/** * Autogenerated by Thrift for thrift/compiler/test/fixtures/basic-structured-annotations/src/module.thrift * * DO NOT EDIT UNLESS YOU ARE SURE THAT YOU KNOW WHAT YOU ARE DOING * @generated @nocommit */ #include "thrift/compiler/test/fixtures/basic-structured-annotations/gen-cpp2/MyServiceAsyncClient.h" #include namespace test::fixtures::basic-structured-annotations { typedef apache::thrift::ThriftPresult MyService_first_pargs; typedef apache::thrift::ThriftPresult> MyService_first_presult; typedef apache::thrift::ThriftPresult> MyService_second_pargs; typedef apache::thrift::ThriftPresult> MyService_second_presult; } // namespace test::fixtures::basic-structured-annotations template apache::thrift::SerializedRequest apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::fbthrift_serialize_first(Protocol_* prot, const RpcOptions& rpcOptions, apache::thrift::transport::THeader& header, apache::thrift::ContextStack* contextStack) { ::test::fixtures::basic-structured-annotations::MyService_first_pargs args; const auto sizer = [&](Protocol_* p) { return args.serializedSizeZC(p); }; const auto writer = [&](Protocol_* p) { args.write(p); }; return apache::thrift::preprocessSendT( prot, rpcOptions, contextStack, header, "first", writer, sizer, channel_->getChecksumSamplingRate()); } template void apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::fbthrift_send_first(apache::thrift::SerializedRequest&& request, RpcOptions&& rpcOptions, std::shared_ptr header, apache::thrift::RequestClientCallback::Ptr callback) { static ::apache::thrift::MethodMetadata::Data* methodMetadata = new ::apache::thrift::MethodMetadata::Data( "first", ::apache::thrift::FunctionQualifier::Unspecified, "test.dev/fixtures/basic-structured-annotations/MyService"); apache::thrift::clientSendT(std::move(request), std::forward(rpcOptions), std::move(callback), std::move(header), channel_.get(), ::apache::thrift::MethodMetadata::from_static(methodMetadata)); } template apache::thrift::SerializedRequest apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::fbthrift_serialize_second(Protocol_* prot, const RpcOptions& rpcOptions, apache::thrift::transport::THeader& header, apache::thrift::ContextStack* contextStack, ::std::int64_t p_count) { ::test::fixtures::basic-structured-annotations::MyService_second_pargs args; args.get<0>().value = &p_count; const auto sizer = [&](Protocol_* p) { return args.serializedSizeZC(p); }; const auto writer = [&](Protocol_* p) { args.write(p); }; return apache::thrift::preprocessSendT( prot, rpcOptions, contextStack, header, "second", writer, sizer, channel_->getChecksumSamplingRate()); } template void apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::fbthrift_send_second(apache::thrift::SerializedRequest&& request, RpcOptions&& rpcOptions, std::shared_ptr header, apache::thrift::RequestClientCallback::Ptr callback) { static ::apache::thrift::MethodMetadata::Data* methodMetadata = new ::apache::thrift::MethodMetadata::Data( "second", ::apache::thrift::FunctionQualifier::Unspecified, "test.dev/fixtures/basic-structured-annotations/MyService"); apache::thrift::clientSendT(std::move(request), std::forward(rpcOptions), std::move(callback), std::move(header), channel_.get(), ::apache::thrift::MethodMetadata::from_static(methodMetadata)); } void apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::first(std::unique_ptr callback) { ::apache::thrift::RpcOptions rpcOptions; first(rpcOptions, std::move(callback)); } void apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::first(apache::thrift::RpcOptions& rpcOptions, std::unique_ptr callback) { auto [ctx, header] = firstCtx(&rpcOptions); auto [wrappedCallback, contextStack] = apache::thrift::GeneratedAsyncClient::template prepareRequestClientCallback(std::move(callback), std::move(ctx)); fbthrift_serialize_and_send_first(rpcOptions, std::move(header), contextStack, std::move(wrappedCallback)); } void apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::fbthrift_serialize_and_send_first(apache::thrift::RpcOptions& rpcOptions, std::shared_ptr header, apache::thrift::ContextStack* contextStack, apache::thrift::RequestClientCallback::Ptr callback, bool stealRpcOptions) { apache::thrift::detail::ac::withProtocolWriter(apache::thrift::GeneratedAsyncClient::getChannel()->getProtocolId(), [&](auto&& writer) { apache::thrift::SerializedRequest request = fbthrift_serialize_first(&writer, rpcOptions, *header, contextStack); if (stealRpcOptions) { fbthrift_send_first(std::move(request), std::move(rpcOptions), std::move(header), std::move(callback)); } else { fbthrift_send_first(std::move(request), rpcOptions, std::move(header), std::move(callback)); } }); } std::pair<::apache::thrift::ContextStack::UniquePtr, std::shared_ptr<::apache::thrift::transport::THeader>> apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::firstCtx(apache::thrift::RpcOptions* rpcOptions) { auto