tools/fidl/fidlgen_llcpp/goldens/bits.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/coding.h>
 #include <lib/fidl/llcpp/envelope.h>
 #include <lib/fidl/llcpp/errors.h>
 #include <lib/fidl/llcpp/message.h>
 #include <lib/fidl/llcpp/message_storage.h>
 #include <lib/fidl/llcpp/object_view.h>
 #include <lib/fidl/llcpp/string_view.h>
 #include <lib/fidl/llcpp/traits.h>
 #include <lib/fidl/llcpp/vector_view.h>
 #include <lib/fit/function.h>
 #include <lib/stdcompat/optional.h>

 #include <algorithm>
 #include <cstddef>
 #include <variant>
 #ifdef __Fuchsia__
 #include <lib/fidl/llcpp/client.h>
 #include <lib/fidl/llcpp/client_end.h>
 #include <lib/fidl/llcpp/connect_service.h>
 #include <lib/fidl/llcpp/result.h>
 #include <lib/fidl/llcpp/server.h>
 #include <lib/fidl/llcpp/server_end.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/llcpp/wire_messaging.h>
 #include <lib/fidl/txn_header.h>

 #endif  // __Fuchsia__
 #include <zircon/fidl.h>

 namespace fidl_test_bits {
 namespace wire {
 // |StrictBits| is strict, hence is guaranteed to only contain
 // members defined in the FIDL schema when receiving it in a message.
 // Sending unknown members will fail at runtime.
 class StrictBits final {
  public:
   constexpr StrictBits() = default;
   constexpr StrictBits(const StrictBits& other) = default;

   // Constructs an instance of |StrictBits| from an underlying primitive value,
   // preserving any bit member not defined in the FIDL schema.
   explicit constexpr StrictBits(uint64_t value) : value_(value) {}
   const static StrictBits SMALLEST;
   const static StrictBits BIGGEST;
   const static StrictBits kMask;

   explicit constexpr inline operator uint64_t() const { return value_; }
   explicit constexpr inline operator bool() const {
     return static_cast<bool>(value_);
   }
   constexpr inline bool operator==(const StrictBits& other) const {
     return value_ == other.value_;
   }
   constexpr inline bool operator!=(const StrictBits& other) const {
     return value_ != other.value_;
   }
   constexpr inline StrictBits operator~() const;
   constexpr inline StrictBits operator|(const StrictBits& other) const;
   constexpr inline StrictBits operator&(const StrictBits& other) const;
   constexpr inline StrictBits operator^(const StrictBits& other) const;
   constexpr inline void operator|=(const StrictBits& other);
   constexpr inline void operator&=(const StrictBits& other);
   constexpr inline void operator^=(const StrictBits& other);

   // Constructs an instance of |StrictBits| from an underlying primitive value
   // if the primitive does not contain any unknown members not defined in the
   // FIDL schema. Otherwise, returns |cpp17::nullopt|.
   constexpr inline static cpp17::optional<StrictBits> TryFrom(uint64_t value) {
     if (value & ~kMask.value_) {
       return cpp17::nullopt;
     }
     return StrictBits(value & StrictBits::kMask.value_);
   }

   // Constructs an instance of |StrictBits| from an underlying primitive value,
   // clearing any bit member not defined in the FIDL schema.
   constexpr inline static StrictBits TruncatingUnknown(uint64_t value) {
     return StrictBits(value & StrictBits::kMask.value_);
   }

  private:
   uint64_t value_ = 0;
 };
 constexpr const ::fidl_test_bits::wire::StrictBits StrictBits::SMALLEST =
     ::fidl_test_bits::wire::StrictBits(1u);
 constexpr const ::fidl_test_bits::wire::StrictBits StrictBits::BIGGEST =
     ::fidl_test_bits::wire::StrictBits(9223372036854775808u);
 constexpr const ::fidl_test_bits::wire::StrictBits StrictBits::kMask =
     ::fidl_test_bits::wire::StrictBits(9223372036854775809u);

