; std::vector headers(headers_strs, array_end(headers_strs)); PrintIncludes(printer.get(), headers, params.use_system_headers, params.grpc_search_path); std::vector gmock_header; if (params.gmock_search_path.empty()) { gmock_header.push_back("gmock/gmock.h"); PrintIncludes(printer.get(), gmock_header, params.use_system_headers, params.grpc_search_path); } else { gmock_header.push_back("gmock.h"); // We use local includes when a gmock_search_path is given PrintIncludes(printer.get(), gmock_header, false, params.gmock_search_path); } if (!file->package().empty()) { std::vector parts = file->package_parts(); for (auto part = parts.begin(); part != parts.end(); part++) { vars["part"] = *part; printer->Print(vars, "namespace $part$ {\n"); } } printer->Print(vars, "\n"); } return output; } void PrintMockClientMethods(grpc_generator::Printer* printer, const grpc_generator::Method* method, std::map* vars) { (*vars)["Method"] = method->name(); (*vars)["Request"] = method->input_type_name(); (*vars)["Response"] = method->output_type_name(); struct { grpc::string prefix; grpc::string method_params; // extra arguments to method int extra_method_param_count; } async_prefixes[] = {{"Async", ", void* tag", 1}, {"PrepareAsync", "", 0}}; if (method->NoStreaming()) { printer->Print( *vars, "MOCK_METHOD3($Method$, ::grpc::Status(::grpc::ClientContext* context, " "const $Request$& request, $Response$* response));\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; printer->Print( *vars, "MOCK_METHOD3($AsyncPrefix$$Method$Raw, " "::grpc::ClientAsyncResponseReaderInterface< $Response$>*" "(::grpc::ClientContext* context, const $Request$& request, " "::grpc::CompletionQueue* cq));\n"); } } else if (ClientOnlyStreaming(method)) { printer->Print( *vars, "MOCK_METHOD2($Method$Raw, " "::grpc::ClientWriterInterface< $Request$>*" "(::grpc::ClientContext* context, $Response$* response));\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; (*vars)["AsyncMethodParams"] = async_prefix.method_params; (*vars)["MockArgs"] = std::to_string(3 + async_prefix.extra_method_param_count); printer->Print(*vars, "MOCK_METHOD$MockArgs$($AsyncPrefix$$Method$Raw, " "::grpc::ClientAsyncWriterInterface< $Request$>*" "(::grpc::ClientContext* context, $Response$* response, " "::grpc::CompletionQueue* cq$AsyncMethodParams$));\n"); } } else if (ServerOnlyStreaming(method)) { printer->Print( *vars, "MOCK_METHOD2($Method$Raw, " "::grpc::ClientReaderInterface< $Response$>*" "(::grpc::ClientContext* context, const $Request$& request));\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; (*vars)["AsyncMethodParams"] = async_prefix.method_params; (*vars)["MockArgs"] = std::to_string(3 + async_prefix.extra_method_param_count); printer->Print( *vars, "MOCK_METHOD$MockArgs$($AsyncPrefix$$Method$Raw, " "::grpc::ClientAsyncReaderInterface< $Response$>*" "(::grpc::ClientContext* context, const $Request$& request, " "::grpc::CompletionQueue* cq$AsyncMethodParams$));\n"); } } else if (method->BidiStreaming()) { printer->Print( *vars, "MOCK_METHOD1($Method$Raw, " "::grpc::ClientReaderWriterInterface< $Request$, $Response$>*" "(::grpc::ClientContext* context));\n"); for (auto async_prefix : async_prefixes) { (*vars)["AsyncPrefix"] = async_prefix.prefix; (*vars)["AsyncMethodParams"] = async_prefix.method_params; (*vars)["MockArgs"] = std::to_string(2 + async_prefix.extra_method_param_count); printer->Print( *vars, "MOCK_METHOD$MockArgs$($AsyncPrefix$$Method$Raw, " "::grpc::ClientAsyncReaderWriterInterface<$Request$, $Response$>*" "(::grpc::ClientContext* context, ::grpc::CompletionQueue* cq" "$AsyncMethodParams$));\n"); } } } void PrintMockService(grpc_generator::Printer* printer, const grpc_generator::Service* service, std::map* vars) { (*vars)["Service"] = service->name(); printer->Print(*vars, "class Mock$Service$Stub : public $Service$::StubInterface {\n" " public:\n"); printer->Indent(); for (int i = 0; i < service->method_count(); ++i) { PrintMockClientMethods(printer, service->method(i).get(), vars); } printer->Outdent(); printer->Print("};\n"); } grpc::string GetMockServices(grpc_generator::File* file, const Parameters& params) { grpc::string output; { // Scope the output stream so it closes and finalizes output to the string. auto printer = file->CreatePrinter(&output); std::map vars; // Package string is empty or ends with a dot. It is used to fully qualify // method names. vars["Package"] = file->package(); if (!file->package().empty()) { vars["Package"].append("."); } if (!params.services_namespace.empty()) { vars["services_namespace"] = params.services_namespace; printer->Print(vars, "\nnamespace $services_namespace$ {\n\n"); } for (int i = 0; i < file->service_count(); i++) { PrintMockService(printer.get(), file->service(i).get(), &vars); printer->Print("\n"); } if (!params.services_namespace.empty()) { printer->Print(vars, "} // namespace $services_namespace$\n\n"); } } return output; } grpc::string GetMockEpilogue(grpc_generator::File* file, const Parameters& /*params*/) { grpc::string temp; if (!file->package().empty()) { std::vector parts = file->package_parts(); for (auto part = parts.begin(); part != parts.end(); part++) { temp.append("} // namespace "); temp.append(*part); temp.append("\n"); } temp.append("\n"); } return temp; } } // namespace grpc_cpp_generator