garnet/go/src/fidl/compiler/backend/goldens/error.test.json.llcpp.h.golden - fuchsia - Git at Google

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

 #pragma once

 #include <lib/fidl/internal.h>
 #include <lib/fidl/llcpp/array.h>
 #include <lib/fidl/llcpp/buffer_allocator.h>
 #include <lib/fidl/llcpp/coding.h>
 #include <lib/fidl/llcpp/connect_service.h>
 #include <lib/fidl/llcpp/envelope.h>
 #include <lib/fidl/llcpp/memory.h>
 #include <lib/fidl/llcpp/service_handler_interface.h>
 #include <lib/fidl/llcpp/string_view.h>
 #include <lib/fidl/llcpp/sync_call.h>
 #include <lib/fidl/llcpp/tracking_ptr.h>
 #include <lib/fidl/llcpp/traits.h>
 #include <lib/fidl/llcpp/transaction.h>
 #include <lib/fidl/llcpp/vector_view.h>
 #include <lib/fidl/txn_header.h>
 #include <lib/fit/function.h>
 #include <lib/zx/channel.h>
 #include <zircon/fidl.h>

 namespace llcpp {

 namespace fidl {
 namespace test {
 namespace json {

 struct Example_foo_Response;
 class Example_foo_Result;
 class Example;

 extern "C" const fidl_type_t v1_fidl_test_json_Example_foo_ResultTable;

 class Example_foo_Result {
  public:
   Example_foo_Result() : ordinal_(Ordinal::Invalid), envelope_{} {}

   Example_foo_Result(Example_foo_Result&&) = default;
   Example_foo_Result& operator=(Example_foo_Result&&) = default;

   ~Example_foo_Result() { reset_ptr(nullptr); }

   enum class Tag : fidl_xunion_tag_t {
     kResponse = 1,  // 0x1
     kErr = 2,       // 0x2
   };

   bool has_invalid_tag() const { return ordinal_ == Ordinal::Invalid; }

   bool is_response() const { return ordinal_ == Ordinal::kResponse; }

   static Example_foo_Result WithResponse(
       ::fidl::tracking_ptr<::llcpp::fidl::test::json::Example_foo_Response>&&
           val) {
     Example_foo_Result result;
     result.set_response(std::move(val));
     return result;
   }

   void set_response(
       ::fidl::tracking_ptr<::llcpp::fidl::test::json::Example_foo_Response>&&
           elem) {
     ordinal_ = Ordinal::kResponse;
     reset_ptr(static_cast<::fidl::tracking_ptr<void>>(std::move(elem)));
   }

   ::llcpp::fidl::test::json::Example_foo_Response& mutable_response() {
     ZX_ASSERT(ordinal_ == Ordinal::kResponse);
     return *static_cast<::llcpp::fidl::test::json::Example_foo_Response*>(
         envelope_.data.get());
   }
   const ::llcpp::fidl::test::json::Example_foo_Response& response() const {
     ZX_ASSERT(ordinal_ == Ordinal::kResponse);
     return *static_cast<::llcpp::fidl::test::json::Example_foo_Response*>(
         envelope_.data.get());
   }

   bool is_err() const { return ordinal_ == Ordinal::kErr; }

   static Example_foo_Result WithErr(::fidl::tracking_ptr<uint32_t>&& val) {
     Example_foo_Result result;
     result.set_err(std::move(val));
     return result;
   }

   void set_err(::fidl::tracking_ptr<uint32_t>&& elem) {
     ordinal_ = Ordinal::kErr;
     reset_ptr(static_cast<::fidl::tracking_ptr<void>>(std::move(elem)));
   }

   uint32_t& mutable_err() {
     ZX_ASSERT(ordinal_ == Ordinal::kErr);
     return *static_cast<uint32_t*>(envelope_.data.get());
   }
   const uint32_t& err() const {
     ZX_ASSERT(ordinal_ == Ordinal::kErr);
     return *static_cast<uint32_t*>(envelope_.data.get());
   }
   Tag which() const {
     ZX_ASSERT(!has_invalid_tag());
     return static_cast<Tag>(ordinal_);
   }

