garnet/go/src/fidl/compiler/backend/goldens/doc_comments.test.json.cc.golden - fuchsia - Git at Google

 // WARNING: This file is machine generated by fidlgen.

 #include <doc_comments.test.json.h>

 #include "lib/fidl/cpp/internal/implementation.h"
 namespace test {
 namespace name {

 extern "C" const fidl_type_t v1_test_name_UnionTable;
 const fidl_type_t* Union::FidlType = &v1_test_name_UnionTable;

 Union::Union() {}

 Union::~Union() { Destroy(); }

 Union::Union(Union&& other) : tag_(other.tag_) {
   switch (tag_) {
     case Tag::kField:
       Field_ = std::move(other.Field_);
       break;
     case static_cast<fidl_xunion_tag_t>(Tag::Invalid):
       break;
   }
 }

 Union& Union::operator=(Union&& other) {
   if (this != &other) {
     Destroy();
     tag_ = other.tag_;
     switch (tag_) {
       case Tag::kField:
         Field_ = std::move(other.Field_);
         break;
       case static_cast<fidl_xunion_tag_t>(Tag::Invalid):
         break;
     }
   }
   return *this;
 }

 Union Union::WithField(int32_t&& val) {
   Union result;
   result.set_Field(std::move(val));
   return result;
 }

 void Union::Encode(::fidl::Encoder* encoder, size_t offset) {
   const size_t length_before = encoder->CurrentLength();
   const size_t handles_before = encoder->CurrentHandleCount();

   size_t envelope_offset = 0;

   switch (tag_) {
     case Tag::kField: {
       envelope_offset = encoder->Alloc(
           ::fidl::EncodingInlineSize<int32_t, ::fidl::Encoder>(encoder));
       ::fidl::Encode(encoder, &Field_, envelope_offset);
       break;
     }
     default:
       break;
   }

   fidl_xunion_t* xunion = encoder->GetPtr<fidl_xunion_t>(offset);
   assert(xunion->envelope.presence == FIDL_ALLOC_ABSENT);

   if (envelope_offset) {
     xunion->tag = tag_;
     xunion->envelope.num_bytes = encoder->CurrentLength() - length_before;
     xunion->envelope.num_handles =
         encoder->CurrentHandleCount() - handles_before;
     xunion->envelope.presence = FIDL_ALLOC_PRESENT;
   }
 }

 void Union::Decode(::fidl::Decoder* decoder, Union* value, size_t offset) {
   fidl_xunion_t* xunion = decoder->GetPtr<fidl_xunion_t>(offset);

   if (!xunion->envelope.data) {
     value->EnsureStorageInitialized(
         static_cast<fidl_xunion_tag_t>(Tag::Invalid));
     return;
   }

   value->EnsureStorageInitialized(xunion->tag);

   const size_t envelope_offset = decoder->GetOffset(xunion->envelope.data);

   switch (value->tag_) {
     case Tag::kField:
       ::fidl::Decode(decoder, &value->Field_, envelope_offset);
       break;
   }
 }

 zx_status_t Union::Clone(Union* result) const {
   result->Destroy();
   result->tag_ = tag_;
   switch (tag_) {
     case Tag::kField:
       return ::fidl::Clone(Field_, &result->Field_);
     default:
       return ZX_OK;
   }
 }

 Union& Union::set_Field(int32_t value) {
   EnsureStorageInitialized(Tag::kField);
   Field_ = std::move(value);
   return *this;
 }

 void Union::Destroy() {
   switch (tag_) {
     case Tag::kField:
       break;

     default:
       break;
   }
   tag_ = static_cast<fidl_xunion_tag_t>(Tag::Invalid);
 }

 void Union::EnsureStorageInitialized(::fidl_xunion_tag_t tag) {
   if (tag_ != tag) {
     Destroy();
     tag_ = tag;
     switch (tag_) {
       case static_cast<fidl_xunion_tag_t>(Tag::Invalid):
         break;
       case Tag::kField:
         new (&Field_) int32_t();
         break;
       default:
         break;
     }
   }
 }
 extern "C" const fidl_type_t v1_test_name_TableTable;
 const fidl_type_t* Table::FidlType = &v1_test_name_TableTable;

 Table::Table() : has_Field_(false) {}

 Table::Table(Table&& other) {
   has_Field_ = other.has_Field_;
   if (has_Field_) {
     Construct(&Field_value_.value, std::move(other.Field_value_.value));
   }
 }