 constexpr inline ::fidl_test_bits::wire::StrictBits StrictBits::operator~()
     const {
   return ::fidl_test_bits::wire::StrictBits(
       static_cast<uint64_t>(~this->value_ & kMask.value_));
 }

 constexpr inline ::fidl_test_bits::wire::StrictBits StrictBits::operator|(
     const ::fidl_test_bits::wire::StrictBits& other) const {
   return ::fidl_test_bits::wire::StrictBits(
       static_cast<uint64_t>(this->value_ | other.value_));
 }

 constexpr inline ::fidl_test_bits::wire::StrictBits StrictBits::operator&(
     const ::fidl_test_bits::wire::StrictBits& other) const {
   return ::fidl_test_bits::wire::StrictBits(
       static_cast<uint64_t>(this->value_ & other.value_));
 }

 constexpr inline ::fidl_test_bits::wire::StrictBits StrictBits::operator^(
     const ::fidl_test_bits::wire::StrictBits& other) const {
   return ::fidl_test_bits::wire::StrictBits(
       static_cast<uint64_t>(this->value_ ^ other.value_));
 }

 constexpr inline void StrictBits::operator|=(
     const ::fidl_test_bits::wire::StrictBits& other) {
   this->value_ |= other.value_;
 }

 constexpr inline void StrictBits::operator&=(
     const ::fidl_test_bits::wire::StrictBits& other) {
   this->value_ &= other.value_;
 }

 constexpr inline void StrictBits::operator^=(
     const ::fidl_test_bits::wire::StrictBits& other) {
   this->value_ ^= other.value_;
 }

 // |MyBits| is strict, hence is guaranteed to only contain
 // members defined in the FIDL schema when receiving it in a message.
 // Sending unknown members will fail at runtime.
 class MyBits final {
  public:
   constexpr MyBits() = default;
   constexpr MyBits(const MyBits& other) = default;

   // Constructs an instance of |MyBits| from an underlying primitive value,
   // preserving any bit member not defined in the FIDL schema.
   explicit constexpr MyBits(uint32_t value) : value_(value) {}
   const static MyBits MY_FIRST_BIT;
   const static MyBits MY_OTHER_BIT;
   const static MyBits MASK;
   const static MyBits kMask;

   explicit constexpr inline operator uint32_t() const { return value_; }
   explicit constexpr inline operator bool() const {
     return static_cast<bool>(value_);
   }
   constexpr inline bool operator==(const MyBits& other) const {
     return value_ == other.value_;
   }
   constexpr inline bool operator!=(const MyBits& other) const {
     return value_ != other.value_;
   }
   constexpr inline MyBits operator~() const;
   constexpr inline MyBits operator|(const MyBits& other) const;
   constexpr inline MyBits operator&(const MyBits& other) const;
   constexpr inline MyBits operator^(const MyBits& other) const;
   constexpr inline void operator|=(const MyBits& other);
   constexpr inline void operator&=(const MyBits& other);
   constexpr inline void operator^=(const MyBits& other);

   // Constructs an instance of |MyBits| from an underlying primitive value
   // if the primitive does not contain any unknown members not defined in the
   // FIDL schema. Otherwise, returns |cpp17::nullopt|.
   constexpr inline static cpp17::optional<MyBits> TryFrom(uint32_t value) {
     if (value & ~kMask.value_) {
       return cpp17::nullopt;
     }
     return MyBits(value & MyBits::kMask.value_);
   }