   static constexpr const fidl_type_t* Type =
       &v1_fidl_test_json_Example_foo_ResultTable;
   static constexpr uint32_t MaxNumHandles = 0;
   static constexpr uint32_t PrimarySize = 24;
   [[maybe_unused]] static constexpr uint32_t MaxOutOfLine = 8;
   static constexpr bool HasPointer = true;

  private:
   enum class Ordinal : fidl_xunion_tag_t {
     Invalid = 0,
     kResponse = 1,  // 0x1
     kErr = 2,       // 0x2
   };

   void reset_ptr(::fidl::tracking_ptr<void>&& new_ptr) {
     // To clear the existing value, std::move it and let it go out of scope.
     switch (static_cast<fidl_xunion_tag_t>(ordinal_)) {
       case 1: {
         ::fidl::tracking_ptr<::llcpp::fidl::test::json::Example_foo_Response>
             to_destroy = static_cast<::fidl::tracking_ptr<
                 ::llcpp::fidl::test::json::Example_foo_Response>>(
                 std::move(envelope_.data));
         break;
       }
       case 2: {
         ::fidl::tracking_ptr<uint32_t> to_destroy =
             static_cast<::fidl::tracking_ptr<uint32_t>>(
                 std::move(envelope_.data));
         break;
       }
     }

     envelope_.data = std::move(new_ptr);
   }

   static void SizeAndOffsetAssertionHelper();
   Ordinal ordinal_;
   FIDL_ALIGNDECL
   ::fidl::Envelope<void> envelope_;
 };

 extern "C" const fidl_type_t v1_fidl_test_json_Example_foo_ResponseTable;

 struct Example_foo_Response {
   static constexpr const fidl_type_t* Type =
       &v1_fidl_test_json_Example_foo_ResponseTable;
   static constexpr uint32_t MaxNumHandles = 0;
   static constexpr uint32_t PrimarySize = 8;
   [[maybe_unused]] static constexpr uint32_t MaxOutOfLine = 0;
   static constexpr bool HasPointer = false;

   int64_t y = {};
 };

 extern "C" const fidl_type_t v1_fidl_test_json_ExamplefooRequestTable;
 extern "C" const fidl_type_t v1_fidl_test_json_ExamplefooResponseTable;

 class Example final {
   Example() = delete;

  public:
   struct fooResponse final {
     FIDL_ALIGNDECL
     fidl_message_header_t _hdr;
     ::llcpp::fidl::test::json::Example_foo_Result result;

     static constexpr const fidl_type_t* Type =
         &v1_fidl_test_json_ExamplefooResponseTable;
     static constexpr uint32_t MaxNumHandles = 0;
     static constexpr uint32_t PrimarySize = 40;
     static constexpr uint32_t MaxOutOfLine = 8;
     static constexpr bool HasFlexibleEnvelope = false;
     static constexpr bool HasPointer = true;
     static constexpr bool ContainsUnion = true;
     static constexpr ::fidl::internal::TransactionalMessageKind MessageKind =
         ::fidl::internal::TransactionalMessageKind::kResponse;
   };
   struct fooRequest final {
     FIDL_ALIGNDECL
     fidl_message_header_t _hdr;
     ::fidl::StringView s;

     static constexpr const fidl_type_t* Type =
         &v1_fidl_test_json_ExamplefooRequestTable;
     static constexpr uint32_t MaxNumHandles = 0;
     static constexpr uint32_t PrimarySize = 32;
     static constexpr uint32_t MaxOutOfLine = 4294967295;
     static constexpr uint32_t AltPrimarySize = 32;
     static constexpr uint32_t AltMaxOutOfLine = 4294967295;
     static constexpr bool HasFlexibleEnvelope = false;
     static constexpr bool HasPointer = true;
     static constexpr bool ContainsUnion = false;
     static constexpr ::fidl::internal::TransactionalMessageKind MessageKind =
         ::fidl::internal::TransactionalMessageKind::kRequest;
     using ResponseType = fooResponse;
   };

