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

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

 #pragma once

 #include "lib/fidl/cpp/internal/header.h"

 //
 // Domain objects declarations (i.e. "natural types" in unified bindings).
 //
 namespace fidl {
 namespace test {
 namespace enum_ {

 enum class MyStrictEnum : uint32_t {

   FOO = 1u,

   BAR = 2u,
 };

 inline zx_status_t Clone(::fidl::test::enum_::MyStrictEnum value,
                          ::fidl::test::enum_::MyStrictEnum* result) {
   *result = value;
   return ZX_OK;
 }

 enum class MyFlexibleEnumWithCustomUnknown : uint32_t {

   FOO = 1u,

   BAR = 2u,

   CUSTOM_UNKNOWN = 3u,
 };

 inline zx_status_t Clone(
     ::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown value,
     ::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown* result) {
   *result = value;
   return ZX_OK;
 }

 enum class MyFlexibleEnum : uint32_t {

   FOO = 1u,

   BAR = 2u,
 };

 inline zx_status_t Clone(::fidl::test::enum_::MyFlexibleEnum value,
                          ::fidl::test::enum_::MyFlexibleEnum* result) {
   *result = value;
   return ZX_OK;
 }

 }  // namespace enum_
 }  // namespace test
 }  // namespace fidl
 namespace fidl {

 template <>
 struct CodingTraits<::fidl::test::enum_::MyStrictEnum> {
   static constexpr size_t inline_size_old =
       sizeof(::fidl::test::enum_::MyStrictEnum);
   static constexpr size_t inline_size_v1_no_ee =
       sizeof(::fidl::test::enum_::MyStrictEnum);
   static void Encode(Encoder* encoder, ::fidl::test::enum_::MyStrictEnum* value,
                      size_t offset) {
     uint32_t underlying = static_cast<uint32_t>(*value);
     ::fidl::Encode(encoder, &underlying, offset);
   }
   static void Decode(Decoder* decoder, ::fidl::test::enum_::MyStrictEnum* value,
                      size_t offset) {
     uint32_t underlying = {};
     ::fidl::Decode(decoder, &underlying, offset);
     *value = static_cast<::fidl::test::enum_::MyStrictEnum>(underlying);
   }
 };

 inline zx_status_t Clone(::fidl::test::enum_::MyStrictEnum value,
                          ::fidl::test::enum_::MyStrictEnum* result) {
   return ::fidl::test::enum_::Clone(value, result);
 }
 template <>
 struct Equality<::fidl::test::enum_::MyStrictEnum> {
   bool operator()(const ::fidl::test::enum_::MyStrictEnum& _lhs,
                   const ::fidl::test::enum_::MyStrictEnum& _rhs) const {
     return _lhs == _rhs;
   }
 };

 template <>
 struct CodingTraits<::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown> {
   static constexpr size_t inline_size_old =
       sizeof(::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown);
   static constexpr size_t inline_size_v1_no_ee =
       sizeof(::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown);
   static void Encode(
       Encoder* encoder,
       ::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown* value,
       size_t offset) {
     uint32_t underlying = static_cast<uint32_t>(*value);
     ::fidl::Encode(encoder, &underlying, offset);
   }
   static void Decode(
       Decoder* decoder,
       ::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown* value,
       size_t offset) {
     uint32_t underlying = {};
     ::fidl::Decode(decoder, &underlying, offset);
     *value = static_cast<::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown>(
         underlying);
   }
 };

 inline zx_status_t Clone(
     ::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown value,
     ::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown* result) {
   return ::fidl::test::enum_::Clone(value, result);
 }
 template <>
 struct Equality<::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown> {
   bool operator()(
       const ::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown& _lhs,
       const ::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown& _rhs) const {
     return _lhs == _rhs;
   }
 };

 template <>
 struct CodingTraits<::fidl::test::enum_::MyFlexibleEnum> {
   static constexpr size_t inline_size_old =
       sizeof(::fidl::test::enum_::MyFlexibleEnum);
   static constexpr size_t inline_size_v1_no_ee =
       sizeof(::fidl::test::enum_::MyFlexibleEnum);
   static void Encode(Encoder* encoder,
                      ::fidl::test::enum_::MyFlexibleEnum* value,
                      size_t offset) {
     uint32_t underlying = static_cast<uint32_t>(*value);
     ::fidl::Encode(encoder, &underlying, offset);
   }
   static void Decode(Decoder* decoder,
                      ::fidl::test::enum_::MyFlexibleEnum* value,
                      size_t offset) {
     uint32_t underlying = {};
     ::fidl::Decode(decoder, &underlying, offset);
     *value = static_cast<::fidl::test::enum_::MyFlexibleEnum>(underlying);
   }
 };

 inline zx_status_t Clone(::fidl::test::enum_::MyFlexibleEnum value,
                          ::fidl::test::enum_::MyFlexibleEnum* result) {
   return ::fidl::test::enum_::Clone(value, result);
 }
 template <>
 struct Equality<::fidl::test::enum_::MyFlexibleEnum> {
   bool operator()(const ::fidl::test::enum_::MyFlexibleEnum& _lhs,
                   const ::fidl::test::enum_::MyFlexibleEnum& _rhs) const {
     return _lhs == _rhs;
   }
 };

 }  // namespace fidl

 //
 // Proxies and stubs declarations
 //
 namespace fidl {
 namespace test {
 namespace enum_ {}  // namespace enum_
 }  // namespace test
 }  // namespace fidl
	// WARNING: This file is machine generated by fidlgen.

