/** * 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/MyService.h" #include "thrift/compiler/test/fixtures/basic-structured-annotations/gen-cpp2/MyService.tcc" #include "thrift/compiler/test/fixtures/basic-structured-annotations/gen-cpp2/module_metadata.h" #include std::unique_ptr apache::thrift::ServiceHandler<::test::fixtures::basic-structured-annotations::MyService>::getProcessor() { return std::make_unique<::test::fixtures::basic-structured-annotations::MyServiceAsyncProcessor>(this); } apache::thrift::ServiceHandler<::test::fixtures::basic-structured-annotations::MyService>::CreateMethodMetadataResult apache::thrift::ServiceHandler<::test::fixtures::basic-structured-annotations::MyService>::createMethodMetadata() { return ::apache::thrift::detail::ap::createMethodMetadataMap<::test::fixtures::basic-structured-annotations::MyServiceAsyncProcessor>(getServiceRequestInfoMap().value().get()); } std::optional> apache::thrift::ServiceHandler<::test::fixtures::basic-structured-annotations::MyService>::getServiceRequestInfoMap() const { return __fbthrift_serviceInfoHolder.requestInfoMap(); } ::test::fixtures::basic-structured-annotations::MyServiceServiceInfoHolder apache::thrift::ServiceHandler<::test::fixtures::basic-structured-annotations::MyService>::__fbthrift_serviceInfoHolder; void apache::thrift::ServiceHandler<::test::fixtures::basic-structured-annotations::MyService>::first(::test::fixtures::basic-structured-annotations::annotated_inline_string& /*_return*/) { apache::thrift::detail::si::throw_app_exn_unimplemented("first"); } void apache::thrift::ServiceHandler<::test::fixtures::basic-structured-annotations::MyService>::sync_first(::test::fixtures::basic-structured-annotations::annotated_inline_string& _return) { return first(_return); } folly::SemiFuture> apache::thrift::ServiceHandler<::test::fixtures::basic-structured-annotations::MyService>::semifuture_first() { auto expected{apache::thrift::detail::si::InvocationType::SemiFuture}; __fbthrift_invocation_first.compare_exchange_strong(expected, apache::thrift::detail::si::InvocationType::Sync, std::memory_order_relaxed); auto ret = std::make_unique<::test::fixtures::basic-structured-annotations::annotated_inline_string>(); sync_first(*ret); return folly::makeSemiFuture(std::move(ret)); } folly::Future> apache::thrift::ServiceHandler<::test::fixtures::basic-structured-annotations::MyService>::future_first() { auto expected{apache::thrift::detail::si::InvocationType::Future}; __fbthrift_invocation_first.compare_exchange_strong(expected, apache::thrift::detail::si::InvocationType::SemiFuture, std::memory_order_relaxed); return apache::thrift::detail::si::future(semifuture_first(), getInternalKeepAlive()); } #if FOLLY_HAS_COROUTINES folly::coro::Task> apache::thrift::ServiceHandler<::test::fixtures::basic-structured-annotations::MyService>::co_first() { auto expected{apache::thrift::detail::si::InvocationType::Coro}; __fbthrift_invocation_first.compare_exchange_strong(expected, apache::thrift::detail::si::InvocationType::Future, std::memory_order_relaxed); folly::throw_exception(apache::thrift::detail::si::UnimplementedCoroMethod::withCapturedArgs<>()); } folly::coro::Task> apache::thrift::ServiceHandler<::test::fixtures::basic-structured-annotations::MyService>::co_first(apache::thrift::RequestParams /* params */) { auto expected{apache::thrift::detail::si::InvocationType::CoroParam}; __fbthrift_invocation_first.compare_exchange_strong(expected, apache::thrift::detail::si::InvocationType::Coro, std::memory_order_relaxed); return co_first(); } #endif // FOLLY_HAS_COROUTINES void