header = std::make_shared( apache::thrift::transport::THeader::ALLOW_BIG_FRAMES); header->setProtocolId(channel_->getProtocolId()); if (rpcOptions) { header->setHeaders(rpcOptions->releaseWriteHeaders()); } auto ctx = apache::thrift::ContextStack::createWithClientContext( handlers_, interceptors_, getServiceName(), "MyService.first", *header); return {std::move(ctx), std::move(header)}; } void apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::sync_first(::test::fixtures::basic-structured-annotations::annotated_inline_string& _return) { ::apache::thrift::RpcOptions rpcOptions; sync_first(rpcOptions, _return); } void apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::sync_first(apache::thrift::RpcOptions& rpcOptions, ::test::fixtures::basic-structured-annotations::annotated_inline_string& _return) { apache::thrift::ClientReceiveState returnState; apache::thrift::ClientSyncCallback callback(&returnState); auto protocolId = apache::thrift::GeneratedAsyncClient::getChannel()->getProtocolId(); auto evb = apache::thrift::GeneratedAsyncClient::getChannel()->getEventBase(); auto ctxAndHeader = firstCtx(&rpcOptions); auto wrappedCallback = apache::thrift::RequestClientCallback::Ptr(&callback); #if FOLLY_HAS_COROUTINES const bool shouldProcessClientInterceptors = ctxAndHeader.first && ctxAndHeader.first->shouldProcessClientInterceptors(); if (shouldProcessClientInterceptors) { folly::coro::blockingWait(ctxAndHeader.first->processClientInterceptorsOnRequest()); } #endif callback.waitUntilDone( evb, [&] { fbthrift_serialize_and_send_first(rpcOptions, std::move(ctxAndHeader.second), ctxAndHeader.first.get(), std::move(wrappedCallback)); }); #if FOLLY_HAS_COROUTINES if (shouldProcessClientInterceptors) { folly::coro::blockingWait(ctxAndHeader.first->processClientInterceptorsOnResponse()); } #endif if (returnState.isException()) { returnState.exception().throw_exception(); } returnState.resetProtocolId(protocolId); returnState.resetCtx(std::move(ctxAndHeader.first)); SCOPE_EXIT { if (returnState.header() && !returnState.header()->getHeaders().empty()) { rpcOptions.setReadHeaders(returnState.header()->releaseHeaders()); } }; return folly::fibers::runInMainContext([&] { recv_first(_return, returnState); }); } folly::Future<::test::fixtures::basic-structured-annotations::annotated_inline_string> apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::future_first() { ::apache::thrift::RpcOptions rpcOptions; return future_first(rpcOptions); } folly::SemiFuture<::test::fixtures::basic-structured-annotations::annotated_inline_string> apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::semifuture_first() { ::apache::thrift::RpcOptions rpcOptions; return semifuture_first(rpcOptions); } folly::Future<::test::fixtures::basic-structured-annotations::annotated_inline_string> apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::future_first(apache::thrift::RpcOptions& rpcOptions) { using CallbackHelper = apache::thrift::detail::FutureCallbackHelper<::test::fixtures::basic-structured-annotations::annotated_inline_string>; folly::Promise promise; auto future = promise.getFuture(); auto callback = std::make_unique>(std::move(promise), recv_wrapped_first, channel_); first(rpcOptions, std::move(callback)); return std::move(future).thenValue(CallbackHelper::extractResult); } folly::SemiFuture<::test::fixtures::basic-structured-annotations::annotated_inline_string> apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::semifuture_first(apache::thrift::RpcOptions& rpcOptions) { auto callbackAndFuture = makeSemiFutureCallback(recv_wrapped_first, channel_); auto callback = std::move(callbackAndFuture.first); first(rpcOptions, std::move(callback)); return std::move(callbackAndFuture.second); } folly::Future>> apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::header_future_first(apache::thrift::RpcOptions& rpcOptions) { using CallbackHelper = apache::thrift::detail::FutureCallbackHelper>>; folly::Promise promise; auto future = promise.getFuture(); auto callback = std::make_unique>(std::move(promise), recv_wrapped_first, channel_); first(rpcOptions, std::move(callback)); return std::move(future).thenValue(CallbackHelper::extractResult); } folly::SemiFuture>> apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::header_semifuture_first(apache::thrift::RpcOptions& rpcOptions) { auto callbackAndFuture = makeHeaderSemiFutureCallback(recv_wrapped_first, channel_); auto callback = std::move(callbackAndFuture.first); first(rpcOptions, std::move(callback)); return std::move(callbackAndFuture.second); } void apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::first(folly::Function callback) { first(std::make_unique(std::move(callback))); } #if