tools/fidl/fidlgen_llcpp/goldens/vectors.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/buffer_then_heap_allocator.h>
 #include <lib/fidl/llcpp/coding.h>
 #include <lib/fidl/llcpp/envelope.h>
 #include <lib/fidl/llcpp/errors.h>
 #include <lib/fidl/llcpp/memory.h>
 #include <lib/fidl/llcpp/message.h>
 #include <lib/fidl/llcpp/message_storage.h>
 #include <lib/fidl/llcpp/string_view.h>
 #include <lib/fidl/llcpp/tracking_ptr.h>
 #include <lib/fidl/llcpp/traits.h>
 #include <lib/fidl/llcpp/vector_view.h>
 #include <lib/fit/function.h>
 #include <lib/fit/optional.h>

 #include <variant>
 #ifdef __Fuchsia__
 #include <lib/fidl/llcpp/client.h>
 #include <lib/fidl/llcpp/connect_service.h>
 #include <lib/fidl/llcpp/result.h>
 #include <lib/fidl/llcpp/server.h>
 #include <lib/fidl/llcpp/service_handler_interface.h>
 #include <lib/fidl/llcpp/sync_call.h>
 #include <lib/fidl/llcpp/transaction.h>
 #include <lib/fidl/txn_header.h>
 #endif  // __Fuchsia__
 #include <zircon/fidl.h>

 namespace llcpp {

 namespace fidl {
 namespace test {
 namespace vectors {

 struct ExampleUseOfVectors;

 extern "C" const fidl_type_t fidl_test_vectors_ExampleUseOfVectorsTable;

 struct ExampleUseOfVectors {
   static constexpr const fidl_type_t* Type =
       &fidl_test_vectors_ExampleUseOfVectorsTable;
   static constexpr uint32_t MaxNumHandles = 0;
   static constexpr uint32_t PrimarySize = 32;
   [[maybe_unused]] static constexpr uint32_t MaxOutOfLine = 4294967295;
   static constexpr bool HasPointer = true;

   ::fidl::VectorView<uint8_t> vector_of_uint8 = {};

   ::fidl::VectorView<::fidl::VectorView<bool>> vector_of_vector_of_bool = {};

   class UnownedEncodedMessage final {
    public:
     UnownedEncodedMessage(uint8_t* bytes, uint32_t byte_size,
                           ExampleUseOfVectors* value)
         : message_(bytes, byte_size, sizeof(ExampleUseOfVectors), nullptr, 0,
                    0) {
       message_.LinearizeAndEncode<ExampleUseOfVectors>(value);
     }
     UnownedEncodedMessage(const UnownedEncodedMessage&) = delete;
     UnownedEncodedMessage(UnownedEncodedMessage&&) = delete;
     UnownedEncodedMessage* operator=(const UnownedEncodedMessage&) = delete;
     UnownedEncodedMessage* operator=(UnownedEncodedMessage&&) = delete;

     zx_status_t status() const { return message_.status(); }
 #ifdef __Fuchsia__
     const char* status_string() const { return message_.status_string(); }
 #endif
     bool ok() const { return message_.status() == ZX_OK; }
     const char* error() const { return message_.error(); }

     ::fidl::OutgoingMessage& GetOutgoingMessage() { return message_; }

    private:
     ::fidl::OutgoingMessage message_;
   };

   class OwnedEncodedMessage final {
    public:
     explicit OwnedEncodedMessage(ExampleUseOfVectors* value)
         : bytes_(std::make_unique<
                  ::fidl::internal::AlignedBuffer<ZX_CHANNEL_MAX_MSG_BYTES>>()),
           message_(bytes_->data(), ZX_CHANNEL_MAX_MSG_BYTES, value) {}
     OwnedEncodedMessage(const OwnedEncodedMessage&) = delete;
     OwnedEncodedMessage(OwnedEncodedMessage&&) = delete;
     OwnedEncodedMessage* operator=(const OwnedEncodedMessage&) = delete;
     OwnedEncodedMessage* operator=(OwnedEncodedMessage&&) = delete;

     zx_status_t status() const { return message_.status(); }
 #ifdef __Fuchsia__
     const char* status_string() const { return message_.status_string(); }
 #endif
     bool ok() const { return message_.ok(); }
     const char* error() const { return message_.error(); }