   // Constructs an instance of |MyBits| from an underlying primitive value,
   // clearing any bit member not defined in the FIDL schema.
   constexpr inline static MyBits TruncatingUnknown(uint32_t value) {
     return MyBits(value & MyBits::kMask.value_);
   }

  private:
   uint32_t value_ = 0;
 };
 constexpr const ::fidl_test_bits::wire::MyBits MyBits::MY_FIRST_BIT =
     ::fidl_test_bits::wire::MyBits(1u);
 constexpr const ::fidl_test_bits::wire::MyBits MyBits::MY_OTHER_BIT =
     ::fidl_test_bits::wire::MyBits(2u);
 constexpr const ::fidl_test_bits::wire::MyBits MyBits::MASK =
     ::fidl_test_bits::wire::MyBits(4u);
 constexpr const ::fidl_test_bits::wire::MyBits MyBits::kMask =
     ::fidl_test_bits::wire::MyBits(7u);

 constexpr inline ::fidl_test_bits::wire::MyBits MyBits::operator~() const {
   return ::fidl_test_bits::wire::MyBits(
       static_cast<uint32_t>(~this->value_ & kMask.value_));
 }

 constexpr inline ::fidl_test_bits::wire::MyBits MyBits::operator|(
     const ::fidl_test_bits::wire::MyBits& other) const {
   return ::fidl_test_bits::wire::MyBits(
       static_cast<uint32_t>(this->value_ | other.value_));
 }

 constexpr inline ::fidl_test_bits::wire::MyBits MyBits::operator&(
     const ::fidl_test_bits::wire::MyBits& other) const {
   return ::fidl_test_bits::wire::MyBits(
       static_cast<uint32_t>(this->value_ & other.value_));
 }

 constexpr inline ::fidl_test_bits::wire::MyBits MyBits::operator^(
     const ::fidl_test_bits::wire::MyBits& other) const {
   return ::fidl_test_bits::wire::MyBits(
       static_cast<uint32_t>(this->value_ ^ other.value_));
 }

 constexpr inline void MyBits::operator|=(
     const ::fidl_test_bits::wire::MyBits& other) {
   this->value_ |= other.value_;
 }

 constexpr inline void MyBits::operator&=(
     const ::fidl_test_bits::wire::MyBits& other) {
   this->value_ &= other.value_;
 }

 constexpr inline void MyBits::operator^=(
     const ::fidl_test_bits::wire::MyBits& other) {
   this->value_ ^= other.value_;
 }

 // |FlexibleBits| is flexible, hence may contain unknown members not
 // defined in the FIDL schema.
 class FlexibleBits final {
  public:
   constexpr FlexibleBits() = default;
   constexpr FlexibleBits(const FlexibleBits& other) = default;

   // Constructs an instance of |FlexibleBits| from an underlying primitive
   // value, preserving any bit member not defined in the FIDL schema.
   explicit constexpr FlexibleBits(uint64_t value) : value_(value) {}
   const static FlexibleBits SMALLEST;
   const static FlexibleBits BIGGEST;
   const static FlexibleBits kMask;

   explicit constexpr inline operator uint64_t() const { return value_; }
   explicit constexpr inline operator bool() const {
     return static_cast<bool>(value_);
   }
   constexpr inline bool operator==(const FlexibleBits& other) const {
     return value_ == other.value_;
   }
   constexpr inline bool operator!=(const FlexibleBits& other) const {
     return value_ != other.value_;
   }
   constexpr inline FlexibleBits operator~() const;
   constexpr inline FlexibleBits operator|(const FlexibleBits& other) const;
   constexpr inline FlexibleBits operator&(const FlexibleBits& other) const;
   constexpr inline FlexibleBits operator^(const FlexibleBits& other) const;
   constexpr inline void operator|=(const FlexibleBits& other);
   constexpr inline void operator&=(const FlexibleBits& other);
   constexpr inline void operator^=(const FlexibleBits& other);

   // Constructs an instance of |FlexibleBits| from an underlying primitive value
   // if the primitive does not contain any unknown members not defined in the
   // FIDL schema. Otherwise, returns |cpp17::nullopt|.
   constexpr inline static cpp17::optional<FlexibleBits> TryFrom(
       uint64_t value) {
     if (value & ~kMask.value_) {
       return cpp17::nullopt;
     }
     return FlexibleBits(value & FlexibleBits::kMask.value_);
   }