   // Collection of return types of FIDL calls in this protocol.
   class ResultOf final {
     ResultOf() = delete;

    private:
     template <typename ResponseType>
     class foo_Impl final
         : private ::fidl::internal::OwnedSyncCallBase<ResponseType> {
       using Super = ::fidl::internal::OwnedSyncCallBase<ResponseType>;

      public:
       foo_Impl(::zx::unowned_channel _client_end, ::fidl::StringView s);
       ~foo_Impl() = default;
       foo_Impl(foo_Impl&& other) = default;
       foo_Impl& operator=(foo_Impl&& other) = default;
       using Super::error;
       using Super::ok;
       using Super::status;
       using Super::Unwrap;
       using Super::value;
       using Super::operator->;
       using Super::operator*;
     };

    public:
     using foo = foo_Impl<fooResponse>;
   };

   // Collection of return types of FIDL calls in this protocol,
   // when the caller-allocate flavor or in-place call is used.
   class UnownedResultOf final {
     UnownedResultOf() = delete;

    private:
     template <typename ResponseType>
     class foo_Impl final
         : private ::fidl::internal::UnownedSyncCallBase<ResponseType> {
       using Super = ::fidl::internal::UnownedSyncCallBase<ResponseType>;

      public:
       foo_Impl(::zx::unowned_channel _client_end,
                ::fidl::BytePart _request_buffer, ::fidl::StringView s,
                ::fidl::BytePart _response_buffer);
       ~foo_Impl() = default;
       foo_Impl(foo_Impl&& other) = default;
       foo_Impl& operator=(foo_Impl&& other) = default;
       using Super::error;
       using Super::ok;
       using Super::status;
       using Super::Unwrap;
       using Super::value;
       using Super::operator->;
       using Super::operator*;
     };

    public:
     using foo = foo_Impl<fooResponse>;
   };

   class SyncClient final {
    public:
     SyncClient() = default;
     explicit SyncClient(::zx::channel channel) : channel_(std::move(channel)) {}
     ~SyncClient() = default;
     SyncClient(SyncClient&&) = default;
     SyncClient& operator=(SyncClient&&) = default;

     const ::zx::channel& channel() const { return channel_; }

     ::zx::channel* mutable_channel() { return &channel_; }

     // Allocates 48 bytes of response buffer on the stack. Request is
     // heap-allocated.
     ResultOf::foo foo(::fidl::StringView s);

     // Caller provides the backing storage for FIDL message via request and
     // response buffers.
     UnownedResultOf::foo foo(::fidl::BytePart _request_buffer,
                              ::fidl::StringView s,
                              ::fidl::BytePart _response_buffer);

    private:
     ::zx::channel channel_;
   };

   // Methods to make a sync FIDL call directly on an unowned channel, avoiding
   // setting up a client.
   class Call final {
     Call() = delete;

    public:
     // Allocates 48 bytes of response buffer on the stack. Request is
     // heap-allocated.
     static ResultOf::foo foo(::zx::unowned_channel _client_end,
                              ::fidl::StringView s);

     // Caller provides the backing storage for FIDL message via request and
     // response buffers.
     static UnownedResultOf::foo foo(::zx::unowned_channel _client_end,
                                     ::fidl::BytePart _request_buffer,
                                     ::fidl::StringView s,
                                     ::fidl::BytePart _response_buffer);
   };

   // Messages are encoded and decoded in-place when these methods are used.
   // Additionally, requests must be already laid-out according to the FIDL
   // wire-format.
   class InPlace final {
     InPlace() = delete;

    public:
     static ::fidl::DecodeResult<fooResponse> foo(
         ::zx::unowned_channel _client_end,
         ::fidl::DecodedMessage<fooRequest> params,
         ::fidl::BytePart response_buffer);
   };