 Table::~Table() {
   if (has_Field_) {
     Destruct(&Field_value_.value);
   }
 }

 Table& Table::operator=(Table&& other) {
   if (other.has_Field_) {
     if (has_Field_) {
       Field_value_.value = std::move(other.Field_value_.value);
     } else {
       has_Field_ = true;
       Construct(&Field_value_.value, std::move(other.Field_value_.value));
     }
   } else if (has_Field_) {
     has_Field_ = false;
     Destruct(&Field_value_.value);
   }
   return *this;
 }

 bool Table::IsEmpty() const {
   if (has_Field_) return false;
   return true;
 }

 void Table::Encode(::fidl::Encoder* _encoder, size_t _offset) {
   size_t max_ordinal = 0;
   if (has_Field_) max_ordinal = 1;
   ::fidl::EncodeVectorPointer(_encoder, max_ordinal, _offset);
   if (max_ordinal == 0) return;
   size_t base = _encoder->Alloc(max_ordinal * 2 * sizeof(uint64_t));
   if (has_Field_) {
     const size_t length_before = _encoder->CurrentLength();
     const size_t handles_before = _encoder->CurrentHandleCount();
     ::fidl::Encode(
         _encoder, &Field_value_.value,
         _encoder->Alloc(
             ::fidl::EncodingInlineSize<int32_t, ::fidl::Encoder>(_encoder)));
     size_t envelope_base = base + (1 - 1) * 2 * sizeof(uint64_t);
     uint64_t num_bytes_then_num_handles =
         (_encoder->CurrentLength() - length_before) |
         ((_encoder->CurrentHandleCount() - handles_before) << 32);
     ::fidl::Encode(_encoder, &num_bytes_then_num_handles, envelope_base);
     *_encoder->GetPtr<uintptr_t>(envelope_base + sizeof(uint64_t)) =
         FIDL_ALLOC_PRESENT;
   }
 }

 void Table::Decode(::fidl::Decoder* _decoder, Table* _value, size_t _offset) {
   fidl_vector_t* encoded = _decoder->GetPtr<fidl_vector_t>(_offset);
   size_t base;
   size_t count;
   if (!encoded->data) {
     goto clear_all;
   }

   base = _decoder->GetOffset(encoded->data);
   count = encoded->count;
   if (count >= 1) {
     size_t envelope_base = base + (1 - 1) * 2 * sizeof(uint64_t);
     uint64_t presence;
     ::fidl::Decode(_decoder, &presence, envelope_base + sizeof(uint64_t));
     if (presence != 0) {
       ::fidl::Decode(_decoder, _value->mutable_Field(),
                      _decoder->GetOffset(presence));
     } else {
       _value->clear_Field();
     }
   } else {
     goto done_1;
   }

   return;

   // Clear unset values.
 clear_all:
 done_1:
   _value->clear_Field();
   return;
 }

 zx_status_t Table::Clone(Table* result) const {
   if (has_Field_) {
     zx_status_t _status =
         ::fidl::Clone(Field_value_.value, result->mutable_Field());
     if (_status != ZX_OK) return _status;
   } else {
     result->clear_Field();
   }
   return ZX_OK;
 }
 extern "C" const fidl_type_t v1_test_name_StructTable;
 const fidl_type_t* Struct::FidlType = &v1_test_name_StructTable;

 void Struct::Encode(::fidl::Encoder* _encoder, size_t _offset) {
   ::fidl::Encode(_encoder, &Field, _offset + 0);
 }

 void Struct::Decode(::fidl::Decoder* _decoder, Struct* value, size_t _offset) {
   ::fidl::Decode(_decoder, &value->Field, _offset + 0);
 }

 zx_status_t Struct::Clone(Struct* _result) const {
   zx_status_t _status = ::fidl::Clone(Field, &_result->Field);
   if (_status != ZX_OK) return _status;
   return ZX_OK;
 }
 #ifdef __Fuchsia__
 namespace {

 extern "C" const fidl_type_t v1_test_name_InterfaceMethodRequestTable;

 extern "C" const fidl_type_t v1_test_name_InterfaceOnEventEventTable;