   // Constructs an instance of |FlexibleBits| from an underlying primitive
   // value, clearing any bit member not defined in the FIDL schema.
   constexpr inline static FlexibleBits TruncatingUnknown(uint64_t value) {
     return FlexibleBits(value & FlexibleBits::kMask.value_);
   }
   constexpr inline FlexibleBits unknown_bits() const {
     return *this & FlexibleBits(~kMask.value_);
   }
   constexpr inline bool has_unknown_bits() const {
     return static_cast<bool>(unknown_bits());
   }

  private:
   uint64_t value_ = 0;
 };
 constexpr const ::fidl_test_bits::wire::FlexibleBits FlexibleBits::SMALLEST =
     ::fidl_test_bits::wire::FlexibleBits(1u);
 constexpr const ::fidl_test_bits::wire::FlexibleBits FlexibleBits::BIGGEST =
     ::fidl_test_bits::wire::FlexibleBits(9223372036854775808u);
 constexpr const ::fidl_test_bits::wire::FlexibleBits FlexibleBits::kMask =
     ::fidl_test_bits::wire::FlexibleBits(9223372036854775809u);

 constexpr inline ::fidl_test_bits::wire::FlexibleBits FlexibleBits::operator~()
     const {
   return ::fidl_test_bits::wire::FlexibleBits(
       static_cast<uint64_t>(~this->value_ & kMask.value_));
 }

 constexpr inline ::fidl_test_bits::wire::FlexibleBits FlexibleBits::operator|(
     const ::fidl_test_bits::wire::FlexibleBits& other) const {
   return ::fidl_test_bits::wire::FlexibleBits(
       static_cast<uint64_t>(this->value_ | other.value_));
 }

 constexpr inline ::fidl_test_bits::wire::FlexibleBits FlexibleBits::operator&(
     const ::fidl_test_bits::wire::FlexibleBits& other) const {
   return ::fidl_test_bits::wire::FlexibleBits(
       static_cast<uint64_t>(this->value_ & other.value_));
 }

 constexpr inline ::fidl_test_bits::wire::FlexibleBits FlexibleBits::operator^(
     const ::fidl_test_bits::wire::FlexibleBits& other) const {
   return ::fidl_test_bits::wire::FlexibleBits(
       static_cast<uint64_t>(this->value_ ^ other.value_));
 }

 constexpr inline void FlexibleBits::operator|=(
     const ::fidl_test_bits::wire::FlexibleBits& other) {
   this->value_ |= other.value_;
 }

 constexpr inline void FlexibleBits::operator&=(
     const ::fidl_test_bits::wire::FlexibleBits& other) {
   this->value_ &= other.value_;
 }

 constexpr inline void FlexibleBits::operator^=(
     const ::fidl_test_bits::wire::FlexibleBits& other) {
   this->value_ ^= other.value_;
 }

 }  // namespace wire
 }  // namespace fidl_test_bits
 namespace fidl {

 template <>
 struct IsFidlType<::fidl_test_bits::wire::StrictBits> : public std::true_type {
 };
 static_assert(std::is_standard_layout_v<::fidl_test_bits::wire::StrictBits>);
 static_assert(sizeof(::fidl_test_bits::wire::StrictBits) == sizeof(uint64_t));

 template <>
 struct IsFidlType<::fidl_test_bits::wire::MyBits> : public std::true_type {};
 static_assert(std::is_standard_layout_v<::fidl_test_bits::wire::MyBits>);
 static_assert(sizeof(::fidl_test_bits::wire::MyBits) == sizeof(uint32_t));

 template <>
 struct IsFidlType<::fidl_test_bits::wire::FlexibleBits>
     : public std::true_type {};
 static_assert(std::is_standard_layout_v<::fidl_test_bits::wire::FlexibleBits>);
 static_assert(sizeof(::fidl_test_bits::wire::FlexibleBits) == sizeof(uint64_t));

