De-experimentalize generic stub (under macro)

pull/21398/head
Vijay Pai 5 years ago
parent 7c46d37442
commit 3da2c7aa22
  1. 64
      include/grpcpp/generic/generic_stub_impl.h
  2. 19
      src/cpp/client/generic_stub.cc

@ -71,6 +71,39 @@ class GenericStub final {
grpc_impl::ClientContext* context, const grpc::string& method,
CompletionQueue* cq, void* tag);
#ifdef GRPC_CALLBACK_API_NONEXPERIMENTAL
/// Setup and start a unary call to a named method \a method using
/// \a context and specifying the \a request and \a response buffers.
void UnaryCall(grpc_impl::ClientContext* context, const grpc::string& method,
const grpc::ByteBuffer* request, grpc::ByteBuffer* response,
std::function<void(grpc::Status)> on_completion) {
UnaryCallInternal(context, method, request, response,
std::move(on_completion));
};
/// Setup a unary call to a named method \a method using
/// \a context and specifying the \a request and \a response buffers.
/// Like any other reactor-based RPC, it will not be activated until
/// StartCall is invoked on its reactor.
void PrepareUnaryCall(grpc_impl::ClientContext* context,
const grpc::string& method,
const grpc::ByteBuffer* request,
grpc::ByteBuffer* response,
grpc_impl::ClientUnaryReactor* reactor) {
PrepareUnaryCallInternal(context, method, request, response, reactor);
}
/// Setup a call to a named method \a method using \a context and tied to
/// \a reactor . Like any other bidi streaming RPC, it will not be activated
/// until StartCall is invoked on its reactor.
void PrepareBidiStreamingCall(
grpc_impl::ClientContext* context, const grpc::string& method,
grpc_impl::ClientBidiReactor<grpc::ByteBuffer, grpc::ByteBuffer>*
reactor) {
PrepareBidiStreamingCallInternal(context, method, reactor);
}
#endif
/// NOTE: class experimental_type is not part of the public API of this class
/// TODO(vjpai): Move these contents to the public API of GenericStub when
/// they are no longer experimental
@ -83,7 +116,10 @@ class GenericStub final {
void UnaryCall(grpc_impl::ClientContext* context,
const grpc::string& method, const grpc::ByteBuffer* request,
grpc::ByteBuffer* response,
std::function<void(grpc::Status)> on_completion);
std::function<void(grpc::Status)> on_completion) {
stub_->UnaryCallInternal(context, method, request, response,
std::move(on_completion));
};
/// Setup a unary call to a named method \a method using
/// \a context and specifying the \a request and \a response buffers.
@ -93,7 +129,10 @@ class GenericStub final {
const grpc::string& method,
const grpc::ByteBuffer* request,
grpc::ByteBuffer* response,
grpc_impl::ClientUnaryReactor* reactor);
grpc_impl::ClientUnaryReactor* reactor) {
stub_->PrepareUnaryCallInternal(context, method, request, response,
reactor);
}
/// Setup a call to a named method \a method using \a context and tied to
/// \a reactor . Like any other bidi streaming RPC, it will not be activated
@ -101,7 +140,9 @@ class GenericStub final {
void PrepareBidiStreamingCall(
grpc_impl::ClientContext* context, const grpc::string& method,
grpc_impl::ClientBidiReactor<grpc::ByteBuffer, grpc::ByteBuffer>*
reactor);
reactor) {
stub_->PrepareBidiStreamingCallInternal(context, method, reactor);
}
private:
GenericStub* stub_;
@ -114,6 +155,23 @@ class GenericStub final {
private:
std::shared_ptr<grpc::ChannelInterface> channel_;
void UnaryCallInternal(grpc_impl::ClientContext* context,
const grpc::string& method,
const grpc::ByteBuffer* request,
grpc::ByteBuffer* response,
std::function<void(grpc::Status)> on_completion);
void PrepareUnaryCallInternal(grpc_impl::ClientContext* context,
const grpc::string& method,
const grpc::ByteBuffer* request,
grpc::ByteBuffer* response,
grpc_impl::ClientUnaryReactor* reactor);
void PrepareBidiStreamingCallInternal(
grpc_impl::ClientContext* context, const grpc::string& method,
grpc_impl::ClientBidiReactor<grpc::ByteBuffer, grpc::ByteBuffer>*
reactor);
};
} // namespace grpc_impl

@ -67,36 +67,37 @@ GenericStub::PrepareUnaryCall(grpc::ClientContext* context,
context, request, false));
}
void GenericStub::experimental_type::UnaryCall(
void GenericStub::UnaryCallInternal(
grpc::ClientContext* context, const grpc::string& method,
const grpc::ByteBuffer* request, grpc::ByteBuffer* response,
std::function<void(grpc::Status)> on_completion) {
internal::CallbackUnaryCall(
stub_->channel_.get(),
channel_.get(),
grpc::internal::RpcMethod(method.c_str(),
grpc::internal::RpcMethod::NORMAL_RPC),
context, request, response, std::move(on_completion));
}
void GenericStub::experimental_type::PrepareBidiStreamingCall(
void GenericStub::PrepareBidiStreamingCallInternal(
grpc::ClientContext* context, const grpc::string& method,
ClientBidiReactor<grpc::ByteBuffer, grpc::ByteBuffer>* reactor) {
internal::ClientCallbackReaderWriterFactory<
grpc::ByteBuffer,
grpc::ByteBuffer>::Create(stub_->channel_.get(),
grpc::ByteBuffer>::Create(channel_.get(),
grpc::internal::RpcMethod(
method.c_str(),
grpc::internal::RpcMethod::BIDI_STREAMING),
context, reactor);
}
void GenericStub::experimental_type::PrepareUnaryCall(
grpc::ClientContext* context, const grpc::string& method,
const grpc::ByteBuffer* request, grpc::ByteBuffer* response,
ClientUnaryReactor* reactor) {
void GenericStub::PrepareUnaryCallInternal(grpc::ClientContext* context,
const grpc::string& method,
const grpc::ByteBuffer* request,
grpc::ByteBuffer* response,
ClientUnaryReactor* reactor) {
internal::ClientCallbackUnaryFactory::Create<grpc::ByteBuffer,
grpc::ByteBuffer>(
stub_->channel_.get(),
channel_.get(),
grpc::internal::RpcMethod(method.c_str(),
grpc::internal::RpcMethod::NORMAL_RPC),
context, request, response, reactor);

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