 }  // namespace

 Interface::~Interface() = default;

 const fidl_type_t* Interface_RequestDecoder::GetType(uint64_t ordinal,
                                                      bool* out_needs_response) {
   switch (ordinal) {
     case internal::kInterface_Method_Ordinal:
     case internal::kInterface_Method_GenOrdinal:
       *out_needs_response = false;
       return &v1_test_name_InterfaceMethodRequestTable;
     default:
       *out_needs_response = false;
       return nullptr;
   }
 }

 const fidl_type_t* Interface_ResponseDecoder::GetType(uint64_t ordinal) {
   switch (ordinal) {
     case internal::kInterface_OnEvent_Ordinal:
     case internal::kInterface_OnEvent_GenOrdinal:
       return &v1_test_name_InterfaceOnEventEventTable;
     default:
       return nullptr;
   }
 }

 Interface_EventSender::~Interface_EventSender() = default;

 Interface_Sync::~Interface_Sync() = default;

 Interface_Proxy::Interface_Proxy(::fidl::internal::ProxyController* controller)
     : controller_(controller) {
   (void)controller_;
 }

 Interface_Proxy::~Interface_Proxy() = default;

 zx_status_t Interface_Proxy::Dispatch_(::fidl::Message message) {
   zx_status_t status = ZX_OK;
   switch (message.ordinal()) {
     case internal::kInterface_OnEvent_Ordinal:
     case internal::kInterface_OnEvent_GenOrdinal: {
       if (!OnEvent) {
         status = ZX_OK;
         break;
       }
       const char* error_msg = nullptr;
       status =
           message.Decode(&v1_test_name_InterfaceOnEventEventTable, &error_msg);
       if (status != ZX_OK) {
         FIDL_REPORT_DECODING_ERROR(
             message, &v1_test_name_InterfaceOnEventEventTable, error_msg);
         break;
       }
       OnEvent();
       break;
     }
     default: {
       status = ZX_ERR_NOT_SUPPORTED;
       break;
     }
   }
   return status;
 }

 void Interface_Proxy::Method() {
   ::fidl::Encoder _encoder(internal::kInterface_Method_GenOrdinal);
   controller_->Send(&v1_test_name_InterfaceMethodRequestTable,
                     Interface_RequestEncoder::Method(&_encoder), nullptr);
 }

 Interface_Stub::Interface_Stub(Interface_clazz* impl) : impl_(impl) {
   (void)impl_;
 }

 Interface_Stub::~Interface_Stub() = default;

 namespace {}  // namespace

 zx_status_t Interface_Stub::Dispatch_(
     ::fidl::Message message, ::fidl::internal::PendingResponse response) {
   bool needs_response;
   const fidl_type_t* request_type =
       Interface_RequestDecoder::GetType(message.ordinal(), &needs_response);
   if (request_type == nullptr) {
     return ZX_ERR_NOT_SUPPORTED;
   }
   if (response.needs_response() != needs_response) {
     if (needs_response) {
       FIDL_REPORT_DECODING_ERROR(message, request_type,
                                  "Message needing a response with no txid");
     } else {
       FIDL_REPORT_DECODING_ERROR(message, request_type,
                                  "Message not needing a response with a txid");
     }
     return ZX_ERR_INVALID_ARGS;
   }
   const char* error_msg = nullptr;
   zx_status_t status = message.Decode(request_type, &error_msg);
   if (status != ZX_OK) {
     FIDL_REPORT_DECODING_ERROR(message, request_type, error_msg);
     return status;
   }
   uint64_t ordinal = message.ordinal();
   switch (ordinal) {
     case internal::kInterface_Method_Ordinal:
     case internal::kInterface_Method_GenOrdinal: {
       impl_->Method();
       break;
     }
     default: {
       status = ZX_ERR_NOT_SUPPORTED;
       break;
     }
   }
   return status;
 }
 void Interface_Stub::OnEvent() {
   ::fidl::Encoder _encoder(internal::kInterface_OnEvent_GenOrdinal);
   sender_()->Send(&v1_test_name_InterfaceOnEventEventTable,
                   Interface_ResponseEncoder::OnEvent(&_encoder));
 }

 Interface_SyncProxy::Interface_SyncProxy(::zx::channel channel)
     : proxy_(::std::move(channel)) {}

 Interface_SyncProxy::~Interface_SyncProxy() = default;

 zx_status_t Interface_SyncProxy::Method() {
   ::fidl::Encoder _encoder(internal::kInterface_Method_GenOrdinal);
   return proxy_.Send(&v1_test_name_InterfaceMethodRequestTable,
                      Interface_RequestEncoder::Method(&_encoder));
 }

 #endif  // __Fuchsia__

 }  // namespace name
 }  // namespace test
	// WARNING: This file is machine generated by fidlgen.