 }  // 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/coding.h>
	#include <lib/fidl/llcpp/envelope.h>
	#include <lib/fidl/llcpp/errors.h>
	#include <lib/fidl/llcpp/message.h>
	#include <lib/fidl/llcpp/message_storage.h>
	#include <lib/fidl/llcpp/object_view.h>
	#include <lib/fidl/llcpp/string_view.h>
	#include <lib/fidl/llcpp/traits.h>
	#include <lib/fidl/llcpp/vector_view.h>
	#include <lib/fit/function.h>
	#include <lib/stdcompat/optional.h>

	#include <algorithm>
	#include <cstddef>
	#include <variant>
	#ifdef __Fuchsia__
	#include <lib/fidl/llcpp/client.h>
	#include <lib/fidl/llcpp/client_end.h>
	#include <lib/fidl/llcpp/connect_service.h>
	#include <lib/fidl/llcpp/result.h>
	#include <lib/fidl/llcpp/server.h>
	#include <lib/fidl/llcpp/server_end.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/llcpp/wire_messaging.h>
	#include <lib/fidl/txn_header.h>

	#endif // __Fuchsia__
	#include <zircon/fidl.h>

	namespace fidl_test_bits {
	namespace wire {
	// \|StrictBits\| is strict, hence is guaranteed to only contain
	// members defined in the FIDL schema when receiving it in a message.
	// Sending unknown members will fail at runtime.
	class StrictBits final {
	public:
	constexpr StrictBits() = default;
	constexpr StrictBits(const StrictBits& other) = default;

	// Constructs an instance of \|StrictBits\| from an underlying primitive value,
	// preserving any bit member not defined in the FIDL schema.
	explicit constexpr StrictBits(uint64_t value) : value_(value) {}
	const static StrictBits SMALLEST;
	const static StrictBits BIGGEST;
	const static StrictBits kMask;

	explicit constexpr inline operator uint64_t() const { return value_; }
	explicit constexpr inline operator bool() const {
	return static_cast<bool>(value_);
	}
	constexpr inline bool operator==(const StrictBits& other) const {
	return value_ == other.value_;
	}
	constexpr inline bool operator!=(const StrictBits& other) const {
	return value_ != other.value_;
	}
	constexpr inline StrictBits operator~() const;
	constexpr inline StrictBits operator\|(const StrictBits& other) const;
	constexpr inline StrictBits operator&(const StrictBits& other) const;
	constexpr inline StrictBits operator^(const StrictBits& other) const;
	constexpr inline void operator\|=(const StrictBits& other);
	constexpr inline void operator&=(const StrictBits& other);
	constexpr inline void operator^=(const StrictBits& other);

	// Constructs an instance of \|StrictBits\| from an underlying primitive value
	// if the primitive does not contain any unknown members not defined in the
	// FIDL schema. Otherwise, returns \|cpp17::nullopt\|.
	constexpr inline static cpp17::optional<StrictBits> TryFrom(uint64_t value) {
	if (value & ~kMask.value_) {
	return cpp17::nullopt;
	}
	return StrictBits(value & StrictBits::kMask.value_);
	}

	// Constructs an instance of \|StrictBits\| from an underlying primitive value,
	// clearing any bit member not defined in the FIDL schema.
	constexpr inline static StrictBits TruncatingUnknown(uint64_t value) {
	return StrictBits(value & StrictBits::kMask.value_);
	}

	private:
	uint64_t value_ = 0;
	};
	constexpr const ::fidl_test_bits::wire::StrictBits StrictBits::SMALLEST =
	::fidl_test_bits::wire::StrictBits(1u);
	constexpr const ::fidl_test_bits::wire::StrictBits StrictBits::BIGGEST =
	::fidl_test_bits::wire::StrictBits(9223372036854775808u);
	constexpr const ::fidl_test_bits::wire::StrictBits StrictBits::kMask =
	::fidl_test_bits::wire::StrictBits(9223372036854775809u);

