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fuchsia / fuchsia / cfef5042b7b9976bc7e0ed8c11f005ee41d1b7b9 / . / tools / fidl / fidlgen_llcpp / goldens / inheritance_with_recursive_decl.cc.golden
blob: 526959996feb7d09ee7b02babc0512923c09ad5a [file] [log] [blame]
// WARNING: This file is machine generated by fidlgen.
#include <fidl/test/inheritancewithrecursivedecl/llcpp/fidl.h>
#include <memory>
namespace llcpp {
namespace fidl {
namespace test {
namespace inheritancewithrecursivedecl {
namespace {
[[maybe_unused]] constexpr uint64_t kParent_First_Ordinal =
3051519745671742363lu;
extern "C" const fidl_type_t
fidl_test_inheritancewithrecursivedecl_ParentFirstRequestTable;
extern "C" const fidl_type_t
fidl_test_inheritancewithrecursivedecl_ParentFirstResponseTable;
} // namespace
Parent::ResultOf::First::First(zx_handle_t _client, ::zx::channel& request) {
FirstRequest::OwnedEncodedMessage _request(zx_txid_t(0), request);
_request.GetOutgoingMessage().Write(_client);
status_ = _request.status();
error_ = _request.error();
}
Parent::UnownedResultOf::First::First(zx_handle_t _client,
uint8_t* _request_bytes,
uint32_t _request_byte_capacity,
::zx::channel& request) {
FirstRequest::UnownedEncodedMessage _request(
_request_bytes, _request_byte_capacity, 0, request);
_request.GetOutgoingMessage().Write(_client);
status_ = _request.status();
error_ = _request.error();
}
::fidl::Result Parent::ClientImpl::First(::zx::channel request) {
if (auto _channel = ::fidl::internal::ClientBase::GetChannel()) {
auto _res = ResultOf::First(_channel->handle(), request);
return ::fidl::Result(_res.status(), _res.error());
}
return ::fidl::Result(ZX_ERR_CANCELED, ::fidl::kErrorChannelUnbound);
}
::fidl::Result Parent::ClientImpl::First(::fidl::BufferSpan _request_buffer,
::zx::channel request) {
if (auto _channel = ::fidl::internal::ClientBase::GetChannel()) {
auto _res = UnownedResultOf::First(_channel->handle(), _request_buffer.data,
_request_buffer.capacity, request);
return ::fidl::Result(_res.status(), _res.error());
}
return ::fidl::Result(ZX_ERR_CANCELED, ::fidl::kErrorChannelUnbound);
}
std::optional<::fidl::UnbindInfo> Parent::ClientImpl::DispatchEvent(
fidl_incoming_msg_t* msg) {
fidl_message_header_t* hdr =
reinterpret_cast<fidl_message_header_t*>(msg->bytes);
switch (hdr->ordinal) {
default:
FidlHandleInfoCloseMany(msg->handles, msg->num_handles);
return ::fidl::UnbindInfo{::fidl::UnbindInfo::kUnexpectedMessage,
ZX_ERR_NOT_SUPPORTED};
}
return {};
}
namespace methods {
void ParentDispatchFirst(void* interface, void* bytes,
::fidl::Transaction* txn) {
auto message = reinterpret_cast<Parent::FirstRequest*>(bytes);
Parent::Interface::FirstCompleter::Sync completer(txn);
reinterpret_cast<Parent::Interface*>(interface)->First(
std::move(message->request), completer);
}
} // namespace methods
namespace entries {
::fidl::internal::MethodEntry Parent[] = {
{kParent_First_Ordinal, Parent::FirstRequest::Type,
methods::ParentDispatchFirst},
};
} // namespace entries
::fidl::DispatchResult Parent::TryDispatch(Interface* impl,
fidl_incoming_msg_t* msg,
::fidl::Transaction* txn) {
return ::fidl::internal::TryDispatch(
impl, msg, txn, entries::Parent,
entries::Parent +
sizeof(entries::Parent) / sizeof(::fidl::internal::MethodEntry));