	#include <doc_comments.test.json.h>

	#include "lib/fidl/cpp/internal/implementation.h"
	namespace test {
	namespace name {

	extern "C" const fidl_type_t v1_test_name_UnionTable;
	const fidl_type_t* Union::FidlType = &v1_test_name_UnionTable;

	Union::Union() {}

	Union::~Union() { Destroy(); }

	Union::Union(Union&& other) : tag_(other.tag_) {
	switch (tag_) {
	case Tag::kField:
	Field_ = std::move(other.Field_);
	break;
	case static_cast<fidl_xunion_tag_t>(Tag::Invalid):
	break;
	}
	}

	Union& Union::operator=(Union&& other) {
	if (this != &other) {
	Destroy();
	tag_ = other.tag_;
	switch (tag_) {
	case Tag::kField:
	Field_ = std::move(other.Field_);
	break;
	case static_cast<fidl_xunion_tag_t>(Tag::Invalid):
	break;
	}
	}
	return *this;
	}

	Union Union::WithField(int32_t&& val) {
	Union result;
	result.set_Field(std::move(val));
	return result;
	}

	void Union::Encode(::fidl::Encoder* encoder, size_t offset) {
	const size_t length_before = encoder->CurrentLength();
	const size_t handles_before = encoder->CurrentHandleCount();

	size_t envelope_offset = 0;

	switch (tag_) {
	case Tag::kField: {
	envelope_offset = encoder->Alloc(
	::fidl::EncodingInlineSize<int32_t, ::fidl::Encoder>(encoder));
	::fidl::Encode(encoder, &Field_, envelope_offset);
	break;
	}
	default:
	break;
	}

	fidl_xunion_t* xunion = encoder->GetPtr<fidl_xunion_t>(offset);
	assert(xunion->envelope.presence == FIDL_ALLOC_ABSENT);

	if (envelope_offset) {
	xunion->tag = tag_;
	xunion->envelope.num_bytes = encoder->CurrentLength() - length_before;
	xunion->envelope.num_handles =
	encoder->CurrentHandleCount() - handles_before;
	xunion->envelope.presence = FIDL_ALLOC_PRESENT;
	}
	}

	void Union::Decode(::fidl::Decoder* decoder, Union* value, size_t offset) {
	fidl_xunion_t* xunion = decoder->GetPtr<fidl_xunion_t>(offset);

	if (!xunion->envelope.data) {
	value->EnsureStorageInitialized(
	static_cast<fidl_xunion_tag_t>(Tag::Invalid));
	return;
	}

	value->EnsureStorageInitialized(xunion->tag);

	const size_t envelope_offset = decoder->GetOffset(xunion->envelope.data);

	switch (value->tag_) {
	case Tag::kField:
	::fidl::Decode(decoder, &value->Field_, envelope_offset);
	break;
	}
	}

	zx_status_t Union::Clone(Union* result) const {
	result->Destroy();
	result->tag_ = tag_;
	switch (tag_) {
	case Tag::kField:
	return ::fidl::Clone(Field_, &result->Field_);
	default:
	return ZX_OK;
	}
	}

	Union& Union::set_Field(int32_t value) {
	EnsureStorageInitialized(Tag::kField);
	Field_ = std::move(value);
	return *this;
	}

	void Union::Destroy() {
	switch (tag_) {
	case Tag::kField:
	break;

	default:
	break;
	}
	tag_ = static_cast<fidl_xunion_tag_t>(Tag::Invalid);
	}

	void Union::EnsureStorageInitialized(::fidl_xunion_tag_t tag) {
	if (tag_ != tag) {
	Destroy();
	tag_ = tag;
	switch (tag_) {
	case static_cast<fidl_xunion_tag_t>(Tag::Invalid):
	break;
	case Tag::kField:
	new (&Field_) int32_t();
	break;
	default:
	break;
	}
	}
	}
	extern "C" const fidl_type_t v1_test_name_TableTable;
	const fidl_type_t* Table::FidlType = &v1_test_name_TableTable;

	Table::Table() : has_Field_(false) {}

	Table::Table(Table&& other) {
	has_Field_ = other.has_Field_;
	if (has_Field_) {
	Construct(&Field_value_.value, std::move(other.Field_value_.value));
	}
	}