	constexpr inline ::fidl_test_bits::wire::StrictBits StrictBits::operator~()
	const {
	return ::fidl_test_bits::wire::StrictBits(
	static_cast<uint64_t>(~this->value_ & kMask.value_));
	}

	constexpr inline ::fidl_test_bits::wire::StrictBits StrictBits::operator\|(
	const ::fidl_test_bits::wire::StrictBits& other) const {
	return ::fidl_test_bits::wire::StrictBits(
	static_cast<uint64_t>(this->value_ \| other.value_));
	}

	constexpr inline ::fidl_test_bits::wire::StrictBits StrictBits::operator&(
	const ::fidl_test_bits::wire::StrictBits& other) const {
	return ::fidl_test_bits::wire::StrictBits(
	static_cast<uint64_t>(this->value_ & other.value_));
	}

	constexpr inline ::fidl_test_bits::wire::StrictBits StrictBits::operator^(
	const ::fidl_test_bits::wire::StrictBits& other) const {
	return ::fidl_test_bits::wire::StrictBits(
	static_cast<uint64_t>(this->value_ ^ other.value_));
	}

	constexpr inline void StrictBits::operator\|=(
	const ::fidl_test_bits::wire::StrictBits& other) {
	this->value_ \|= other.value_;
	}

	constexpr inline void StrictBits::operator&=(
	const ::fidl_test_bits::wire::StrictBits& other) {
	this->value_ &= other.value_;
	}

	constexpr inline void StrictBits::operator^=(
	const ::fidl_test_bits::wire::StrictBits& other) {
	this->value_ ^= other.value_;
	}

	// \|MyBits\| is strict, hence is guaranteed to only contain
	// members defined in the FIDL schema when receiving it in a message.
	// Sending unknown members will fail at runtime.
	class MyBits final {
	public:
	constexpr MyBits() = default;
	constexpr MyBits(const MyBits& other) = default;

	// Constructs an instance of \|MyBits\| from an underlying primitive value,
	// preserving any bit member not defined in the FIDL schema.
	explicit constexpr MyBits(uint32_t value) : value_(value) {}
	const static MyBits MY_FIRST_BIT;
	const static MyBits MY_OTHER_BIT;
	const static MyBits MASK;
	const static MyBits kMask;

	explicit constexpr inline operator uint32_t() const { return value_; }
	explicit constexpr inline operator bool() const {
	return static_cast<bool>(value_);
	}
	constexpr inline bool operator==(const MyBits& other) const {
	return value_ == other.value_;
	}
	constexpr inline bool operator!=(const MyBits& other) const {
	return value_ != other.value_;
	}
	constexpr inline MyBits operator~() const;
	constexpr inline MyBits operator\|(const MyBits& other) const;
	constexpr inline MyBits operator&(const MyBits& other) const;
	constexpr inline MyBits operator^(const MyBits& other) const;
	constexpr inline void operator\|=(const MyBits& other);
	constexpr inline void operator&=(const MyBits& other);
	constexpr inline void operator^=(const MyBits& other);

	// Constructs an instance of \|MyBits\| from an underlying primitive value
	// if the primitive does not contain any unknown members not defined in the
	// FIDL schema. Otherwise, returns \|cpp17::nullopt\|.
	constexpr inline static cpp17::optional<MyBits> TryFrom(uint32_t value) {
	if (value & ~kMask.value_) {
	return cpp17::nullopt;
	}
	return MyBits(value & MyBits::kMask.value_);
	}

