blob: d60f164bfa5aa1ca9c6899b26452d1fff685edff [file] [log] [blame]
/**
* Generated by the Emboss compiler. DO NOT EDIT!
*/
#ifndef TESTDATA_PARAMETERS_EMB_H_
#define TESTDATA_PARAMETERS_EMB_H_
#include <stdint.h>
#include <string.h>
#include <algorithm>
#include <type_traits>
#include <utility>
#include "runtime/cpp/emboss_cpp_util.h"
#include "runtime/cpp/emboss_prelude.h"
#include "runtime/cpp/emboss_enum_view.h"
#include "runtime/cpp/emboss_text_util.h"
/* NOLINTBEGIN */
namespace emboss {
namespace test {
enum class Product : ::std::uint64_t;
enum class MessageId : ::std::uint64_t;
namespace MultiVersion {
} // namespace MultiVersion
template <class Storage>
class GenericMultiVersionView;
namespace Axes {
} // namespace Axes
template <class Storage>
class GenericAxesView;
namespace AxisPair {
} // namespace AxisPair
template <class Storage>
class GenericAxisPairView;
namespace AxesEnvelope {
} // namespace AxesEnvelope
template <class Storage>
class GenericAxesEnvelopeView;
enum class AxisType : ::std::int64_t;
namespace Axis {
} // namespace Axis
template <class Storage>
class GenericAxisView;
namespace Config {
} // namespace Config
template <class Storage>
class GenericConfigView;
namespace ConfigVX {
namespace EmbossReservedAnonymousField1 {
} // namespace EmbossReservedAnonymousField1
template <class Storage>
class GenericEmbossReservedAnonymousField1View;
} // namespace ConfigVX
template <class Storage>
class GenericConfigVXView;
namespace StructWithUnusedParameter {
} // namespace StructWithUnusedParameter
template <class Storage>
class GenericStructWithUnusedParameterView;
namespace StructContainingStructWithUnusedParameter {
} // namespace StructContainingStructWithUnusedParameter
template <class Storage>
class GenericStructContainingStructWithUnusedParameterView;
namespace BiasedValue {
} // namespace BiasedValue
template <class Storage>
class GenericBiasedValueView;
namespace VirtualFirstFieldWithParam {
} // namespace VirtualFirstFieldWithParam
template <class Storage>
class GenericVirtualFirstFieldWithParamView;
namespace ConstVirtualFirstFieldWithParam {
} // namespace ConstVirtualFirstFieldWithParam
template <class Storage>
class GenericConstVirtualFirstFieldWithParamView;
namespace SizedArrayOfBiasedValues {
} // namespace SizedArrayOfBiasedValues
template <class Storage>
class GenericSizedArrayOfBiasedValuesView;
enum class Product : ::std::uint64_t {
VERSION_1 = static_cast</**/::std::int32_t>(0LL),
VERSION_2 = static_cast</**/::std::int32_t>(10LL),
VERSION_X = static_cast</**/::std::int32_t>(23LL),
};
template <class Enum>
class EnumTraits;
template <>
class EnumTraits<Product> final {
public:
static bool TryToGetEnumFromName(const char *emboss_reserved_local_name,
Product *emboss_reserved_local_result) {
if (emboss_reserved_local_name == nullptr) return false;
if (!strcmp("VERSION_1", emboss_reserved_local_name)) {
*emboss_reserved_local_result = Product::VERSION_1;
return true;
}
if (!strcmp("VERSION_2", emboss_reserved_local_name)) {
*emboss_reserved_local_result = Product::VERSION_2;
return true;
}
if (!strcmp("VERSION_X", emboss_reserved_local_name)) {
*emboss_reserved_local_result = Product::VERSION_X;
return true;
}
return false;
}
static const char *TryToGetNameFromEnum(
Product emboss_reserved_local_value) {
switch (emboss_reserved_local_value) {
case Product::VERSION_1: return "VERSION_1";
case Product::VERSION_2: return "VERSION_2";
case Product::VERSION_X: return "VERSION_X";
default: return nullptr;
}
}
static bool EnumIsKnown(Product emboss_reserved_local_value) {
switch (emboss_reserved_local_value) {
case Product::VERSION_1: return true;
case Product::VERSION_2: return true;
case Product::VERSION_X: return true;
default:
return false;
}
}
static ::std::ostream &SendToOstream(::std::ostream &emboss_reserved_local_os,
Product emboss_reserved_local_value) {
const char *emboss_reserved_local_name =
TryToGetNameFromEnum(emboss_reserved_local_value);
if (emboss_reserved_local_name == nullptr) {
emboss_reserved_local_os
<< static_cast</**/ ::std::underlying_type<Product>::type>(
emboss_reserved_local_value);
} else {
emboss_reserved_local_os << emboss_reserved_local_name;
}
return emboss_reserved_local_os;
}
};
static inline bool TryToGetEnumFromName(
const char *emboss_reserved_local_name,
Product *emboss_reserved_local_result) {
return EnumTraits<Product>::TryToGetEnumFromName(
emboss_reserved_local_name, emboss_reserved_local_result);
}
static inline const char *TryToGetNameFromEnum(
Product emboss_reserved_local_value) {
return EnumTraits<Product>::TryToGetNameFromEnum(
emboss_reserved_local_value);
}
static inline bool EnumIsKnown(Product emboss_reserved_local_value) {
return EnumTraits<Product>::EnumIsKnown(emboss_reserved_local_value);
}
static inline ::std::ostream &operator<<(
::std::ostream &emboss_reserved_local_os,
Product emboss_reserved_local_value) {
return EnumTraits<Product>::SendToOstream(emboss_reserved_local_os,
emboss_reserved_local_value);
}
enum class MessageId : ::std::uint64_t {
AXIS = static_cast</**/::std::int32_t>(0LL),
CONFIG = static_cast</**/::std::int32_t>(1LL),
};
template <class Enum>
class EnumTraits;
template <>
class EnumTraits<MessageId> final {
public:
static bool TryToGetEnumFromName(const char *emboss_reserved_local_name,
MessageId *emboss_reserved_local_result) {
if (emboss_reserved_local_name == nullptr) return false;
if (!strcmp("AXIS", emboss_reserved_local_name)) {
*emboss_reserved_local_result = MessageId::AXIS;
return true;
}
if (!strcmp("CONFIG", emboss_reserved_local_name)) {
*emboss_reserved_local_result = MessageId::CONFIG;
return true;
}
return false;
}
static const char *TryToGetNameFromEnum(
MessageId emboss_reserved_local_value) {
switch (emboss_reserved_local_value) {
case MessageId::AXIS: return "AXIS";
case MessageId::CONFIG: return "CONFIG";
default: return nullptr;
}
}
static bool EnumIsKnown(MessageId emboss_reserved_local_value) {
switch (emboss_reserved_local_value) {
case MessageId::AXIS: return true;
case MessageId::CONFIG: return true;
default:
return false;
}
}
static ::std::ostream &SendToOstream(::std::ostream &emboss_reserved_local_os,
MessageId emboss_reserved_local_value) {
const char *emboss_reserved_local_name =
TryToGetNameFromEnum(emboss_reserved_local_value);
if (emboss_reserved_local_name == nullptr) {
emboss_reserved_local_os
<< static_cast</**/ ::std::underlying_type<MessageId>::type>(
emboss_reserved_local_value);
} else {
emboss_reserved_local_os << emboss_reserved_local_name;
}
return emboss_reserved_local_os;
}
};
static inline bool TryToGetEnumFromName(
const char *emboss_reserved_local_name,
MessageId *emboss_reserved_local_result) {
return EnumTraits<MessageId>::TryToGetEnumFromName(
emboss_reserved_local_name, emboss_reserved_local_result);
}
static inline const char *TryToGetNameFromEnum(
MessageId emboss_reserved_local_value) {
return EnumTraits<MessageId>::TryToGetNameFromEnum(
emboss_reserved_local_value);
}
static inline bool EnumIsKnown(MessageId emboss_reserved_local_value) {
return EnumTraits<MessageId>::EnumIsKnown(emboss_reserved_local_value);
}
static inline ::std::ostream &operator<<(
::std::ostream &emboss_reserved_local_os,
MessageId emboss_reserved_local_value) {
return EnumTraits<MessageId>::SendToOstream(emboss_reserved_local_os,
emboss_reserved_local_value);
}
namespace MultiVersion {
} // namespace MultiVersion
template <class View>
struct EmbossReservedInternalIsGenericMultiVersionView;
template <class Storage>
class GenericMultiVersionView final {
public:
GenericMultiVersionView() : backing_() {}
explicit GenericMultiVersionView(
::emboss::test::Product product, Storage emboss_reserved_local_bytes)
: backing_(emboss_reserved_local_bytes) , product_(product)
, parameters_initialized_(true) {}
template <typename OtherStorage>
GenericMultiVersionView(
const GenericMultiVersionView<OtherStorage> &emboss_reserved_local_other)
: backing_{emboss_reserved_local_other.BackingStorage()}
, product_(emboss_reserved_local_other.product_)
, parameters_initialized_(emboss_reserved_local_other.parameters_initialized_) {}
template <typename Arg,
typename = typename ::std::enable_if<
!EmbossReservedInternalIsGenericMultiVersionView<
typename ::std::remove_cv<typename ::std::remove_reference<
Arg>::type>::type>::value>::type>
explicit GenericMultiVersionView(
::emboss::test::Product product, Arg &&emboss_reserved_local_arg)
: backing_(::std::forward<Arg>(
emboss_reserved_local_arg)) , product_(product)
, parameters_initialized_(true) {}
template <typename Arg0, typename Arg1, typename... Args>
explicit GenericMultiVersionView(
::emboss::test::Product product, Arg0 &&emboss_reserved_local_arg0,
Arg1 &&emboss_reserved_local_arg1, Args &&... emboss_reserved_local_args)
: backing_(::std::forward<Arg0>(emboss_reserved_local_arg0),
::std::forward<Arg1>(emboss_reserved_local_arg1),
::std::forward<Args>(
emboss_reserved_local_args)...) , product_(product)
, parameters_initialized_(true) {}
template <typename OtherStorage>
GenericMultiVersionView<Storage> &operator=(
const GenericMultiVersionView<OtherStorage> &emboss_reserved_local_other) {
backing_ = emboss_reserved_local_other.BackingStorage();
return *this;
}
bool Ok() const {
if (!IsComplete()) return false;
if (!parameters_initialized_) return false;
if (!has_message_id().Known()) return false;
if (has_message_id().ValueOrDefault() && !message_id().Ok()) return false;
if (!has_axes().Known()) return false;
if (has_axes().ValueOrDefault() && !axes().Ok()) return false;
if (!has_config().Known()) return false;
if (has_config().ValueOrDefault() && !config().Ok()) return false;
if (!has_config_vx().Known()) return false;
if (has_config_vx().ValueOrDefault() && !config_vx().Ok()) return false;
if (!has_IntrinsicSizeInBytes().Known()) return false;
if (has_IntrinsicSizeInBytes().ValueOrDefault() && !IntrinsicSizeInBytes().Ok()) return false;
if (!has_MaxSizeInBytes().Known()) return false;
if (has_MaxSizeInBytes().ValueOrDefault() && !MaxSizeInBytes().Ok()) return false;
if (!has_MinSizeInBytes().Known()) return false;
if (has_MinSizeInBytes().ValueOrDefault() && !MinSizeInBytes().Ok()) return false;
return true;
}
Storage BackingStorage() const { return backing_; }
bool IsComplete() const {
return backing_.Ok() && IntrinsicSizeInBytes().Ok() &&
backing_.SizeInBytes() >=
static_cast</**/ ::std::size_t>(
IntrinsicSizeInBytes().UncheckedRead());
}
::std::size_t SizeInBytes() const {
return static_cast</**/ ::std::size_t>(IntrinsicSizeInBytes().Read());
}
bool SizeIsKnown() const { return IntrinsicSizeInBytes().Ok(); }
template <typename OtherStorage>
bool Equals(
GenericMultiVersionView<OtherStorage> emboss_reserved_local_other) const {
if (!has_product().Known()) return false;
if (!emboss_reserved_local_other.has_product().Known()) return false;
if (emboss_reserved_local_other.has_product().ValueOrDefault() &&
!has_product().ValueOrDefault())
return false;
if (has_product().ValueOrDefault() &&
!emboss_reserved_local_other.has_product().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_product().ValueOrDefault() &&
has_product().ValueOrDefault() &&
!product().Equals(emboss_reserved_local_other.product()))
return false;
if (!has_message_id().Known()) return false;
if (!emboss_reserved_local_other.has_message_id().Known()) return false;
if (emboss_reserved_local_other.has_message_id().ValueOrDefault() &&
!has_message_id().ValueOrDefault())
return false;
if (has_message_id().ValueOrDefault() &&
!emboss_reserved_local_other.has_message_id().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_message_id().ValueOrDefault() &&
has_message_id().ValueOrDefault() &&
!message_id().Equals(emboss_reserved_local_other.message_id()))
return false;
if (!has_axes().Known()) return false;
if (!emboss_reserved_local_other.has_axes().Known()) return false;
if (emboss_reserved_local_other.has_axes().ValueOrDefault() &&
!has_axes().ValueOrDefault())
return false;
if (has_axes().ValueOrDefault() &&
!emboss_reserved_local_other.has_axes().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_axes().ValueOrDefault() &&
has_axes().ValueOrDefault() &&
!axes().Equals(emboss_reserved_local_other.axes()))
return false;
if (!has_config().Known()) return false;
if (!emboss_reserved_local_other.has_config().Known()) return false;
if (emboss_reserved_local_other.has_config().ValueOrDefault() &&
!has_config().ValueOrDefault())
return false;
if (has_config().ValueOrDefault() &&
!emboss_reserved_local_other.has_config().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_config().ValueOrDefault() &&
has_config().ValueOrDefault() &&
!config().Equals(emboss_reserved_local_other.config()))
return false;
if (!has_config_vx().Known()) return false;
if (!emboss_reserved_local_other.has_config_vx().Known()) return false;
if (emboss_reserved_local_other.has_config_vx().ValueOrDefault() &&
!has_config_vx().ValueOrDefault())
return false;
if (has_config_vx().ValueOrDefault() &&
!emboss_reserved_local_other.has_config_vx().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_config_vx().ValueOrDefault() &&
has_config_vx().ValueOrDefault() &&
!config_vx().Equals(emboss_reserved_local_other.config_vx()))
return false;
return true;
}
template <typename OtherStorage>
bool UncheckedEquals(
GenericMultiVersionView<OtherStorage> emboss_reserved_local_other) const {
if (emboss_reserved_local_other.has_product().ValueOr(false) &&
!has_product().ValueOr(false))
return false;
if (has_product().ValueOr(false) &&
!emboss_reserved_local_other.has_product().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_product().ValueOr(false) &&
has_product().ValueOr(false) &&
!product().UncheckedEquals(emboss_reserved_local_other.product()))
return false;
if (emboss_reserved_local_other.has_message_id().ValueOr(false) &&
!has_message_id().ValueOr(false))
return false;
if (has_message_id().ValueOr(false) &&
!emboss_reserved_local_other.has_message_id().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_message_id().ValueOr(false) &&
has_message_id().ValueOr(false) &&
!message_id().UncheckedEquals(emboss_reserved_local_other.message_id()))
return false;
if (emboss_reserved_local_other.has_axes().ValueOr(false) &&
!has_axes().ValueOr(false))
return false;
if (has_axes().ValueOr(false) &&
!emboss_reserved_local_other.has_axes().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_axes().ValueOr(false) &&
has_axes().ValueOr(false) &&
!axes().UncheckedEquals(emboss_reserved_local_other.axes()))
return false;
if (emboss_reserved_local_other.has_config().ValueOr(false) &&
!has_config().ValueOr(false))
return false;
if (has_config().ValueOr(false) &&
!emboss_reserved_local_other.has_config().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_config().ValueOr(false) &&
has_config().ValueOr(false) &&
!config().UncheckedEquals(emboss_reserved_local_other.config()))
return false;
if (emboss_reserved_local_other.has_config_vx().ValueOr(false) &&
!has_config_vx().ValueOr(false))
return false;
if (has_config_vx().ValueOr(false) &&
!emboss_reserved_local_other.has_config_vx().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_config_vx().ValueOr(false) &&
has_config_vx().ValueOr(false) &&
!config_vx().UncheckedEquals(emboss_reserved_local_other.config_vx()))
return false;
return true;
}
template <typename OtherStorage>
void UncheckedCopyFrom(
GenericMultiVersionView<OtherStorage> emboss_reserved_local_other) const {
backing_.UncheckedCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().UncheckedRead());
}
template <typename OtherStorage>
void CopyFrom(
GenericMultiVersionView<OtherStorage> emboss_reserved_local_other) const {
backing_.CopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <typename OtherStorage>
bool TryToCopyFrom(
GenericMultiVersionView<OtherStorage> emboss_reserved_local_other) const {
return emboss_reserved_local_other.Ok() && backing_.TryToCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <class Stream>
bool UpdateFromTextStream(Stream *emboss_reserved_local_stream) const {
::std::string emboss_reserved_local_brace;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_brace))
return false;
if (emboss_reserved_local_brace != "{") return false;
for (;;) {
::std::string emboss_reserved_local_name;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == ",")
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == "}") return true;
::std::string emboss_reserved_local_colon;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_colon))
return false;
if (emboss_reserved_local_colon != ":") return false;
if (emboss_reserved_local_name == "message_id") {
if (!message_id().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
if (emboss_reserved_local_name == "axes") {
if (!axes().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
if (emboss_reserved_local_name == "config") {
if (!config().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
if (emboss_reserved_local_name == "config_vx") {
if (!config_vx().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
return false;
}
}
template <class Stream>
void WriteToTextStream(
Stream *emboss_reserved_local_stream,
::emboss::TextOutputOptions emboss_reserved_local_options) const {
::emboss::TextOutputOptions emboss_reserved_local_field_options =
emboss_reserved_local_options.PlusOneIndent();
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write("{\n");
} else {
emboss_reserved_local_stream->Write("{");
}
bool emboss_reserved_local_wrote_field = false;
if (has_message_id().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
message_id().IsAggregate() || message_id().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("message_id: ");
message_id().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!message_id().IsAggregate() && !message_id().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# message_id: UNREADABLE\n");
}
}
if (has_axes().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
axes().IsAggregate() || axes().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("axes: ");
axes().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!axes().IsAggregate() && !axes().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# axes: UNREADABLE\n");
}
}
if (has_config().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
config().IsAggregate() || config().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("config: ");
config().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!config().IsAggregate() && !config().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# config: UNREADABLE\n");
}
}
if (has_config_vx().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
config_vx().IsAggregate() || config_vx().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("config_vx: ");
config_vx().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!config_vx().IsAggregate() && !config_vx().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# config_vx: UNREADABLE\n");
}
}
(void)emboss_reserved_local_wrote_field;
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_options.current_indent());
emboss_reserved_local_stream->Write("}");
} else {
emboss_reserved_local_stream->Write(" }");
}
}
static constexpr bool IsAggregate() { return true; }
private:
constexpr ::emboss::support::MaybeConstantView</**/ ::emboss::test::Product>
product() const {
return parameters_initialized_
? ::emboss::support::MaybeConstantView</**/ ::emboss::test::Product>(
product_)
: ::emboss::support::MaybeConstantView</**/ ::emboss::test::Product>();
}
constexpr ::emboss::support::Maybe<bool> has_product() const {
return ::emboss::support::Maybe<bool>(parameters_initialized_);
}
public:
typename ::emboss::support::EnumView<
/**/ ::emboss::test::MessageId,
::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
message_id() const;
::emboss::support::Maybe<bool> has_message_id() const;
public:
typename ::emboss::test::GenericAxesView<typename Storage::template OffsetStorageType</**/0, 1>>
axes() const;
::emboss::support::Maybe<bool> has_axes() const;
public:
typename ::emboss::test::GenericConfigView<typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 1>>, 32>>
config() const;
::emboss::support::Maybe<bool> has_config() const;
public:
typename ::emboss::test::GenericConfigVXView<typename Storage::template OffsetStorageType</**/0, 1>>
config_vx() const;
::emboss::support::Maybe<bool> has_config_vx() const;
public:
class EmbossReservedDollarVirtualIntrinsicSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
explicit EmbossReservedDollarVirtualIntrinsicSizeInBytesView(
const GenericMultiVersionView &emboss_reserved_local_view)
: view_(emboss_reserved_local_view) {}
EmbossReservedDollarVirtualIntrinsicSizeInBytesView() = delete;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) =
default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualIntrinsicSizeInBytesView() = default;
::std::int32_t Read() const {
EMBOSS_CHECK(view_.has_IntrinsicSizeInBytes().ValueOr(false));
auto emboss_reserved_local_value = MaybeRead();
EMBOSS_CHECK(emboss_reserved_local_value.Known());
EMBOSS_CHECK(ValueIsOk(emboss_reserved_local_value.ValueOrDefault()));
return emboss_reserved_local_value.ValueOrDefault();
}
::std::int32_t UncheckedRead() const {
return MaybeRead().ValueOrDefault();
}
bool Ok() const {
auto emboss_reserved_local_value = MaybeRead();
return emboss_reserved_local_value.Known() &&
ValueIsOk(emboss_reserved_local_value.ValueOrDefault());
}
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
private:
::emboss::support::Maybe</**/ ::std::int32_t> MaybeRead() const {
const auto emboss_reserved_local_subexpr_1 = view_.message_id();
const auto emboss_reserved_local_subexpr_2 = (emboss_reserved_local_subexpr_1.Ok() ? ::emboss::support::Maybe</**/::emboss::test::MessageId>(static_cast</**/::emboss::test::MessageId>(emboss_reserved_local_subexpr_1.UncheckedRead())) : ::emboss::support::Maybe</**/::emboss::test::MessageId>());
const auto emboss_reserved_local_subexpr_3 = ::emboss::support::Equal</**/::emboss::test::MessageId, bool, ::emboss::test::MessageId, ::emboss::test::MessageId>(emboss_reserved_local_subexpr_2, ::emboss::support::Maybe</**/::emboss::test::MessageId>(static_cast</**/::emboss::test::MessageId>(0)));
const auto emboss_reserved_local_subexpr_4 = ::emboss::support::Choice</**/::std::int32_t, ::std::int32_t, bool, ::std::int32_t, ::std::int32_t>(emboss_reserved_local_subexpr_3, ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(13LL)), ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL)));
const auto emboss_reserved_local_subexpr_5 = ::emboss::support::Equal</**/::emboss::test::MessageId, bool, ::emboss::test::MessageId, ::emboss::test::MessageId>(emboss_reserved_local_subexpr_2, ::emboss::support::Maybe</**/::emboss::test::MessageId>(static_cast</**/::emboss::test::MessageId>(1)));
const auto emboss_reserved_local_subexpr_6 = ::emboss::support::Choice</**/::std::int32_t, ::std::int32_t, bool, ::std::int32_t, ::std::int32_t>(emboss_reserved_local_subexpr_5, ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(5LL)), ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL)));
const auto emboss_reserved_local_subexpr_7 = view_.product();
const auto emboss_reserved_local_subexpr_8 = (emboss_reserved_local_subexpr_7.Ok() ? ::emboss::support::Maybe</**/::emboss::test::Product>(static_cast</**/::emboss::test::Product>(emboss_reserved_local_subexpr_7.UncheckedRead())) : ::emboss::support::Maybe</**/::emboss::test::Product>());
const auto emboss_reserved_local_subexpr_9 = ::emboss::support::Equal</**/::emboss::test::Product, bool, ::emboss::test::Product, ::emboss::test::Product>(emboss_reserved_local_subexpr_8, ::emboss::support::Maybe</**/::emboss::test::Product>(static_cast</**/::emboss::test::Product>(23)));
const auto emboss_reserved_local_subexpr_10 = ::emboss::support::And</**/bool, bool, bool, bool>(emboss_reserved_local_subexpr_9, emboss_reserved_local_subexpr_5);
const auto emboss_reserved_local_subexpr_11 = ::emboss::support::Choice</**/::std::int32_t, ::std::int32_t, bool, ::std::int32_t, ::std::int32_t>(emboss_reserved_local_subexpr_10, ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(9LL)), ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL)));
const auto emboss_reserved_local_subexpr_12 = ::emboss::support::Maximum</**/::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t>(::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL)), ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL)), emboss_reserved_local_subexpr_4, emboss_reserved_local_subexpr_6, emboss_reserved_local_subexpr_11);
return emboss_reserved_local_subexpr_12;
}
static constexpr bool ValueIsOk(
::std::int32_t emboss_reserved_local_value) {
return (void)emboss_reserved_local_value, // Silence -Wunused-parameter
::emboss::support::Maybe<bool>(true).ValueOr(false);
}
const GenericMultiVersionView view_;
};
EmbossReservedDollarVirtualIntrinsicSizeInBytesView IntrinsicSizeInBytes() const;