	Table::~Table() {
	if (has_Field_) {
	Destruct(&Field_value_.value);
	}
	}

	Table& Table::operator=(Table&& other) {
	if (other.has_Field_) {
	if (has_Field_) {
	Field_value_.value = std::move(other.Field_value_.value);
	} else {
	has_Field_ = true;
	Construct(&Field_value_.value, std::move(other.Field_value_.value));
	}
	} else if (has_Field_) {
	has_Field_ = false;
	Destruct(&Field_value_.value);
	}
	return *this;
	}

	bool Table::IsEmpty() const {
	if (has_Field_) return false;
	return true;
	}

	void Table::Encode(::fidl::Encoder* _encoder, size_t _offset) {
	size_t max_ordinal = 0;
	if (has_Field_) max_ordinal = 1;
	::fidl::EncodeVectorPointer(_encoder, max_ordinal, _offset);
	if (max_ordinal == 0) return;
	size_t base = _encoder->Alloc(max_ordinal * 2 * sizeof(uint64_t));
	if (has_Field_) {
	const size_t length_before = _encoder->CurrentLength();
	const size_t handles_before = _encoder->CurrentHandleCount();
	::fidl::Encode(
	_encoder, &Field_value_.value,
	_encoder->Alloc(
	::fidl::EncodingInlineSize<int32_t, ::fidl::Encoder>(_encoder)));
	size_t envelope_base = base + (1 - 1) * 2 * sizeof(uint64_t);
	uint64_t num_bytes_then_num_handles =
	(_encoder->CurrentLength() - length_before) \|
	((_encoder->CurrentHandleCount() - handles_before) << 32);
	::fidl::Encode(_encoder, &num_bytes_then_num_handles, envelope_base);
	*_encoder->GetPtr<uintptr_t>(envelope_base + sizeof(uint64_t)) =
	FIDL_ALLOC_PRESENT;
	}
	}

	void Table::Decode(::fidl::Decoder* _decoder, Table* _value, size_t _offset) {
	fidl_vector_t* encoded = _decoder->GetPtr<fidl_vector_t>(_offset);
	size_t base;
	size_t count;
	if (!encoded->data) {
	goto clear_all;
	}

	base = _decoder->GetOffset(encoded->data);
	count = encoded->count;
	if (count >= 1) {
	size_t envelope_base = base + (1 - 1) * 2 * sizeof(uint64_t);
	uint64_t presence;
	::fidl::Decode(_decoder, &presence, envelope_base + sizeof(uint64_t));
	if (presence != 0) {
	::fidl::Decode(_decoder, _value->mutable_Field(),
	_decoder->GetOffset(presence));
	} else {
	_value->clear_Field();
	}
	} else {
	goto done_1;
	}

	return;

	// Clear unset values.
	clear_all:
	done_1:
	_value->clear_Field();
	return;
	}

	zx_status_t Table::Clone(Table* result) const {
	if (has_Field_) {
	zx_status_t _status =
	::fidl::Clone(Field_value_.value, result->mutable_Field());
	if (_status != ZX_OK) return _status;
	} else {
	result->clear_Field();
	}
	return ZX_OK;
	}
	extern "C" const fidl_type_t v1_test_name_StructTable;
	const fidl_type_t* Struct::FidlType = &v1_test_name_StructTable;

	void Struct::Encode(::fidl::Encoder* _encoder, size_t _offset) {
	::fidl::Encode(_encoder, &Field, _offset + 0);
	}

	void Struct::Decode(::fidl::Decoder* _decoder, Struct* value, size_t _offset) {
	::fidl::Decode(_decoder, &value->Field, _offset + 0);
	}

	zx_status_t Struct::Clone(Struct* _result) const {
	zx_status_t _status = ::fidl::Clone(Field, &_result->Field);
	if (_status != ZX_OK) return _status;
	return ZX_OK;
	}
	#ifdef __Fuchsia__
	namespace {

	extern "C" const fidl_type_t v1_test_name_InterfaceMethodRequestTable;

	extern "C" const fidl_type_t v1_test_name_InterfaceOnEventEventTable;