	// Constructs an instance of \|MyBits\| from an underlying primitive value,
	// clearing any bit member not defined in the FIDL schema.
	constexpr inline static MyBits TruncatingUnknown(uint32_t value) {
	return MyBits(value & MyBits::kMask.value_);
	}

	private:
	uint32_t value_ = 0;
	};
	constexpr const ::fidl_test_bits::wire::MyBits MyBits::MY_FIRST_BIT =
	::fidl_test_bits::wire::MyBits(1u);
	constexpr const ::fidl_test_bits::wire::MyBits MyBits::MY_OTHER_BIT =
	::fidl_test_bits::wire::MyBits(2u);
	constexpr const ::fidl_test_bits::wire::MyBits MyBits::MASK =
	::fidl_test_bits::wire::MyBits(4u);
	constexpr const ::fidl_test_bits::wire::MyBits MyBits::kMask =
	::fidl_test_bits::wire::MyBits(7u);

	constexpr inline ::fidl_test_bits::wire::MyBits MyBits::operator~() const {
	return ::fidl_test_bits::wire::MyBits(
	static_cast<uint32_t>(~this->value_ & kMask.value_));
	}

	constexpr inline ::fidl_test_bits::wire::MyBits MyBits::operator\|(
	const ::fidl_test_bits::wire::MyBits& other) const {
	return ::fidl_test_bits::wire::MyBits(
	static_cast<uint32_t>(this->value_ \| other.value_));
	}

	constexpr inline ::fidl_test_bits::wire::MyBits MyBits::operator&(
	const ::fidl_test_bits::wire::MyBits& other) const {
	return ::fidl_test_bits::wire::MyBits(
	static_cast<uint32_t>(this->value_ & other.value_));
	}

	constexpr inline ::fidl_test_bits::wire::MyBits MyBits::operator^(
	const ::fidl_test_bits::wire::MyBits& other) const {
	return ::fidl_test_bits::wire::MyBits(
	static_cast<uint32_t>(this->value_ ^ other.value_));
	}

	constexpr inline void MyBits::operator\|=(
	const ::fidl_test_bits::wire::MyBits& other) {
	this->value_ \|= other.value_;
	}

	constexpr inline void MyBits::operator&=(
	const ::fidl_test_bits::wire::MyBits& other) {
	this->value_ &= other.value_;
	}

	constexpr inline void MyBits::operator^=(
	const ::fidl_test_bits::wire::MyBits& other) {
	this->value_ ^= other.value_;
	}

	// \|FlexibleBits\| is flexible, hence may contain unknown members not
	// defined in the FIDL schema.
	class FlexibleBits final {
	public:
	constexpr FlexibleBits() = default;
	constexpr FlexibleBits(const FlexibleBits& other) = default;

	// Constructs an instance of \|FlexibleBits\| from an underlying primitive
	// value, preserving any bit member not defined in the FIDL schema.
	explicit constexpr FlexibleBits(uint64_t value) : value_(value) {}
	const static FlexibleBits SMALLEST;
	const static FlexibleBits BIGGEST;
	const static FlexibleBits kMask;

	explicit constexpr inline operator uint64_t() const { return value_; }
	explicit constexpr inline operator bool() const {
	return static_cast<bool>(value_);
	}
	constexpr inline bool operator==(const FlexibleBits& other) const {
	return value_ == other.value_;
	}
	constexpr inline bool operator!=(const FlexibleBits& other) const {
	return value_ != other.value_;
	}
	constexpr inline FlexibleBits operator~() const;
	constexpr inline FlexibleBits operator\|(const FlexibleBits& other) const;
	constexpr inline FlexibleBits operator&(const FlexibleBits& other) const;
	constexpr inline FlexibleBits operator^(const FlexibleBits& other) const;
	constexpr inline void operator\|=(const FlexibleBits& other);
	constexpr inline void operator&=(const FlexibleBits& other);
	constexpr inline void operator^=(const FlexibleBits& other);

	// Constructs an instance of \|FlexibleBits\| from an underlying primitive value
	// if the primitive does not contain any unknown members not defined in the
	// FIDL schema. Otherwise, returns \|cpp17::nullopt\|.
	constexpr inline static cpp17::optional<FlexibleBits> TryFrom(
	uint64_t value) {
	if (value & ~kMask.value_) {
	return cpp17::nullopt;
	}
	return FlexibleBits(value & FlexibleBits::kMask.value_);
	}