   // Pure-virtual interface to be implemented by a server.
   class Interface {
    public:
     Interface() = default;
     virtual ~Interface() = default;
     using _Outer = Example;
     using _Base = ::fidl::CompleterBase;

     class fooCompleterBase : public _Base {
      public:
       void Reply(::llcpp::fidl::test::json::Example_foo_Result result);
       void ReplySuccess(int64_t y);
       void ReplyError(uint32_t error);
       void Reply(::fidl::BytePart _buffer,
                  ::llcpp::fidl::test::json::Example_foo_Result result);
       void ReplySuccess(::fidl::BytePart _buffer, int64_t y);
       void Reply(::fidl::DecodedMessage<fooResponse> params);

      protected:
       using ::fidl::CompleterBase::CompleterBase;
     };

     using fooCompleter = ::fidl::Completer<fooCompleterBase>;

     virtual void foo(::fidl::StringView s, fooCompleter::Sync _completer) = 0;
   };

   // Attempts to dispatch the incoming message to a handler function in the
   // server implementation. If there is no matching handler, it returns false,
   // leaving the message and transaction intact. In all other cases, it consumes
   // the message and returns true. It is possible to chain multiple TryDispatch
   // functions in this manner.
   static bool TryDispatch(Interface* impl, fidl_msg_t* msg,
                           ::fidl::Transaction* txn);

   // Dispatches the incoming message to one of the handlers functions in the
   // protocol. If there is no matching handler, it closes all the handles in
   // |msg| and closes the channel with a |ZX_ERR_NOT_SUPPORTED| epitaph, before
   // returning false. The message should then be discarded.
   static bool Dispatch(Interface* impl, fidl_msg_t* msg,
                        ::fidl::Transaction* txn);

   // Same as |Dispatch|, but takes a |void*| instead of |Interface*|. Only used
   // with |fidl::Bind| to reduce template expansion. Do not call this method
   // manually. Use |Dispatch| instead.
   static bool TypeErasedDispatch(void* impl, fidl_msg_t* msg,
                                  ::fidl::Transaction* txn) {
     return Dispatch(static_cast<Interface*>(impl), msg, txn);
   }

   // Helper functions to fill in the transaction header in a
   // |DecodedMessage<TransactionalMessage>|.
   class SetTransactionHeaderFor final {
     SetTransactionHeaderFor() = delete;

    public:
     static void fooRequest(
         const ::fidl::DecodedMessage<Example::fooRequest>& _msg);
     static void fooResponse(
         const ::fidl::DecodedMessage<Example::fooResponse>& _msg);
   };
 };

 }  // namespace json
 }  // namespace test
 }  // namespace fidl
 }  // namespace llcpp

 namespace fidl {

 template <>
 struct IsFidlType<::llcpp::fidl::test::json::Example_foo_Response>
     : public std::true_type {};
 static_assert(
     std::is_standard_layout_v<::llcpp::fidl::test::json::Example_foo_Response>);
 static_assert(offsetof(::llcpp::fidl::test::json::Example_foo_Response, y) ==
               0);
 static_assert(sizeof(::llcpp::fidl::test::json::Example_foo_Response) ==
               ::llcpp::fidl::test::json::Example_foo_Response::PrimarySize);

 template <>
 struct IsFidlType<::llcpp::fidl::test::json::Example_foo_Result>
     : public std::true_type {};
 static_assert(
     std::is_standard_layout_v<::llcpp::fidl::test::json::Example_foo_Result>);

 template <>
 struct IsFidlType<::llcpp::fidl::test::json::Example::fooRequest>
     : public std::true_type {};
 template <>
 struct IsFidlMessage<::llcpp::fidl::test::json::Example::fooRequest>
     : public std::true_type {};
 static_assert(sizeof(::llcpp::fidl::test::json::Example::fooRequest) ==
               ::llcpp::fidl::test::json::Example::fooRequest::PrimarySize);
 static_assert(offsetof(::llcpp::fidl::test::json::Example::fooRequest, s) ==
               16);

 template <>
 struct IsFidlType<::llcpp::fidl::test::json::Example::fooResponse>
     : public std::true_type {};
 template <>
 struct IsFidlMessage<::llcpp::fidl::test::json::Example::fooResponse>
     : public std::true_type {};
 static_assert(sizeof(::llcpp::fidl::test::json::Example::fooResponse) ==
               ::llcpp::fidl::test::json::Example::fooResponse::PrimarySize);
 static_assert(offsetof(::llcpp::fidl::test::json::Example::fooResponse,
                        result) == 16);