::emboss::support::Maybe<bool> has_IntrinsicSizeInBytes() const;
public:
class EmbossReservedDollarVirtualMaxSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMaxSizeInBytesView() {}
EmbossReservedDollarVirtualMaxSizeInBytesView(const EmbossReservedDollarVirtualMaxSizeInBytesView &) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView(EmbossReservedDollarVirtualMaxSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(const EmbossReservedDollarVirtualMaxSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(EmbossReservedDollarVirtualMaxSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMaxSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMaxSizeInBytesView MaxSizeInBytes() {
return EmbossReservedDollarVirtualMaxSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MaxSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMinSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMinSizeInBytesView() {}
EmbossReservedDollarVirtualMinSizeInBytesView(const EmbossReservedDollarVirtualMinSizeInBytesView &) = default;
EmbossReservedDollarVirtualMinSizeInBytesView(EmbossReservedDollarVirtualMinSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(const EmbossReservedDollarVirtualMinSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(EmbossReservedDollarVirtualMinSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMinSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMinSizeInBytesView MinSizeInBytes() {
return EmbossReservedDollarVirtualMinSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MinSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
private:
Storage backing_;
::emboss::test::Product product_;
bool parameters_initialized_ = false;
template <class OtherStorage>
friend class GenericMultiVersionView;
};
using MultiVersionView =
GenericMultiVersionView</**/ ::emboss::support::ReadOnlyContiguousBuffer>;
using MultiVersionWriter =
GenericMultiVersionView</**/ ::emboss::support::ReadWriteContiguousBuffer>;
template <class View>
struct EmbossReservedInternalIsGenericMultiVersionView {
static constexpr const bool value = false;
};
template <class Storage>
struct EmbossReservedInternalIsGenericMultiVersionView<
GenericMultiVersionView<Storage>> {
static constexpr const bool value = true;
};
template <typename T>
inline GenericMultiVersionView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<
decltype(*::std::declval<T>()->data())>::type,
1, 0>>
MakeMultiVersionView(::emboss::test::Product product, T &&emboss_reserved_local_arg) {
return GenericMultiVersionView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<decltype(
*::std::declval<T>()->data())>::type,
1, 0>>(
::std::forward</**/::emboss::test::Product>(product), ::std::forward<T>(emboss_reserved_local_arg));
}
template <typename T>
inline GenericMultiVersionView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>
MakeMultiVersionView(::emboss::test::Product product, T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericMultiVersionView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>(
::std::forward</**/::emboss::test::Product>(product), emboss_reserved_local_data,
emboss_reserved_local_size);
}
template <typename T, ::std::size_t kAlignment>
inline GenericMultiVersionView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>
MakeAlignedMultiVersionView(
::emboss::test::Product product, T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericMultiVersionView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>(
::std::forward</**/::emboss::test::Product>(product), emboss_reserved_local_data,
emboss_reserved_local_size);
}
namespace Axes {
} // namespace Axes
template <class View>
struct EmbossReservedInternalIsGenericAxesView;
template <class Storage>
class GenericAxesView final {
public:
GenericAxesView() : backing_() {}
explicit GenericAxesView(
::std::int32_t axes, Storage emboss_reserved_local_bytes)
: backing_(emboss_reserved_local_bytes) , axes_(axes)
, parameters_initialized_(true) {}
template <typename OtherStorage>
GenericAxesView(
const GenericAxesView<OtherStorage> &emboss_reserved_local_other)
: backing_{emboss_reserved_local_other.BackingStorage()}
, axes_(emboss_reserved_local_other.axes_)
, parameters_initialized_(emboss_reserved_local_other.parameters_initialized_) {}
template <typename Arg,
typename = typename ::std::enable_if<
!EmbossReservedInternalIsGenericAxesView<
typename ::std::remove_cv<typename ::std::remove_reference<
Arg>::type>::type>::value>::type>
explicit GenericAxesView(
::std::int32_t axes, Arg &&emboss_reserved_local_arg)
: backing_(::std::forward<Arg>(
emboss_reserved_local_arg)) , axes_(axes)
, parameters_initialized_(true) {}
template <typename Arg0, typename Arg1, typename... Args>
explicit GenericAxesView(
::std::int32_t axes, Arg0 &&emboss_reserved_local_arg0,
Arg1 &&emboss_reserved_local_arg1, Args &&... emboss_reserved_local_args)
: backing_(::std::forward<Arg0>(emboss_reserved_local_arg0),
::std::forward<Arg1>(emboss_reserved_local_arg1),
::std::forward<Args>(
emboss_reserved_local_args)...) , axes_(axes)
, parameters_initialized_(true) {}
template <typename OtherStorage>
GenericAxesView<Storage> &operator=(
const GenericAxesView<OtherStorage> &emboss_reserved_local_other) {
backing_ = emboss_reserved_local_other.BackingStorage();
return *this;
}
bool Ok() const {
if (!IsComplete()) return false;
if (!parameters_initialized_) return false;
if (!has_values().Known()) return false;
if (has_values().ValueOrDefault() && !values().Ok()) return false;
if (!has_x().Known()) return false;
if (has_x().ValueOrDefault() && !x().Ok()) return false;
if (!has_y().Known()) return false;
if (has_y().ValueOrDefault() && !y().Ok()) return false;
if (!has_z().Known()) return false;
if (has_z().ValueOrDefault() && !z().Ok()) return false;
if (!has_axis_count_plus_one().Known()) return false;
if (has_axis_count_plus_one().ValueOrDefault() && !axis_count_plus_one().Ok()) return false;
if (!has_IntrinsicSizeInBytes().Known()) return false;
if (has_IntrinsicSizeInBytes().ValueOrDefault() && !IntrinsicSizeInBytes().Ok()) return false;
if (!has_MaxSizeInBytes().Known()) return false;
if (has_MaxSizeInBytes().ValueOrDefault() && !MaxSizeInBytes().Ok()) return false;
if (!has_MinSizeInBytes().Known()) return false;
if (has_MinSizeInBytes().ValueOrDefault() && !MinSizeInBytes().Ok()) return false;
return true;
}
Storage BackingStorage() const { return backing_; }
bool IsComplete() const {
return backing_.Ok() && IntrinsicSizeInBytes().Ok() &&
backing_.SizeInBytes() >=
static_cast</**/ ::std::size_t>(
IntrinsicSizeInBytes().UncheckedRead());
}
::std::size_t SizeInBytes() const {
return static_cast</**/ ::std::size_t>(IntrinsicSizeInBytes().Read());
}
bool SizeIsKnown() const { return IntrinsicSizeInBytes().Ok(); }
template <typename OtherStorage>
bool Equals(
GenericAxesView<OtherStorage> emboss_reserved_local_other) const {
if (!has_axes().Known()) return false;
if (!emboss_reserved_local_other.has_axes().Known()) return false;
if (emboss_reserved_local_other.has_axes().ValueOrDefault() &&
!has_axes().ValueOrDefault())
return false;
if (has_axes().ValueOrDefault() &&
!emboss_reserved_local_other.has_axes().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_axes().ValueOrDefault() &&
has_axes().ValueOrDefault() &&
!axes().Equals(emboss_reserved_local_other.axes()))
return false;
if (!has_values().Known()) return false;
if (!emboss_reserved_local_other.has_values().Known()) return false;
if (emboss_reserved_local_other.has_values().ValueOrDefault() &&
!has_values().ValueOrDefault())
return false;
if (has_values().ValueOrDefault() &&
!emboss_reserved_local_other.has_values().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_values().ValueOrDefault() &&
has_values().ValueOrDefault() &&
!values().Equals(emboss_reserved_local_other.values()))
return false;
if (!has_x().Known()) return false;
if (!emboss_reserved_local_other.has_x().Known()) return false;
if (emboss_reserved_local_other.has_x().ValueOrDefault() &&
!has_x().ValueOrDefault())
return false;
if (has_x().ValueOrDefault() &&
!emboss_reserved_local_other.has_x().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_x().ValueOrDefault() &&
has_x().ValueOrDefault() &&
!x().Equals(emboss_reserved_local_other.x()))
return false;
if (!has_y().Known()) return false;
if (!emboss_reserved_local_other.has_y().Known()) return false;
if (emboss_reserved_local_other.has_y().ValueOrDefault() &&
!has_y().ValueOrDefault())
return false;
if (has_y().ValueOrDefault() &&
!emboss_reserved_local_other.has_y().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_y().ValueOrDefault() &&
has_y().ValueOrDefault() &&
!y().Equals(emboss_reserved_local_other.y()))
return false;
if (!has_z().Known()) return false;
if (!emboss_reserved_local_other.has_z().Known()) return false;
if (emboss_reserved_local_other.has_z().ValueOrDefault() &&
!has_z().ValueOrDefault())
return false;
if (has_z().ValueOrDefault() &&
!emboss_reserved_local_other.has_z().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_z().ValueOrDefault() &&
has_z().ValueOrDefault() &&
!z().Equals(emboss_reserved_local_other.z()))
return false;
return true;
}
template <typename OtherStorage>
bool UncheckedEquals(
GenericAxesView<OtherStorage> emboss_reserved_local_other) const {
if (emboss_reserved_local_other.has_axes().ValueOr(false) &&
!has_axes().ValueOr(false))
return false;
if (has_axes().ValueOr(false) &&
!emboss_reserved_local_other.has_axes().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_axes().ValueOr(false) &&
has_axes().ValueOr(false) &&
!axes().UncheckedEquals(emboss_reserved_local_other.axes()))
return false;
if (emboss_reserved_local_other.has_values().ValueOr(false) &&
!has_values().ValueOr(false))
return false;
if (has_values().ValueOr(false) &&
!emboss_reserved_local_other.has_values().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_values().ValueOr(false) &&
has_values().ValueOr(false) &&
!values().UncheckedEquals(emboss_reserved_local_other.values()))
return false;
if (emboss_reserved_local_other.has_x().ValueOr(false) &&
!has_x().ValueOr(false))
return false;
if (has_x().ValueOr(false) &&
!emboss_reserved_local_other.has_x().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_x().ValueOr(false) &&
has_x().ValueOr(false) &&
!x().UncheckedEquals(emboss_reserved_local_other.x()))
return false;
if (emboss_reserved_local_other.has_y().ValueOr(false) &&
!has_y().ValueOr(false))
return false;
if (has_y().ValueOr(false) &&
!emboss_reserved_local_other.has_y().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_y().ValueOr(false) &&
has_y().ValueOr(false) &&
!y().UncheckedEquals(emboss_reserved_local_other.y()))
return false;
if (emboss_reserved_local_other.has_z().ValueOr(false) &&
!has_z().ValueOr(false))
return false;
if (has_z().ValueOr(false) &&
!emboss_reserved_local_other.has_z().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_z().ValueOr(false) &&
has_z().ValueOr(false) &&
!z().UncheckedEquals(emboss_reserved_local_other.z()))
return false;
return true;
}
template <typename OtherStorage>
void UncheckedCopyFrom(
GenericAxesView<OtherStorage> emboss_reserved_local_other) const {
backing_.UncheckedCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().UncheckedRead());
}
template <typename OtherStorage>
void CopyFrom(
GenericAxesView<OtherStorage> emboss_reserved_local_other) const {
backing_.CopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <typename OtherStorage>
bool TryToCopyFrom(
GenericAxesView<OtherStorage> emboss_reserved_local_other) const {
return emboss_reserved_local_other.Ok() && backing_.TryToCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <class Stream>
bool UpdateFromTextStream(Stream *emboss_reserved_local_stream) const {
::std::string emboss_reserved_local_brace;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_brace))
return false;
if (emboss_reserved_local_brace != "{") return false;
for (;;) {
::std::string emboss_reserved_local_name;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == ",")
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == "}") return true;
::std::string emboss_reserved_local_colon;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_colon))
return false;
if (emboss_reserved_local_colon != ":") return false;
if (emboss_reserved_local_name == "values") {
if (!values().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
if (emboss_reserved_local_name == "x") {
if (!x().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
if (emboss_reserved_local_name == "y") {
if (!y().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
if (emboss_reserved_local_name == "z") {
if (!z().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
return false;
}
}
template <class Stream>
void WriteToTextStream(
Stream *emboss_reserved_local_stream,
::emboss::TextOutputOptions emboss_reserved_local_options) const {
::emboss::TextOutputOptions emboss_reserved_local_field_options =
emboss_reserved_local_options.PlusOneIndent();
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write("{\n");
} else {
emboss_reserved_local_stream->Write("{");
}
bool emboss_reserved_local_wrote_field = false;
if (has_values().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
values().IsAggregate() || values().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("values: ");
values().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!values().IsAggregate() && !values().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# values: UNREADABLE\n");
}
}
if (has_x().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
x().IsAggregate() || x().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("x: ");
x().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!x().IsAggregate() && !x().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# x: UNREADABLE\n");
}
}
if (has_y().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
y().IsAggregate() || y().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("y: ");
y().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!y().IsAggregate() && !y().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# y: UNREADABLE\n");
}
}
if (has_z().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
z().IsAggregate() || z().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("z: ");
z().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!z().IsAggregate() && !z().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# z: UNREADABLE\n");
}
}
if (has_axis_count_plus_one().ValueOr(false) &&
emboss_reserved_local_field_options.comments()) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
axis_count_plus_one().IsAggregate() || axis_count_plus_one().Ok()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
emboss_reserved_local_stream->Write("# axis_count_plus_one: ");
axis_count_plus_one().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_stream->Write("\n");
} else {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# axis_count_plus_one: UNREADABLE\n");
}
}
(void)emboss_reserved_local_wrote_field;
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_options.current_indent());
emboss_reserved_local_stream->Write("}");
} else {
emboss_reserved_local_stream->Write(" }");
}
}
static constexpr bool IsAggregate() { return true; }
private:
constexpr ::emboss::support::MaybeConstantView</**/ ::std::int32_t>
axes() const {
return parameters_initialized_
? ::emboss::support::MaybeConstantView</**/ ::std::int32_t>(
axes_)
: ::emboss::support::MaybeConstantView</**/ ::std::int32_t>();
}
constexpr ::emboss::support::Maybe<bool> has_axes() const {
return ::emboss::support::Maybe<bool>(parameters_initialized_);
}
public:
typename ::emboss::support::GenericArrayView<
typename ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 0>::template OffsetStorageType</**/4, 0>>
, typename Storage::template OffsetStorageType</**/0, 0>, 4,
8 , ::emboss::test::AxisType>
values() const;
::emboss::support::Maybe<bool> has_values() const;
public:
typename ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 0>>
x() const;
::emboss::support::Maybe<bool> has_x() const;
public:
typename ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 4>>
y() const;
::emboss::support::Maybe<bool> has_y() const;
public:
typename ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 8>>
z() const;
::emboss::support::Maybe<bool> has_z() const;
public:
class EmbossReservedVirtualAxisCountPlusOneView final {
public:
using ValueType = ::std::int32_t;
explicit EmbossReservedVirtualAxisCountPlusOneView(
const GenericAxesView &emboss_reserved_local_view)
: view_(emboss_reserved_local_view) {}
EmbossReservedVirtualAxisCountPlusOneView() = delete;
EmbossReservedVirtualAxisCountPlusOneView(const EmbossReservedVirtualAxisCountPlusOneView &) = default;
EmbossReservedVirtualAxisCountPlusOneView(EmbossReservedVirtualAxisCountPlusOneView &&) = default;
EmbossReservedVirtualAxisCountPlusOneView &operator=(const EmbossReservedVirtualAxisCountPlusOneView &) =
default;
EmbossReservedVirtualAxisCountPlusOneView &operator=(EmbossReservedVirtualAxisCountPlusOneView &&) =
default;
~EmbossReservedVirtualAxisCountPlusOneView() = default;
::std::int32_t Read() const {
EMBOSS_CHECK(view_.has_axis_count_plus_one().ValueOr(false));
auto emboss_reserved_local_value = MaybeRead();
EMBOSS_CHECK(emboss_reserved_local_value.Known());
EMBOSS_CHECK(ValueIsOk(emboss_reserved_local_value.ValueOrDefault()));
return emboss_reserved_local_value.ValueOrDefault();
}
::std::int32_t UncheckedRead() const {
return MaybeRead().ValueOrDefault();
}
bool Ok() const {
auto emboss_reserved_local_value = MaybeRead();
return emboss_reserved_local_value.Known() &&
ValueIsOk(emboss_reserved_local_value.ValueOrDefault());
}
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
private:
::emboss::support::Maybe</**/ ::std::int32_t> MaybeRead() const {
const auto emboss_reserved_local_subexpr_1 = view_.axes();
const auto emboss_reserved_local_subexpr_2 = (emboss_reserved_local_subexpr_1.Ok() ? ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(emboss_reserved_local_subexpr_1.UncheckedRead())) : ::emboss::support::Maybe</**/::std::int32_t>());
const auto emboss_reserved_local_subexpr_3 = ::emboss::support::Sum</**/::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t>(emboss_reserved_local_subexpr_2, ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL)));
return emboss_reserved_local_subexpr_3;
}
static constexpr bool ValueIsOk(
::std::int32_t emboss_reserved_local_value) {
return (void)emboss_reserved_local_value, // Silence -Wunused-parameter
::emboss::support::Maybe<bool>(true).ValueOr(false);
}
const GenericAxesView view_;
};
EmbossReservedVirtualAxisCountPlusOneView axis_count_plus_one() const;
::emboss::support::Maybe<bool> has_axis_count_plus_one() const;
public:
class EmbossReservedDollarVirtualIntrinsicSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
explicit EmbossReservedDollarVirtualIntrinsicSizeInBytesView(
const GenericAxesView &emboss_reserved_local_view)
: view_(emboss_reserved_local_view) {}
EmbossReservedDollarVirtualIntrinsicSizeInBytesView() = delete;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) =
default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualIntrinsicSizeInBytesView() = default;
::std::int32_t Read() const {
EMBOSS_CHECK(view_.has_IntrinsicSizeInBytes().ValueOr(false));
auto emboss_reserved_local_value = MaybeRead();
EMBOSS_CHECK(emboss_reserved_local_value.Known());
EMBOSS_CHECK(ValueIsOk(emboss_reserved_local_value.ValueOrDefault()));
return emboss_reserved_local_value.ValueOrDefault();
}
::std::int32_t UncheckedRead() const {
return MaybeRead().ValueOrDefault();
}
bool Ok() const {
auto emboss_reserved_local_value = MaybeRead();
return emboss_reserved_local_value.Known() &&
ValueIsOk(emboss_reserved_local_value.ValueOrDefault());
}
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
private:
::emboss::support::Maybe</**/ ::std::int32_t> MaybeRead() const {
const auto emboss_reserved_local_subexpr_1 = view_.axes();
const auto emboss_reserved_local_subexpr_2 = (emboss_reserved_local_subexpr_1.Ok() ? ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(emboss_reserved_local_subexpr_1.UncheckedRead())) : ::emboss::support::Maybe</**/::std::int32_t>());
const auto emboss_reserved_local_subexpr_3 = ::emboss::support::Product</**/::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t>(emboss_reserved_local_subexpr_2, ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL)));
const auto emboss_reserved_local_subexpr_4 = ::emboss::support::Sum</**/::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t>(::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL)), emboss_reserved_local_subexpr_3);
const auto emboss_reserved_local_subexpr_5 = ::emboss::support::Choice</**/::std::int32_t, ::std::int32_t, bool, ::std::int32_t, ::std::int32_t>(::emboss::support::Maybe</**/bool>(true), emboss_reserved_local_subexpr_4, ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL)));
const auto emboss_reserved_local_subexpr_6 = ::emboss::support::GreaterThan</**/::std::int32_t, bool, ::std::int32_t, ::std::int32_t>(emboss_reserved_local_subexpr_2, ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL)));
const auto emboss_reserved_local_subexpr_7 = ::emboss::support::Choice</**/::std::int32_t, ::std::int32_t, bool, ::std::int32_t, ::std::int32_t>(emboss_reserved_local_subexpr_6, ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL)), ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL)));
const auto emboss_reserved_local_subexpr_8 = ::emboss::support::GreaterThan</**/::std::int32_t, bool, ::std::int32_t, ::std::int32_t>(emboss_reserved_local_subexpr_2, ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL)));
const auto emboss_reserved_local_subexpr_9 = ::emboss::support::Choice</**/::std::int32_t, ::std::int32_t, bool, ::std::int32_t, ::std::int32_t>(emboss_reserved_local_subexpr_8, ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(8LL)), ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL)));
const auto emboss_reserved_local_subexpr_10 = ::emboss::support::GreaterThan</**/::std::int32_t, bool, ::std::int32_t, ::std::int32_t>(emboss_reserved_local_subexpr_2, ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(2LL)));
const auto emboss_reserved_local_subexpr_11 = ::emboss::support::Choice</**/::std::int32_t, ::std::int32_t, bool, ::std::int32_t, ::std::int32_t>(emboss_reserved_local_subexpr_10, ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(12LL)), ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL)));
const auto emboss_reserved_local_subexpr_12 = ::emboss::support::Maximum</**/::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t>(::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL)), emboss_reserved_local_subexpr_5, emboss_reserved_local_subexpr_7, emboss_reserved_local_subexpr_9, emboss_reserved_local_subexpr_11);
return emboss_reserved_local_subexpr_12;
}
static constexpr bool ValueIsOk(
::std::int32_t emboss_reserved_local_value) {
return (void)emboss_reserved_local_value, // Silence -Wunused-parameter
::emboss::support::Maybe<bool>(true).ValueOr(false);
}
const GenericAxesView view_;
};
EmbossReservedDollarVirtualIntrinsicSizeInBytesView IntrinsicSizeInBytes() const;
::emboss::support::Maybe<bool> has_IntrinsicSizeInBytes() const;
public:
class EmbossReservedDollarVirtualMaxSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMaxSizeInBytesView() {}
EmbossReservedDollarVirtualMaxSizeInBytesView(const EmbossReservedDollarVirtualMaxSizeInBytesView &) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView(EmbossReservedDollarVirtualMaxSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(const EmbossReservedDollarVirtualMaxSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(EmbossReservedDollarVirtualMaxSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMaxSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMaxSizeInBytesView MaxSizeInBytes() {
return EmbossReservedDollarVirtualMaxSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MaxSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMinSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMinSizeInBytesView() {}
EmbossReservedDollarVirtualMinSizeInBytesView(const EmbossReservedDollarVirtualMinSizeInBytesView &) = default;
EmbossReservedDollarVirtualMinSizeInBytesView(EmbossReservedDollarVirtualMinSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(const EmbossReservedDollarVirtualMinSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(EmbossReservedDollarVirtualMinSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMinSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMinSizeInBytesView MinSizeInBytes() {
return EmbossReservedDollarVirtualMinSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MinSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
private:
Storage backing_;
::std::int32_t axes_;
bool parameters_initialized_ = false;
template <class OtherStorage>
friend class GenericAxesView;
};
using AxesView =