	// Constructs an instance of \|FlexibleBits\| from an underlying primitive
	// value, clearing any bit member not defined in the FIDL schema.
	constexpr inline static FlexibleBits TruncatingUnknown(uint64_t value) {
	return FlexibleBits(value & FlexibleBits::kMask.value_);
	}
	constexpr inline FlexibleBits unknown_bits() const {
	return *this & FlexibleBits(~kMask.value_);
	}
	constexpr inline bool has_unknown_bits() const {
	return static_cast<bool>(unknown_bits());
	}

	private:
	uint64_t value_ = 0;
	};
	constexpr const ::fidl_test_bits::wire::FlexibleBits FlexibleBits::SMALLEST =
	::fidl_test_bits::wire::FlexibleBits(1u);
	constexpr const ::fidl_test_bits::wire::FlexibleBits FlexibleBits::BIGGEST =
	::fidl_test_bits::wire::FlexibleBits(9223372036854775808u);
	constexpr const ::fidl_test_bits::wire::FlexibleBits FlexibleBits::kMask =
	::fidl_test_bits::wire::FlexibleBits(9223372036854775809u);

	constexpr inline ::fidl_test_bits::wire::FlexibleBits FlexibleBits::operator~()
	const {
	return ::fidl_test_bits::wire::FlexibleBits(
	static_cast<uint64_t>(~this->value_ & kMask.value_));
	}

	constexpr inline ::fidl_test_bits::wire::FlexibleBits FlexibleBits::operator\|(
	const ::fidl_test_bits::wire::FlexibleBits& other) const {
	return ::fidl_test_bits::wire::FlexibleBits(
	static_cast<uint64_t>(this->value_ \| other.value_));
	}

	constexpr inline ::fidl_test_bits::wire::FlexibleBits FlexibleBits::operator&(
	const ::fidl_test_bits::wire::FlexibleBits& other) const {
	return ::fidl_test_bits::wire::FlexibleBits(
	static_cast<uint64_t>(this->value_ & other.value_));
	}

	constexpr inline ::fidl_test_bits::wire::FlexibleBits FlexibleBits::operator^(
	const ::fidl_test_bits::wire::FlexibleBits& other) const {
	return ::fidl_test_bits::wire::FlexibleBits(
	static_cast<uint64_t>(this->value_ ^ other.value_));
	}

	constexpr inline void FlexibleBits::operator\|=(
	const ::fidl_test_bits::wire::FlexibleBits& other) {
	this->value_ \|= other.value_;
	}

	constexpr inline void FlexibleBits::operator&=(
	const ::fidl_test_bits::wire::FlexibleBits& other) {
	this->value_ &= other.value_;
	}

	constexpr inline void FlexibleBits::operator^=(
	const ::fidl_test_bits::wire::FlexibleBits& other) {
	this->value_ ^= other.value_;
	}

	} // namespace wire
	} // namespace fidl_test_bits
	namespace fidl {

	template <>
	struct IsFidlType<::fidl_test_bits::wire::StrictBits> : public std::true_type {
	};
	static_assert(std::is_standard_layout_v<::fidl_test_bits::wire::StrictBits>);
	static_assert(sizeof(::fidl_test_bits::wire::StrictBits) == sizeof(uint64_t));

	template <>
	struct IsFidlType<::fidl_test_bits::wire::MyBits> : public std::true_type {};
	static_assert(std::is_standard_layout_v<::fidl_test_bits::wire::MyBits>);
	static_assert(sizeof(::fidl_test_bits::wire::MyBits) == sizeof(uint32_t));

	template <>
	struct IsFidlType<::fidl_test_bits::wire::FlexibleBits>
	: public std::true_type {};
	static_assert(std::is_standard_layout_v<::fidl_test_bits::wire::FlexibleBits>);
	static_assert(sizeof(::fidl_test_bits::wire::FlexibleBits) == sizeof(uint64_t));

	} // namespace fidl