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

	#pragma once

	#include <lib/fidl/internal.h>
	#include <lib/fidl/llcpp/array.h>
	#include <lib/fidl/llcpp/buffer_allocator.h>
	#include <lib/fidl/llcpp/coding.h>
	#include <lib/fidl/llcpp/connect_service.h>
	#include <lib/fidl/llcpp/envelope.h>
	#include <lib/fidl/llcpp/memory.h>
	#include <lib/fidl/llcpp/service_handler_interface.h>
	#include <lib/fidl/llcpp/string_view.h>
	#include <lib/fidl/llcpp/sync_call.h>
	#include <lib/fidl/llcpp/tracking_ptr.h>
	#include <lib/fidl/llcpp/traits.h>
	#include <lib/fidl/llcpp/transaction.h>
	#include <lib/fidl/llcpp/vector_view.h>
	#include <lib/fidl/txn_header.h>
	#include <lib/fit/function.h>
	#include <lib/zx/channel.h>
	#include <zircon/fidl.h>

	namespace llcpp {

	namespace fidl {
	namespace test {
	namespace json {

	struct Example_foo_Response;
	class Example_foo_Result;
	class Example;

	extern "C" const fidl_type_t v1_fidl_test_json_Example_foo_ResultTable;

	class Example_foo_Result {
	public:
	Example_foo_Result() : ordinal_(Ordinal::Invalid), envelope_{} {}

	Example_foo_Result(Example_foo_Result&&) = default;
	Example_foo_Result& operator=(Example_foo_Result&&) = default;

	~Example_foo_Result() { reset_ptr(nullptr); }

	enum class Tag : fidl_xunion_tag_t {
	kResponse = 1, // 0x1
	kErr = 2, // 0x2
	};

	bool has_invalid_tag() const { return ordinal_ == Ordinal::Invalid; }

	bool is_response() const { return ordinal_ == Ordinal::kResponse; }

	static Example_foo_Result WithResponse(
	::fidl::tracking_ptr<::llcpp::fidl::test::json::Example_foo_Response>&&
	val) {
	Example_foo_Result result;
	result.set_response(std::move(val));
	return result;
	}

	void set_response(
	::fidl::tracking_ptr<::llcpp::fidl::test::json::Example_foo_Response>&&
	elem) {
	ordinal_ = Ordinal::kResponse;
	reset_ptr(static_cast<::fidl::tracking_ptr<void>>(std::move(elem)));
	}

	::llcpp::fidl::test::json::Example_foo_Response& mutable_response() {
	ZX_ASSERT(ordinal_ == Ordinal::kResponse);
	return static_cast<::llcpp::fidl::test::json::Example_foo_Response>(
	envelope_.data.get());
	}
	const ::llcpp::fidl::test::json::Example_foo_Response& response() const {
	ZX_ASSERT(ordinal_ == Ordinal::kResponse);
	return static_cast<::llcpp::fidl::test::json::Example_foo_Response>(
	envelope_.data.get());
	}

	bool is_err() const { return ordinal_ == Ordinal::kErr; }

	static Example_foo_Result WithErr(::fidl::tracking_ptr<uint32_t>&& val) {
	Example_foo_Result result;
	result.set_err(std::move(val));
	return result;
	}

	void set_err(::fidl::tracking_ptr<uint32_t>&& elem) {
	ordinal_ = Ordinal::kErr;
	reset_ptr(static_cast<::fidl::tracking_ptr<void>>(std::move(elem)));
	}

	uint32_t& mutable_err() {
	ZX_ASSERT(ordinal_ == Ordinal::kErr);
	return static_cast<uint32_t>(envelope_.data.get());
	}
	const uint32_t& err() const {
	ZX_ASSERT(ordinal_ == Ordinal::kErr);
	return static_cast<uint32_t>(envelope_.data.get());
	}
	Tag which() const {
	ZX_ASSERT(!has_invalid_tag());
	return static_cast<Tag>(ordinal_);
	}