GenericAxesView</**/ ::emboss::support::ReadOnlyContiguousBuffer>;
using AxesWriter =
GenericAxesView</**/ ::emboss::support::ReadWriteContiguousBuffer>;
template <class View>
struct EmbossReservedInternalIsGenericAxesView {
static constexpr const bool value = false;
};
template <class Storage>
struct EmbossReservedInternalIsGenericAxesView<
GenericAxesView<Storage>> {
static constexpr const bool value = true;
};
template <typename T>
inline GenericAxesView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<
decltype(*::std::declval<T>()->data())>::type,
1, 0>>
MakeAxesView(::std::int32_t axes, T &&emboss_reserved_local_arg) {
return GenericAxesView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<decltype(
*::std::declval<T>()->data())>::type,
1, 0>>(
::std::forward</**/::std::int32_t>(axes), ::std::forward<T>(emboss_reserved_local_arg));
}
template <typename T>
inline GenericAxesView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>
MakeAxesView(::std::int32_t axes, T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericAxesView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>(
::std::forward</**/::std::int32_t>(axes), emboss_reserved_local_data,
emboss_reserved_local_size);
}
template <typename T, ::std::size_t kAlignment>
inline GenericAxesView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>
MakeAlignedAxesView(
::std::int32_t axes, T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericAxesView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>(
::std::forward</**/::std::int32_t>(axes), emboss_reserved_local_data,
emboss_reserved_local_size);
}
namespace AxisPair {
} // namespace AxisPair
template <class View>
struct EmbossReservedInternalIsGenericAxisPairView;
template <class Storage>
class GenericAxisPairView final {
public:
GenericAxisPairView() : backing_() {}
explicit GenericAxisPairView(
::emboss::test::AxisType axis_type_a_parameter, ::emboss::test::AxisType axis_type_b_parameter, Storage emboss_reserved_local_bytes)
: backing_(emboss_reserved_local_bytes) , axis_type_a_parameter_(axis_type_a_parameter)
, axis_type_b_parameter_(axis_type_b_parameter)
, parameters_initialized_(true) {}
template <typename OtherStorage>
GenericAxisPairView(
const GenericAxisPairView<OtherStorage> &emboss_reserved_local_other)
: backing_{emboss_reserved_local_other.BackingStorage()}
, axis_type_a_parameter_(emboss_reserved_local_other.axis_type_a_parameter_)
, axis_type_b_parameter_(emboss_reserved_local_other.axis_type_b_parameter_)
, parameters_initialized_(emboss_reserved_local_other.parameters_initialized_) {}
template <typename Arg,
typename = typename ::std::enable_if<
!EmbossReservedInternalIsGenericAxisPairView<
typename ::std::remove_cv<typename ::std::remove_reference<
Arg>::type>::type>::value>::type>
explicit GenericAxisPairView(
::emboss::test::AxisType axis_type_a_parameter, ::emboss::test::AxisType axis_type_b_parameter, Arg &&emboss_reserved_local_arg)
: backing_(::std::forward<Arg>(
emboss_reserved_local_arg)) , axis_type_a_parameter_(axis_type_a_parameter)
, axis_type_b_parameter_(axis_type_b_parameter)
, parameters_initialized_(true) {}
template <typename Arg0, typename Arg1, typename... Args>
explicit GenericAxisPairView(
::emboss::test::AxisType axis_type_a_parameter, ::emboss::test::AxisType axis_type_b_parameter, Arg0 &&emboss_reserved_local_arg0,
Arg1 &&emboss_reserved_local_arg1, Args &&... emboss_reserved_local_args)
: backing_(::std::forward<Arg0>(emboss_reserved_local_arg0),
::std::forward<Arg1>(emboss_reserved_local_arg1),
::std::forward<Args>(
emboss_reserved_local_args)...) , axis_type_a_parameter_(axis_type_a_parameter)
, axis_type_b_parameter_(axis_type_b_parameter)
, parameters_initialized_(true) {}
template <typename OtherStorage>
GenericAxisPairView<Storage> &operator=(
const GenericAxisPairView<OtherStorage> &emboss_reserved_local_other) {
backing_ = emboss_reserved_local_other.BackingStorage();
return *this;
}
bool Ok() const {
if (!IsComplete()) return false;
if (!parameters_initialized_) return false;
if (!has_axis_type_a().Known()) return false;
if (has_axis_type_a().ValueOrDefault() && !axis_type_a().Ok()) return false;
if (!has_axis_a().Known()) return false;
if (has_axis_a().ValueOrDefault() && !axis_a().Ok()) return false;
if (!has_axis_type_b().Known()) return false;
if (has_axis_type_b().ValueOrDefault() && !axis_type_b().Ok()) return false;
if (!has_axis_b().Known()) return false;
if (has_axis_b().ValueOrDefault() && !axis_b().Ok()) return false;
if (!has_IntrinsicSizeInBytes().Known()) return false;
if (has_IntrinsicSizeInBytes().ValueOrDefault() && !IntrinsicSizeInBytes().Ok()) return false;
if (!has_MaxSizeInBytes().Known()) return false;
if (has_MaxSizeInBytes().ValueOrDefault() && !MaxSizeInBytes().Ok()) return false;
if (!has_MinSizeInBytes().Known()) return false;
if (has_MinSizeInBytes().ValueOrDefault() && !MinSizeInBytes().Ok()) return false;
return true;
}
Storage BackingStorage() const { return backing_; }
bool IsComplete() const {
return backing_.Ok() && IntrinsicSizeInBytes().Ok() &&
backing_.SizeInBytes() >=
static_cast</**/ ::std::size_t>(
IntrinsicSizeInBytes().UncheckedRead());
}
static constexpr ::std::size_t SizeInBytes() {
return static_cast</**/ ::std::size_t>(IntrinsicSizeInBytes().Read());
}
static constexpr bool SizeIsKnown() {
return IntrinsicSizeInBytes().Ok();
}
template <typename OtherStorage>
bool Equals(
GenericAxisPairView<OtherStorage> emboss_reserved_local_other) const {
if (!has_axis_type_a_parameter().Known()) return false;
if (!emboss_reserved_local_other.has_axis_type_a_parameter().Known()) return false;
if (emboss_reserved_local_other.has_axis_type_a_parameter().ValueOrDefault() &&
!has_axis_type_a_parameter().ValueOrDefault())
return false;
if (has_axis_type_a_parameter().ValueOrDefault() &&
!emboss_reserved_local_other.has_axis_type_a_parameter().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_axis_type_a_parameter().ValueOrDefault() &&
has_axis_type_a_parameter().ValueOrDefault() &&
!axis_type_a_parameter().Equals(emboss_reserved_local_other.axis_type_a_parameter()))
return false;
if (!has_axis_type_b_parameter().Known()) return false;
if (!emboss_reserved_local_other.has_axis_type_b_parameter().Known()) return false;
if (emboss_reserved_local_other.has_axis_type_b_parameter().ValueOrDefault() &&
!has_axis_type_b_parameter().ValueOrDefault())
return false;
if (has_axis_type_b_parameter().ValueOrDefault() &&
!emboss_reserved_local_other.has_axis_type_b_parameter().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_axis_type_b_parameter().ValueOrDefault() &&
has_axis_type_b_parameter().ValueOrDefault() &&
!axis_type_b_parameter().Equals(emboss_reserved_local_other.axis_type_b_parameter()))
return false;
if (!has_axis_a().Known()) return false;
if (!emboss_reserved_local_other.has_axis_a().Known()) return false;
if (emboss_reserved_local_other.has_axis_a().ValueOrDefault() &&
!has_axis_a().ValueOrDefault())
return false;
if (has_axis_a().ValueOrDefault() &&
!emboss_reserved_local_other.has_axis_a().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_axis_a().ValueOrDefault() &&
has_axis_a().ValueOrDefault() &&
!axis_a().Equals(emboss_reserved_local_other.axis_a()))
return false;
if (!has_axis_b().Known()) return false;
if (!emboss_reserved_local_other.has_axis_b().Known()) return false;
if (emboss_reserved_local_other.has_axis_b().ValueOrDefault() &&
!has_axis_b().ValueOrDefault())
return false;
if (has_axis_b().ValueOrDefault() &&
!emboss_reserved_local_other.has_axis_b().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_axis_b().ValueOrDefault() &&
has_axis_b().ValueOrDefault() &&
!axis_b().Equals(emboss_reserved_local_other.axis_b()))
return false;
return true;
}
template <typename OtherStorage>
bool UncheckedEquals(
GenericAxisPairView<OtherStorage> emboss_reserved_local_other) const {
if (emboss_reserved_local_other.has_axis_type_a_parameter().ValueOr(false) &&
!has_axis_type_a_parameter().ValueOr(false))
return false;
if (has_axis_type_a_parameter().ValueOr(false) &&
!emboss_reserved_local_other.has_axis_type_a_parameter().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_axis_type_a_parameter().ValueOr(false) &&
has_axis_type_a_parameter().ValueOr(false) &&
!axis_type_a_parameter().UncheckedEquals(emboss_reserved_local_other.axis_type_a_parameter()))
return false;
if (emboss_reserved_local_other.has_axis_type_b_parameter().ValueOr(false) &&
!has_axis_type_b_parameter().ValueOr(false))
return false;
if (has_axis_type_b_parameter().ValueOr(false) &&
!emboss_reserved_local_other.has_axis_type_b_parameter().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_axis_type_b_parameter().ValueOr(false) &&
has_axis_type_b_parameter().ValueOr(false) &&
!axis_type_b_parameter().UncheckedEquals(emboss_reserved_local_other.axis_type_b_parameter()))
return false;
if (emboss_reserved_local_other.has_axis_a().ValueOr(false) &&
!has_axis_a().ValueOr(false))
return false;
if (has_axis_a().ValueOr(false) &&
!emboss_reserved_local_other.has_axis_a().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_axis_a().ValueOr(false) &&
has_axis_a().ValueOr(false) &&
!axis_a().UncheckedEquals(emboss_reserved_local_other.axis_a()))
return false;
if (emboss_reserved_local_other.has_axis_b().ValueOr(false) &&
!has_axis_b().ValueOr(false))
return false;
if (has_axis_b().ValueOr(false) &&
!emboss_reserved_local_other.has_axis_b().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_axis_b().ValueOr(false) &&
has_axis_b().ValueOr(false) &&
!axis_b().UncheckedEquals(emboss_reserved_local_other.axis_b()))
return false;
return true;
}
template <typename OtherStorage>
void UncheckedCopyFrom(
GenericAxisPairView<OtherStorage> emboss_reserved_local_other) const {
backing_.UncheckedCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().UncheckedRead());
}
template <typename OtherStorage>
void CopyFrom(
GenericAxisPairView<OtherStorage> emboss_reserved_local_other) const {
backing_.CopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <typename OtherStorage>
bool TryToCopyFrom(
GenericAxisPairView<OtherStorage> emboss_reserved_local_other) const {
return emboss_reserved_local_other.Ok() && backing_.TryToCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <class Stream>
bool UpdateFromTextStream(Stream *emboss_reserved_local_stream) const {
::std::string emboss_reserved_local_brace;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_brace))
return false;
if (emboss_reserved_local_brace != "{") return false;
for (;;) {
::std::string emboss_reserved_local_name;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == ",")
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == "}") return true;
::std::string emboss_reserved_local_colon;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_colon))
return false;
if (emboss_reserved_local_colon != ":") return false;
if (emboss_reserved_local_name == "axis_a") {
if (!axis_a().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
if (emboss_reserved_local_name == "axis_b") {
if (!axis_b().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
return false;
}
}
template <class Stream>
void WriteToTextStream(
Stream *emboss_reserved_local_stream,
::emboss::TextOutputOptions emboss_reserved_local_options) const {
::emboss::TextOutputOptions emboss_reserved_local_field_options =
emboss_reserved_local_options.PlusOneIndent();
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write("{\n");
} else {
emboss_reserved_local_stream->Write("{");
}
bool emboss_reserved_local_wrote_field = false;
if (has_axis_type_a().ValueOr(false) &&
emboss_reserved_local_field_options.comments()) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
axis_type_a().IsAggregate() || axis_type_a().Ok()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
emboss_reserved_local_stream->Write("# axis_type_a: ");
axis_type_a().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_stream->Write("\n");
} else {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# axis_type_a: UNREADABLE\n");
}
}
if (has_axis_a().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
axis_a().IsAggregate() || axis_a().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("axis_a: ");
axis_a().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!axis_a().IsAggregate() && !axis_a().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# axis_a: UNREADABLE\n");
}
}
if (has_axis_type_b().ValueOr(false) &&
emboss_reserved_local_field_options.comments()) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
axis_type_b().IsAggregate() || axis_type_b().Ok()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
emboss_reserved_local_stream->Write("# axis_type_b: ");
axis_type_b().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_stream->Write("\n");
} else {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# axis_type_b: UNREADABLE\n");
}
}
if (has_axis_b().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
axis_b().IsAggregate() || axis_b().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("axis_b: ");
axis_b().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!axis_b().IsAggregate() && !axis_b().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# axis_b: UNREADABLE\n");
}
}
(void)emboss_reserved_local_wrote_field;
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_options.current_indent());
emboss_reserved_local_stream->Write("}");
} else {
emboss_reserved_local_stream->Write(" }");
}
}
static constexpr bool IsAggregate() { return true; }
private:
constexpr ::emboss::support::MaybeConstantView</**/ ::emboss::test::AxisType>
axis_type_a_parameter() const {
return parameters_initialized_
? ::emboss::support::MaybeConstantView</**/ ::emboss::test::AxisType>(
axis_type_a_parameter_)
: ::emboss::support::MaybeConstantView</**/ ::emboss::test::AxisType>();
}
constexpr ::emboss::support::Maybe<bool> has_axis_type_a_parameter() const {
return ::emboss::support::Maybe<bool>(parameters_initialized_);
}
private:
constexpr ::emboss::support::MaybeConstantView</**/ ::emboss::test::AxisType>
axis_type_b_parameter() const {
return parameters_initialized_
? ::emboss::support::MaybeConstantView</**/ ::emboss::test::AxisType>(
axis_type_b_parameter_)
: ::emboss::support::MaybeConstantView</**/ ::emboss::test::AxisType>();
}
constexpr ::emboss::support::Maybe<bool> has_axis_type_b_parameter() const {
return ::emboss::support::Maybe<bool>(parameters_initialized_);
}
public:
class EmbossReservedVirtualAxisTypeAView final {
public:
using ValueType = ::emboss::test::AxisType;
explicit EmbossReservedVirtualAxisTypeAView(
const GenericAxisPairView &emboss_reserved_local_view)
: view_(emboss_reserved_local_view) {}
EmbossReservedVirtualAxisTypeAView() = delete;
EmbossReservedVirtualAxisTypeAView(const EmbossReservedVirtualAxisTypeAView &) = default;
EmbossReservedVirtualAxisTypeAView(EmbossReservedVirtualAxisTypeAView &&) = default;
EmbossReservedVirtualAxisTypeAView &operator=(const EmbossReservedVirtualAxisTypeAView &) =
default;
EmbossReservedVirtualAxisTypeAView &operator=(EmbossReservedVirtualAxisTypeAView &&) =
default;
~EmbossReservedVirtualAxisTypeAView() = default;
::emboss::test::AxisType Read() const {
EMBOSS_CHECK(view_.has_axis_type_a().ValueOr(false));
auto emboss_reserved_local_value = MaybeRead();
EMBOSS_CHECK(emboss_reserved_local_value.Known());
EMBOSS_CHECK(ValueIsOk(emboss_reserved_local_value.ValueOrDefault()));
return emboss_reserved_local_value.ValueOrDefault();
}
::emboss::test::AxisType UncheckedRead() const {
return MaybeRead().ValueOrDefault();
}
bool Ok() const {
auto emboss_reserved_local_value = MaybeRead();
return emboss_reserved_local_value.Known() &&
ValueIsOk(emboss_reserved_local_value.ValueOrDefault());
}
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteEnumViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
private:
::emboss::support::Maybe</**/ ::emboss::test::AxisType> MaybeRead() const {
const auto emboss_reserved_local_subexpr_1 = view_.axis_type_a_parameter();
const auto emboss_reserved_local_subexpr_2 = (emboss_reserved_local_subexpr_1.Ok() ? ::emboss::support::Maybe</**/::emboss::test::AxisType>(static_cast</**/::emboss::test::AxisType>(emboss_reserved_local_subexpr_1.UncheckedRead())) : ::emboss::support::Maybe</**/::emboss::test::AxisType>());
return emboss_reserved_local_subexpr_2;
}
static constexpr bool ValueIsOk(
::emboss::test::AxisType emboss_reserved_local_value) {
return (void)emboss_reserved_local_value, // Silence -Wunused-parameter
::emboss::support::Maybe<bool>(true).ValueOr(false);
}
const GenericAxisPairView view_;
};
EmbossReservedVirtualAxisTypeAView axis_type_a() const;
::emboss::support::Maybe<bool> has_axis_type_a() const;
public:
typename ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 0>>
axis_a() const;
::emboss::support::Maybe<bool> has_axis_a() const;
public:
class EmbossReservedVirtualAxisTypeBView final {
public:
using ValueType = ::emboss::test::AxisType;
explicit EmbossReservedVirtualAxisTypeBView(
const GenericAxisPairView &emboss_reserved_local_view)
: view_(emboss_reserved_local_view) {}
EmbossReservedVirtualAxisTypeBView() = delete;
EmbossReservedVirtualAxisTypeBView(const EmbossReservedVirtualAxisTypeBView &) = default;
EmbossReservedVirtualAxisTypeBView(EmbossReservedVirtualAxisTypeBView &&) = default;
EmbossReservedVirtualAxisTypeBView &operator=(const EmbossReservedVirtualAxisTypeBView &) =
default;
EmbossReservedVirtualAxisTypeBView &operator=(EmbossReservedVirtualAxisTypeBView &&) =
default;
~EmbossReservedVirtualAxisTypeBView() = default;
::emboss::test::AxisType Read() const {
EMBOSS_CHECK(view_.has_axis_type_b().ValueOr(false));
auto emboss_reserved_local_value = MaybeRead();
EMBOSS_CHECK(emboss_reserved_local_value.Known());
EMBOSS_CHECK(ValueIsOk(emboss_reserved_local_value.ValueOrDefault()));
return emboss_reserved_local_value.ValueOrDefault();
}
::emboss::test::AxisType UncheckedRead() const {
return MaybeRead().ValueOrDefault();
}
bool Ok() const {
auto emboss_reserved_local_value = MaybeRead();
return emboss_reserved_local_value.Known() &&
ValueIsOk(emboss_reserved_local_value.ValueOrDefault());
}
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteEnumViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
private:
::emboss::support::Maybe</**/ ::emboss::test::AxisType> MaybeRead() const {
const auto emboss_reserved_local_subexpr_1 = view_.axis_type_b_parameter();
const auto emboss_reserved_local_subexpr_2 = (emboss_reserved_local_subexpr_1.Ok() ? ::emboss::support::Maybe</**/::emboss::test::AxisType>(static_cast</**/::emboss::test::AxisType>(emboss_reserved_local_subexpr_1.UncheckedRead())) : ::emboss::support::Maybe</**/::emboss::test::AxisType>());
return emboss_reserved_local_subexpr_2;
}
static constexpr bool ValueIsOk(
::emboss::test::AxisType emboss_reserved_local_value) {
return (void)emboss_reserved_local_value, // Silence -Wunused-parameter
::emboss::support::Maybe<bool>(true).ValueOr(false);
}
const GenericAxisPairView view_;
};
EmbossReservedVirtualAxisTypeBView axis_type_b() const;
::emboss::support::Maybe<bool> has_axis_type_b() const;
public:
typename ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 4>>
axis_b() const;
::emboss::support::Maybe<bool> has_axis_b() const;
public:
class EmbossReservedDollarVirtualIntrinsicSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualIntrinsicSizeInBytesView() {}
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) =
default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualIntrinsicSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualIntrinsicSizeInBytesView IntrinsicSizeInBytes() {
return EmbossReservedDollarVirtualIntrinsicSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_IntrinsicSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMaxSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMaxSizeInBytesView() {}
EmbossReservedDollarVirtualMaxSizeInBytesView(const EmbossReservedDollarVirtualMaxSizeInBytesView &) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView(EmbossReservedDollarVirtualMaxSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(const EmbossReservedDollarVirtualMaxSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(EmbossReservedDollarVirtualMaxSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMaxSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMaxSizeInBytesView MaxSizeInBytes() {
return EmbossReservedDollarVirtualMaxSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MaxSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMinSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMinSizeInBytesView() {}
EmbossReservedDollarVirtualMinSizeInBytesView(const EmbossReservedDollarVirtualMinSizeInBytesView &) = default;
EmbossReservedDollarVirtualMinSizeInBytesView(EmbossReservedDollarVirtualMinSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(const EmbossReservedDollarVirtualMinSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(EmbossReservedDollarVirtualMinSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMinSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMinSizeInBytesView MinSizeInBytes() {
return EmbossReservedDollarVirtualMinSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MinSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
private:
Storage backing_;
::emboss::test::AxisType axis_type_a_parameter_;
::emboss::test::AxisType axis_type_b_parameter_;
bool parameters_initialized_ = false;
template <class OtherStorage>
friend class GenericAxisPairView;
};
using AxisPairView =
GenericAxisPairView</**/ ::emboss::support::ReadOnlyContiguousBuffer>;
using AxisPairWriter =
GenericAxisPairView</**/ ::emboss::support::ReadWriteContiguousBuffer>;
template <class View>
struct EmbossReservedInternalIsGenericAxisPairView {
static constexpr const bool value = false;
};
template <class Storage>
struct EmbossReservedInternalIsGenericAxisPairView<
GenericAxisPairView<Storage>> {
static constexpr const bool value = true;
};
template <typename T>
inline GenericAxisPairView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<
decltype(*::std::declval<T>()->data())>::type,
1, 0>>
MakeAxisPairView(::emboss::test::AxisType axis_type_a_parameter, ::emboss::test::AxisType axis_type_b_parameter, T &&emboss_reserved_local_arg) {
return GenericAxisPairView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<decltype(
*::std::declval<T>()->data())>::type,
1, 0>>(
::std::forward</**/::emboss::test::AxisType>(axis_type_a_parameter),::std::forward</**/::emboss::test::AxisType>(axis_type_b_parameter), ::std::forward<T>(emboss_reserved_local_arg));
}
template <typename T>
inline GenericAxisPairView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>
MakeAxisPairView(::emboss::test::AxisType axis_type_a_parameter, ::emboss::test::AxisType axis_type_b_parameter, T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericAxisPairView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>(
::std::forward</**/::emboss::test::AxisType>(axis_type_a_parameter),::std::forward</**/::emboss::test::AxisType>(axis_type_b_parameter), emboss_reserved_local_data,
emboss_reserved_local_size);
}
template <typename T, ::std::size_t kAlignment>
inline GenericAxisPairView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>
MakeAlignedAxisPairView(
::emboss::test::AxisType axis_type_a_parameter, ::emboss::test::AxisType axis_type_b_parameter, T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericAxisPairView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>(
::std::forward</**/::emboss::test::AxisType>(axis_type_a_parameter),::std::forward</**/::emboss::test::AxisType>(axis_type_b_parameter), emboss_reserved_local_data,
emboss_reserved_local_size);
}
namespace AxesEnvelope {
} // namespace AxesEnvelope
template <class View>
struct EmbossReservedInternalIsGenericAxesEnvelopeView;
template <class Storage>
class GenericAxesEnvelopeView final {
public:
GenericAxesEnvelopeView() : backing_() {}
explicit GenericAxesEnvelopeView(
Storage emboss_reserved_local_bytes)
: backing_(emboss_reserved_local_bytes)
{}
template <typename OtherStorage>
GenericAxesEnvelopeView(
const GenericAxesEnvelopeView<OtherStorage> &emboss_reserved_local_other)
: backing_{emboss_reserved_local_other.BackingStorage()}
{}
template <typename Arg,
typename = typename ::std::enable_if<
!EmbossReservedInternalIsGenericAxesEnvelopeView<
typename ::std::remove_cv<typename ::std::remove_reference<
Arg>::type>::type>::value>::type>
explicit GenericAxesEnvelopeView(
Arg &&emboss_reserved_local_arg)
: backing_(::std::forward<Arg>(
emboss_reserved_local_arg))
{}
template <typename Arg0, typename Arg1, typename... Args>
explicit GenericAxesEnvelopeView(
Arg0 &&emboss_reserved_local_arg0,
Arg1 &&emboss_reserved_local_arg1, Args &&... emboss_reserved_local_args)
: backing_(::std::forward<Arg0>(emboss_reserved_local_arg0),
::std::forward<Arg1>(emboss_reserved_local_arg1),
::std::forward<Args>(
emboss_reserved_local_args)...)