     ::fidl::OutgoingMessage& GetOutgoingMessage() {
       return message_.GetOutgoingMessage();
     }

    private:
     std::unique_ptr<::fidl::internal::AlignedBuffer<ZX_CHANNEL_MAX_MSG_BYTES>>
         bytes_;
     UnownedEncodedMessage message_;
   };

   class DecodedMessage final : public ::fidl::internal::IncomingMessage {
    public:
     DecodedMessage(uint8_t* bytes, uint32_t byte_actual,
                    zx_handle_info_t* handles = nullptr,
                    uint32_t handle_actual = 0)
         : ::fidl::internal::IncomingMessage(bytes, byte_actual, handles,
                                             handle_actual) {
       Decode<struct ExampleUseOfVectors>();
     }
     DecodedMessage(fidl_incoming_msg_t* msg)
         : ::fidl::internal::IncomingMessage(msg) {
       Decode<struct ExampleUseOfVectors>();
     }
     DecodedMessage(const DecodedMessage&) = delete;
     DecodedMessage(DecodedMessage&&) = delete;
     DecodedMessage* operator=(const DecodedMessage&) = delete;
     DecodedMessage* operator=(DecodedMessage&&) = delete;

     struct ExampleUseOfVectors* PrimaryObject() {
       ZX_DEBUG_ASSERT(ok());
       return reinterpret_cast<struct ExampleUseOfVectors*>(bytes());
     }

     // Release the ownership of the decoded message. That means that the handles
     // won't be closed When the object is destroyed. After calling this method,
     // the DecodedMessage object should not be used anymore.
     void ReleasePrimaryObject() { ResetBytes(); }

     // These methods should only be used for testing purpose.
     // They create an DecodedMessage using the bytes of an outgoing message and
     // copying the handles.
     static DecodedMessage FromOutgoingWithRawHandleCopy(
         UnownedEncodedMessage* encoded_message) {
       return DecodedMessage(encoded_message->GetOutgoingMessage());
     }
     static DecodedMessage FromOutgoingWithRawHandleCopy(
         OwnedEncodedMessage* encoded_message) {
       return DecodedMessage(encoded_message->GetOutgoingMessage());
     }

    private:
     DecodedMessage(::fidl::OutgoingMessage& outgoing_message) {
       Init(outgoing_message, nullptr, 0);
       if (ok()) {
         Decode<struct ExampleUseOfVectors>();
       }
     }
   };
 };

 }  // namespace vectors
 }  // namespace test
 }  // namespace fidl
 }  // namespace llcpp

 namespace fidl {

 template <>
 struct IsFidlType<::llcpp::fidl::test::vectors::ExampleUseOfVectors>
     : public std::true_type {};
 template <>
 struct IsStruct<::llcpp::fidl::test::vectors::ExampleUseOfVectors>
     : public std::true_type {};
 static_assert(std::is_standard_layout_v<
               ::llcpp::fidl::test::vectors::ExampleUseOfVectors>);
 static_assert(offsetof(::llcpp::fidl::test::vectors::ExampleUseOfVectors,
                        vector_of_uint8) == 0);
 static_assert(offsetof(::llcpp::fidl::test::vectors::ExampleUseOfVectors,
                        vector_of_vector_of_bool) == 16);
 static_assert(sizeof(::llcpp::fidl::test::vectors::ExampleUseOfVectors) ==
               ::llcpp::fidl::test::vectors::ExampleUseOfVectors::PrimarySize);