	static constexpr const fidl_type_t* Type =
	&v1_fidl_test_json_Example_foo_ResultTable;
	static constexpr uint32_t MaxNumHandles = 0;
	static constexpr uint32_t PrimarySize = 24;
	[[maybe_unused]] static constexpr uint32_t MaxOutOfLine = 8;
	static constexpr bool HasPointer = true;

	private:
	enum class Ordinal : fidl_xunion_tag_t {
	Invalid = 0,
	kResponse = 1, // 0x1
	kErr = 2, // 0x2
	};

	void reset_ptr(::fidl::tracking_ptr<void>&& new_ptr) {
	// To clear the existing value, std::move it and let it go out of scope.
	switch (static_cast<fidl_xunion_tag_t>(ordinal_)) {
	case 1: {
	::fidl::tracking_ptr<::llcpp::fidl::test::json::Example_foo_Response>
	to_destroy = static_cast<::fidl::tracking_ptr<
	::llcpp::fidl::test::json::Example_foo_Response>>(
	std::move(envelope_.data));
	break;
	}
	case 2: {
	::fidl::tracking_ptr<uint32_t> to_destroy =
	static_cast<::fidl::tracking_ptr<uint32_t>>(
	std::move(envelope_.data));
	break;
	}
	}

	envelope_.data = std::move(new_ptr);
	}

	static void SizeAndOffsetAssertionHelper();
	Ordinal ordinal_;
	FIDL_ALIGNDECL
	::fidl::Envelope<void> envelope_;
	};

	extern "C" const fidl_type_t v1_fidl_test_json_Example_foo_ResponseTable;

	struct Example_foo_Response {
	static constexpr const fidl_type_t* Type =
	&v1_fidl_test_json_Example_foo_ResponseTable;
	static constexpr uint32_t MaxNumHandles = 0;
	static constexpr uint32_t PrimarySize = 8;
	[[maybe_unused]] static constexpr uint32_t MaxOutOfLine = 0;
	static constexpr bool HasPointer = false;

	int64_t y = {};
	};

	extern "C" const fidl_type_t v1_fidl_test_json_ExamplefooRequestTable;
	extern "C" const fidl_type_t v1_fidl_test_json_ExamplefooResponseTable;

	class Example final {
	Example() = delete;

	public:
	struct fooResponse final {
	FIDL_ALIGNDECL
	fidl_message_header_t _hdr;
	::llcpp::fidl::test::json::Example_foo_Result result;

	static constexpr const fidl_type_t* Type =
	&v1_fidl_test_json_ExamplefooResponseTable;
	static constexpr uint32_t MaxNumHandles = 0;
	static constexpr uint32_t PrimarySize = 40;
	static constexpr uint32_t MaxOutOfLine = 8;
	static constexpr bool HasFlexibleEnvelope = false;
	static constexpr bool HasPointer = true;
	static constexpr bool ContainsUnion = true;
	static constexpr ::fidl::internal::TransactionalMessageKind MessageKind =
	::fidl::internal::TransactionalMessageKind::kResponse;
	};
	struct fooRequest final {
	FIDL_ALIGNDECL
	fidl_message_header_t _hdr;
	::fidl::StringView s;

	static constexpr const fidl_type_t* Type =
	&v1_fidl_test_json_ExamplefooRequestTable;
	static constexpr uint32_t MaxNumHandles = 0;
	static constexpr uint32_t PrimarySize = 32;
	static constexpr uint32_t MaxOutOfLine = 4294967295;
	static constexpr uint32_t AltPrimarySize = 32;
	static constexpr uint32_t AltMaxOutOfLine = 4294967295;
	static constexpr bool HasFlexibleEnvelope = false;
	static constexpr bool HasPointer = true;
	static constexpr bool ContainsUnion = false;
	static constexpr ::fidl::internal::TransactionalMessageKind MessageKind =
	::fidl::internal::TransactionalMessageKind::kRequest;
	using ResponseType = fooResponse;
	};