{}
template <typename OtherStorage>
GenericAxesEnvelopeView<Storage> &operator=(
const GenericAxesEnvelopeView<OtherStorage> &emboss_reserved_local_other) {
backing_ = emboss_reserved_local_other.BackingStorage();
return *this;
}
bool Ok() const {
if (!IsComplete()) return false;
if (!has_axis_count().Known()) return false;
if (has_axis_count().ValueOrDefault() && !axis_count().Ok()) return false;
if (!has_axes().Known()) return false;
if (has_axes().ValueOrDefault() && !axes().Ok()) return false;
if (!has_IntrinsicSizeInBytes().Known()) return false;
if (has_IntrinsicSizeInBytes().ValueOrDefault() && !IntrinsicSizeInBytes().Ok()) return false;
if (!has_MaxSizeInBytes().Known()) return false;
if (has_MaxSizeInBytes().ValueOrDefault() && !MaxSizeInBytes().Ok()) return false;
if (!has_MinSizeInBytes().Known()) return false;
if (has_MinSizeInBytes().ValueOrDefault() && !MinSizeInBytes().Ok()) return false;
return true;
}
Storage BackingStorage() const { return backing_; }
bool IsComplete() const {
return backing_.Ok() && IntrinsicSizeInBytes().Ok() &&
backing_.SizeInBytes() >=
static_cast</**/ ::std::size_t>(
IntrinsicSizeInBytes().UncheckedRead());
}
::std::size_t SizeInBytes() const {
return static_cast</**/ ::std::size_t>(IntrinsicSizeInBytes().Read());
}
bool SizeIsKnown() const { return IntrinsicSizeInBytes().Ok(); }
template <typename OtherStorage>
bool Equals(
GenericAxesEnvelopeView<OtherStorage> emboss_reserved_local_other) const {
if (!has_axis_count().Known()) return false;
if (!emboss_reserved_local_other.has_axis_count().Known()) return false;
if (emboss_reserved_local_other.has_axis_count().ValueOrDefault() &&
!has_axis_count().ValueOrDefault())
return false;
if (has_axis_count().ValueOrDefault() &&
!emboss_reserved_local_other.has_axis_count().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_axis_count().ValueOrDefault() &&
has_axis_count().ValueOrDefault() &&
!axis_count().Equals(emboss_reserved_local_other.axis_count()))
return false;
if (!has_axes().Known()) return false;
if (!emboss_reserved_local_other.has_axes().Known()) return false;
if (emboss_reserved_local_other.has_axes().ValueOrDefault() &&
!has_axes().ValueOrDefault())
return false;
if (has_axes().ValueOrDefault() &&
!emboss_reserved_local_other.has_axes().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_axes().ValueOrDefault() &&
has_axes().ValueOrDefault() &&
!axes().Equals(emboss_reserved_local_other.axes()))
return false;
return true;
}
template <typename OtherStorage>
bool UncheckedEquals(
GenericAxesEnvelopeView<OtherStorage> emboss_reserved_local_other) const {
if (emboss_reserved_local_other.has_axis_count().ValueOr(false) &&
!has_axis_count().ValueOr(false))
return false;
if (has_axis_count().ValueOr(false) &&
!emboss_reserved_local_other.has_axis_count().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_axis_count().ValueOr(false) &&
has_axis_count().ValueOr(false) &&
!axis_count().UncheckedEquals(emboss_reserved_local_other.axis_count()))
return false;
if (emboss_reserved_local_other.has_axes().ValueOr(false) &&
!has_axes().ValueOr(false))
return false;
if (has_axes().ValueOr(false) &&
!emboss_reserved_local_other.has_axes().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_axes().ValueOr(false) &&
has_axes().ValueOr(false) &&
!axes().UncheckedEquals(emboss_reserved_local_other.axes()))
return false;
return true;
}
template <typename OtherStorage>
void UncheckedCopyFrom(
GenericAxesEnvelopeView<OtherStorage> emboss_reserved_local_other) const {
backing_.UncheckedCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().UncheckedRead());
}
template <typename OtherStorage>
void CopyFrom(
GenericAxesEnvelopeView<OtherStorage> emboss_reserved_local_other) const {
backing_.CopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <typename OtherStorage>
bool TryToCopyFrom(
GenericAxesEnvelopeView<OtherStorage> emboss_reserved_local_other) const {
return emboss_reserved_local_other.Ok() && backing_.TryToCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <class Stream>
bool UpdateFromTextStream(Stream *emboss_reserved_local_stream) const {
::std::string emboss_reserved_local_brace;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_brace))
return false;
if (emboss_reserved_local_brace != "{") return false;
for (;;) {
::std::string emboss_reserved_local_name;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == ",")
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == "}") return true;
::std::string emboss_reserved_local_colon;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_colon))
return false;
if (emboss_reserved_local_colon != ":") return false;
if (emboss_reserved_local_name == "axis_count") {
if (!axis_count().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
if (emboss_reserved_local_name == "axes") {
if (!axes().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
return false;
}
}
template <class Stream>
void WriteToTextStream(
Stream *emboss_reserved_local_stream,
::emboss::TextOutputOptions emboss_reserved_local_options) const {
::emboss::TextOutputOptions emboss_reserved_local_field_options =
emboss_reserved_local_options.PlusOneIndent();
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write("{\n");
} else {
emboss_reserved_local_stream->Write("{");
}
bool emboss_reserved_local_wrote_field = false;
if (has_axis_count().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
axis_count().IsAggregate() || axis_count().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("axis_count: ");
axis_count().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!axis_count().IsAggregate() && !axis_count().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# axis_count: UNREADABLE\n");
}
}
if (has_axes().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
axes().IsAggregate() || axes().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("axes: ");
axes().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!axes().IsAggregate() && !axes().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# axes: UNREADABLE\n");
}
}
(void)emboss_reserved_local_wrote_field;
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_options.current_indent());
emboss_reserved_local_stream->Write("}");
} else {
emboss_reserved_local_stream->Write(" }");
}
}
static constexpr bool IsAggregate() { return true; }
public:
typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
axis_count() const;
::emboss::support::Maybe<bool> has_axis_count() const;
public:
typename ::emboss::test::GenericAxesView<typename Storage::template OffsetStorageType</**/0, 1>>
axes() const;
::emboss::support::Maybe<bool> has_axes() const;
public:
class EmbossReservedDollarVirtualIntrinsicSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
explicit EmbossReservedDollarVirtualIntrinsicSizeInBytesView(
const GenericAxesEnvelopeView &emboss_reserved_local_view)
: view_(emboss_reserved_local_view) {}
EmbossReservedDollarVirtualIntrinsicSizeInBytesView() = delete;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) =
default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualIntrinsicSizeInBytesView() = default;
::std::int32_t Read() const {
EMBOSS_CHECK(view_.has_IntrinsicSizeInBytes().ValueOr(false));
auto emboss_reserved_local_value = MaybeRead();
EMBOSS_CHECK(emboss_reserved_local_value.Known());
EMBOSS_CHECK(ValueIsOk(emboss_reserved_local_value.ValueOrDefault()));
return emboss_reserved_local_value.ValueOrDefault();
}
::std::int32_t UncheckedRead() const {
return MaybeRead().ValueOrDefault();
}
bool Ok() const {
auto emboss_reserved_local_value = MaybeRead();
return emboss_reserved_local_value.Known() &&
ValueIsOk(emboss_reserved_local_value.ValueOrDefault());
}
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
private:
::emboss::support::Maybe</**/ ::std::int32_t> MaybeRead() const {
const auto emboss_reserved_local_subexpr_1 = view_.axis_count();
const auto emboss_reserved_local_subexpr_2 = (emboss_reserved_local_subexpr_1.Ok() ? ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(emboss_reserved_local_subexpr_1.UncheckedRead())) : ::emboss::support::Maybe</**/::std::int32_t>());
const auto emboss_reserved_local_subexpr_3 = ::emboss::support::Product</**/::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t>(emboss_reserved_local_subexpr_2, ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL)));
const auto emboss_reserved_local_subexpr_4 = ::emboss::support::Sum</**/::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t>(::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL)), emboss_reserved_local_subexpr_3);
const auto emboss_reserved_local_subexpr_5 = ::emboss::support::Choice</**/::std::int32_t, ::std::int32_t, bool, ::std::int32_t, ::std::int32_t>(::emboss::support::Maybe</**/bool>(true), emboss_reserved_local_subexpr_4, ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL)));
const auto emboss_reserved_local_subexpr_6 = ::emboss::support::Maximum</**/::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t>(::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL)), ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL)), emboss_reserved_local_subexpr_5);
return emboss_reserved_local_subexpr_6;
}
static constexpr bool ValueIsOk(
::std::int32_t emboss_reserved_local_value) {
return (void)emboss_reserved_local_value, // Silence -Wunused-parameter
::emboss::support::Maybe<bool>(true).ValueOr(false);
}
const GenericAxesEnvelopeView view_;
};
EmbossReservedDollarVirtualIntrinsicSizeInBytesView IntrinsicSizeInBytes() const;
::emboss::support::Maybe<bool> has_IntrinsicSizeInBytes() const;
public:
class EmbossReservedDollarVirtualMaxSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMaxSizeInBytesView() {}
EmbossReservedDollarVirtualMaxSizeInBytesView(const EmbossReservedDollarVirtualMaxSizeInBytesView &) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView(EmbossReservedDollarVirtualMaxSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(const EmbossReservedDollarVirtualMaxSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(EmbossReservedDollarVirtualMaxSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMaxSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMaxSizeInBytesView MaxSizeInBytes() {
return EmbossReservedDollarVirtualMaxSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MaxSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMinSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMinSizeInBytesView() {}
EmbossReservedDollarVirtualMinSizeInBytesView(const EmbossReservedDollarVirtualMinSizeInBytesView &) = default;
EmbossReservedDollarVirtualMinSizeInBytesView(EmbossReservedDollarVirtualMinSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(const EmbossReservedDollarVirtualMinSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(EmbossReservedDollarVirtualMinSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMinSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMinSizeInBytesView MinSizeInBytes() {
return EmbossReservedDollarVirtualMinSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MinSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
private:
Storage backing_;
template <class OtherStorage>
friend class GenericAxesEnvelopeView;
};
using AxesEnvelopeView =
GenericAxesEnvelopeView</**/ ::emboss::support::ReadOnlyContiguousBuffer>;
using AxesEnvelopeWriter =
GenericAxesEnvelopeView</**/ ::emboss::support::ReadWriteContiguousBuffer>;
template <class View>
struct EmbossReservedInternalIsGenericAxesEnvelopeView {
static constexpr const bool value = false;
};
template <class Storage>
struct EmbossReservedInternalIsGenericAxesEnvelopeView<
GenericAxesEnvelopeView<Storage>> {
static constexpr const bool value = true;
};
template <typename T>
inline GenericAxesEnvelopeView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<
decltype(*::std::declval<T>()->data())>::type,
1, 0>>
MakeAxesEnvelopeView( T &&emboss_reserved_local_arg) {
return GenericAxesEnvelopeView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<decltype(
*::std::declval<T>()->data())>::type,
1, 0>>(
::std::forward<T>(emboss_reserved_local_arg));
}
template <typename T>
inline GenericAxesEnvelopeView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>
MakeAxesEnvelopeView( T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericAxesEnvelopeView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>(
emboss_reserved_local_data,
emboss_reserved_local_size);
}
template <typename T, ::std::size_t kAlignment>
inline GenericAxesEnvelopeView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>
MakeAlignedAxesEnvelopeView(
T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericAxesEnvelopeView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>(
emboss_reserved_local_data,
emboss_reserved_local_size);
}
enum class AxisType : ::std::int64_t {
GENERIC = static_cast</**/::std::int32_t>(-1LL),
X_AXIS = static_cast</**/::std::int32_t>(1LL),
Y_AXIS = static_cast</**/::std::int32_t>(2LL),
Z_AXIS = static_cast</**/::std::int32_t>(3LL),
};
template <class Enum>
class EnumTraits;
template <>
class EnumTraits<AxisType> final {
public:
static bool TryToGetEnumFromName(const char *emboss_reserved_local_name,
AxisType *emboss_reserved_local_result) {
if (emboss_reserved_local_name == nullptr) return false;
if (!strcmp("GENERIC", emboss_reserved_local_name)) {
*emboss_reserved_local_result = AxisType::GENERIC;
return true;
}
if (!strcmp("X_AXIS", emboss_reserved_local_name)) {
*emboss_reserved_local_result = AxisType::X_AXIS;
return true;
}
if (!strcmp("Y_AXIS", emboss_reserved_local_name)) {
*emboss_reserved_local_result = AxisType::Y_AXIS;
return true;
}
if (!strcmp("Z_AXIS", emboss_reserved_local_name)) {
*emboss_reserved_local_result = AxisType::Z_AXIS;
return true;
}
return false;
}
static const char *TryToGetNameFromEnum(
AxisType emboss_reserved_local_value) {
switch (emboss_reserved_local_value) {
case AxisType::GENERIC: return "GENERIC";
case AxisType::X_AXIS: return "X_AXIS";
case AxisType::Y_AXIS: return "Y_AXIS";
case AxisType::Z_AXIS: return "Z_AXIS";
default: return nullptr;
}
}
static bool EnumIsKnown(AxisType emboss_reserved_local_value) {
switch (emboss_reserved_local_value) {
case AxisType::GENERIC: return true;
case AxisType::X_AXIS: return true;
case AxisType::Y_AXIS: return true;
case AxisType::Z_AXIS: return true;
default:
return false;
}
}
static ::std::ostream &SendToOstream(::std::ostream &emboss_reserved_local_os,
AxisType emboss_reserved_local_value) {
const char *emboss_reserved_local_name =
TryToGetNameFromEnum(emboss_reserved_local_value);
if (emboss_reserved_local_name == nullptr) {
emboss_reserved_local_os
<< static_cast</**/ ::std::underlying_type<AxisType>::type>(
emboss_reserved_local_value);
} else {
emboss_reserved_local_os << emboss_reserved_local_name;
}
return emboss_reserved_local_os;
}
};
static inline bool TryToGetEnumFromName(
const char *emboss_reserved_local_name,
AxisType *emboss_reserved_local_result) {
return EnumTraits<AxisType>::TryToGetEnumFromName(
emboss_reserved_local_name, emboss_reserved_local_result);
}
static inline const char *TryToGetNameFromEnum(
AxisType emboss_reserved_local_value) {
return EnumTraits<AxisType>::TryToGetNameFromEnum(
emboss_reserved_local_value);
}
static inline bool EnumIsKnown(AxisType emboss_reserved_local_value) {
return EnumTraits<AxisType>::EnumIsKnown(emboss_reserved_local_value);
}
static inline ::std::ostream &operator<<(
::std::ostream &emboss_reserved_local_os,
AxisType emboss_reserved_local_value) {
return EnumTraits<AxisType>::SendToOstream(emboss_reserved_local_os,
emboss_reserved_local_value);
}
namespace Axis {
} // namespace Axis
template <class View>
struct EmbossReservedInternalIsGenericAxisView;
template <class Storage>
class GenericAxisView final {
public:
GenericAxisView() : backing_() {}
explicit GenericAxisView(
::emboss::test::AxisType axis_type_parameter, Storage emboss_reserved_local_bytes)
: backing_(emboss_reserved_local_bytes) , axis_type_parameter_(axis_type_parameter)
, parameters_initialized_(true) {}
template <typename OtherStorage>
GenericAxisView(
const GenericAxisView<OtherStorage> &emboss_reserved_local_other)
: backing_{emboss_reserved_local_other.BackingStorage()}
, axis_type_parameter_(emboss_reserved_local_other.axis_type_parameter_)
, parameters_initialized_(emboss_reserved_local_other.parameters_initialized_) {}
template <typename Arg,
typename = typename ::std::enable_if<
!EmbossReservedInternalIsGenericAxisView<
typename ::std::remove_cv<typename ::std::remove_reference<
Arg>::type>::type>::value>::type>
explicit GenericAxisView(
::emboss::test::AxisType axis_type_parameter, Arg &&emboss_reserved_local_arg)
: backing_(::std::forward<Arg>(
emboss_reserved_local_arg)) , axis_type_parameter_(axis_type_parameter)
, parameters_initialized_(true) {}
template <typename Arg0, typename Arg1, typename... Args>
explicit GenericAxisView(
::emboss::test::AxisType axis_type_parameter, Arg0 &&emboss_reserved_local_arg0,
Arg1 &&emboss_reserved_local_arg1, Args &&... emboss_reserved_local_args)
: backing_(::std::forward<Arg0>(emboss_reserved_local_arg0),
::std::forward<Arg1>(emboss_reserved_local_arg1),
::std::forward<Args>(
emboss_reserved_local_args)...) , axis_type_parameter_(axis_type_parameter)
, parameters_initialized_(true) {}
template <typename OtherStorage>
GenericAxisView<Storage> &operator=(
const GenericAxisView<OtherStorage> &emboss_reserved_local_other) {
backing_ = emboss_reserved_local_other.BackingStorage();
return *this;
}
bool Ok() const {
if (!IsComplete()) return false;
if (!parameters_initialized_) return false;
if (!has_value().Known()) return false;
if (has_value().ValueOrDefault() && !value().Ok()) return false;
if (!has_axis_type().Known()) return false;
if (has_axis_type().ValueOrDefault() && !axis_type().Ok()) return false;
if (!has_x().Known()) return false;
if (has_x().ValueOrDefault() && !x().Ok()) return false;
if (!has_y().Known()) return false;
if (has_y().ValueOrDefault() && !y().Ok()) return false;
if (!has_z().Known()) return false;
if (has_z().ValueOrDefault() && !z().Ok()) return false;
if (!has_IntrinsicSizeInBytes().Known()) return false;
if (has_IntrinsicSizeInBytes().ValueOrDefault() && !IntrinsicSizeInBytes().Ok()) return false;
if (!has_MaxSizeInBytes().Known()) return false;
if (has_MaxSizeInBytes().ValueOrDefault() && !MaxSizeInBytes().Ok()) return false;
if (!has_MinSizeInBytes().Known()) return false;
if (has_MinSizeInBytes().ValueOrDefault() && !MinSizeInBytes().Ok()) return false;
return true;
}
Storage BackingStorage() const { return backing_; }
bool IsComplete() const {
return backing_.Ok() && IntrinsicSizeInBytes().Ok() &&
backing_.SizeInBytes() >=
static_cast</**/ ::std::size_t>(
IntrinsicSizeInBytes().UncheckedRead());
}
static constexpr ::std::size_t SizeInBytes() {
return static_cast</**/ ::std::size_t>(IntrinsicSizeInBytes().Read());
}
static constexpr bool SizeIsKnown() {
return IntrinsicSizeInBytes().Ok();
}
template <typename OtherStorage>
bool Equals(
GenericAxisView<OtherStorage> emboss_reserved_local_other) const {
if (!has_axis_type_parameter().Known()) return false;
if (!emboss_reserved_local_other.has_axis_type_parameter().Known()) return false;
if (emboss_reserved_local_other.has_axis_type_parameter().ValueOrDefault() &&
!has_axis_type_parameter().ValueOrDefault())
return false;
if (has_axis_type_parameter().ValueOrDefault() &&
!emboss_reserved_local_other.has_axis_type_parameter().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_axis_type_parameter().ValueOrDefault() &&
has_axis_type_parameter().ValueOrDefault() &&
!axis_type_parameter().Equals(emboss_reserved_local_other.axis_type_parameter()))
return false;
if (!has_value().Known()) return false;
if (!emboss_reserved_local_other.has_value().Known()) return false;
if (emboss_reserved_local_other.has_value().ValueOrDefault() &&
!has_value().ValueOrDefault())
return false;
if (has_value().ValueOrDefault() &&
!emboss_reserved_local_other.has_value().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_value().ValueOrDefault() &&
has_value().ValueOrDefault() &&
!value().Equals(emboss_reserved_local_other.value()))
return false;
if (!has_x().Known()) return false;
if (!emboss_reserved_local_other.has_x().Known()) return false;
if (emboss_reserved_local_other.has_x().ValueOrDefault() &&
!has_x().ValueOrDefault())
return false;
if (has_x().ValueOrDefault() &&
!emboss_reserved_local_other.has_x().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_x().ValueOrDefault() &&
has_x().ValueOrDefault() &&
!x().Equals(emboss_reserved_local_other.x()))
return false;
if (!has_y().Known()) return false;
if (!emboss_reserved_local_other.has_y().Known()) return false;
if (emboss_reserved_local_other.has_y().ValueOrDefault() &&
!has_y().ValueOrDefault())
return false;
if (has_y().ValueOrDefault() &&
!emboss_reserved_local_other.has_y().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_y().ValueOrDefault() &&
has_y().ValueOrDefault() &&
!y().Equals(emboss_reserved_local_other.y()))
return false;
if (!has_z().Known()) return false;
if (!emboss_reserved_local_other.has_z().Known()) return false;
if (emboss_reserved_local_other.has_z().ValueOrDefault() &&
!has_z().ValueOrDefault())
return false;
if (has_z().ValueOrDefault() &&
!emboss_reserved_local_other.has_z().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_z().ValueOrDefault() &&
has_z().ValueOrDefault() &&
!z().Equals(emboss_reserved_local_other.z()))
return false;
return true;
}
template <typename OtherStorage>
bool UncheckedEquals(
GenericAxisView<OtherStorage> emboss_reserved_local_other) const {
if (emboss_reserved_local_other.has_axis_type_parameter().ValueOr(false) &&
!has_axis_type_parameter().ValueOr(false))
return false;
if (has_axis_type_parameter().ValueOr(false) &&
!emboss_reserved_local_other.has_axis_type_parameter().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_axis_type_parameter().ValueOr(false) &&
has_axis_type_parameter().ValueOr(false) &&
!axis_type_parameter().UncheckedEquals(emboss_reserved_local_other.axis_type_parameter()))
return false;
if (emboss_reserved_local_other.has_value().ValueOr(false) &&
!has_value().ValueOr(false))
return false;
if (has_value().ValueOr(false) &&
!emboss_reserved_local_other.has_value().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_value().ValueOr(false) &&
has_value().ValueOr(false) &&
!value().UncheckedEquals(emboss_reserved_local_other.value()))
return false;
if (emboss_reserved_local_other.has_x().ValueOr(false) &&
!has_x().ValueOr(false))
return false;
if (has_x().ValueOr(false) &&
!emboss_reserved_local_other.has_x().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_x().ValueOr(false) &&
has_x().ValueOr(false) &&
!x().UncheckedEquals(emboss_reserved_local_other.x()))
return false;
if (emboss_reserved_local_other.has_y().ValueOr(false) &&
!has_y().ValueOr(false))
return false;
if (has_y().ValueOr(false) &&
!emboss_reserved_local_other.has_y().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_y().ValueOr(false) &&
has_y().ValueOr(false) &&
!y().UncheckedEquals(emboss_reserved_local_other.y()))
return false;
if (emboss_reserved_local_other.has_z().ValueOr(false) &&
!has_z().ValueOr(false))
return false;
if (has_z().ValueOr(false) &&
!emboss_reserved_local_other.has_z().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_z().ValueOr(false) &&
has_z().ValueOr(false) &&
!z().UncheckedEquals(emboss_reserved_local_other.z()))
return false;
return true;
}
template <typename OtherStorage>
void UncheckedCopyFrom(
GenericAxisView<OtherStorage> emboss_reserved_local_other) const {
backing_.UncheckedCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().UncheckedRead());
}
template <typename OtherStorage>
void CopyFrom(
GenericAxisView<OtherStorage> emboss_reserved_local_other) const {
backing_.CopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <typename OtherStorage>
bool TryToCopyFrom(
GenericAxisView<OtherStorage> emboss_reserved_local_other) const {
return emboss_reserved_local_other.Ok() && backing_.TryToCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <class Stream>
bool UpdateFromTextStream(Stream *emboss_reserved_local_stream) const {
::std::string emboss_reserved_local_brace;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_brace))
return false;
if (emboss_reserved_local_brace != "{") return false;
for (;;) {
::std::string emboss_reserved_local_name;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == ",")
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == "}") return true;
::std::string emboss_reserved_local_colon;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_colon))
return false;
if (emboss_reserved_local_colon != ":") return false;
if (emboss_reserved_local_name == "value") {
if (!value().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
if (emboss_reserved_local_name == "x") {
if (!x().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
if (emboss_reserved_local_name == "y") {
if (!y().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
if (emboss_reserved_local_name == "z") {
if (!z().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
return false;
}
}
template <class Stream>
void WriteToTextStream(
Stream *emboss_reserved_local_stream,
::emboss::TextOutputOptions emboss_reserved_local_options) const {
::emboss::TextOutputOptions emboss_reserved_local_field_options =
emboss_reserved_local_options.PlusOneIndent();
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write("{\n");
} else {
emboss_reserved_local_stream->Write("{");
}
bool emboss_reserved_local_wrote_field = false;
if (has_value().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
value().IsAggregate() || value().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("value: ");
value().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!value().IsAggregate() && !value().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# value: UNREADABLE\n");
}
}
if (has_axis_type().ValueOr(false) &&
emboss_reserved_local_field_options.comments()) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
axis_type().IsAggregate() || axis_type().Ok()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
emboss_reserved_local_stream->Write("# axis_type: ");
axis_type().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_stream->Write("\n");
} else {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# axis_type: UNREADABLE\n");
}
}
if (has_x().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
x().IsAggregate() || x().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("x: ");
x().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!x().IsAggregate() && !x().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# x: UNREADABLE\n");
}
}
if (has_y().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
y().IsAggregate() || y().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("y: ");
y().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!y().IsAggregate() && !y().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# y: UNREADABLE\n");
}
}
if (has_z().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
z().IsAggregate() || z().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("z: ");
z().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!z().IsAggregate() && !z().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# z: UNREADABLE\n");
}
}
(void)emboss_reserved_local_wrote_field;
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_options.current_indent());
emboss_reserved_local_stream->Write("}");
} else {
emboss_reserved_local_stream->Write(" }");
}
}
static constexpr bool IsAggregate() { return true; }
private:
constexpr ::emboss::support::MaybeConstantView</**/ ::emboss::test::AxisType>
axis_type_parameter() const {
return parameters_initialized_
? ::emboss::support::MaybeConstantView</**/ ::emboss::test::AxisType>(
axis_type_parameter_)
: ::emboss::support::MaybeConstantView</**/ ::emboss::test::AxisType>();
}
constexpr ::emboss::support::Maybe<bool> has_axis_type_parameter() const {
return ::emboss::support::Maybe<bool>(parameters_initialized_);
}
public:
typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<32, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 32>>
value() const;
::emboss::support::Maybe<bool> has_value() const;
public:
class EmbossReservedVirtualAxisTypeView final {
public:
using ValueType = ::emboss::test::AxisType;
explicit EmbossReservedVirtualAxisTypeView(
const GenericAxisView &emboss_reserved_local_view)
: view_(emboss_reserved_local_view) {}
EmbossReservedVirtualAxisTypeView() = delete;
EmbossReservedVirtualAxisTypeView(const EmbossReservedVirtualAxisTypeView &) = default;
EmbossReservedVirtualAxisTypeView(EmbossReservedVirtualAxisTypeView &&) = default;
EmbossReservedVirtualAxisTypeView &operator=(const EmbossReservedVirtualAxisTypeView &) =
default;
EmbossReservedVirtualAxisTypeView &operator=(EmbossReservedVirtualAxisTypeView &&) =
default;
~EmbossReservedVirtualAxisTypeView() = default;
::emboss::test::AxisType Read() const {
EMBOSS_CHECK(view_.has_axis_type().ValueOr(false));
auto emboss_reserved_local_value = MaybeRead();
EMBOSS_CHECK(emboss_reserved_local_value.Known());
EMBOSS_CHECK(ValueIsOk(emboss_reserved_local_value.ValueOrDefault()));
return emboss_reserved_local_value.ValueOrDefault();
}
::emboss::test::AxisType UncheckedRead() const {
return MaybeRead().ValueOrDefault();
}
bool Ok() const {
auto emboss_reserved_local_value = MaybeRead();
return emboss_reserved_local_value.Known() &&
ValueIsOk(emboss_reserved_local_value.ValueOrDefault());
}
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteEnumViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
private:
::emboss::support::Maybe</**/ ::emboss::test::AxisType> MaybeRead() const {
const auto emboss_reserved_local_subexpr_1 = view_.axis_type_parameter();
const auto emboss_reserved_local_subexpr_2 = (emboss_reserved_local_subexpr_1.Ok() ? ::emboss::support::Maybe</**/::emboss::test::AxisType>(static_cast</**/::emboss::test::AxisType>(emboss_reserved_local_subexpr_1.UncheckedRead())) : ::emboss::support::Maybe</**/::emboss::test::AxisType>());
return emboss_reserved_local_subexpr_2;
}
static constexpr bool ValueIsOk(
::emboss::test::AxisType emboss_reserved_local_value) {
return (void)emboss_reserved_local_value, // Silence -Wunused-parameter
::emboss::support::Maybe<bool>(true).ValueOr(false);
}
const GenericAxisView view_;
};
EmbossReservedVirtualAxisTypeView axis_type() const;
::emboss::support::Maybe<bool> has_axis_type() const;
public:
typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<32, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 32>>
x() const;
::emboss::support::Maybe<bool> has_x() const;
public:
typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<32, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 32>>
y() const;
::emboss::support::Maybe<bool> has_y() const;
public:
typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<32, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 32>>
z() const;
::emboss::support::Maybe<bool> has_z() const;
public:
class EmbossReservedDollarVirtualIntrinsicSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualIntrinsicSizeInBytesView() {}
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) =
default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualIntrinsicSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualIntrinsicSizeInBytesView IntrinsicSizeInBytes() {
return EmbossReservedDollarVirtualIntrinsicSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_IntrinsicSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMaxSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMaxSizeInBytesView() {}
EmbossReservedDollarVirtualMaxSizeInBytesView(const EmbossReservedDollarVirtualMaxSizeInBytesView &) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView(EmbossReservedDollarVirtualMaxSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(const EmbossReservedDollarVirtualMaxSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(EmbossReservedDollarVirtualMaxSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMaxSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMaxSizeInBytesView MaxSizeInBytes() {
return EmbossReservedDollarVirtualMaxSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MaxSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMinSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMinSizeInBytesView() {}
EmbossReservedDollarVirtualMinSizeInBytesView(const EmbossReservedDollarVirtualMinSizeInBytesView &) = default;
EmbossReservedDollarVirtualMinSizeInBytesView(EmbossReservedDollarVirtualMinSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(const EmbossReservedDollarVirtualMinSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(EmbossReservedDollarVirtualMinSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMinSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMinSizeInBytesView MinSizeInBytes() {
return EmbossReservedDollarVirtualMinSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MinSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
private:
Storage backing_;
::emboss::test::AxisType axis_type_parameter_;
bool parameters_initialized_ = false;
template <class OtherStorage>
friend class GenericAxisView;
};
using AxisView =
GenericAxisView</**/ ::emboss::support::ReadOnlyContiguousBuffer>;
using AxisWriter =
GenericAxisView</**/ ::emboss::support::ReadWriteContiguousBuffer>;
template <class View>
struct EmbossReservedInternalIsGenericAxisView {
static constexpr const bool value = false;
};
template <class Storage>
struct EmbossReservedInternalIsGenericAxisView<
GenericAxisView<Storage>> {
static constexpr const bool value = true;
};
template <typename T>
inline GenericAxisView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<
decltype(*::std::declval<T>()->data())>::type,
1, 0>>
MakeAxisView(::emboss::test::AxisType axis_type_parameter, T &&emboss_reserved_local_arg) {
return GenericAxisView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<decltype(
*::std::declval<T>()->data())>::type,
1, 0>>(
::std::forward</**/::emboss::test::AxisType>(axis_type_parameter), ::std::forward<T>(emboss_reserved_local_arg));
}
template <typename T>
inline GenericAxisView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>
MakeAxisView(::emboss::test::AxisType axis_type_parameter, T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericAxisView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>(
::std::forward</**/::emboss::test::AxisType>(axis_type_parameter), emboss_reserved_local_data,
emboss_reserved_local_size);
}
template <typename T, ::std::size_t kAlignment>
inline GenericAxisView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>
MakeAlignedAxisView(
::emboss::test::AxisType axis_type_parameter, T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericAxisView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>(
::std::forward</**/::emboss::test::AxisType>(axis_type_parameter), emboss_reserved_local_data,
emboss_reserved_local_size);
}
namespace Config {
} // namespace Config
template <class View>
struct EmbossReservedInternalIsGenericConfigView;
template <class Storage>
class GenericConfigView final {
public:
GenericConfigView() : backing_() {}
explicit GenericConfigView(
Storage emboss_reserved_local_bytes)
: backing_(emboss_reserved_local_bytes)
{}
template <typename OtherStorage>
GenericConfigView(
const GenericConfigView<OtherStorage> &emboss_reserved_local_other)
: backing_{emboss_reserved_local_other.BackingStorage()}
{}
template <typename Arg,
typename = typename ::std::enable_if<
!EmbossReservedInternalIsGenericConfigView<
typename ::std::remove_cv<typename ::std::remove_reference<
Arg>::type>::type>::value>::type>
explicit GenericConfigView(
Arg &&emboss_reserved_local_arg)
: backing_(::std::forward<Arg>(
emboss_reserved_local_arg))
{}
template <typename Arg0, typename Arg1, typename... Args>
explicit GenericConfigView(
Arg0 &&emboss_reserved_local_arg0,
Arg1 &&emboss_reserved_local_arg1, Args &&... emboss_reserved_local_args)
: backing_(::std::forward<Arg0>(emboss_reserved_local_arg0),
::std::forward<Arg1>(emboss_reserved_local_arg1),
::std::forward<Args>(
emboss_reserved_local_args)...)