apache::thrift::ServiceHandler<::test::fixtures::basic-structured-annotations::MyService>::async_tm_first(std::unique_ptr>> callback) { // It's possible the coroutine versions will delegate to a future-based // version. If that happens, we need the RequestParams arguments to be // available to the future through the thread-local backchannel, so we create // a RAII object that sets up RequestParams and clears them on destruction. apache::thrift::detail::si::AsyncTmPrep asyncTmPrep(this, callback.get()); #if FOLLY_HAS_COROUTINES determineInvocationType: #endif // FOLLY_HAS_COROUTINES auto invocationType = __fbthrift_invocation_first.load(std::memory_order_relaxed); try { switch (invocationType) { case apache::thrift::detail::si::InvocationType::AsyncTm: { #if FOLLY_HAS_COROUTINES __fbthrift_invocation_first.compare_exchange_strong(invocationType, apache::thrift::detail::si::InvocationType::CoroParam, std::memory_order_relaxed); apache::thrift::RequestParams params{callback->getRequestContext(), callback->getThreadManager_deprecated(), callback->getEventBase(), callback->getHandlerExecutor()}; auto task = co_first(params); apache::thrift::detail::si::async_tm_coro(std::move(callback), std::move(task)); return; #else // FOLLY_HAS_COROUTINES __fbthrift_invocation_first.compare_exchange_strong(invocationType, apache::thrift::detail::si::InvocationType::Future, std::memory_order_relaxed); [[fallthrough]]; #endif // FOLLY_HAS_COROUTINES } case apache::thrift::detail::si::InvocationType::Future: { auto fut = future_first(); apache::thrift::detail::si::async_tm_future(std::move(callback), std::move(fut)); return; } case apache::thrift::detail::si::InvocationType::SemiFuture: { auto fut = semifuture_first(); apache::thrift::detail::si::async_tm_semifuture(std::move(callback), std::move(fut)); return; } #if FOLLY_HAS_COROUTINES case apache::thrift::detail::si::InvocationType::CoroParam: { apache::thrift::RequestParams params{callback->getRequestContext(), callback->getThreadManager_deprecated(), callback->getEventBase(), callback->getHandlerExecutor()}; auto task = co_first(params); apache::thrift::detail::si::async_tm_coro(std::move(callback), std::move(task)); return; } case apache::thrift::detail::si::InvocationType::Coro: { auto task = co_first(); apache::thrift::detail::si::async_tm_coro(std::move(callback), std::move(task)); return; } #endif // FOLLY_HAS_COROUTINES case apache::thrift::detail::si::InvocationType::Sync: { ::test::fixtures::basic-structured-annotations::annotated_inline_string _return; sync_first(_return); callback->result(_return); return; } default: { folly::assume_unreachable(); } } #if FOLLY_HAS_COROUTINES } catch (apache::thrift::detail::si::UnimplementedCoroMethod& ex) { std::tie() = std::move(ex).restoreArgs<>(); goto determineInvocationType; #endif // FOLLY_HAS_COROUTINES } catch (...) { callback->exception(std::current_exception()); } } bool apache::thrift::ServiceHandler<::test::fixtures::basic-structured-annotations::MyService>::second(::std::int64_t /*count*/) { apache::thrift::detail::si::throw_app_exn_unimplemented("second"); } bool apache::thrift::ServiceHandler<::test::fixtures::basic-structured-annotations::MyService>::sync_second(::std::int64_t p_count) { return second(p_count); } folly::SemiFuture apache::thrift::ServiceHandler<::test::fixtures::basic-structured-annotations::MyService>::semifuture_second(::std::int64_t p_count) { auto expected{apache::thrift::detail::si::InvocationType::SemiFuture}; __fbthrift_invocation_second.compare_exchange_strong(expected, apache::thrift::detail::si::InvocationType::Sync, std::memory_order_relaxed); return