}
::fidl::DispatchResult Parent::Dispatch(Interface* impl,
fidl_incoming_msg_t* msg,
::fidl::Transaction* txn) {
::fidl::DispatchResult dispatch_result = TryDispatch(impl, msg, txn);
if (dispatch_result == ::fidl::DispatchResult::kNotFound) {
FidlHandleInfoCloseMany(msg->handles, msg->num_handles);
txn->InternalError(
{::fidl::UnbindInfo::kUnexpectedMessage, ZX_ERR_NOT_SUPPORTED});
}
return dispatch_result;
}
::fidl::DispatchResult Parent::Interface::dispatch_message(
fidl_incoming_msg_t* msg, ::fidl::Transaction* txn) {
return Parent::Dispatch(this, msg, txn);
}
void Parent::FirstRequest::_InitHeader(zx_txid_t _txid) {
fidl_init_txn_header(&_hdr, _txid, kParent_First_Ordinal);
}
void Parent::FirstRequest::_CloseHandles() { request.reset(); }
namespace {
[[maybe_unused]] constexpr uint64_t kChild_First_Ordinal =
3051519745671742363lu;
extern "C" const fidl_type_t
fidl_test_inheritancewithrecursivedecl_ChildFirstRequestTable;
extern "C" const fidl_type_t
fidl_test_inheritancewithrecursivedecl_ChildFirstResponseTable;
[[maybe_unused]] constexpr uint64_t kChild_Second_Ordinal =
489667253787160198lu;
extern "C" const fidl_type_t
fidl_test_inheritancewithrecursivedecl_ChildSecondRequestTable;
extern "C" const fidl_type_t
fidl_test_inheritancewithrecursivedecl_ChildSecondResponseTable;
} // namespace
Child::ResultOf::First::First(zx_handle_t _client, ::zx::channel& request) {
FirstRequest::OwnedEncodedMessage _request(zx_txid_t(0), request);
_request.GetOutgoingMessage().Write(_client);
status_ = _request.status();
error_ = _request.error();
}
Child::UnownedResultOf::First::First(zx_handle_t _client,
uint8_t* _request_bytes,
uint32_t _request_byte_capacity,
::zx::channel& request) {
FirstRequest::UnownedEncodedMessage _request(
_request_bytes, _request_byte_capacity, 0, request);
_request.GetOutgoingMessage().Write(_client);
status_ = _request.status();
error_ = _request.error();
}
Child::ResultOf::Second::Second(zx_handle_t _client, ::zx::channel& request) {
SecondRequest::OwnedEncodedMessage _request(zx_txid_t(0), request);
_request.GetOutgoingMessage().Write(_client);
status_ = _request.status();
error_ = _request.error();
}
Child::UnownedResultOf::Second::Second(zx_handle_t _client,
uint8_t* _request_bytes,
uint32_t _request_byte_capacity,
::zx::channel& request) {
SecondRequest::UnownedEncodedMessage _request(
_request_bytes, _request_byte_capacity, 0, request);
_request.GetOutgoingMessage().Write(_client);
status_ = _request.status();
error_ = _request.error();
}
::fidl::Result Child::ClientImpl::First(::zx::channel request) {
if (auto _channel = ::fidl::internal::ClientBase::GetChannel()) {
auto _res = ResultOf::First(_channel->handle(), request);
return ::fidl::Result(_res.status(), _res.error());
}
return ::fidl::Result(ZX_ERR_CANCELED, ::fidl::kErrorChannelUnbound);
}
::fidl::Result Child::ClientImpl::First(::fidl::BufferSpan _request_buffer,
::zx::channel request) {
if (auto _channel = ::fidl::internal::ClientBase::GetChannel()) {
auto _res = UnownedResultOf::First(_channel->handle(), _request_buffer.data,
_request_buffer.capacity, request);
return ::fidl::Result(_res.status(), _res.error());
}
return ::fidl::Result(ZX_ERR_CANCELED, ::fidl::kErrorChannelUnbound);
}