{}
template <typename OtherStorage>
GenericConfigView<Storage> &operator=(
const GenericConfigView<OtherStorage> &emboss_reserved_local_other) {
backing_ = emboss_reserved_local_other.BackingStorage();
return *this;
}
bool Ok() const {
if (!IsComplete()) return false;
if (!has_power().Known()) return false;
if (has_power().ValueOrDefault() && !power().Ok()) return false;
if (!has_IntrinsicSizeInBits().Known()) return false;
if (has_IntrinsicSizeInBits().ValueOrDefault() && !IntrinsicSizeInBits().Ok()) return false;
if (!has_MaxSizeInBits().Known()) return false;
if (has_MaxSizeInBits().ValueOrDefault() && !MaxSizeInBits().Ok()) return false;
if (!has_MinSizeInBits().Known()) return false;
if (has_MinSizeInBits().ValueOrDefault() && !MinSizeInBits().Ok()) return false;
return true;
}
Storage BackingStorage() const { return backing_; }
bool IsComplete() const {
return backing_.Ok() && IntrinsicSizeInBits().Ok() &&
backing_.SizeInBits() >=
static_cast</**/ ::std::size_t>(
IntrinsicSizeInBits().UncheckedRead());
}
static constexpr ::std::size_t SizeInBits() {
return static_cast</**/ ::std::size_t>(IntrinsicSizeInBits().Read());
}
static constexpr bool SizeIsKnown() {
return IntrinsicSizeInBits().Ok();
}
template <typename OtherStorage>
bool Equals(
GenericConfigView<OtherStorage> emboss_reserved_local_other) const {
if (!has_power().Known()) return false;
if (!emboss_reserved_local_other.has_power().Known()) return false;
if (emboss_reserved_local_other.has_power().ValueOrDefault() &&
!has_power().ValueOrDefault())
return false;
if (has_power().ValueOrDefault() &&
!emboss_reserved_local_other.has_power().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_power().ValueOrDefault() &&
has_power().ValueOrDefault() &&
!power().Equals(emboss_reserved_local_other.power()))
return false;
return true;
}
template <typename OtherStorage>
bool UncheckedEquals(
GenericConfigView<OtherStorage> emboss_reserved_local_other) const {
if (emboss_reserved_local_other.has_power().ValueOr(false) &&
!has_power().ValueOr(false))
return false;
if (has_power().ValueOr(false) &&
!emboss_reserved_local_other.has_power().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_power().ValueOr(false) &&
has_power().ValueOr(false) &&
!power().UncheckedEquals(emboss_reserved_local_other.power()))
return false;
return true;
}
template <typename OtherStorage>
void UncheckedCopyFrom(
GenericConfigView<OtherStorage> emboss_reserved_local_other) const {
backing_.UncheckedCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBits().UncheckedRead());
}
template <typename OtherStorage>
void CopyFrom(
GenericConfigView<OtherStorage> emboss_reserved_local_other) const {
backing_.CopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBits().Read());
}
template <typename OtherStorage>
bool TryToCopyFrom(
GenericConfigView<OtherStorage> emboss_reserved_local_other) const {
return emboss_reserved_local_other.Ok() && backing_.TryToCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBits().Read());
}
template <class Stream>
bool UpdateFromTextStream(Stream *emboss_reserved_local_stream) const {
::std::string emboss_reserved_local_brace;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_brace))
return false;
if (emboss_reserved_local_brace != "{") return false;
for (;;) {
::std::string emboss_reserved_local_name;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == ",")
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == "}") return true;
::std::string emboss_reserved_local_colon;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_colon))
return false;
if (emboss_reserved_local_colon != ":") return false;
if (emboss_reserved_local_name == "power") {
if (!power().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
return false;
}
}
template <class Stream>
void WriteToTextStream(
Stream *emboss_reserved_local_stream,
::emboss::TextOutputOptions emboss_reserved_local_options) const {
::emboss::TextOutputOptions emboss_reserved_local_field_options =
emboss_reserved_local_options.PlusOneIndent();
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write("{\n");
} else {
emboss_reserved_local_stream->Write("{");
}
bool emboss_reserved_local_wrote_field = false;
if (has_power().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
power().IsAggregate() || power().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("power: ");
power().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!power().IsAggregate() && !power().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# power: UNREADABLE\n");
}
}
(void)emboss_reserved_local_wrote_field;
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_options.current_indent());
emboss_reserved_local_stream->Write("}");
} else {
emboss_reserved_local_stream->Write(" }");
}
}
static constexpr bool IsAggregate() { return true; }
public:
typename ::emboss::prelude::FlagView<
/**/ ::emboss::support::FixedSizeViewParameters<1, ::emboss::support::AllValuesAreOk>,
typename Storage::template OffsetStorageType</**/0, 31>>
power() const;
::emboss::support::Maybe<bool> has_power() const;
public:
class EmbossReservedDollarVirtualIntrinsicSizeInBitsView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualIntrinsicSizeInBitsView() {}
EmbossReservedDollarVirtualIntrinsicSizeInBitsView(const EmbossReservedDollarVirtualIntrinsicSizeInBitsView &) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBitsView(EmbossReservedDollarVirtualIntrinsicSizeInBitsView &&) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBitsView &operator=(const EmbossReservedDollarVirtualIntrinsicSizeInBitsView &) =
default;
EmbossReservedDollarVirtualIntrinsicSizeInBitsView &operator=(EmbossReservedDollarVirtualIntrinsicSizeInBitsView &&) =
default;
~EmbossReservedDollarVirtualIntrinsicSizeInBitsView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualIntrinsicSizeInBitsView IntrinsicSizeInBits() {
return EmbossReservedDollarVirtualIntrinsicSizeInBitsView();
}
static constexpr ::emboss::support::Maybe<bool> has_IntrinsicSizeInBits() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMaxSizeInBitsView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMaxSizeInBitsView() {}
EmbossReservedDollarVirtualMaxSizeInBitsView(const EmbossReservedDollarVirtualMaxSizeInBitsView &) = default;
EmbossReservedDollarVirtualMaxSizeInBitsView(EmbossReservedDollarVirtualMaxSizeInBitsView &&) = default;
EmbossReservedDollarVirtualMaxSizeInBitsView &operator=(const EmbossReservedDollarVirtualMaxSizeInBitsView &) =
default;
EmbossReservedDollarVirtualMaxSizeInBitsView &operator=(EmbossReservedDollarVirtualMaxSizeInBitsView &&) =
default;
~EmbossReservedDollarVirtualMaxSizeInBitsView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMaxSizeInBitsView MaxSizeInBits() {
return EmbossReservedDollarVirtualMaxSizeInBitsView();
}
static constexpr ::emboss::support::Maybe<bool> has_MaxSizeInBits() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMinSizeInBitsView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMinSizeInBitsView() {}
EmbossReservedDollarVirtualMinSizeInBitsView(const EmbossReservedDollarVirtualMinSizeInBitsView &) = default;
EmbossReservedDollarVirtualMinSizeInBitsView(EmbossReservedDollarVirtualMinSizeInBitsView &&) = default;
EmbossReservedDollarVirtualMinSizeInBitsView &operator=(const EmbossReservedDollarVirtualMinSizeInBitsView &) =
default;
EmbossReservedDollarVirtualMinSizeInBitsView &operator=(EmbossReservedDollarVirtualMinSizeInBitsView &&) =
default;
~EmbossReservedDollarVirtualMinSizeInBitsView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMinSizeInBitsView MinSizeInBits() {
return EmbossReservedDollarVirtualMinSizeInBitsView();
}
static constexpr ::emboss::support::Maybe<bool> has_MinSizeInBits() {
return ::emboss::support::Maybe<bool>(true);
}
private:
Storage backing_;
template <class OtherStorage>
friend class GenericConfigView;
};
using ConfigView =
GenericConfigView</**/ ::emboss::support::ReadOnlyContiguousBuffer>;
using ConfigWriter =
GenericConfigView</**/ ::emboss::support::ReadWriteContiguousBuffer>;
template <class View>
struct EmbossReservedInternalIsGenericConfigView {
static constexpr const bool value = false;
};
template <class Storage>
struct EmbossReservedInternalIsGenericConfigView<
GenericConfigView<Storage>> {
static constexpr const bool value = true;
};
template <typename T>
inline GenericConfigView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<
decltype(*::std::declval<T>()->data())>::type,
1, 0>>
MakeConfigView( T &&emboss_reserved_local_arg) {
return GenericConfigView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<decltype(
*::std::declval<T>()->data())>::type,
1, 0>>(
::std::forward<T>(emboss_reserved_local_arg));
}
template <typename T>
inline GenericConfigView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>
MakeConfigView( T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericConfigView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>(
emboss_reserved_local_data,
emboss_reserved_local_size);
}
template <typename T, ::std::size_t kAlignment>
inline GenericConfigView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>
MakeAlignedConfigView(
T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericConfigView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>(
emboss_reserved_local_data,
emboss_reserved_local_size);
}
namespace ConfigVX {
namespace EmbossReservedAnonymousField1 {
} // namespace EmbossReservedAnonymousField1
template <class View>
struct EmbossReservedInternalIsGenericEmbossReservedAnonymousField1View;
template <class Storage>
class GenericEmbossReservedAnonymousField1View final {
public:
GenericEmbossReservedAnonymousField1View() : backing_() {}
explicit GenericEmbossReservedAnonymousField1View(
Storage emboss_reserved_local_bytes)
: backing_(emboss_reserved_local_bytes)
{}
template <typename OtherStorage>
GenericEmbossReservedAnonymousField1View(
const GenericEmbossReservedAnonymousField1View<OtherStorage> &emboss_reserved_local_other)
: backing_{emboss_reserved_local_other.BackingStorage()}
{}
template <typename Arg,
typename = typename ::std::enable_if<
!EmbossReservedInternalIsGenericEmbossReservedAnonymousField1View<
typename ::std::remove_cv<typename ::std::remove_reference<
Arg>::type>::type>::value>::type>
explicit GenericEmbossReservedAnonymousField1View(
Arg &&emboss_reserved_local_arg)
: backing_(::std::forward<Arg>(
emboss_reserved_local_arg))
{}
template <typename Arg0, typename Arg1, typename... Args>
explicit GenericEmbossReservedAnonymousField1View(
Arg0 &&emboss_reserved_local_arg0,
Arg1 &&emboss_reserved_local_arg1, Args &&... emboss_reserved_local_args)
: backing_(::std::forward<Arg0>(emboss_reserved_local_arg0),
::std::forward<Arg1>(emboss_reserved_local_arg1),
::std::forward<Args>(
emboss_reserved_local_args)...)
{}
template <typename OtherStorage>
GenericEmbossReservedAnonymousField1View<Storage> &operator=(
const GenericEmbossReservedAnonymousField1View<OtherStorage> &emboss_reserved_local_other) {
backing_ = emboss_reserved_local_other.BackingStorage();
return *this;
}
bool Ok() const {
if (!IsComplete()) return false;
if (!has_power().Known()) return false;
if (has_power().ValueOrDefault() && !power().Ok()) return false;
if (!has_IntrinsicSizeInBits().Known()) return false;
if (has_IntrinsicSizeInBits().ValueOrDefault() && !IntrinsicSizeInBits().Ok()) return false;
if (!has_MaxSizeInBits().Known()) return false;
if (has_MaxSizeInBits().ValueOrDefault() && !MaxSizeInBits().Ok()) return false;
if (!has_MinSizeInBits().Known()) return false;
if (has_MinSizeInBits().ValueOrDefault() && !MinSizeInBits().Ok()) return false;
return true;
}
Storage BackingStorage() const { return backing_; }
bool IsComplete() const {
return backing_.Ok() && IntrinsicSizeInBits().Ok() &&
backing_.SizeInBits() >=
static_cast</**/ ::std::size_t>(
IntrinsicSizeInBits().UncheckedRead());
}
static constexpr ::std::size_t SizeInBits() {
return static_cast</**/ ::std::size_t>(IntrinsicSizeInBits().Read());
}
static constexpr bool SizeIsKnown() {
return IntrinsicSizeInBits().Ok();
}
template <typename OtherStorage>
bool Equals(
GenericEmbossReservedAnonymousField1View<OtherStorage> emboss_reserved_local_other) const {
if (!has_power().Known()) return false;
if (!emboss_reserved_local_other.has_power().Known()) return false;
if (emboss_reserved_local_other.has_power().ValueOrDefault() &&
!has_power().ValueOrDefault())
return false;
if (has_power().ValueOrDefault() &&
!emboss_reserved_local_other.has_power().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_power().ValueOrDefault() &&
has_power().ValueOrDefault() &&
!power().Equals(emboss_reserved_local_other.power()))
return false;
return true;
}
template <typename OtherStorage>
bool UncheckedEquals(
GenericEmbossReservedAnonymousField1View<OtherStorage> emboss_reserved_local_other) const {
if (emboss_reserved_local_other.has_power().ValueOr(false) &&
!has_power().ValueOr(false))
return false;
if (has_power().ValueOr(false) &&
!emboss_reserved_local_other.has_power().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_power().ValueOr(false) &&
has_power().ValueOr(false) &&
!power().UncheckedEquals(emboss_reserved_local_other.power()))
return false;
return true;
}
template <typename OtherStorage>
void UncheckedCopyFrom(
GenericEmbossReservedAnonymousField1View<OtherStorage> emboss_reserved_local_other) const {
backing_.UncheckedCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBits().UncheckedRead());
}
template <typename OtherStorage>
void CopyFrom(
GenericEmbossReservedAnonymousField1View<OtherStorage> emboss_reserved_local_other) const {
backing_.CopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBits().Read());
}
template <typename OtherStorage>
bool TryToCopyFrom(
GenericEmbossReservedAnonymousField1View<OtherStorage> emboss_reserved_local_other) const {
return emboss_reserved_local_other.Ok() && backing_.TryToCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBits().Read());
}
template <class Stream>
bool UpdateFromTextStream(Stream *emboss_reserved_local_stream) const {
::std::string emboss_reserved_local_brace;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_brace))
return false;
if (emboss_reserved_local_brace != "{") return false;
for (;;) {
::std::string emboss_reserved_local_name;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == ",")
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == "}") return true;
::std::string emboss_reserved_local_colon;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_colon))
return false;
if (emboss_reserved_local_colon != ":") return false;
if (emboss_reserved_local_name == "power") {
if (!power().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
return false;
}
}
template <class Stream>
void WriteToTextStream(
Stream *emboss_reserved_local_stream,
::emboss::TextOutputOptions emboss_reserved_local_options) const {
::emboss::TextOutputOptions emboss_reserved_local_field_options =
emboss_reserved_local_options.PlusOneIndent();
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write("{\n");
} else {
emboss_reserved_local_stream->Write("{");
}
bool emboss_reserved_local_wrote_field = false;
if (has_power().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
power().IsAggregate() || power().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("power: ");
power().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!power().IsAggregate() && !power().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# power: UNREADABLE\n");
}
}
(void)emboss_reserved_local_wrote_field;
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_options.current_indent());
emboss_reserved_local_stream->Write("}");
} else {
emboss_reserved_local_stream->Write(" }");
}
}
static constexpr bool IsAggregate() { return true; }
public:
typename ::emboss::prelude::FlagView<
/**/ ::emboss::support::FixedSizeViewParameters<1, ::emboss::support::AllValuesAreOk>,
typename Storage::template OffsetStorageType</**/0, 31>>
power() const;
::emboss::support::Maybe<bool> has_power() const;
public:
class EmbossReservedDollarVirtualIntrinsicSizeInBitsView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualIntrinsicSizeInBitsView() {}
EmbossReservedDollarVirtualIntrinsicSizeInBitsView(const EmbossReservedDollarVirtualIntrinsicSizeInBitsView &) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBitsView(EmbossReservedDollarVirtualIntrinsicSizeInBitsView &&) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBitsView &operator=(const EmbossReservedDollarVirtualIntrinsicSizeInBitsView &) =
default;
EmbossReservedDollarVirtualIntrinsicSizeInBitsView &operator=(EmbossReservedDollarVirtualIntrinsicSizeInBitsView &&) =
default;
~EmbossReservedDollarVirtualIntrinsicSizeInBitsView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualIntrinsicSizeInBitsView IntrinsicSizeInBits() {
return EmbossReservedDollarVirtualIntrinsicSizeInBitsView();
}
static constexpr ::emboss::support::Maybe<bool> has_IntrinsicSizeInBits() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMaxSizeInBitsView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMaxSizeInBitsView() {}
EmbossReservedDollarVirtualMaxSizeInBitsView(const EmbossReservedDollarVirtualMaxSizeInBitsView &) = default;
EmbossReservedDollarVirtualMaxSizeInBitsView(EmbossReservedDollarVirtualMaxSizeInBitsView &&) = default;
EmbossReservedDollarVirtualMaxSizeInBitsView &operator=(const EmbossReservedDollarVirtualMaxSizeInBitsView &) =
default;
EmbossReservedDollarVirtualMaxSizeInBitsView &operator=(EmbossReservedDollarVirtualMaxSizeInBitsView &&) =
default;
~EmbossReservedDollarVirtualMaxSizeInBitsView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMaxSizeInBitsView MaxSizeInBits() {
return EmbossReservedDollarVirtualMaxSizeInBitsView();
}
static constexpr ::emboss::support::Maybe<bool> has_MaxSizeInBits() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMinSizeInBitsView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMinSizeInBitsView() {}
EmbossReservedDollarVirtualMinSizeInBitsView(const EmbossReservedDollarVirtualMinSizeInBitsView &) = default;
EmbossReservedDollarVirtualMinSizeInBitsView(EmbossReservedDollarVirtualMinSizeInBitsView &&) = default;
EmbossReservedDollarVirtualMinSizeInBitsView &operator=(const EmbossReservedDollarVirtualMinSizeInBitsView &) =
default;
EmbossReservedDollarVirtualMinSizeInBitsView &operator=(EmbossReservedDollarVirtualMinSizeInBitsView &&) =
default;
~EmbossReservedDollarVirtualMinSizeInBitsView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMinSizeInBitsView MinSizeInBits() {
return EmbossReservedDollarVirtualMinSizeInBitsView();
}
static constexpr ::emboss::support::Maybe<bool> has_MinSizeInBits() {
return ::emboss::support::Maybe<bool>(true);
}
private:
Storage backing_;
template <class OtherStorage>
friend class GenericEmbossReservedAnonymousField1View;
};
using EmbossReservedAnonymousField1View =
GenericEmbossReservedAnonymousField1View</**/ ::emboss::support::ReadOnlyContiguousBuffer>;
using EmbossReservedAnonymousField1Writer =
GenericEmbossReservedAnonymousField1View</**/ ::emboss::support::ReadWriteContiguousBuffer>;
template <class View>
struct EmbossReservedInternalIsGenericEmbossReservedAnonymousField1View {
static constexpr const bool value = false;
};
template <class Storage>
struct EmbossReservedInternalIsGenericEmbossReservedAnonymousField1View<
GenericEmbossReservedAnonymousField1View<Storage>> {
static constexpr const bool value = true;
};
template <typename T>
inline GenericEmbossReservedAnonymousField1View<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<
decltype(*::std::declval<T>()->data())>::type,
1, 0>>
MakeEmbossReservedAnonymousField1View( T &&emboss_reserved_local_arg) {
return GenericEmbossReservedAnonymousField1View<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<decltype(
*::std::declval<T>()->data())>::type,
1, 0>>(
::std::forward<T>(emboss_reserved_local_arg));
}
template <typename T>
inline GenericEmbossReservedAnonymousField1View</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>
MakeEmbossReservedAnonymousField1View( T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericEmbossReservedAnonymousField1View</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>(
emboss_reserved_local_data,
emboss_reserved_local_size);
}
template <typename T, ::std::size_t kAlignment>
inline GenericEmbossReservedAnonymousField1View<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>
MakeAlignedEmbossReservedAnonymousField1View(
T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericEmbossReservedAnonymousField1View<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>(
emboss_reserved_local_data,
emboss_reserved_local_size);
}
} // namespace ConfigVX
template <class View>
struct EmbossReservedInternalIsGenericConfigVXView;
template <class Storage>
class GenericConfigVXView final {
public:
GenericConfigVXView() : backing_() {}
explicit GenericConfigVXView(
Storage emboss_reserved_local_bytes)
: backing_(emboss_reserved_local_bytes)
{}
template <typename OtherStorage>
GenericConfigVXView(
const GenericConfigVXView<OtherStorage> &emboss_reserved_local_other)
: backing_{emboss_reserved_local_other.BackingStorage()}
{}
template <typename Arg,
typename = typename ::std::enable_if<
!EmbossReservedInternalIsGenericConfigVXView<
typename ::std::remove_cv<typename ::std::remove_reference<
Arg>::type>::type>::value>::type>
explicit GenericConfigVXView(
Arg &&emboss_reserved_local_arg)
: backing_(::std::forward<Arg>(
emboss_reserved_local_arg))
{}
template <typename Arg0, typename Arg1, typename... Args>
explicit GenericConfigVXView(
Arg0 &&emboss_reserved_local_arg0,
Arg1 &&emboss_reserved_local_arg1, Args &&... emboss_reserved_local_args)
: backing_(::std::forward<Arg0>(emboss_reserved_local_arg0),
::std::forward<Arg1>(emboss_reserved_local_arg1),
::std::forward<Args>(
emboss_reserved_local_args)...)