sync_second(p_count); } folly::Future apache::thrift::ServiceHandler<::test::fixtures::basic-structured-annotations::MyService>::future_second(::std::int64_t p_count) { auto expected{apache::thrift::detail::si::InvocationType::Future}; __fbthrift_invocation_second.compare_exchange_strong(expected, apache::thrift::detail::si::InvocationType::SemiFuture, std::memory_order_relaxed); return apache::thrift::detail::si::future(semifuture_second(p_count), getInternalKeepAlive()); } #if FOLLY_HAS_COROUTINES folly::coro::Task apache::thrift::ServiceHandler<::test::fixtures::basic-structured-annotations::MyService>::co_second(::std::int64_t p_count) { auto expected{apache::thrift::detail::si::InvocationType::Coro}; __fbthrift_invocation_second.compare_exchange_strong(expected, apache::thrift::detail::si::InvocationType::Future, std::memory_order_relaxed); folly::throw_exception(apache::thrift::detail::si::UnimplementedCoroMethod::withCapturedArgs<::std::int64_t /*count*/>(p_count)); } folly::coro::Task apache::thrift::ServiceHandler<::test::fixtures::basic-structured-annotations::MyService>::co_second(apache::thrift::RequestParams /* params */, ::std::int64_t p_count) { auto expected{apache::thrift::detail::si::InvocationType::CoroParam}; __fbthrift_invocation_second.compare_exchange_strong(expected, apache::thrift::detail::si::InvocationType::Coro, std::memory_order_relaxed); return co_second(p_count); } #endif // FOLLY_HAS_COROUTINES void apache::thrift::ServiceHandler<::test::fixtures::basic-structured-annotations::MyService>::async_tm_second(std::unique_ptr> callback, ::std::int64_t p_count) { // It's possible the coroutine versions will delegate to a future-based // version. If that happens, we need the RequestParams arguments to be // available to the future through the thread-local backchannel, so we create // a RAII object that sets up RequestParams and clears them on destruction. apache::thrift::detail::si::AsyncTmPrep asyncTmPrep(this, callback.get()); #if FOLLY_HAS_COROUTINES determineInvocationType: #endif // FOLLY_HAS_COROUTINES auto invocationType = __fbthrift_invocation_second.load(std::memory_order_relaxed); try { switch (invocationType) { case apache::thrift::detail::si::InvocationType::AsyncTm: { #if FOLLY_HAS_COROUTINES __fbthrift_invocation_second.compare_exchange_strong(invocationType, apache::thrift::detail::si::InvocationType::CoroParam, std::memory_order_relaxed); apache::thrift::RequestParams params{callback->getRequestContext(), callback->getThreadManager_deprecated(), callback->getEventBase(), callback->getHandlerExecutor()}; auto task = co_second(params, p_count); apache::thrift::detail::si::async_tm_coro(std::move(callback), std::move(task)); return; #else // FOLLY_HAS_COROUTINES __fbthrift_invocation_second.compare_exchange_strong(invocationType, apache::thrift::detail::si::InvocationType::Future, std::memory_order_relaxed); [[fallthrough]]; #endif // FOLLY_HAS_COROUTINES } case apache::thrift::detail::si::InvocationType::Future: { auto fut = future_second(p_count); apache::thrift::detail::si::async_tm_future(std::move(callback), std::move(fut)); return; } case apache::thrift::detail::si::InvocationType::SemiFuture: { auto fut = semifuture_second(p_count); apache::thrift::detail::si::async_tm_semifuture(std::move(callback), std::move(fut)); return; } #if FOLLY_HAS_COROUTINES case apache::thrift::detail::si::InvocationType::CoroParam: { apache::thrift::RequestParams params{callback->getRequestContext(), callback->getThreadManager_deprecated(), callback->getEventBase(), callback->getHandlerExecutor()}; auto task = co_second(params, p_count); apache::thrift::detail::si::async_tm_coro(std::move(callback), std::move(task)); return; } case apache::thrift::detail::si::InvocationType::Coro: { auto task = co_second(p_count); apache::thrift::detail::si::async_tm_coro(std::move(callback), std::move(task)); return; } #endif // FOLLY_HAS_COROUTINES case apache::thrift::detail::si::InvocationType::Sync: { callback->result(sync_second(p_count)); return; } default: { folly::assume_unreachable(); } } #if FOLLY_HAS_COROUTINES } catch (apache::thrift::detail::si::UnimplementedCoroMethod& ex) { std::tie(p_count) = std::move(ex).restoreArgs<::std::int64_t /*count*/>(); goto determineInvocationType; #endif // FOLLY_HAS_COROUTINES } catch (...) { callback->exception(std::current_exception()); } } namespace test::fixtures::basic-structured-annotations { void MyServiceSvNull::first(::test::fixtures::basic-structured-annotations::annotated_inline_string& /*_return*/) { } bool MyServiceSvNull::second(::std::int64_t /*count*/) { return 0; } const char* MyServiceAsyncProcessor::getServiceName() { return "MyService"; } void MyServiceAsyncProcessor::getServiceMetadata(apache::thrift::metadata::ThriftServiceMetadataResponse& response) { ::apache::thrift::detail::md::ServiceMetadata<::apache::thrift::ServiceHandler<::test::fixtures::basic-structured-annotations::MyService>>::gen(response); } void MyServiceAsyncProcessor::processSerializedCompressedRequestWithMetadata(apache::thrift::ResponseChannelRequest::UniquePtr req, apache::thrift::SerializedCompressedRequest&& serializedRequest, const apache::thrift::AsyncProcessorFactory::MethodMetadata& methodMetadata, apache::thrift::protocol::PROTOCOL_TYPES protType, apache::thrift::Cpp2RequestContext* context, folly::EventBase* eb, apache::thrift::concurrency::ThreadManager* tm) { apache::thrift::detail::ap::process(this, iface_, std::move(req), std::move(serializedRequest), methodMetadata, protType, context, eb, tm); } void MyServiceAsyncProcessor::executeRequest(apache::thrift::ServerRequest&& request, const apache::thrift::AsyncProcessorFactory::MethodMetadata& methodMetadata) { apache::thrift::detail::ap::execute(this, std::move(request), apache::thrift::detail::ServerRequestHelper::protocol(request), methodMetadata); } const MyServiceAsyncProcessor::ProcessMap& MyServiceAsyncProcessor::getOwnProcessMap() { return kOwnProcessMap_; } const MyServiceAsyncProcessor::ProcessMap MyServiceAsyncProcessor::kOwnProcessMap_ { {"first", {&MyServiceAsyncProcessor::setUpAndProcess_first, &MyServiceAsyncProcessor::setUpAndProcess_first, &MyServiceAsyncProcessor::executeRequest_first, &MyServiceAsyncProcessor::executeRequest_first}}, {"second", {&MyServiceAsyncProcessor::setUpAndProcess_second, &MyServiceAsyncProcessor::setUpAndProcess_second, &MyServiceAsyncProcessor::executeRequest_second, &MyServiceAsyncProcessor::executeRequest_second}}, }; apache::thrift::ServiceRequestInfoMap const& MyServiceServiceInfoHolder::requestInfoMap() const { static folly::Indestructible requestInfoMap{staticRequestInfoMap()}; return *requestInfoMap; } apache::thrift::ServiceRequestInfoMap MyServiceServiceInfoHolder::staticRequestInfoMap() { apache::thrift::ServiceRequestInfoMap requestInfoMap = { {"first", { false, apache::thrift::RpcKind::SINGLE_REQUEST_SINGLE_RESPONSE, "MyService.first", std::nullopt, apache::thrift::concurrency::NORMAL, std::nullopt}}, {"second", { false, apache::thrift::RpcKind::SINGLE_REQUEST_SINGLE_RESPONSE, "MyService.second", std::nullopt, apache::thrift::concurrency::NORMAL, std::nullopt}}, }; return requestInfoMap; } } // namespace test::fixtures::basic-structured-annotations