 }  // namespace fidl

 namespace llcpp {

 namespace fidl {
 namespace test {
 namespace vectors {}  // namespace vectors
 }  // namespace test
 }  // namespace fidl
 }  // namespace llcpp
	// 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/buffer_then_heap_allocator.h>
	#include <lib/fidl/llcpp/coding.h>
	#include <lib/fidl/llcpp/envelope.h>
	#include <lib/fidl/llcpp/errors.h>
	#include <lib/fidl/llcpp/memory.h>
	#include <lib/fidl/llcpp/message.h>
	#include <lib/fidl/llcpp/message_storage.h>
	#include <lib/fidl/llcpp/string_view.h>
	#include <lib/fidl/llcpp/tracking_ptr.h>
	#include <lib/fidl/llcpp/traits.h>
	#include <lib/fidl/llcpp/vector_view.h>
	#include <lib/fit/function.h>
	#include <lib/fit/optional.h>

	#include <variant>
	#ifdef __Fuchsia__
	#include <lib/fidl/llcpp/client.h>
	#include <lib/fidl/llcpp/connect_service.h>
	#include <lib/fidl/llcpp/result.h>
	#include <lib/fidl/llcpp/server.h>
	#include <lib/fidl/llcpp/service_handler_interface.h>
	#include <lib/fidl/llcpp/sync_call.h>
	#include <lib/fidl/llcpp/transaction.h>
	#include <lib/fidl/txn_header.h>
	#endif // __Fuchsia__
	#include <zircon/fidl.h>

	namespace llcpp {

	namespace fidl {
	namespace test {
	namespace vectors {

	struct ExampleUseOfVectors;

	extern "C" const fidl_type_t fidl_test_vectors_ExampleUseOfVectorsTable;

	struct ExampleUseOfVectors {
	static constexpr const fidl_type_t* Type =
	&fidl_test_vectors_ExampleUseOfVectorsTable;
	static constexpr uint32_t MaxNumHandles = 0;
	static constexpr uint32_t PrimarySize = 32;
	[[maybe_unused]] static constexpr uint32_t MaxOutOfLine = 4294967295;
	static constexpr bool HasPointer = true;

	::fidl::VectorView<uint8_t> vector_of_uint8 = {};

	::fidl::VectorView<::fidl::VectorView<bool>> vector_of_vector_of_bool = {};

	class UnownedEncodedMessage final {
	public:
	UnownedEncodedMessage(uint8_t* bytes, uint32_t byte_size,
	ExampleUseOfVectors* value)
	: message_(bytes, byte_size, sizeof(ExampleUseOfVectors), nullptr, 0,
	0) {
	message_.LinearizeAndEncode<ExampleUseOfVectors>(value);
	}
	UnownedEncodedMessage(const UnownedEncodedMessage&) = delete;
	UnownedEncodedMessage(UnownedEncodedMessage&&) = delete;
	UnownedEncodedMessage* operator=(const UnownedEncodedMessage&) = delete;
	UnownedEncodedMessage* operator=(UnownedEncodedMessage&&) = delete;

	zx_status_t status() const { return message_.status(); }
	#ifdef __Fuchsia__
	const char* status_string() const { return message_.status_string(); }
	#endif
	bool ok() const { return message_.status() == ZX_OK; }
	const char* error() const { return message_.error(); }

	::fidl::OutgoingMessage& GetOutgoingMessage() { return message_; }

	private:
	::fidl::OutgoingMessage message_;
	};

	class OwnedEncodedMessage final {
	public:
	explicit OwnedEncodedMessage(ExampleUseOfVectors* value)
	: bytes_(std::make_unique<
	::fidl::internal::AlignedBuffer<ZX_CHANNEL_MAX_MSG_BYTES>>()),
	message_(bytes_->data(), ZX_CHANNEL_MAX_MSG_BYTES, value) {}
	OwnedEncodedMessage(const OwnedEncodedMessage&) = delete;
	OwnedEncodedMessage(OwnedEncodedMessage&&) = delete;
	OwnedEncodedMessage* operator=(const OwnedEncodedMessage&) = delete;
	OwnedEncodedMessage* operator=(OwnedEncodedMessage&&) = delete;

	zx_status_t status() const { return message_.status(); }
	#ifdef __Fuchsia__
	const char* status_string() const { return message_.status_string(); }
	#endif
	bool ok() const { return message_.ok(); }
	const char* error() const { return message_.error(); }