{}
template <typename OtherStorage>
GenericConfigVXView<Storage> &operator=(
const GenericConfigVXView<OtherStorage> &emboss_reserved_local_other) {
backing_ = emboss_reserved_local_other.BackingStorage();
return *this;
}
bool Ok() const {
if (!IsComplete()) return false;
if (!has_emboss_reserved_anonymous_field_1().Known()) return false;
if (has_emboss_reserved_anonymous_field_1().ValueOrDefault() && !emboss_reserved_anonymous_field_1().Ok()) return false;
if (!has_power().Known()) return false;
if (has_power().ValueOrDefault() && !power().Ok()) return false;
if (!has_gain().Known()) return false;
if (has_gain().ValueOrDefault() && !gain().Ok()) return false;
if (!has_IntrinsicSizeInBytes().Known()) return false;
if (has_IntrinsicSizeInBytes().ValueOrDefault() && !IntrinsicSizeInBytes().Ok()) return false;
if (!has_MaxSizeInBytes().Known()) return false;
if (has_MaxSizeInBytes().ValueOrDefault() && !MaxSizeInBytes().Ok()) return false;
if (!has_MinSizeInBytes().Known()) return false;
if (has_MinSizeInBytes().ValueOrDefault() && !MinSizeInBytes().Ok()) return false;
return true;
}
Storage BackingStorage() const { return backing_; }
bool IsComplete() const {
return backing_.Ok() && IntrinsicSizeInBytes().Ok() &&
backing_.SizeInBytes() >=
static_cast</**/ ::std::size_t>(
IntrinsicSizeInBytes().UncheckedRead());
}
static constexpr ::std::size_t SizeInBytes() {
return static_cast</**/ ::std::size_t>(IntrinsicSizeInBytes().Read());
}
static constexpr bool SizeIsKnown() {
return IntrinsicSizeInBytes().Ok();
}
template <typename OtherStorage>
bool Equals(
GenericConfigVXView<OtherStorage> emboss_reserved_local_other) const {
if (!has_emboss_reserved_anonymous_field_1().Known()) return false;
if (!emboss_reserved_local_other.has_emboss_reserved_anonymous_field_1().Known()) return false;
if (emboss_reserved_local_other.has_emboss_reserved_anonymous_field_1().ValueOrDefault() &&
!has_emboss_reserved_anonymous_field_1().ValueOrDefault())
return false;
if (has_emboss_reserved_anonymous_field_1().ValueOrDefault() &&
!emboss_reserved_local_other.has_emboss_reserved_anonymous_field_1().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_emboss_reserved_anonymous_field_1().ValueOrDefault() &&
has_emboss_reserved_anonymous_field_1().ValueOrDefault() &&
!emboss_reserved_anonymous_field_1().Equals(emboss_reserved_local_other.emboss_reserved_anonymous_field_1()))
return false;
if (!has_gain().Known()) return false;
if (!emboss_reserved_local_other.has_gain().Known()) return false;
if (emboss_reserved_local_other.has_gain().ValueOrDefault() &&
!has_gain().ValueOrDefault())
return false;
if (has_gain().ValueOrDefault() &&
!emboss_reserved_local_other.has_gain().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_gain().ValueOrDefault() &&
has_gain().ValueOrDefault() &&
!gain().Equals(emboss_reserved_local_other.gain()))
return false;
return true;
}
template <typename OtherStorage>
bool UncheckedEquals(
GenericConfigVXView<OtherStorage> emboss_reserved_local_other) const {
if (emboss_reserved_local_other.has_emboss_reserved_anonymous_field_1().ValueOr(false) &&
!has_emboss_reserved_anonymous_field_1().ValueOr(false))
return false;
if (has_emboss_reserved_anonymous_field_1().ValueOr(false) &&
!emboss_reserved_local_other.has_emboss_reserved_anonymous_field_1().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_emboss_reserved_anonymous_field_1().ValueOr(false) &&
has_emboss_reserved_anonymous_field_1().ValueOr(false) &&
!emboss_reserved_anonymous_field_1().UncheckedEquals(emboss_reserved_local_other.emboss_reserved_anonymous_field_1()))
return false;
if (emboss_reserved_local_other.has_gain().ValueOr(false) &&
!has_gain().ValueOr(false))
return false;
if (has_gain().ValueOr(false) &&
!emboss_reserved_local_other.has_gain().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_gain().ValueOr(false) &&
has_gain().ValueOr(false) &&
!gain().UncheckedEquals(emboss_reserved_local_other.gain()))
return false;
return true;
}
template <typename OtherStorage>
void UncheckedCopyFrom(
GenericConfigVXView<OtherStorage> emboss_reserved_local_other) const {
backing_.UncheckedCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().UncheckedRead());
}
template <typename OtherStorage>
void CopyFrom(
GenericConfigVXView<OtherStorage> emboss_reserved_local_other) const {
backing_.CopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <typename OtherStorage>
bool TryToCopyFrom(
GenericConfigVXView<OtherStorage> emboss_reserved_local_other) const {
return emboss_reserved_local_other.Ok() && backing_.TryToCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <class Stream>
bool UpdateFromTextStream(Stream *emboss_reserved_local_stream) const {
::std::string emboss_reserved_local_brace;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_brace))
return false;
if (emboss_reserved_local_brace != "{") return false;
for (;;) {
::std::string emboss_reserved_local_name;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == ",")
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == "}") return true;
::std::string emboss_reserved_local_colon;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_colon))
return false;
if (emboss_reserved_local_colon != ":") return false;
if (emboss_reserved_local_name == "power") {
if (!power().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
if (emboss_reserved_local_name == "gain") {
if (!gain().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
return false;
}
}
template <class Stream>
void WriteToTextStream(
Stream *emboss_reserved_local_stream,
::emboss::TextOutputOptions emboss_reserved_local_options) const {
::emboss::TextOutputOptions emboss_reserved_local_field_options =
emboss_reserved_local_options.PlusOneIndent();
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write("{\n");
} else {
emboss_reserved_local_stream->Write("{");
}
bool emboss_reserved_local_wrote_field = false;
if (has_power().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
power().IsAggregate() || power().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("power: ");
power().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!power().IsAggregate() && !power().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# power: UNREADABLE\n");
}
}
if (has_gain().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
gain().IsAggregate() || gain().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("gain: ");
gain().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!gain().IsAggregate() && !gain().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# gain: UNREADABLE\n");
}
}
(void)emboss_reserved_local_wrote_field;
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_options.current_indent());
emboss_reserved_local_stream->Write("}");
} else {
emboss_reserved_local_stream->Write(" }");
}
}
static constexpr bool IsAggregate() { return true; }
private:
typename ::emboss::test::ConfigVX::GenericEmbossReservedAnonymousField1View<typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 32>>
emboss_reserved_anonymous_field_1() const;
::emboss::support::Maybe<bool> has_emboss_reserved_anonymous_field_1() const;
public:
auto power() const -> decltype(this->emboss_reserved_anonymous_field_1().power()) {
return has_power().ValueOrDefault() ? emboss_reserved_anonymous_field_1().power()
: decltype(this->emboss_reserved_anonymous_field_1().power())();
}
::emboss::support::Maybe<bool> has_power() const;
public:
typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<32, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 4>>, 32>>
gain() const;
::emboss::support::Maybe<bool> has_gain() const;
public:
class EmbossReservedDollarVirtualIntrinsicSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualIntrinsicSizeInBytesView() {}
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) =
default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualIntrinsicSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualIntrinsicSizeInBytesView IntrinsicSizeInBytes() {
return EmbossReservedDollarVirtualIntrinsicSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_IntrinsicSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMaxSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMaxSizeInBytesView() {}
EmbossReservedDollarVirtualMaxSizeInBytesView(const EmbossReservedDollarVirtualMaxSizeInBytesView &) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView(EmbossReservedDollarVirtualMaxSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(const EmbossReservedDollarVirtualMaxSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(EmbossReservedDollarVirtualMaxSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMaxSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMaxSizeInBytesView MaxSizeInBytes() {
return EmbossReservedDollarVirtualMaxSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MaxSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMinSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMinSizeInBytesView() {}
EmbossReservedDollarVirtualMinSizeInBytesView(const EmbossReservedDollarVirtualMinSizeInBytesView &) = default;
EmbossReservedDollarVirtualMinSizeInBytesView(EmbossReservedDollarVirtualMinSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(const EmbossReservedDollarVirtualMinSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(EmbossReservedDollarVirtualMinSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMinSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMinSizeInBytesView MinSizeInBytes() {
return EmbossReservedDollarVirtualMinSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MinSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
private:
Storage backing_;
template <class OtherStorage>
friend class GenericConfigVXView;
};
using ConfigVXView =
GenericConfigVXView</**/ ::emboss::support::ReadOnlyContiguousBuffer>;
using ConfigVXWriter =
GenericConfigVXView</**/ ::emboss::support::ReadWriteContiguousBuffer>;
template <class View>
struct EmbossReservedInternalIsGenericConfigVXView {
static constexpr const bool value = false;
};
template <class Storage>
struct EmbossReservedInternalIsGenericConfigVXView<
GenericConfigVXView<Storage>> {
static constexpr const bool value = true;
};
template <typename T>
inline GenericConfigVXView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<
decltype(*::std::declval<T>()->data())>::type,
1, 0>>
MakeConfigVXView( T &&emboss_reserved_local_arg) {
return GenericConfigVXView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<decltype(
*::std::declval<T>()->data())>::type,
1, 0>>(
::std::forward<T>(emboss_reserved_local_arg));
}
template <typename T>
inline GenericConfigVXView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>
MakeConfigVXView( T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericConfigVXView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>(
emboss_reserved_local_data,
emboss_reserved_local_size);
}
template <typename T, ::std::size_t kAlignment>
inline GenericConfigVXView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>
MakeAlignedConfigVXView(
T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericConfigVXView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>(
emboss_reserved_local_data,
emboss_reserved_local_size);
}
namespace StructWithUnusedParameter {
} // namespace StructWithUnusedParameter
template <class View>
struct EmbossReservedInternalIsGenericStructWithUnusedParameterView;
template <class Storage>
class GenericStructWithUnusedParameterView final {
public:
GenericStructWithUnusedParameterView() : backing_() {}
explicit GenericStructWithUnusedParameterView(
::std::int32_t x, Storage emboss_reserved_local_bytes)
: backing_(emboss_reserved_local_bytes) , x_(x)
, parameters_initialized_(true) {}
template <typename OtherStorage>
GenericStructWithUnusedParameterView(
const GenericStructWithUnusedParameterView<OtherStorage> &emboss_reserved_local_other)
: backing_{emboss_reserved_local_other.BackingStorage()}
, x_(emboss_reserved_local_other.x_)
, parameters_initialized_(emboss_reserved_local_other.parameters_initialized_) {}
template <typename Arg,
typename = typename ::std::enable_if<
!EmbossReservedInternalIsGenericStructWithUnusedParameterView<
typename ::std::remove_cv<typename ::std::remove_reference<
Arg>::type>::type>::value>::type>
explicit GenericStructWithUnusedParameterView(
::std::int32_t x, Arg &&emboss_reserved_local_arg)
: backing_(::std::forward<Arg>(
emboss_reserved_local_arg)) , x_(x)
, parameters_initialized_(true) {}
template <typename Arg0, typename Arg1, typename... Args>
explicit GenericStructWithUnusedParameterView(
::std::int32_t x, Arg0 &&emboss_reserved_local_arg0,
Arg1 &&emboss_reserved_local_arg1, Args &&... emboss_reserved_local_args)
: backing_(::std::forward<Arg0>(emboss_reserved_local_arg0),
::std::forward<Arg1>(emboss_reserved_local_arg1),
::std::forward<Args>(
emboss_reserved_local_args)...) , x_(x)
, parameters_initialized_(true) {}
template <typename OtherStorage>
GenericStructWithUnusedParameterView<Storage> &operator=(
const GenericStructWithUnusedParameterView<OtherStorage> &emboss_reserved_local_other) {
backing_ = emboss_reserved_local_other.BackingStorage();
return *this;
}
bool Ok() const {
if (!IsComplete()) return false;
if (!parameters_initialized_) return false;
if (!has_y().Known()) return false;
if (has_y().ValueOrDefault() && !y().Ok()) return false;
if (!has_IntrinsicSizeInBytes().Known()) return false;
if (has_IntrinsicSizeInBytes().ValueOrDefault() && !IntrinsicSizeInBytes().Ok()) return false;
if (!has_MaxSizeInBytes().Known()) return false;
if (has_MaxSizeInBytes().ValueOrDefault() && !MaxSizeInBytes().Ok()) return false;
if (!has_MinSizeInBytes().Known()) return false;
if (has_MinSizeInBytes().ValueOrDefault() && !MinSizeInBytes().Ok()) return false;
return true;
}
Storage BackingStorage() const { return backing_; }
bool IsComplete() const {
return backing_.Ok() && IntrinsicSizeInBytes().Ok() &&
backing_.SizeInBytes() >=
static_cast</**/ ::std::size_t>(
IntrinsicSizeInBytes().UncheckedRead());
}
static constexpr ::std::size_t SizeInBytes() {
return static_cast</**/ ::std::size_t>(IntrinsicSizeInBytes().Read());
}
static constexpr bool SizeIsKnown() {
return IntrinsicSizeInBytes().Ok();
}
template <typename OtherStorage>
bool Equals(
GenericStructWithUnusedParameterView<OtherStorage> emboss_reserved_local_other) const {
if (!has_x().Known()) return false;
if (!emboss_reserved_local_other.has_x().Known()) return false;
if (emboss_reserved_local_other.has_x().ValueOrDefault() &&
!has_x().ValueOrDefault())
return false;
if (has_x().ValueOrDefault() &&
!emboss_reserved_local_other.has_x().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_x().ValueOrDefault() &&
has_x().ValueOrDefault() &&
!x().Equals(emboss_reserved_local_other.x()))
return false;
if (!has_y().Known()) return false;
if (!emboss_reserved_local_other.has_y().Known()) return false;
if (emboss_reserved_local_other.has_y().ValueOrDefault() &&
!has_y().ValueOrDefault())
return false;
if (has_y().ValueOrDefault() &&
!emboss_reserved_local_other.has_y().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_y().ValueOrDefault() &&
has_y().ValueOrDefault() &&
!y().Equals(emboss_reserved_local_other.y()))
return false;
return true;
}
template <typename OtherStorage>
bool UncheckedEquals(
GenericStructWithUnusedParameterView<OtherStorage> emboss_reserved_local_other) const {
if (emboss_reserved_local_other.has_x().ValueOr(false) &&
!has_x().ValueOr(false))
return false;
if (has_x().ValueOr(false) &&
!emboss_reserved_local_other.has_x().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_x().ValueOr(false) &&
has_x().ValueOr(false) &&
!x().UncheckedEquals(emboss_reserved_local_other.x()))
return false;
if (emboss_reserved_local_other.has_y().ValueOr(false) &&
!has_y().ValueOr(false))
return false;
if (has_y().ValueOr(false) &&
!emboss_reserved_local_other.has_y().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_y().ValueOr(false) &&
has_y().ValueOr(false) &&
!y().UncheckedEquals(emboss_reserved_local_other.y()))
return false;
return true;
}
template <typename OtherStorage>
void UncheckedCopyFrom(
GenericStructWithUnusedParameterView<OtherStorage> emboss_reserved_local_other) const {
backing_.UncheckedCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().UncheckedRead());
}
template <typename OtherStorage>
void CopyFrom(
GenericStructWithUnusedParameterView<OtherStorage> emboss_reserved_local_other) const {
backing_.CopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <typename OtherStorage>
bool TryToCopyFrom(
GenericStructWithUnusedParameterView<OtherStorage> emboss_reserved_local_other) const {
return emboss_reserved_local_other.Ok() && backing_.TryToCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <class Stream>
bool UpdateFromTextStream(Stream *emboss_reserved_local_stream) const {
::std::string emboss_reserved_local_brace;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_brace))
return false;
if (emboss_reserved_local_brace != "{") return false;
for (;;) {
::std::string emboss_reserved_local_name;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == ",")
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == "}") return true;
::std::string emboss_reserved_local_colon;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_colon))
return false;
if (emboss_reserved_local_colon != ":") return false;
if (emboss_reserved_local_name == "y") {
if (!y().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
return false;
}
}
template <class Stream>
void WriteToTextStream(
Stream *emboss_reserved_local_stream,
::emboss::TextOutputOptions emboss_reserved_local_options) const {
::emboss::TextOutputOptions emboss_reserved_local_field_options =
emboss_reserved_local_options.PlusOneIndent();
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write("{\n");
} else {
emboss_reserved_local_stream->Write("{");
}
bool emboss_reserved_local_wrote_field = false;
if (has_y().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
y().IsAggregate() || y().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("y: ");
y().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!y().IsAggregate() && !y().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# y: UNREADABLE\n");
}
}
(void)emboss_reserved_local_wrote_field;
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_options.current_indent());
emboss_reserved_local_stream->Write("}");
} else {
emboss_reserved_local_stream->Write(" }");
}
}
static constexpr bool IsAggregate() { return true; }
private:
constexpr ::emboss::support::MaybeConstantView</**/ ::std::int32_t>
x() const {
return parameters_initialized_
? ::emboss::support::MaybeConstantView</**/ ::std::int32_t>(
x_)
: ::emboss::support::MaybeConstantView</**/ ::std::int32_t>();
}
constexpr ::emboss::support::Maybe<bool> has_x() const {
return ::emboss::support::Maybe<bool>(parameters_initialized_);
}
public:
typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
y() const;
::emboss::support::Maybe<bool> has_y() const;
public:
class EmbossReservedDollarVirtualIntrinsicSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualIntrinsicSizeInBytesView() {}
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) =
default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualIntrinsicSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualIntrinsicSizeInBytesView IntrinsicSizeInBytes() {
return EmbossReservedDollarVirtualIntrinsicSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_IntrinsicSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMaxSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMaxSizeInBytesView() {}
EmbossReservedDollarVirtualMaxSizeInBytesView(const EmbossReservedDollarVirtualMaxSizeInBytesView &) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView(EmbossReservedDollarVirtualMaxSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(const EmbossReservedDollarVirtualMaxSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(EmbossReservedDollarVirtualMaxSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMaxSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMaxSizeInBytesView MaxSizeInBytes() {
return EmbossReservedDollarVirtualMaxSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MaxSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMinSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMinSizeInBytesView() {}
EmbossReservedDollarVirtualMinSizeInBytesView(const EmbossReservedDollarVirtualMinSizeInBytesView &) = default;
EmbossReservedDollarVirtualMinSizeInBytesView(EmbossReservedDollarVirtualMinSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(const EmbossReservedDollarVirtualMinSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(EmbossReservedDollarVirtualMinSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMinSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMinSizeInBytesView MinSizeInBytes() {
return EmbossReservedDollarVirtualMinSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MinSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
private:
Storage backing_;
::std::int32_t x_;
bool parameters_initialized_ = false;
template <class OtherStorage>
friend class GenericStructWithUnusedParameterView;
};
using StructWithUnusedParameterView =
GenericStructWithUnusedParameterView</**/ ::emboss::support::ReadOnlyContiguousBuffer>;
using StructWithUnusedParameterWriter =
GenericStructWithUnusedParameterView</**/ ::emboss::support::ReadWriteContiguousBuffer>;
template <class View>
struct EmbossReservedInternalIsGenericStructWithUnusedParameterView {
static constexpr const bool value = false;
};
template <class Storage>
struct EmbossReservedInternalIsGenericStructWithUnusedParameterView<
GenericStructWithUnusedParameterView<Storage>> {
static constexpr const bool value = true;
};
template <typename T>
inline GenericStructWithUnusedParameterView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<
decltype(*::std::declval<T>()->data())>::type,
1, 0>>
MakeStructWithUnusedParameterView(::std::int32_t x, T &&emboss_reserved_local_arg) {
return GenericStructWithUnusedParameterView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<decltype(
*::std::declval<T>()->data())>::type,
1, 0>>(
::std::forward</**/::std::int32_t>(x), ::std::forward<T>(emboss_reserved_local_arg));
}
template <typename T>
inline GenericStructWithUnusedParameterView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>
MakeStructWithUnusedParameterView(::std::int32_t x, T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericStructWithUnusedParameterView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>(
::std::forward</**/::std::int32_t>(x), emboss_reserved_local_data,
emboss_reserved_local_size);
}
template <typename T, ::std::size_t kAlignment>
inline GenericStructWithUnusedParameterView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>
MakeAlignedStructWithUnusedParameterView(
::std::int32_t x, T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericStructWithUnusedParameterView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>(
::std::forward</**/::std::int32_t>(x), emboss_reserved_local_data,
emboss_reserved_local_size);
}
namespace StructContainingStructWithUnusedParameter {
} // namespace StructContainingStructWithUnusedParameter
template <class View>
struct EmbossReservedInternalIsGenericStructContainingStructWithUnusedParameterView;
template <class Storage>
class GenericStructContainingStructWithUnusedParameterView final {
public:
GenericStructContainingStructWithUnusedParameterView() : backing_() {}
explicit GenericStructContainingStructWithUnusedParameterView(
Storage emboss_reserved_local_bytes)
: backing_(emboss_reserved_local_bytes)
{}
template <typename OtherStorage>
GenericStructContainingStructWithUnusedParameterView(
const GenericStructContainingStructWithUnusedParameterView<OtherStorage> &emboss_reserved_local_other)
: backing_{emboss_reserved_local_other.BackingStorage()}
{}
template <typename Arg,
typename = typename ::std::enable_if<
!EmbossReservedInternalIsGenericStructContainingStructWithUnusedParameterView<
typename ::std::remove_cv<typename ::std::remove_reference<
Arg>::type>::type>::value>::type>
explicit GenericStructContainingStructWithUnusedParameterView(
Arg &&emboss_reserved_local_arg)
: backing_(::std::forward<Arg>(
emboss_reserved_local_arg))
{}
template <typename Arg0, typename Arg1, typename... Args>
explicit GenericStructContainingStructWithUnusedParameterView(
Arg0 &&emboss_reserved_local_arg0,
Arg1 &&emboss_reserved_local_arg1, Args &&... emboss_reserved_local_args)
: backing_(::std::forward<Arg0>(emboss_reserved_local_arg0),
::std::forward<Arg1>(emboss_reserved_local_arg1),
::std::forward<Args>(
emboss_reserved_local_args)...)