	} // namespace

	Interface::~Interface() = default;

	const fidl_type_t* Interface_RequestDecoder::GetType(uint64_t ordinal,
	bool* out_needs_response) {
	switch (ordinal) {
	case internal::kInterface_Method_Ordinal:
	case internal::kInterface_Method_GenOrdinal:
	*out_needs_response = false;
	return &v1_test_name_InterfaceMethodRequestTable;
	default:
	*out_needs_response = false;
	return nullptr;
	}
	}

	const fidl_type_t* Interface_ResponseDecoder::GetType(uint64_t ordinal) {
	switch (ordinal) {
	case internal::kInterface_OnEvent_Ordinal:
	case internal::kInterface_OnEvent_GenOrdinal:
	return &v1_test_name_InterfaceOnEventEventTable;
	default:
	return nullptr;
	}
	}

	Interface_EventSender::~Interface_EventSender() = default;

	Interface_Sync::~Interface_Sync() = default;

	Interface_Proxy::Interface_Proxy(::fidl::internal::ProxyController* controller)
	: controller_(controller) {
	(void)controller_;
	}

	Interface_Proxy::~Interface_Proxy() = default;

	zx_status_t Interface_Proxy::Dispatch_(::fidl::Message message) {
	zx_status_t status = ZX_OK;
	switch (message.ordinal()) {
	case internal::kInterface_OnEvent_Ordinal:
	case internal::kInterface_OnEvent_GenOrdinal: {
	if (!OnEvent) {
	status = ZX_OK;
	break;
	}
	const char* error_msg = nullptr;
	status =
	message.Decode(&v1_test_name_InterfaceOnEventEventTable, &error_msg);
	if (status != ZX_OK) {
	FIDL_REPORT_DECODING_ERROR(
	message, &v1_test_name_InterfaceOnEventEventTable, error_msg);
	break;
	}
	OnEvent();
	break;
	}
	default: {
	status = ZX_ERR_NOT_SUPPORTED;
	break;
	}
	}
	return status;
	}

	void Interface_Proxy::Method() {
	::fidl::Encoder _encoder(internal::kInterface_Method_GenOrdinal);
	controller_->Send(&v1_test_name_InterfaceMethodRequestTable,
	Interface_RequestEncoder::Method(&_encoder), nullptr);
	}

	Interface_Stub::Interface_Stub(Interface_clazz* impl) : impl_(impl) {
	(void)impl_;
	}

	Interface_Stub::~Interface_Stub() = default;

	namespace {} // namespace

	zx_status_t Interface_Stub::Dispatch_(
	::fidl::Message message, ::fidl::internal::PendingResponse response) {
	bool needs_response;
	const fidl_type_t* request_type =
	Interface_RequestDecoder::GetType(message.ordinal(), &needs_response);
	if (request_type == nullptr) {
	return ZX_ERR_NOT_SUPPORTED;
	}
	if (response.needs_response() != needs_response) {
	if (needs_response) {
	FIDL_REPORT_DECODING_ERROR(message, request_type,
	"Message needing a response with no txid");
	} else {
	FIDL_REPORT_DECODING_ERROR(message, request_type,
	"Message not needing a response with a txid");
	}
	return ZX_ERR_INVALID_ARGS;
	}
	const char* error_msg = nullptr;
	zx_status_t status = message.Decode(request_type, &error_msg);
	if (status != ZX_OK) {
	FIDL_REPORT_DECODING_ERROR(message, request_type, error_msg);
	return status;
	}
	uint64_t ordinal = message.ordinal();
	switch (ordinal) {
	case internal::kInterface_Method_Ordinal:
	case internal::kInterface_Method_GenOrdinal: {
	impl_->Method();
	break;
	}
	default: {
	status = ZX_ERR_NOT_SUPPORTED;
	break;
	}
	}
	return status;
	}
	void Interface_Stub::OnEvent() {
	::fidl::Encoder _encoder(internal::kInterface_OnEvent_GenOrdinal);
	sender_()->Send(&v1_test_name_InterfaceOnEventEventTable,
	Interface_ResponseEncoder::OnEvent(&_encoder));
	}

	Interface_SyncProxy::Interface_SyncProxy(::zx::channel channel)
	: proxy_(::std::move(channel)) {}

	Interface_SyncProxy::~Interface_SyncProxy() = default;

	zx_status_t Interface_SyncProxy::Method() {
	::fidl::Encoder _encoder(internal::kInterface_Method_GenOrdinal);
	return proxy_.Send(&v1_test_name_InterfaceMethodRequestTable,
	Interface_RequestEncoder::Method(&_encoder));
	}

	#endif // __Fuchsia__

	} // namespace name
	} // namespace test