	::fidl::OutgoingMessage& GetOutgoingMessage() {
	return message_.GetOutgoingMessage();
	}

	private:
	std::unique_ptr<::fidl::internal::AlignedBuffer<ZX_CHANNEL_MAX_MSG_BYTES>>
	bytes_;
	UnownedEncodedMessage message_;
	};

	class DecodedMessage final : public ::fidl::internal::IncomingMessage {
	public:
	DecodedMessage(uint8_t* bytes, uint32_t byte_actual,
	zx_handle_info_t* handles = nullptr,
	uint32_t handle_actual = 0)
	: ::fidl::internal::IncomingMessage(bytes, byte_actual, handles,
	handle_actual) {
	Decode<struct ExampleUseOfVectors>();
	}
	DecodedMessage(fidl_incoming_msg_t* msg)
	: ::fidl::internal::IncomingMessage(msg) {
	Decode<struct ExampleUseOfVectors>();
	}
	DecodedMessage(const DecodedMessage&) = delete;
	DecodedMessage(DecodedMessage&&) = delete;
	DecodedMessage* operator=(const DecodedMessage&) = delete;
	DecodedMessage* operator=(DecodedMessage&&) = delete;

	struct ExampleUseOfVectors* PrimaryObject() {
	ZX_DEBUG_ASSERT(ok());
	return reinterpret_cast<struct ExampleUseOfVectors*>(bytes());
	}

	// Release the ownership of the decoded message. That means that the handles
	// won't be closed When the object is destroyed. After calling this method,
	// the DecodedMessage object should not be used anymore.
	void ReleasePrimaryObject() { ResetBytes(); }

	// These methods should only be used for testing purpose.
	// They create an DecodedMessage using the bytes of an outgoing message and
	// copying the handles.
	static DecodedMessage FromOutgoingWithRawHandleCopy(
	UnownedEncodedMessage* encoded_message) {
	return DecodedMessage(encoded_message->GetOutgoingMessage());
	}
	static DecodedMessage FromOutgoingWithRawHandleCopy(
	OwnedEncodedMessage* encoded_message) {
	return DecodedMessage(encoded_message->GetOutgoingMessage());
	}

	private:
	DecodedMessage(::fidl::OutgoingMessage& outgoing_message) {
	Init(outgoing_message, nullptr, 0);
	if (ok()) {
	Decode<struct ExampleUseOfVectors>();
	}
	}
	};
	};

	} // namespace vectors
	} // namespace test
	} // namespace fidl
	} // namespace llcpp

	namespace fidl {

	template <>
	struct IsFidlType<::llcpp::fidl::test::vectors::ExampleUseOfVectors>
	: public std::true_type {};
	template <>
	struct IsStruct<::llcpp::fidl::test::vectors::ExampleUseOfVectors>
	: public std::true_type {};
	static_assert(std::is_standard_layout_v<
	::llcpp::fidl::test::vectors::ExampleUseOfVectors>);
	static_assert(offsetof(::llcpp::fidl::test::vectors::ExampleUseOfVectors,
	vector_of_uint8) == 0);
	static_assert(offsetof(::llcpp::fidl::test::vectors::ExampleUseOfVectors,
	vector_of_vector_of_bool) == 16);
	static_assert(sizeof(::llcpp::fidl::test::vectors::ExampleUseOfVectors) ==
	::llcpp::fidl::test::vectors::ExampleUseOfVectors::PrimarySize);

	} // namespace fidl

	namespace llcpp {

	namespace fidl {
	namespace test {
	namespace vectors {} // namespace vectors
	} // namespace test
	} // namespace fidl
	} // namespace llcpp