{}
template <typename OtherStorage>
GenericStructContainingStructWithUnusedParameterView<Storage> &operator=(
const GenericStructContainingStructWithUnusedParameterView<OtherStorage> &emboss_reserved_local_other) {
backing_ = emboss_reserved_local_other.BackingStorage();
return *this;
}
bool Ok() const {
if (!IsComplete()) return false;
if (!has_x().Known()) return false;
if (has_x().ValueOrDefault() && !x().Ok()) return false;
if (!has_swup().Known()) return false;
if (has_swup().ValueOrDefault() && !swup().Ok()) return false;
if (!has_IntrinsicSizeInBytes().Known()) return false;
if (has_IntrinsicSizeInBytes().ValueOrDefault() && !IntrinsicSizeInBytes().Ok()) return false;
if (!has_MaxSizeInBytes().Known()) return false;
if (has_MaxSizeInBytes().ValueOrDefault() && !MaxSizeInBytes().Ok()) return false;
if (!has_MinSizeInBytes().Known()) return false;
if (has_MinSizeInBytes().ValueOrDefault() && !MinSizeInBytes().Ok()) return false;
return true;
}
Storage BackingStorage() const { return backing_; }
bool IsComplete() const {
return backing_.Ok() && IntrinsicSizeInBytes().Ok() &&
backing_.SizeInBytes() >=
static_cast</**/ ::std::size_t>(
IntrinsicSizeInBytes().UncheckedRead());
}
static constexpr ::std::size_t SizeInBytes() {
return static_cast</**/ ::std::size_t>(IntrinsicSizeInBytes().Read());
}
static constexpr bool SizeIsKnown() {
return IntrinsicSizeInBytes().Ok();
}
template <typename OtherStorage>
bool Equals(
GenericStructContainingStructWithUnusedParameterView<OtherStorage> emboss_reserved_local_other) const {
if (!has_x().Known()) return false;
if (!emboss_reserved_local_other.has_x().Known()) return false;
if (emboss_reserved_local_other.has_x().ValueOrDefault() &&
!has_x().ValueOrDefault())
return false;
if (has_x().ValueOrDefault() &&
!emboss_reserved_local_other.has_x().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_x().ValueOrDefault() &&
has_x().ValueOrDefault() &&
!x().Equals(emboss_reserved_local_other.x()))
return false;
if (!has_swup().Known()) return false;
if (!emboss_reserved_local_other.has_swup().Known()) return false;
if (emboss_reserved_local_other.has_swup().ValueOrDefault() &&
!has_swup().ValueOrDefault())
return false;
if (has_swup().ValueOrDefault() &&
!emboss_reserved_local_other.has_swup().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_swup().ValueOrDefault() &&
has_swup().ValueOrDefault() &&
!swup().Equals(emboss_reserved_local_other.swup()))
return false;
return true;
}
template <typename OtherStorage>
bool UncheckedEquals(
GenericStructContainingStructWithUnusedParameterView<OtherStorage> emboss_reserved_local_other) const {
if (emboss_reserved_local_other.has_x().ValueOr(false) &&
!has_x().ValueOr(false))
return false;
if (has_x().ValueOr(false) &&
!emboss_reserved_local_other.has_x().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_x().ValueOr(false) &&
has_x().ValueOr(false) &&
!x().UncheckedEquals(emboss_reserved_local_other.x()))
return false;
if (emboss_reserved_local_other.has_swup().ValueOr(false) &&
!has_swup().ValueOr(false))
return false;
if (has_swup().ValueOr(false) &&
!emboss_reserved_local_other.has_swup().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_swup().ValueOr(false) &&
has_swup().ValueOr(false) &&
!swup().UncheckedEquals(emboss_reserved_local_other.swup()))
return false;
return true;
}
template <typename OtherStorage>
void UncheckedCopyFrom(
GenericStructContainingStructWithUnusedParameterView<OtherStorage> emboss_reserved_local_other) const {
backing_.UncheckedCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().UncheckedRead());
}
template <typename OtherStorage>
void CopyFrom(
GenericStructContainingStructWithUnusedParameterView<OtherStorage> emboss_reserved_local_other) const {
backing_.CopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <typename OtherStorage>
bool TryToCopyFrom(
GenericStructContainingStructWithUnusedParameterView<OtherStorage> emboss_reserved_local_other) const {
return emboss_reserved_local_other.Ok() && backing_.TryToCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <class Stream>
bool UpdateFromTextStream(Stream *emboss_reserved_local_stream) const {
::std::string emboss_reserved_local_brace;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_brace))
return false;
if (emboss_reserved_local_brace != "{") return false;
for (;;) {
::std::string emboss_reserved_local_name;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == ",")
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == "}") return true;
::std::string emboss_reserved_local_colon;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_colon))
return false;
if (emboss_reserved_local_colon != ":") return false;
if (emboss_reserved_local_name == "x") {
if (!x().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
if (emboss_reserved_local_name == "swup") {
if (!swup().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
return false;
}
}
template <class Stream>
void WriteToTextStream(
Stream *emboss_reserved_local_stream,
::emboss::TextOutputOptions emboss_reserved_local_options) const {
::emboss::TextOutputOptions emboss_reserved_local_field_options =
emboss_reserved_local_options.PlusOneIndent();
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write("{\n");
} else {
emboss_reserved_local_stream->Write("{");
}
bool emboss_reserved_local_wrote_field = false;
if (has_x().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
x().IsAggregate() || x().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("x: ");
x().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!x().IsAggregate() && !x().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# x: UNREADABLE\n");
}
}
if (has_swup().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
swup().IsAggregate() || swup().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("swup: ");
swup().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!swup().IsAggregate() && !swup().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# swup: UNREADABLE\n");
}
}
(void)emboss_reserved_local_wrote_field;
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_options.current_indent());
emboss_reserved_local_stream->Write("}");
} else {
emboss_reserved_local_stream->Write(" }");
}
}
static constexpr bool IsAggregate() { return true; }
public:
typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 1>>, 8>>
x() const;
::emboss::support::Maybe<bool> has_x() const;
public:
typename ::emboss::test::GenericStructWithUnusedParameterView<typename Storage::template OffsetStorageType</**/0, 0>>
swup() const;
::emboss::support::Maybe<bool> has_swup() const;
public:
class EmbossReservedDollarVirtualIntrinsicSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualIntrinsicSizeInBytesView() {}
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) =
default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualIntrinsicSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualIntrinsicSizeInBytesView IntrinsicSizeInBytes() {
return EmbossReservedDollarVirtualIntrinsicSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_IntrinsicSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMaxSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMaxSizeInBytesView() {}
EmbossReservedDollarVirtualMaxSizeInBytesView(const EmbossReservedDollarVirtualMaxSizeInBytesView &) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView(EmbossReservedDollarVirtualMaxSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(const EmbossReservedDollarVirtualMaxSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(EmbossReservedDollarVirtualMaxSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMaxSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMaxSizeInBytesView MaxSizeInBytes() {
return EmbossReservedDollarVirtualMaxSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MaxSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMinSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMinSizeInBytesView() {}
EmbossReservedDollarVirtualMinSizeInBytesView(const EmbossReservedDollarVirtualMinSizeInBytesView &) = default;
EmbossReservedDollarVirtualMinSizeInBytesView(EmbossReservedDollarVirtualMinSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(const EmbossReservedDollarVirtualMinSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(EmbossReservedDollarVirtualMinSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMinSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMinSizeInBytesView MinSizeInBytes() {
return EmbossReservedDollarVirtualMinSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MinSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
private:
Storage backing_;
template <class OtherStorage>
friend class GenericStructContainingStructWithUnusedParameterView;
};
using StructContainingStructWithUnusedParameterView =
GenericStructContainingStructWithUnusedParameterView</**/ ::emboss::support::ReadOnlyContiguousBuffer>;
using StructContainingStructWithUnusedParameterWriter =
GenericStructContainingStructWithUnusedParameterView</**/ ::emboss::support::ReadWriteContiguousBuffer>;
template <class View>
struct EmbossReservedInternalIsGenericStructContainingStructWithUnusedParameterView {
static constexpr const bool value = false;
};
template <class Storage>
struct EmbossReservedInternalIsGenericStructContainingStructWithUnusedParameterView<
GenericStructContainingStructWithUnusedParameterView<Storage>> {
static constexpr const bool value = true;
};
template <typename T>
inline GenericStructContainingStructWithUnusedParameterView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<
decltype(*::std::declval<T>()->data())>::type,
1, 0>>
MakeStructContainingStructWithUnusedParameterView( T &&emboss_reserved_local_arg) {
return GenericStructContainingStructWithUnusedParameterView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<decltype(
*::std::declval<T>()->data())>::type,
1, 0>>(
::std::forward<T>(emboss_reserved_local_arg));
}
template <typename T>
inline GenericStructContainingStructWithUnusedParameterView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>
MakeStructContainingStructWithUnusedParameterView( T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericStructContainingStructWithUnusedParameterView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>(
emboss_reserved_local_data,
emboss_reserved_local_size);
}
template <typename T, ::std::size_t kAlignment>
inline GenericStructContainingStructWithUnusedParameterView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>
MakeAlignedStructContainingStructWithUnusedParameterView(
T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericStructContainingStructWithUnusedParameterView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>(
emboss_reserved_local_data,
emboss_reserved_local_size);
}
namespace BiasedValue {
} // namespace BiasedValue
template <class View>
struct EmbossReservedInternalIsGenericBiasedValueView;
template <class Storage>
class GenericBiasedValueView final {
public:
GenericBiasedValueView() : backing_() {}
explicit GenericBiasedValueView(
::std::int32_t bias, Storage emboss_reserved_local_bytes)
: backing_(emboss_reserved_local_bytes) , bias_(bias)
, parameters_initialized_(true) {}
template <typename OtherStorage>
GenericBiasedValueView(
const GenericBiasedValueView<OtherStorage> &emboss_reserved_local_other)
: backing_{emboss_reserved_local_other.BackingStorage()}
, bias_(emboss_reserved_local_other.bias_)
, parameters_initialized_(emboss_reserved_local_other.parameters_initialized_) {}
template <typename Arg,
typename = typename ::std::enable_if<
!EmbossReservedInternalIsGenericBiasedValueView<
typename ::std::remove_cv<typename ::std::remove_reference<
Arg>::type>::type>::value>::type>
explicit GenericBiasedValueView(
::std::int32_t bias, Arg &&emboss_reserved_local_arg)
: backing_(::std::forward<Arg>(
emboss_reserved_local_arg)) , bias_(bias)
, parameters_initialized_(true) {}
template <typename Arg0, typename Arg1, typename... Args>
explicit GenericBiasedValueView(
::std::int32_t bias, Arg0 &&emboss_reserved_local_arg0,
Arg1 &&emboss_reserved_local_arg1, Args &&... emboss_reserved_local_args)
: backing_(::std::forward<Arg0>(emboss_reserved_local_arg0),
::std::forward<Arg1>(emboss_reserved_local_arg1),
::std::forward<Args>(
emboss_reserved_local_args)...) , bias_(bias)
, parameters_initialized_(true) {}
template <typename OtherStorage>
GenericBiasedValueView<Storage> &operator=(
const GenericBiasedValueView<OtherStorage> &emboss_reserved_local_other) {
backing_ = emboss_reserved_local_other.BackingStorage();
return *this;
}
bool Ok() const {
if (!IsComplete()) return false;
if (!parameters_initialized_) return false;
if (!has_raw_value().Known()) return false;
if (has_raw_value().ValueOrDefault() && !raw_value().Ok()) return false;
if (!has_value().Known()) return false;
if (has_value().ValueOrDefault() && !value().Ok()) return false;
if (!has_IntrinsicSizeInBytes().Known()) return false;
if (has_IntrinsicSizeInBytes().ValueOrDefault() && !IntrinsicSizeInBytes().Ok()) return false;
if (!has_MaxSizeInBytes().Known()) return false;
if (has_MaxSizeInBytes().ValueOrDefault() && !MaxSizeInBytes().Ok()) return false;
if (!has_MinSizeInBytes().Known()) return false;
if (has_MinSizeInBytes().ValueOrDefault() && !MinSizeInBytes().Ok()) return false;
return true;
}
Storage BackingStorage() const { return backing_; }
bool IsComplete() const {
return backing_.Ok() && IntrinsicSizeInBytes().Ok() &&
backing_.SizeInBytes() >=
static_cast</**/ ::std::size_t>(
IntrinsicSizeInBytes().UncheckedRead());
}
static constexpr ::std::size_t SizeInBytes() {
return static_cast</**/ ::std::size_t>(IntrinsicSizeInBytes().Read());
}
static constexpr bool SizeIsKnown() {
return IntrinsicSizeInBytes().Ok();
}
template <typename OtherStorage>
bool Equals(
GenericBiasedValueView<OtherStorage> emboss_reserved_local_other) const {
if (!has_bias().Known()) return false;
if (!emboss_reserved_local_other.has_bias().Known()) return false;
if (emboss_reserved_local_other.has_bias().ValueOrDefault() &&
!has_bias().ValueOrDefault())
return false;
if (has_bias().ValueOrDefault() &&
!emboss_reserved_local_other.has_bias().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_bias().ValueOrDefault() &&
has_bias().ValueOrDefault() &&
!bias().Equals(emboss_reserved_local_other.bias()))
return false;
if (!has_raw_value().Known()) return false;
if (!emboss_reserved_local_other.has_raw_value().Known()) return false;
if (emboss_reserved_local_other.has_raw_value().ValueOrDefault() &&
!has_raw_value().ValueOrDefault())
return false;
if (has_raw_value().ValueOrDefault() &&
!emboss_reserved_local_other.has_raw_value().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_raw_value().ValueOrDefault() &&
has_raw_value().ValueOrDefault() &&
!raw_value().Equals(emboss_reserved_local_other.raw_value()))
return false;
return true;
}
template <typename OtherStorage>
bool UncheckedEquals(
GenericBiasedValueView<OtherStorage> emboss_reserved_local_other) const {
if (emboss_reserved_local_other.has_bias().ValueOr(false) &&
!has_bias().ValueOr(false))
return false;
if (has_bias().ValueOr(false) &&
!emboss_reserved_local_other.has_bias().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_bias().ValueOr(false) &&
has_bias().ValueOr(false) &&
!bias().UncheckedEquals(emboss_reserved_local_other.bias()))
return false;
if (emboss_reserved_local_other.has_raw_value().ValueOr(false) &&
!has_raw_value().ValueOr(false))
return false;
if (has_raw_value().ValueOr(false) &&
!emboss_reserved_local_other.has_raw_value().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_raw_value().ValueOr(false) &&
has_raw_value().ValueOr(false) &&
!raw_value().UncheckedEquals(emboss_reserved_local_other.raw_value()))
return false;
return true;
}
template <typename OtherStorage>
void UncheckedCopyFrom(
GenericBiasedValueView<OtherStorage> emboss_reserved_local_other) const {
backing_.UncheckedCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().UncheckedRead());
}
template <typename OtherStorage>
void CopyFrom(
GenericBiasedValueView<OtherStorage> emboss_reserved_local_other) const {
backing_.CopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <typename OtherStorage>
bool TryToCopyFrom(
GenericBiasedValueView<OtherStorage> emboss_reserved_local_other) const {
return emboss_reserved_local_other.Ok() && backing_.TryToCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <class Stream>
bool UpdateFromTextStream(Stream *emboss_reserved_local_stream) const {
::std::string emboss_reserved_local_brace;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_brace))
return false;
if (emboss_reserved_local_brace != "{") return false;
for (;;) {
::std::string emboss_reserved_local_name;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == ",")
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == "}") return true;
::std::string emboss_reserved_local_colon;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_colon))
return false;
if (emboss_reserved_local_colon != ":") return false;
if (emboss_reserved_local_name == "raw_value") {
if (!raw_value().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
return false;
}
}
template <class Stream>
void WriteToTextStream(
Stream *emboss_reserved_local_stream,
::emboss::TextOutputOptions emboss_reserved_local_options) const {
::emboss::TextOutputOptions emboss_reserved_local_field_options =
emboss_reserved_local_options.PlusOneIndent();
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write("{\n");
} else {
emboss_reserved_local_stream->Write("{");
}
bool emboss_reserved_local_wrote_field = false;
if (has_raw_value().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
raw_value().IsAggregate() || raw_value().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("raw_value: ");
raw_value().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!raw_value().IsAggregate() && !raw_value().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# raw_value: UNREADABLE\n");
}
}
if (has_value().ValueOr(false) &&
emboss_reserved_local_field_options.comments()) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
value().IsAggregate() || value().Ok()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
emboss_reserved_local_stream->Write("# value: ");
value().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_stream->Write("\n");
} else {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# value: UNREADABLE\n");
}
}
(void)emboss_reserved_local_wrote_field;
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_options.current_indent());
emboss_reserved_local_stream->Write("}");
} else {
emboss_reserved_local_stream->Write(" }");
}
}
static constexpr bool IsAggregate() { return true; }
private:
constexpr ::emboss::support::MaybeConstantView</**/ ::std::int32_t>
bias() const {
return parameters_initialized_
? ::emboss::support::MaybeConstantView</**/ ::std::int32_t>(
bias_)
: ::emboss::support::MaybeConstantView</**/ ::std::int32_t>();
}
constexpr ::emboss::support::Maybe<bool> has_bias() const {
return ::emboss::support::Maybe<bool>(parameters_initialized_);
}
public:
typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
raw_value() const;
::emboss::support::Maybe<bool> has_raw_value() const;
public:
class EmbossReservedVirtualValueView final {
public:
using ValueType = ::std::int32_t;
explicit EmbossReservedVirtualValueView(
const GenericBiasedValueView &emboss_reserved_local_view)
: view_(emboss_reserved_local_view) {}
EmbossReservedVirtualValueView() = delete;
EmbossReservedVirtualValueView(const EmbossReservedVirtualValueView &) = default;
EmbossReservedVirtualValueView(EmbossReservedVirtualValueView &&) = default;
EmbossReservedVirtualValueView &operator=(const EmbossReservedVirtualValueView &) =
default;
EmbossReservedVirtualValueView &operator=(EmbossReservedVirtualValueView &&) =
default;
~EmbossReservedVirtualValueView() = default;
::std::int32_t Read() const {
EMBOSS_CHECK(view_.has_value().ValueOr(false));
auto emboss_reserved_local_value = MaybeRead();
EMBOSS_CHECK(emboss_reserved_local_value.Known());
EMBOSS_CHECK(ValueIsOk(emboss_reserved_local_value.ValueOrDefault()));
return emboss_reserved_local_value.ValueOrDefault();
}
::std::int32_t UncheckedRead() const {
return MaybeRead().ValueOrDefault();
}
bool Ok() const {
auto emboss_reserved_local_value = MaybeRead();
return emboss_reserved_local_value.Known() &&
ValueIsOk(emboss_reserved_local_value.ValueOrDefault());
}
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
private:
::emboss::support::Maybe</**/ ::std::int32_t> MaybeRead() const {
const auto emboss_reserved_local_subexpr_1 = view_.raw_value();
const auto emboss_reserved_local_subexpr_2 = (emboss_reserved_local_subexpr_1.Ok() ? ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(emboss_reserved_local_subexpr_1.UncheckedRead())) : ::emboss::support::Maybe</**/::std::int32_t>());
const auto emboss_reserved_local_subexpr_3 = view_.bias();
const auto emboss_reserved_local_subexpr_4 = (emboss_reserved_local_subexpr_3.Ok() ? ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(emboss_reserved_local_subexpr_3.UncheckedRead())) : ::emboss::support::Maybe</**/::std::int32_t>());
const auto emboss_reserved_local_subexpr_5 = ::emboss::support::Sum</**/::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t>(emboss_reserved_local_subexpr_2, emboss_reserved_local_subexpr_4);
return emboss_reserved_local_subexpr_5;
}
static constexpr bool ValueIsOk(
::std::int32_t emboss_reserved_local_value) {
return (void)emboss_reserved_local_value, // Silence -Wunused-parameter
::emboss::support::Maybe<bool>(true).ValueOr(false);
}
const GenericBiasedValueView view_;
};
EmbossReservedVirtualValueView value() const;
::emboss::support::Maybe<bool> has_value() const;
public:
class EmbossReservedDollarVirtualIntrinsicSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualIntrinsicSizeInBytesView() {}
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) =
default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualIntrinsicSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualIntrinsicSizeInBytesView IntrinsicSizeInBytes() {
return EmbossReservedDollarVirtualIntrinsicSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_IntrinsicSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMaxSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMaxSizeInBytesView() {}
EmbossReservedDollarVirtualMaxSizeInBytesView(const EmbossReservedDollarVirtualMaxSizeInBytesView &) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView(EmbossReservedDollarVirtualMaxSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(const EmbossReservedDollarVirtualMaxSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(EmbossReservedDollarVirtualMaxSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMaxSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMaxSizeInBytesView MaxSizeInBytes() {
return EmbossReservedDollarVirtualMaxSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MaxSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMinSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMinSizeInBytesView() {}
EmbossReservedDollarVirtualMinSizeInBytesView(const EmbossReservedDollarVirtualMinSizeInBytesView &) = default;
EmbossReservedDollarVirtualMinSizeInBytesView(EmbossReservedDollarVirtualMinSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(const EmbossReservedDollarVirtualMinSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(EmbossReservedDollarVirtualMinSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMinSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMinSizeInBytesView MinSizeInBytes() {
return EmbossReservedDollarVirtualMinSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MinSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
private:
Storage backing_;
::std::int32_t bias_;
bool parameters_initialized_ = false;
template <class OtherStorage>
friend class GenericBiasedValueView;
};
using BiasedValueView =
GenericBiasedValueView</**/ ::emboss::support::ReadOnlyContiguousBuffer>;
using BiasedValueWriter =
GenericBiasedValueView</**/ ::emboss::support::ReadWriteContiguousBuffer>;
template <class View>
struct EmbossReservedInternalIsGenericBiasedValueView {
static constexpr const bool value = false;
};
template <class Storage>
struct EmbossReservedInternalIsGenericBiasedValueView<
GenericBiasedValueView<Storage>> {
static constexpr const bool value = true;
};
template <typename T>
inline GenericBiasedValueView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<
decltype(*::std::declval<T>()->data())>::type,
1, 0>>
MakeBiasedValueView(::std::int32_t bias, T &&emboss_reserved_local_arg) {
return GenericBiasedValueView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<decltype(
*::std::declval<T>()->data())>::type,
1, 0>>(
::std::forward</**/::std::int32_t>(bias), ::std::forward<T>(emboss_reserved_local_arg));
}
template <typename T>
inline GenericBiasedValueView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>
MakeBiasedValueView(::std::int32_t bias, T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericBiasedValueView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>(
::std::forward</**/::std::int32_t>(bias), emboss_reserved_local_data,
emboss_reserved_local_size);
}
template <typename T, ::std::size_t kAlignment>
inline GenericBiasedValueView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>
MakeAlignedBiasedValueView(
::std::int32_t bias, T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericBiasedValueView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>(
::std::forward</**/::std::int32_t>(bias), emboss_reserved_local_data,
emboss_reserved_local_size);
}
namespace VirtualFirstFieldWithParam {
} // namespace VirtualFirstFieldWithParam
template <class View>
struct EmbossReservedInternalIsGenericVirtualFirstFieldWithParamView;
template <class Storage>
class GenericVirtualFirstFieldWithParamView final {
public:
GenericVirtualFirstFieldWithParamView() : backing_() {}
explicit GenericVirtualFirstFieldWithParamView(
::std::int32_t param, Storage emboss_reserved_local_bytes)
: backing_(emboss_reserved_local_bytes) , param_(param)
, parameters_initialized_(true) {}
template <typename OtherStorage>
GenericVirtualFirstFieldWithParamView(
const GenericVirtualFirstFieldWithParamView<OtherStorage> &emboss_reserved_local_other)
: backing_{emboss_reserved_local_other.BackingStorage()}
, param_(emboss_reserved_local_other.param_)
, parameters_initialized_(emboss_reserved_local_other.parameters_initialized_) {}
template <typename Arg,
typename = typename ::std::enable_if<
!EmbossReservedInternalIsGenericVirtualFirstFieldWithParamView<
typename ::std::remove_cv<typename ::std::remove_reference<
Arg>::type>::type>::value>::type>
explicit GenericVirtualFirstFieldWithParamView(
::std::int32_t param, Arg &&emboss_reserved_local_arg)
: backing_(::std::forward<Arg>(
emboss_reserved_local_arg)) , param_(param)
, parameters_initialized_(true) {}
template <typename Arg0, typename Arg1, typename... Args>
explicit GenericVirtualFirstFieldWithParamView(
::std::int32_t param, Arg0 &&emboss_reserved_local_arg0,
Arg1 &&emboss_reserved_local_arg1, Args &&... emboss_reserved_local_args)
: backing_(::std::forward<Arg0>(emboss_reserved_local_arg0),
::std::forward<Arg1>(emboss_reserved_local_arg1),
::std::forward<Args>(
emboss_reserved_local_args)...) , param_(param)
, parameters_initialized_(true) {}
template <typename OtherStorage>
GenericVirtualFirstFieldWithParamView<Storage> &operator=(
const GenericVirtualFirstFieldWithParamView<OtherStorage> &emboss_reserved_local_other) {
backing_ = emboss_reserved_local_other.BackingStorage();
return *this;
}
bool Ok() const {
if (!IsComplete()) return false;
if (!parameters_initialized_) return false;
if (!has_x().Known()) return false;
if (has_x().ValueOrDefault() && !x().Ok()) return false;
if (!has_value().Known()) return false;
if (has_value().ValueOrDefault() && !value().Ok()) return false;
if (!has_IntrinsicSizeInBytes().Known()) return false;
if (has_IntrinsicSizeInBytes().ValueOrDefault() && !IntrinsicSizeInBytes().Ok()) return false;
if (!has_MaxSizeInBytes().Known()) return false;
if (has_MaxSizeInBytes().ValueOrDefault() && !MaxSizeInBytes().Ok()) return false;
if (!has_MinSizeInBytes().Known()) return false;
if (has_MinSizeInBytes().ValueOrDefault() && !MinSizeInBytes().Ok()) return false;
return true;
}
Storage BackingStorage() const { return backing_; }
bool IsComplete() const {
return backing_.Ok() && IntrinsicSizeInBytes().Ok() &&
backing_.SizeInBytes() >=
static_cast</**/ ::std::size_t>(
IntrinsicSizeInBytes().UncheckedRead());
}
static constexpr ::std::size_t SizeInBytes() {
return static_cast</**/ ::std::size_t>(IntrinsicSizeInBytes().Read());
}
static constexpr bool SizeIsKnown() {
return IntrinsicSizeInBytes().Ok();
}
template <typename OtherStorage>
bool Equals(
GenericVirtualFirstFieldWithParamView<OtherStorage> emboss_reserved_local_other) const {
if (!has_param().Known()) return false;
if (!emboss_reserved_local_other.has_param().Known()) return false;
if (emboss_reserved_local_other.has_param().ValueOrDefault() &&
!has_param().ValueOrDefault())
return false;
if (has_param().ValueOrDefault() &&
!emboss_reserved_local_other.has_param().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_param().ValueOrDefault() &&
has_param().ValueOrDefault() &&
!param().Equals(emboss_reserved_local_other.param()))
return false;
if (!has_x().Known()) return false;
if (!emboss_reserved_local_other.has_x().Known()) return false;
if (emboss_reserved_local_other.has_x().ValueOrDefault() &&
!has_x().ValueOrDefault())
return false;
if (has_x().ValueOrDefault() &&
!emboss_reserved_local_other.has_x().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_x().ValueOrDefault() &&
has_x().ValueOrDefault() &&
!x().Equals(emboss_reserved_local_other.x()))
return false;
return true;
}
template <typename OtherStorage>
bool UncheckedEquals(
GenericVirtualFirstFieldWithParamView<OtherStorage> emboss_reserved_local_other) const {
if (emboss_reserved_local_other.has_param().ValueOr(false) &&
!has_param().ValueOr(false))
return false;
if (has_param().ValueOr(false) &&
!emboss_reserved_local_other.has_param().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_param().ValueOr(false) &&
has_param().ValueOr(false) &&
!param().UncheckedEquals(emboss_reserved_local_other.param()))
return false;
if (emboss_reserved_local_other.has_x().ValueOr(false) &&
!has_x().ValueOr(false))
return false;
if (has_x().ValueOr(false) &&
!emboss_reserved_local_other.has_x().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_x().ValueOr(false) &&
has_x().ValueOr(false) &&
!x().UncheckedEquals(emboss_reserved_local_other.x()))
return false;
return true;
}