	// Collection of return types of FIDL calls in this protocol.
	class ResultOf final {
	ResultOf() = delete;

	private:
	template <typename ResponseType>
	class foo_Impl final
	: private ::fidl::internal::OwnedSyncCallBase<ResponseType> {
	using Super = ::fidl::internal::OwnedSyncCallBase<ResponseType>;

	public:
	foo_Impl(::zx::unowned_channel _client_end, ::fidl::StringView s);
	~foo_Impl() = default;
	foo_Impl(foo_Impl&& other) = default;
	foo_Impl& operator=(foo_Impl&& other) = default;
	using Super::error;
	using Super::ok;
	using Super::status;
	using Super::Unwrap;
	using Super::value;
	using Super::operator->;
	using Super::operator*;
	};

	public:
	using foo = foo_Impl<fooResponse>;
	};

	// Collection of return types of FIDL calls in this protocol,
	// when the caller-allocate flavor or in-place call is used.
	class UnownedResultOf final {
	UnownedResultOf() = delete;

	private:
	template <typename ResponseType>
	class foo_Impl final
	: private ::fidl::internal::UnownedSyncCallBase<ResponseType> {
	using Super = ::fidl::internal::UnownedSyncCallBase<ResponseType>;

	public:
	foo_Impl(::zx::unowned_channel _client_end,
	::fidl::BytePart _request_buffer, ::fidl::StringView s,
	::fidl::BytePart _response_buffer);
	~foo_Impl() = default;
	foo_Impl(foo_Impl&& other) = default;
	foo_Impl& operator=(foo_Impl&& other) = default;
	using Super::error;
	using Super::ok;
	using Super::status;
	using Super::Unwrap;
	using Super::value;
	using Super::operator->;
	using Super::operator*;
	};

	public:
	using foo = foo_Impl<fooResponse>;
	};

	class SyncClient final {
	public:
	SyncClient() = default;
	explicit SyncClient(::zx::channel channel) : channel_(std::move(channel)) {}
	~SyncClient() = default;
	SyncClient(SyncClient&&) = default;
	SyncClient& operator=(SyncClient&&) = default;

	const ::zx::channel& channel() const { return channel_; }

	::zx::channel* mutable_channel() { return &channel_; }

	// Allocates 48 bytes of response buffer on the stack. Request is
	// heap-allocated.
	ResultOf::foo foo(::fidl::StringView s);

	// Caller provides the backing storage for FIDL message via request and
	// response buffers.
	UnownedResultOf::foo foo(::fidl::BytePart _request_buffer,
	::fidl::StringView s,
	::fidl::BytePart _response_buffer);

	private:
	::zx::channel channel_;
	};

	// Methods to make a sync FIDL call directly on an unowned channel, avoiding
	// setting up a client.
	class Call final {
	Call() = delete;

	public:
	// Allocates 48 bytes of response buffer on the stack. Request is
	// heap-allocated.
	static ResultOf::foo foo(::zx::unowned_channel _client_end,
	::fidl::StringView s);

	// Caller provides the backing storage for FIDL message via request and
	// response buffers.
	static UnownedResultOf::foo foo(::zx::unowned_channel _client_end,
	::fidl::BytePart _request_buffer,
	::fidl::StringView s,
	::fidl::BytePart _response_buffer);
	};

	// Messages are encoded and decoded in-place when these methods are used.
	// Additionally, requests must be already laid-out according to the FIDL
	// wire-format.
	class InPlace final {
	InPlace() = delete;

	public:
	static ::fidl::DecodeResult<fooResponse> foo(
	::zx::unowned_channel _client_end,
	::fidl::DecodedMessage<fooRequest> params,
	::fidl::BytePart response_buffer);
	};

	// Pure-virtual interface to be implemented by a server.
	class Interface {
	public:
	Interface() = default;
	virtual ~Interface() = default;
	using _Outer = Example;
	using _Base = ::fidl::CompleterBase;

	class fooCompleterBase : public _Base {
	public:
	void Reply(::llcpp::fidl::test::json::Example_foo_Result result);
	void ReplySuccess(int64_t y);
	void ReplyError(uint32_t error);
	void Reply(::fidl::BytePart _buffer,
	::llcpp::fidl::test::json::Example_foo_Result result);
	void ReplySuccess(::fidl::BytePart _buffer, int64_t y);
	void Reply(::fidl::DecodedMessage<fooResponse> params);

	protected:
	using ::fidl::CompleterBase::CompleterBase;
	};

	using fooCompleter = ::fidl::Completer<fooCompleterBase>;

	virtual void foo(::fidl::StringView s, fooCompleter::Sync _completer) = 0;
	};