	#pragma once

	#include "lib/fidl/cpp/internal/header.h"

	//
	// Domain objects declarations (i.e. "natural types" in unified bindings).
	//
	namespace fidl {
	namespace test {
	namespace enum_ {

	enum class MyStrictEnum : uint32_t {

	FOO = 1u,

	BAR = 2u,
	};

	inline zx_status_t Clone(::fidl::test::enum_::MyStrictEnum value,
	::fidl::test::enum_::MyStrictEnum* result) {
	*result = value;
	return ZX_OK;
	}

	enum class MyFlexibleEnumWithCustomUnknown : uint32_t {

	FOO = 1u,

	BAR = 2u,

	CUSTOM_UNKNOWN = 3u,
	};

	inline zx_status_t Clone(
	::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown value,
	::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown* result) {
	*result = value;
	return ZX_OK;
	}

	enum class MyFlexibleEnum : uint32_t {

	FOO = 1u,

	BAR = 2u,
	};

	inline zx_status_t Clone(::fidl::test::enum_::MyFlexibleEnum value,
	::fidl::test::enum_::MyFlexibleEnum* result) {
	*result = value;
	return ZX_OK;
	}

	} // namespace enum_
	} // namespace test
	} // namespace fidl
	namespace fidl {

	template <>
	struct CodingTraits<::fidl::test::enum_::MyStrictEnum> {
	static constexpr size_t inline_size_old =
	sizeof(::fidl::test::enum_::MyStrictEnum);
	static constexpr size_t inline_size_v1_no_ee =
	sizeof(::fidl::test::enum_::MyStrictEnum);
	static void Encode(Encoder* encoder, ::fidl::test::enum_::MyStrictEnum* value,
	size_t offset) {
	uint32_t underlying = static_cast<uint32_t>(*value);
	::fidl::Encode(encoder, &underlying, offset);
	}
	static void Decode(Decoder* decoder, ::fidl::test::enum_::MyStrictEnum* value,
	size_t offset) {
	uint32_t underlying = {};
	::fidl::Decode(decoder, &underlying, offset);
	*value = static_cast<::fidl::test::enum_::MyStrictEnum>(underlying);
	}
	};

	inline zx_status_t Clone(::fidl::test::enum_::MyStrictEnum value,
	::fidl::test::enum_::MyStrictEnum* result) {
	return ::fidl::test::enum_::Clone(value, result);
	}
	template <>
	struct Equality<::fidl::test::enum_::MyStrictEnum> {
	bool operator()(const ::fidl::test::enum_::MyStrictEnum& _lhs,
	const ::fidl::test::enum_::MyStrictEnum& _rhs) const {
	return _lhs == _rhs;
	}
	};

	template <>
	struct CodingTraits<::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown> {
	static constexpr size_t inline_size_old =
	sizeof(::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown);
	static constexpr size_t inline_size_v1_no_ee =
	sizeof(::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown);
	static void Encode(
	Encoder* encoder,
	::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown* value,
	size_t offset) {
	uint32_t underlying = static_cast<uint32_t>(*value);
	::fidl::Encode(encoder, &underlying, offset);
	}
	static void Decode(
	Decoder* decoder,
	::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown* value,
	size_t offset) {
	uint32_t underlying = {};
	::fidl::Decode(decoder, &underlying, offset);
	*value = static_cast<::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown>(
	underlying);
	}
	};

	inline zx_status_t Clone(
	::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown value,
	::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown* result) {
	return ::fidl::test::enum_::Clone(value, result);
	}
	template <>
	struct Equality<::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown> {
	bool operator()(
	const ::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown& _lhs,
	const ::fidl::test::enum_::MyFlexibleEnumWithCustomUnknown& _rhs) const {
	return _lhs == _rhs;
	}
	};

	template <>
	struct CodingTraits<::fidl::test::enum_::MyFlexibleEnum> {
	static constexpr size_t inline_size_old =
	sizeof(::fidl::test::enum_::MyFlexibleEnum);
	static constexpr size_t inline_size_v1_no_ee =
	sizeof(::fidl::test::enum_::MyFlexibleEnum);
	static void Encode(Encoder* encoder,
	::fidl::test::enum_::MyFlexibleEnum* value,
	size_t offset) {
	uint32_t underlying = static_cast<uint32_t>(*value);
	::fidl::Encode(encoder, &underlying, offset);
	}
	static void Decode(Decoder* decoder,
	::fidl::test::enum_::MyFlexibleEnum* value,
	size_t offset) {
	uint32_t underlying = {};
	::fidl::Decode(decoder, &underlying, offset);
	*value = static_cast<::fidl::test::enum_::MyFlexibleEnum>(underlying);
	}
	};

	inline zx_status_t Clone(::fidl::test::enum_::MyFlexibleEnum value,
	::fidl::test::enum_::MyFlexibleEnum* result) {
	return ::fidl::test::enum_::Clone(value, result);
	}
	template <>
	struct Equality<::fidl::test::enum_::MyFlexibleEnum> {
	bool operator()(const ::fidl::test::enum_::MyFlexibleEnum& _lhs,
	const ::fidl::test::enum_::MyFlexibleEnum& _rhs) const {
	return _lhs == _rhs;
	}
	};

	} // namespace fidl

	//
	// Proxies and stubs declarations
	//
	namespace fidl {
	namespace test {
	namespace enum_ {} // namespace enum_
	} // namespace test
	} // namespace fidl