FOLLY_HAS_COROUTINES #endif // FOLLY_HAS_COROUTINES folly::exception_wrapper apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::recv_wrapped_first(::test::fixtures::basic-structured-annotations::annotated_inline_string& _return, ::apache::thrift::ClientReceiveState& state) { if (state.isException()) { return std::move(state.exception()); } if (!state.hasResponseBuffer()) { return folly::make_exception_wrapper("recv_ called without result"); } using result = ::test::fixtures::basic-structured-annotations::MyService_first_presult; switch (state.protocolId()) { case apache::thrift::protocol::T_BINARY_PROTOCOL: { apache::thrift::BinaryProtocolReader reader; return apache::thrift::detail::ac::recv_wrapped( &reader, state, _return); } case apache::thrift::protocol::T_COMPACT_PROTOCOL: { apache::thrift::CompactProtocolReader reader; return apache::thrift::detail::ac::recv_wrapped( &reader, state, _return); } default: { } } return folly::make_exception_wrapper("Could not find Protocol"); } void apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::recv_first(::test::fixtures::basic-structured-annotations::annotated_inline_string& _return, ::apache::thrift::ClientReceiveState& state) { auto ew = recv_wrapped_first(_return, state); if (ew) { ew.throw_exception(); } } void apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::recv_instance_first(::test::fixtures::basic-structured-annotations::annotated_inline_string& _return, ::apache::thrift::ClientReceiveState& state) { return recv_first(_return, state); } folly::exception_wrapper apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::recv_instance_wrapped_first(::test::fixtures::basic-structured-annotations::annotated_inline_string& _return, ::apache::thrift::ClientReceiveState& state) { return recv_wrapped_first(_return, state); } void apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::second(std::unique_ptr callback, ::std::int64_t p_count) { ::apache::thrift::RpcOptions rpcOptions; second(rpcOptions, std::move(callback), p_count); } void apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::second(apache::thrift::RpcOptions& rpcOptions, std::unique_ptr callback, ::std::int64_t p_count) { auto [ctx, header] = secondCtx(&rpcOptions); auto [wrappedCallback, contextStack] = apache::thrift::GeneratedAsyncClient::template prepareRequestClientCallback(std::move(callback), std::move(ctx)); fbthrift_serialize_and_send_second(rpcOptions, std::move(header), contextStack, std::move(wrappedCallback), p_count); } void apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::fbthrift_serialize_and_send_second(apache::thrift::RpcOptions& rpcOptions, std::shared_ptr header, apache::thrift::ContextStack* contextStack, apache::thrift::RequestClientCallback::Ptr callback, ::std::int64_t p_count, bool stealRpcOptions) { apache::thrift::detail::ac::withProtocolWriter(apache::thrift::GeneratedAsyncClient::getChannel()->getProtocolId(), [&](auto&& writer) { apache::thrift::SerializedRequest request = fbthrift_serialize_second(&writer, rpcOptions, *header, contextStack, p_count); if (stealRpcOptions) { fbthrift_send_second(std::move(request), std::move(rpcOptions), std::move(header), std::move(callback)); } else { fbthrift_send_second(std::move(request), rpcOptions, std::move(header), std::move(callback)); } }); } std::pair<::apache::thrift::ContextStack::UniquePtr, std::shared_ptr<::apache::thrift::transport::THeader>> apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::secondCtx(apache::thrift::RpcOptions* rpcOptions) { auto header = std::make_shared( apache::thrift::transport::THeader::ALLOW_BIG_FRAMES); header->setProtocolId(channel_->getProtocolId()); if (rpcOptions) { header->setHeaders(rpcOptions->releaseWriteHeaders()); } auto ctx = apache::thrift::ContextStack::createWithClientContext( handlers_, interceptors_, getServiceName(), "MyService.second", *header); return {std::move(ctx), std::move(header)}; } bool apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::sync_second(::std::int64_t p_count) { ::apache::thrift::RpcOptions rpcOptions; return sync_second(rpcOptions, p_count); } bool apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::sync_second(apache::thrift::RpcOptions& rpcOptions, ::std::int64_t p_count) { apache::thrift::ClientReceiveState returnState; apache::thrift::ClientSyncCallback callback(&returnState); auto protocolId = apache::thrift::GeneratedAsyncClient::getChannel()->getProtocolId(); auto evb = apache::thrift::GeneratedAsyncClient::getChannel()->getEventBase(); auto ctxAndHeader = secondCtx(&rpcOptions); auto wrappedCallback = apache::thrift::RequestClientCallback::Ptr(&callback); #if FOLLY_HAS_COROUTINES const bool shouldProcessClientInterceptors = ctxAndHeader.first && ctxAndHeader.first->shouldProcessClientInterceptors(); if (shouldProcessClientInterceptors) { folly::coro::blockingWait(ctxAndHeader.first->processClientInterceptorsOnRequest()); } #endif callback.waitUntilDone( evb, [&] { fbthrift_serialize_and_send_second(rpcOptions, std::move(ctxAndHeader.second), ctxAndHeader.first.get(), std::move(wrappedCallback), p_count); }); #if FOLLY_HAS_COROUTINES if (shouldProcessClientInterceptors) { folly::coro::blockingWait(ctxAndHeader.first->processClientInterceptorsOnResponse()); } #endif if (returnState.isException()) { returnState.exception().throw_exception(); } returnState.resetProtocolId(protocolId); returnState.resetCtx(std::move(ctxAndHeader.first)); SCOPE_EXIT { if (returnState.header() && !returnState.header()->getHeaders().empty()) { rpcOptions.setReadHeaders(returnState.header()->releaseHeaders()); } }; return folly::fibers::runInMainContext([&] { return recv_second(returnState); }); } folly::Future apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::future_second(::std::int64_t p_count) { ::apache::thrift::RpcOptions rpcOptions; return future_second(rpcOptions, p_count); } folly::SemiFuture apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::semifuture_second(::std::int64_t p_count) { ::apache::thrift::RpcOptions rpcOptions; return semifuture_second(rpcOptions, p_count); } folly::Future apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::future_second(apache::thrift::RpcOptions& rpcOptions, ::std::int64_t p_count) { using CallbackHelper = apache::thrift::detail::FutureCallbackHelper; folly::Promise promise; auto future = promise.getFuture(); auto callback = std::make_unique>(std::move(promise), recv_wrapped_second, channel_); second(rpcOptions, std::move(callback), p_count); return std::move(future).thenValue(CallbackHelper::extractResult); } folly::SemiFuture apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::semifuture_second(apache::thrift::RpcOptions& rpcOptions, ::std::int64_t p_count) { auto callbackAndFuture = makeSemiFutureCallback(recv_wrapped_second, channel_); auto callback = std::move(callbackAndFuture.first); second(rpcOptions, std::move(callback), p_count); return std::move(callbackAndFuture.second); } folly::Future>> apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::header_future_second(apache::thrift::RpcOptions& rpcOptions, ::std::int64_t p_count) { using CallbackHelper = apache::thrift::detail::FutureCallbackHelper>>; folly::Promise promise; auto future = promise.getFuture(); auto callback = std::make_unique>(std::move(promise), recv_wrapped_second, channel_); second(rpcOptions, std::move(callback), p_count); return std::move(future).thenValue(CallbackHelper::extractResult); } folly::SemiFuture>> apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::header_semifuture_second(apache::thrift::RpcOptions& rpcOptions, ::std::int64_t p_count) { auto callbackAndFuture = makeHeaderSemiFutureCallback(recv_wrapped_second, channel_); auto callback = std::move(callbackAndFuture.first); second(rpcOptions, std::move(callback), p_count); return std::move(callbackAndFuture.second); } void apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::second(folly::Function callback, ::std::int64_t p_count) { second(std::make_unique(std::move(callback)), p_count); } #if FOLLY_HAS_COROUTINES #endif // FOLLY_HAS_COROUTINES folly::exception_wrapper apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::recv_wrapped_second(bool& _return, ::apache::thrift::ClientReceiveState& state) { if (state.isException()) { return std::move(state.exception()); } if (!state.hasResponseBuffer()) { return folly::make_exception_wrapper("recv_ called without result"); } using result = ::test::fixtures::basic-structured-annotations::MyService_second_presult; switch (state.protocolId()) { case apache::thrift::protocol::T_BINARY_PROTOCOL: { apache::thrift::BinaryProtocolReader reader; return apache::thrift::detail::ac::recv_wrapped( &reader, state, _return); } case apache::thrift::protocol::T_COMPACT_PROTOCOL: { apache::thrift::CompactProtocolReader reader; return apache::thrift::detail::ac::recv_wrapped( &reader, state, _return); } default: { } } return folly::make_exception_wrapper("Could not find Protocol"); } bool apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::recv_second(::apache::thrift::ClientReceiveState& state) { bool _return; auto ew = recv_wrapped_second(_return, state); if (ew) { ew.throw_exception(); } return _return; } bool apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::recv_instance_second(::apache::thrift::ClientReceiveState& state) { return recv_second(state); } folly::exception_wrapper apache::thrift::Client<::test::fixtures::basic-structured-annotations::MyService>::recv_instance_wrapped_second(bool& _return, ::apache::thrift::ClientReceiveState& state) { return recv_wrapped_second(_return, state); }