	// Attempts to dispatch the incoming message to a handler function in the
	// server implementation. If there is no matching handler, it returns false,
	// leaving the message and transaction intact. In all other cases, it consumes
	// the message and returns true. It is possible to chain multiple TryDispatch
	// functions in this manner.
	static bool TryDispatch(Interface* impl, fidl_msg_t* msg,
	::fidl::Transaction* txn);

	// Dispatches the incoming message to one of the handlers functions in the
	// protocol. If there is no matching handler, it closes all the handles in
	// \|msg\| and closes the channel with a \|ZX_ERR_NOT_SUPPORTED\| epitaph, before
	// returning false. The message should then be discarded.
	static bool Dispatch(Interface* impl, fidl_msg_t* msg,
	::fidl::Transaction* txn);

	// Same as \|Dispatch\|, but takes a \|void\| instead of \|Interface\|. Only used
	// with \|fidl::Bind\| to reduce template expansion. Do not call this method
	// manually. Use \|Dispatch\| instead.
	static bool TypeErasedDispatch(void* impl, fidl_msg_t* msg,
	::fidl::Transaction* txn) {
	return Dispatch(static_cast<Interface*>(impl), msg, txn);
	}

	// Helper functions to fill in the transaction header in a
	// \|DecodedMessage<TransactionalMessage>\|.
	class SetTransactionHeaderFor final {
	SetTransactionHeaderFor() = delete;

	public:
	static void fooRequest(
	const ::fidl::DecodedMessage<Example::fooRequest>& _msg);
	static void fooResponse(
	const ::fidl::DecodedMessage<Example::fooResponse>& _msg);
	};
	};

	} // namespace json
	} // namespace test
	} // namespace fidl
	} // namespace llcpp

	namespace fidl {

	template <>
	struct IsFidlType<::llcpp::fidl::test::json::Example_foo_Response>
	: public std::true_type {};
	static_assert(
	std::is_standard_layout_v<::llcpp::fidl::test::json::Example_foo_Response>);
	static_assert(offsetof(::llcpp::fidl::test::json::Example_foo_Response, y) ==
	0);
	static_assert(sizeof(::llcpp::fidl::test::json::Example_foo_Response) ==
	::llcpp::fidl::test::json::Example_foo_Response::PrimarySize);

	template <>
	struct IsFidlType<::llcpp::fidl::test::json::Example_foo_Result>
	: public std::true_type {};
	static_assert(
	std::is_standard_layout_v<::llcpp::fidl::test::json::Example_foo_Result>);

	template <>
	struct IsFidlType<::llcpp::fidl::test::json::Example::fooRequest>
	: public std::true_type {};
	template <>
	struct IsFidlMessage<::llcpp::fidl::test::json::Example::fooRequest>
	: public std::true_type {};
	static_assert(sizeof(::llcpp::fidl::test::json::Example::fooRequest) ==
	::llcpp::fidl::test::json::Example::fooRequest::PrimarySize);
	static_assert(offsetof(::llcpp::fidl::test::json::Example::fooRequest, s) ==
	16);

	template <>
	struct IsFidlType<::llcpp::fidl::test::json::Example::fooResponse>
	: public std::true_type {};
	template <>
	struct IsFidlMessage<::llcpp::fidl::test::json::Example::fooResponse>
	: public std::true_type {};
	static_assert(sizeof(::llcpp::fidl::test::json::Example::fooResponse) ==
	::llcpp::fidl::test::json::Example::fooResponse::PrimarySize);
	static_assert(offsetof(::llcpp::fidl::test::json::Example::fooResponse,
	result) == 16);

	} // namespace fidl