::fidl::Result Child::ClientImpl::Second(::zx::channel request) {
if (auto _channel = ::fidl::internal::ClientBase::GetChannel()) {
auto _res = ResultOf::Second(_channel->handle(), request);
return ::fidl::Result(_res.status(), _res.error());
}
return ::fidl::Result(ZX_ERR_CANCELED, ::fidl::kErrorChannelUnbound);
}
::fidl::Result Child::ClientImpl::Second(::fidl::BufferSpan _request_buffer,
::zx::channel request) {
if (auto _channel = ::fidl::internal::ClientBase::GetChannel()) {
auto _res =
UnownedResultOf::Second(_channel->handle(), _request_buffer.data,
_request_buffer.capacity, request);
return ::fidl::Result(_res.status(), _res.error());
}
return ::fidl::Result(ZX_ERR_CANCELED, ::fidl::kErrorChannelUnbound);
}
std::optional<::fidl::UnbindInfo> Child::ClientImpl::DispatchEvent(
fidl_incoming_msg_t* msg) {
fidl_message_header_t* hdr =
reinterpret_cast<fidl_message_header_t*>(msg->bytes);
switch (hdr->ordinal) {
default:
FidlHandleInfoCloseMany(msg->handles, msg->num_handles);
return ::fidl::UnbindInfo{::fidl::UnbindInfo::kUnexpectedMessage,
ZX_ERR_NOT_SUPPORTED};
}
return {};
}
namespace methods {
void ChildDispatchFirst(void* interface, void* bytes,
::fidl::Transaction* txn) {
auto message = reinterpret_cast<Child::FirstRequest*>(bytes);
Child::Interface::FirstCompleter::Sync completer(txn);
reinterpret_cast<Child::Interface*>(interface)->First(
std::move(message->request), completer);
}
void ChildDispatchSecond(void* interface, void* bytes,
::fidl::Transaction* txn) {
auto message = reinterpret_cast<Child::SecondRequest*>(bytes);
Child::Interface::SecondCompleter::Sync completer(txn);
reinterpret_cast<Child::Interface*>(interface)->Second(
std::move(message->request), completer);
}
} // namespace methods
namespace entries {
::fidl::internal::MethodEntry Child[] = {
{kChild_First_Ordinal, Child::FirstRequest::Type,
methods::ChildDispatchFirst},
{kChild_Second_Ordinal, Child::SecondRequest::Type,
methods::ChildDispatchSecond},
};
} // namespace entries
::fidl::DispatchResult Child::TryDispatch(Interface* impl,
fidl_incoming_msg_t* msg,
::fidl::Transaction* txn) {
return ::fidl::internal::TryDispatch(
impl, msg, txn, entries::Child,
entries::Child +
sizeof(entries::Child) / sizeof(::fidl::internal::MethodEntry));
}
::fidl::DispatchResult Child::Dispatch(Interface* impl,
fidl_incoming_msg_t* msg,
::fidl::Transaction* txn) {
::fidl::DispatchResult dispatch_result = TryDispatch(impl, msg, txn);
if (dispatch_result == ::fidl::DispatchResult::kNotFound) {
FidlHandleInfoCloseMany(msg->handles, msg->num_handles);
txn->InternalError(
{::fidl::UnbindInfo::kUnexpectedMessage, ZX_ERR_NOT_SUPPORTED});
}
return dispatch_result;
}
::fidl::DispatchResult Child::Interface::dispatch_message(
fidl_incoming_msg_t* msg, ::fidl::Transaction* txn) {
return Child::Dispatch(this, msg, txn);
}
void Child::FirstRequest::_InitHeader(zx_txid_t _txid) {
fidl_init_txn_header(&_hdr, _txid, kChild_First_Ordinal);
}
void Child::FirstRequest::_CloseHandles() { request.reset(); }
void Child::SecondRequest::_InitHeader(zx_txid_t _txid) {
fidl_init_txn_header(&_hdr, _txid, kChild_Second_Ordinal);
}
void Child::SecondRequest::_CloseHandles() { request.reset(); }
} // namespace inheritancewithrecursivedecl
} // namespace test
} // namespace fidl
} // namespace llcpp