template <typename OtherStorage>
void UncheckedCopyFrom(
GenericVirtualFirstFieldWithParamView<OtherStorage> emboss_reserved_local_other) const {
backing_.UncheckedCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().UncheckedRead());
}
template <typename OtherStorage>
void CopyFrom(
GenericVirtualFirstFieldWithParamView<OtherStorage> emboss_reserved_local_other) const {
backing_.CopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <typename OtherStorage>
bool TryToCopyFrom(
GenericVirtualFirstFieldWithParamView<OtherStorage> emboss_reserved_local_other) const {
return emboss_reserved_local_other.Ok() && backing_.TryToCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <class Stream>
bool UpdateFromTextStream(Stream *emboss_reserved_local_stream) const {
::std::string emboss_reserved_local_brace;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_brace))
return false;
if (emboss_reserved_local_brace != "{") return false;
for (;;) {
::std::string emboss_reserved_local_name;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == ",")
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == "}") return true;
::std::string emboss_reserved_local_colon;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_colon))
return false;
if (emboss_reserved_local_colon != ":") return false;
if (emboss_reserved_local_name == "x") {
if (!x().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
if (emboss_reserved_local_name == "value") {
if (!value().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
return false;
}
}
template <class Stream>
void WriteToTextStream(
Stream *emboss_reserved_local_stream,
::emboss::TextOutputOptions emboss_reserved_local_options) const {
::emboss::TextOutputOptions emboss_reserved_local_field_options =
emboss_reserved_local_options.PlusOneIndent();
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write("{\n");
} else {
emboss_reserved_local_stream->Write("{");
}
bool emboss_reserved_local_wrote_field = false;
if (has_x().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
x().IsAggregate() || x().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("x: ");
x().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!x().IsAggregate() && !x().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# x: UNREADABLE\n");
}
}
if (has_value().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
value().IsAggregate() || value().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("value: ");
value().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!value().IsAggregate() && !value().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# value: UNREADABLE\n");
}
}
(void)emboss_reserved_local_wrote_field;
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_options.current_indent());
emboss_reserved_local_stream->Write("}");
} else {
emboss_reserved_local_stream->Write(" }");
}
}
static constexpr bool IsAggregate() { return true; }
private:
constexpr ::emboss::support::MaybeConstantView</**/ ::std::int32_t>
param() const {
return parameters_initialized_
? ::emboss::support::MaybeConstantView</**/ ::std::int32_t>(
param_)
: ::emboss::support::MaybeConstantView</**/ ::std::int32_t>();
}
constexpr ::emboss::support::Maybe<bool> has_param() const {
return ::emboss::support::Maybe<bool>(parameters_initialized_);
}
public:
typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
x() const;
::emboss::support::Maybe<bool> has_x() const;
public:
auto value() const -> decltype(this->x()) {
return has_value().ValueOrDefault() ? x()
: decltype(this->x())();
}
::emboss::support::Maybe<bool> has_value() const;
public:
class EmbossReservedDollarVirtualIntrinsicSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualIntrinsicSizeInBytesView() {}
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) =
default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualIntrinsicSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualIntrinsicSizeInBytesView IntrinsicSizeInBytes() {
return EmbossReservedDollarVirtualIntrinsicSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_IntrinsicSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMaxSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMaxSizeInBytesView() {}
EmbossReservedDollarVirtualMaxSizeInBytesView(const EmbossReservedDollarVirtualMaxSizeInBytesView &) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView(EmbossReservedDollarVirtualMaxSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(const EmbossReservedDollarVirtualMaxSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(EmbossReservedDollarVirtualMaxSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMaxSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMaxSizeInBytesView MaxSizeInBytes() {
return EmbossReservedDollarVirtualMaxSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MaxSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMinSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMinSizeInBytesView() {}
EmbossReservedDollarVirtualMinSizeInBytesView(const EmbossReservedDollarVirtualMinSizeInBytesView &) = default;
EmbossReservedDollarVirtualMinSizeInBytesView(EmbossReservedDollarVirtualMinSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(const EmbossReservedDollarVirtualMinSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(EmbossReservedDollarVirtualMinSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMinSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMinSizeInBytesView MinSizeInBytes() {
return EmbossReservedDollarVirtualMinSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MinSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
private:
Storage backing_;
::std::int32_t param_;
bool parameters_initialized_ = false;
template <class OtherStorage>
friend class GenericVirtualFirstFieldWithParamView;
};
using VirtualFirstFieldWithParamView =
GenericVirtualFirstFieldWithParamView</**/ ::emboss::support::ReadOnlyContiguousBuffer>;
using VirtualFirstFieldWithParamWriter =
GenericVirtualFirstFieldWithParamView</**/ ::emboss::support::ReadWriteContiguousBuffer>;
template <class View>
struct EmbossReservedInternalIsGenericVirtualFirstFieldWithParamView {
static constexpr const bool value = false;
};
template <class Storage>
struct EmbossReservedInternalIsGenericVirtualFirstFieldWithParamView<
GenericVirtualFirstFieldWithParamView<Storage>> {
static constexpr const bool value = true;
};
template <typename T>
inline GenericVirtualFirstFieldWithParamView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<
decltype(*::std::declval<T>()->data())>::type,
1, 0>>
MakeVirtualFirstFieldWithParamView(::std::int32_t param, T &&emboss_reserved_local_arg) {
return GenericVirtualFirstFieldWithParamView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<decltype(
*::std::declval<T>()->data())>::type,
1, 0>>(
::std::forward</**/::std::int32_t>(param), ::std::forward<T>(emboss_reserved_local_arg));
}
template <typename T>
inline GenericVirtualFirstFieldWithParamView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>
MakeVirtualFirstFieldWithParamView(::std::int32_t param, T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericVirtualFirstFieldWithParamView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>(
::std::forward</**/::std::int32_t>(param), emboss_reserved_local_data,
emboss_reserved_local_size);
}
template <typename T, ::std::size_t kAlignment>
inline GenericVirtualFirstFieldWithParamView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>
MakeAlignedVirtualFirstFieldWithParamView(
::std::int32_t param, T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericVirtualFirstFieldWithParamView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>(
::std::forward</**/::std::int32_t>(param), emboss_reserved_local_data,
emboss_reserved_local_size);
}
namespace ConstVirtualFirstFieldWithParam {
} // namespace ConstVirtualFirstFieldWithParam
template <class View>
struct EmbossReservedInternalIsGenericConstVirtualFirstFieldWithParamView;
template <class Storage>
class GenericConstVirtualFirstFieldWithParamView final {
public:
GenericConstVirtualFirstFieldWithParamView() : backing_() {}
explicit GenericConstVirtualFirstFieldWithParamView(
::std::int32_t param, Storage emboss_reserved_local_bytes)
: backing_(emboss_reserved_local_bytes) , param_(param)
, parameters_initialized_(true) {}
template <typename OtherStorage>
GenericConstVirtualFirstFieldWithParamView(
const GenericConstVirtualFirstFieldWithParamView<OtherStorage> &emboss_reserved_local_other)
: backing_{emboss_reserved_local_other.BackingStorage()}
, param_(emboss_reserved_local_other.param_)
, parameters_initialized_(emboss_reserved_local_other.parameters_initialized_) {}
template <typename Arg,
typename = typename ::std::enable_if<
!EmbossReservedInternalIsGenericConstVirtualFirstFieldWithParamView<
typename ::std::remove_cv<typename ::std::remove_reference<
Arg>::type>::type>::value>::type>
explicit GenericConstVirtualFirstFieldWithParamView(
::std::int32_t param, Arg &&emboss_reserved_local_arg)
: backing_(::std::forward<Arg>(
emboss_reserved_local_arg)) , param_(param)
, parameters_initialized_(true) {}
template <typename Arg0, typename Arg1, typename... Args>
explicit GenericConstVirtualFirstFieldWithParamView(
::std::int32_t param, Arg0 &&emboss_reserved_local_arg0,
Arg1 &&emboss_reserved_local_arg1, Args &&... emboss_reserved_local_args)
: backing_(::std::forward<Arg0>(emboss_reserved_local_arg0),
::std::forward<Arg1>(emboss_reserved_local_arg1),
::std::forward<Args>(
emboss_reserved_local_args)...) , param_(param)
, parameters_initialized_(true) {}
template <typename OtherStorage>
GenericConstVirtualFirstFieldWithParamView<Storage> &operator=(
const GenericConstVirtualFirstFieldWithParamView<OtherStorage> &emboss_reserved_local_other) {
backing_ = emboss_reserved_local_other.BackingStorage();
return *this;
}
bool Ok() const {
if (!IsComplete()) return false;
if (!parameters_initialized_) return false;
if (!has_value().Known()) return false;
if (has_value().ValueOrDefault() && !value().Ok()) return false;
if (!has_x().Known()) return false;
if (has_x().ValueOrDefault() && !x().Ok()) return false;
if (!has_IntrinsicSizeInBytes().Known()) return false;
if (has_IntrinsicSizeInBytes().ValueOrDefault() && !IntrinsicSizeInBytes().Ok()) return false;
if (!has_MaxSizeInBytes().Known()) return false;
if (has_MaxSizeInBytes().ValueOrDefault() && !MaxSizeInBytes().Ok()) return false;
if (!has_MinSizeInBytes().Known()) return false;
if (has_MinSizeInBytes().ValueOrDefault() && !MinSizeInBytes().Ok()) return false;
return true;
}
Storage BackingStorage() const { return backing_; }
bool IsComplete() const {
return backing_.Ok() && IntrinsicSizeInBytes().Ok() &&
backing_.SizeInBytes() >=
static_cast</**/ ::std::size_t>(
IntrinsicSizeInBytes().UncheckedRead());
}
static constexpr ::std::size_t SizeInBytes() {
return static_cast</**/ ::std::size_t>(IntrinsicSizeInBytes().Read());
}
static constexpr bool SizeIsKnown() {
return IntrinsicSizeInBytes().Ok();
}
template <typename OtherStorage>
bool Equals(
GenericConstVirtualFirstFieldWithParamView<OtherStorage> emboss_reserved_local_other) const {
if (!has_param().Known()) return false;
if (!emboss_reserved_local_other.has_param().Known()) return false;
if (emboss_reserved_local_other.has_param().ValueOrDefault() &&
!has_param().ValueOrDefault())
return false;
if (has_param().ValueOrDefault() &&
!emboss_reserved_local_other.has_param().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_param().ValueOrDefault() &&
has_param().ValueOrDefault() &&
!param().Equals(emboss_reserved_local_other.param()))
return false;
if (!has_x().Known()) return false;
if (!emboss_reserved_local_other.has_x().Known()) return false;
if (emboss_reserved_local_other.has_x().ValueOrDefault() &&
!has_x().ValueOrDefault())
return false;
if (has_x().ValueOrDefault() &&
!emboss_reserved_local_other.has_x().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_x().ValueOrDefault() &&
has_x().ValueOrDefault() &&
!x().Equals(emboss_reserved_local_other.x()))
return false;
return true;
}
template <typename OtherStorage>
bool UncheckedEquals(
GenericConstVirtualFirstFieldWithParamView<OtherStorage> emboss_reserved_local_other) const {
if (emboss_reserved_local_other.has_param().ValueOr(false) &&
!has_param().ValueOr(false))
return false;
if (has_param().ValueOr(false) &&
!emboss_reserved_local_other.has_param().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_param().ValueOr(false) &&
has_param().ValueOr(false) &&
!param().UncheckedEquals(emboss_reserved_local_other.param()))
return false;
if (emboss_reserved_local_other.has_x().ValueOr(false) &&
!has_x().ValueOr(false))
return false;
if (has_x().ValueOr(false) &&
!emboss_reserved_local_other.has_x().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_x().ValueOr(false) &&
has_x().ValueOr(false) &&
!x().UncheckedEquals(emboss_reserved_local_other.x()))
return false;
return true;
}
template <typename OtherStorage>
void UncheckedCopyFrom(
GenericConstVirtualFirstFieldWithParamView<OtherStorage> emboss_reserved_local_other) const {
backing_.UncheckedCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().UncheckedRead());
}
template <typename OtherStorage>
void CopyFrom(
GenericConstVirtualFirstFieldWithParamView<OtherStorage> emboss_reserved_local_other) const {
backing_.CopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <typename OtherStorage>
bool TryToCopyFrom(
GenericConstVirtualFirstFieldWithParamView<OtherStorage> emboss_reserved_local_other) const {
return emboss_reserved_local_other.Ok() && backing_.TryToCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <class Stream>
bool UpdateFromTextStream(Stream *emboss_reserved_local_stream) const {
::std::string emboss_reserved_local_brace;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_brace))
return false;
if (emboss_reserved_local_brace != "{") return false;
for (;;) {
::std::string emboss_reserved_local_name;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == ",")
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == "}") return true;
::std::string emboss_reserved_local_colon;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_colon))
return false;
if (emboss_reserved_local_colon != ":") return false;
if (emboss_reserved_local_name == "x") {
if (!x().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
return false;
}
}
template <class Stream>
void WriteToTextStream(
Stream *emboss_reserved_local_stream,
::emboss::TextOutputOptions emboss_reserved_local_options) const {
::emboss::TextOutputOptions emboss_reserved_local_field_options =
emboss_reserved_local_options.PlusOneIndent();
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write("{\n");
} else {
emboss_reserved_local_stream->Write("{");
}
bool emboss_reserved_local_wrote_field = false;
if (has_value().ValueOr(false) &&
emboss_reserved_local_field_options.comments()) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
value().IsAggregate() || value().Ok()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
emboss_reserved_local_stream->Write("# value: ");
value().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_stream->Write("\n");
} else {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# value: UNREADABLE\n");
}
}
if (has_x().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
x().IsAggregate() || x().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("x: ");
x().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!x().IsAggregate() && !x().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# x: UNREADABLE\n");
}
}
(void)emboss_reserved_local_wrote_field;
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_options.current_indent());
emboss_reserved_local_stream->Write("}");
} else {
emboss_reserved_local_stream->Write(" }");
}
}
static constexpr bool IsAggregate() { return true; }
private:
constexpr ::emboss::support::MaybeConstantView</**/ ::std::int32_t>
param() const {
return parameters_initialized_
? ::emboss::support::MaybeConstantView</**/ ::std::int32_t>(
param_)
: ::emboss::support::MaybeConstantView</**/ ::std::int32_t>();
}
constexpr ::emboss::support::Maybe<bool> has_param() const {
return ::emboss::support::Maybe<bool>(parameters_initialized_);
}
public:
class EmbossReservedVirtualValueView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedVirtualValueView() {}
EmbossReservedVirtualValueView(const EmbossReservedVirtualValueView &) = default;
EmbossReservedVirtualValueView(EmbossReservedVirtualValueView &&) = default;
EmbossReservedVirtualValueView &operator=(const EmbossReservedVirtualValueView &) =
default;
EmbossReservedVirtualValueView &operator=(EmbossReservedVirtualValueView &&) =
default;
~EmbossReservedVirtualValueView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedVirtualValueView value() {
return EmbossReservedVirtualValueView();
}
static constexpr ::emboss::support::Maybe<bool> has_value() {
return ::emboss::support::Maybe<bool>(true);
}
public:
typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
x() const;
::emboss::support::Maybe<bool> has_x() const;
public:
class EmbossReservedDollarVirtualIntrinsicSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualIntrinsicSizeInBytesView() {}
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) =
default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualIntrinsicSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualIntrinsicSizeInBytesView IntrinsicSizeInBytes() {
return EmbossReservedDollarVirtualIntrinsicSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_IntrinsicSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMaxSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMaxSizeInBytesView() {}
EmbossReservedDollarVirtualMaxSizeInBytesView(const EmbossReservedDollarVirtualMaxSizeInBytesView &) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView(EmbossReservedDollarVirtualMaxSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(const EmbossReservedDollarVirtualMaxSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(EmbossReservedDollarVirtualMaxSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMaxSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMaxSizeInBytesView MaxSizeInBytes() {
return EmbossReservedDollarVirtualMaxSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MaxSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMinSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMinSizeInBytesView() {}
EmbossReservedDollarVirtualMinSizeInBytesView(const EmbossReservedDollarVirtualMinSizeInBytesView &) = default;
EmbossReservedDollarVirtualMinSizeInBytesView(EmbossReservedDollarVirtualMinSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(const EmbossReservedDollarVirtualMinSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(EmbossReservedDollarVirtualMinSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMinSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMinSizeInBytesView MinSizeInBytes() {
return EmbossReservedDollarVirtualMinSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MinSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
private:
Storage backing_;
::std::int32_t param_;
bool parameters_initialized_ = false;
template <class OtherStorage>
friend class GenericConstVirtualFirstFieldWithParamView;
};
using ConstVirtualFirstFieldWithParamView =
GenericConstVirtualFirstFieldWithParamView</**/ ::emboss::support::ReadOnlyContiguousBuffer>;
using ConstVirtualFirstFieldWithParamWriter =
GenericConstVirtualFirstFieldWithParamView</**/ ::emboss::support::ReadWriteContiguousBuffer>;
template <class View>
struct EmbossReservedInternalIsGenericConstVirtualFirstFieldWithParamView {
static constexpr const bool value = false;
};
template <class Storage>
struct EmbossReservedInternalIsGenericConstVirtualFirstFieldWithParamView<
GenericConstVirtualFirstFieldWithParamView<Storage>> {
static constexpr const bool value = true;
};
template <typename T>
inline GenericConstVirtualFirstFieldWithParamView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<
decltype(*::std::declval<T>()->data())>::type,
1, 0>>
MakeConstVirtualFirstFieldWithParamView(::std::int32_t param, T &&emboss_reserved_local_arg) {
return GenericConstVirtualFirstFieldWithParamView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<decltype(
*::std::declval<T>()->data())>::type,
1, 0>>(
::std::forward</**/::std::int32_t>(param), ::std::forward<T>(emboss_reserved_local_arg));
}
template <typename T>
inline GenericConstVirtualFirstFieldWithParamView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>
MakeConstVirtualFirstFieldWithParamView(::std::int32_t param, T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericConstVirtualFirstFieldWithParamView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>(
::std::forward</**/::std::int32_t>(param), emboss_reserved_local_data,
emboss_reserved_local_size);
}
template <typename T, ::std::size_t kAlignment>
inline GenericConstVirtualFirstFieldWithParamView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>
MakeAlignedConstVirtualFirstFieldWithParamView(
::std::int32_t param, T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericConstVirtualFirstFieldWithParamView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>(
::std::forward</**/::std::int32_t>(param), emboss_reserved_local_data,
emboss_reserved_local_size);
}
namespace SizedArrayOfBiasedValues {
} // namespace SizedArrayOfBiasedValues
template <class View>
struct EmbossReservedInternalIsGenericSizedArrayOfBiasedValuesView;
template <class Storage>
class GenericSizedArrayOfBiasedValuesView final {
public:
GenericSizedArrayOfBiasedValuesView() : backing_() {}
explicit GenericSizedArrayOfBiasedValuesView(
Storage emboss_reserved_local_bytes)
: backing_(emboss_reserved_local_bytes)
{}
template <typename OtherStorage>
GenericSizedArrayOfBiasedValuesView(
const GenericSizedArrayOfBiasedValuesView<OtherStorage> &emboss_reserved_local_other)
: backing_{emboss_reserved_local_other.BackingStorage()}
{}
template <typename Arg,
typename = typename ::std::enable_if<
!EmbossReservedInternalIsGenericSizedArrayOfBiasedValuesView<
typename ::std::remove_cv<typename ::std::remove_reference<
Arg>::type>::type>::value>::type>
explicit GenericSizedArrayOfBiasedValuesView(
Arg &&emboss_reserved_local_arg)
: backing_(::std::forward<Arg>(
emboss_reserved_local_arg))
{}
template <typename Arg0, typename Arg1, typename... Args>
explicit GenericSizedArrayOfBiasedValuesView(
Arg0 &&emboss_reserved_local_arg0,
Arg1 &&emboss_reserved_local_arg1, Args &&... emboss_reserved_local_args)
: backing_(::std::forward<Arg0>(emboss_reserved_local_arg0),
::std::forward<Arg1>(emboss_reserved_local_arg1),
::std::forward<Args>(
emboss_reserved_local_args)...)
{}
template <typename OtherStorage>
GenericSizedArrayOfBiasedValuesView<Storage> &operator=(
const GenericSizedArrayOfBiasedValuesView<OtherStorage> &emboss_reserved_local_other) {
backing_ = emboss_reserved_local_other.BackingStorage();
return *this;
}
bool Ok() const {
if (!IsComplete()) return false;
if (!has_element_count().Known()) return false;
if (has_element_count().ValueOrDefault() && !element_count().Ok()) return false;
if (!has_bias().Known()) return false;
if (has_bias().ValueOrDefault() && !bias().Ok()) return false;
if (!has_values().Known()) return false;
if (has_values().ValueOrDefault() && !values().Ok()) return false;
if (!has_IntrinsicSizeInBytes().Known()) return false;
if (has_IntrinsicSizeInBytes().ValueOrDefault() && !IntrinsicSizeInBytes().Ok()) return false;
if (!has_MaxSizeInBytes().Known()) return false;
if (has_MaxSizeInBytes().ValueOrDefault() && !MaxSizeInBytes().Ok()) return false;
if (!has_MinSizeInBytes().Known()) return false;
if (has_MinSizeInBytes().ValueOrDefault() && !MinSizeInBytes().Ok()) return false;
return true;
}
Storage BackingStorage() const { return backing_; }
bool IsComplete() const {
return backing_.Ok() && IntrinsicSizeInBytes().Ok() &&
backing_.SizeInBytes() >=
static_cast</**/ ::std::size_t>(
IntrinsicSizeInBytes().UncheckedRead());
}
::std::size_t SizeInBytes() const {
return static_cast</**/ ::std::size_t>(IntrinsicSizeInBytes().Read());
}
bool SizeIsKnown() const { return IntrinsicSizeInBytes().Ok(); }
template <typename OtherStorage>
bool Equals(
GenericSizedArrayOfBiasedValuesView<OtherStorage> emboss_reserved_local_other) const {
if (!has_element_count().Known()) return false;
if (!emboss_reserved_local_other.has_element_count().Known()) return false;
if (emboss_reserved_local_other.has_element_count().ValueOrDefault() &&
!has_element_count().ValueOrDefault())
return false;
if (has_element_count().ValueOrDefault() &&
!emboss_reserved_local_other.has_element_count().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_element_count().ValueOrDefault() &&
has_element_count().ValueOrDefault() &&
!element_count().Equals(emboss_reserved_local_other.element_count()))
return false;
if (!has_bias().Known()) return false;
if (!emboss_reserved_local_other.has_bias().Known()) return false;
if (emboss_reserved_local_other.has_bias().ValueOrDefault() &&
!has_bias().ValueOrDefault())
return false;
if (has_bias().ValueOrDefault() &&
!emboss_reserved_local_other.has_bias().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_bias().ValueOrDefault() &&
has_bias().ValueOrDefault() &&
!bias().Equals(emboss_reserved_local_other.bias()))
return false;
if (!has_values().Known()) return false;
if (!emboss_reserved_local_other.has_values().Known()) return false;
if (emboss_reserved_local_other.has_values().ValueOrDefault() &&
!has_values().ValueOrDefault())
return false;
if (has_values().ValueOrDefault() &&
!emboss_reserved_local_other.has_values().ValueOrDefault())
return false;
if (emboss_reserved_local_other.has_values().ValueOrDefault() &&
has_values().ValueOrDefault() &&
!values().Equals(emboss_reserved_local_other.values()))
return false;
return true;
}
template <typename OtherStorage>
bool UncheckedEquals(
GenericSizedArrayOfBiasedValuesView<OtherStorage> emboss_reserved_local_other) const {
if (emboss_reserved_local_other.has_element_count().ValueOr(false) &&
!has_element_count().ValueOr(false))
return false;
if (has_element_count().ValueOr(false) &&
!emboss_reserved_local_other.has_element_count().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_element_count().ValueOr(false) &&
has_element_count().ValueOr(false) &&
!element_count().UncheckedEquals(emboss_reserved_local_other.element_count()))
return false;
if (emboss_reserved_local_other.has_bias().ValueOr(false) &&
!has_bias().ValueOr(false))
return false;
if (has_bias().ValueOr(false) &&
!emboss_reserved_local_other.has_bias().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_bias().ValueOr(false) &&
has_bias().ValueOr(false) &&
!bias().UncheckedEquals(emboss_reserved_local_other.bias()))
return false;
if (emboss_reserved_local_other.has_values().ValueOr(false) &&
!has_values().ValueOr(false))
return false;
if (has_values().ValueOr(false) &&
!emboss_reserved_local_other.has_values().ValueOr(false))
return false;
if (emboss_reserved_local_other.has_values().ValueOr(false) &&
has_values().ValueOr(false) &&
!values().UncheckedEquals(emboss_reserved_local_other.values()))
return false;
return true;
}
template <typename OtherStorage>
void UncheckedCopyFrom(
GenericSizedArrayOfBiasedValuesView<OtherStorage> emboss_reserved_local_other) const {
backing_.UncheckedCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().UncheckedRead());
}
template <typename OtherStorage>
void CopyFrom(
GenericSizedArrayOfBiasedValuesView<OtherStorage> emboss_reserved_local_other) const {
backing_.CopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <typename OtherStorage>
bool TryToCopyFrom(
GenericSizedArrayOfBiasedValuesView<OtherStorage> emboss_reserved_local_other) const {
return emboss_reserved_local_other.Ok() && backing_.TryToCopyFrom(
emboss_reserved_local_other.BackingStorage(),
emboss_reserved_local_other.IntrinsicSizeInBytes().Read());
}
template <class Stream>
bool UpdateFromTextStream(Stream *emboss_reserved_local_stream) const {
::std::string emboss_reserved_local_brace;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_brace))
return false;
if (emboss_reserved_local_brace != "{") return false;
for (;;) {
::std::string emboss_reserved_local_name;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == ",")
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_name))
return false;
if (emboss_reserved_local_name == "}") return true;
::std::string emboss_reserved_local_colon;
if (!::emboss::support::ReadToken(emboss_reserved_local_stream,
&emboss_reserved_local_colon))
return false;
if (emboss_reserved_local_colon != ":") return false;
if (emboss_reserved_local_name == "element_count") {
if (!element_count().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
if (emboss_reserved_local_name == "bias") {
if (!bias().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
if (emboss_reserved_local_name == "values") {
if (!values().UpdateFromTextStream(
emboss_reserved_local_stream)) {
return false;
}
continue;
}
return false;
}
}
template <class Stream>
void WriteToTextStream(
Stream *emboss_reserved_local_stream,
::emboss::TextOutputOptions emboss_reserved_local_options) const {
::emboss::TextOutputOptions emboss_reserved_local_field_options =
emboss_reserved_local_options.PlusOneIndent();
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write("{\n");
} else {
emboss_reserved_local_stream->Write("{");
}
bool emboss_reserved_local_wrote_field = false;
if (has_element_count().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
element_count().IsAggregate() || element_count().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("element_count: ");
element_count().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!element_count().IsAggregate() && !element_count().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# element_count: UNREADABLE\n");
}
}
if (has_bias().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
bias().IsAggregate() || bias().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("bias: ");
bias().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!bias().IsAggregate() && !bias().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# bias: UNREADABLE\n");
}
}
if (has_values().ValueOr(false)) {
if (!emboss_reserved_local_field_options.allow_partial_output() ||
values().IsAggregate() || values().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
} else {
if (emboss_reserved_local_wrote_field) {
emboss_reserved_local_stream->Write(",");
}
emboss_reserved_local_stream->Write(" ");
}
emboss_reserved_local_stream->Write("values: ");
values().WriteToTextStream(emboss_reserved_local_stream,
emboss_reserved_local_field_options);
emboss_reserved_local_wrote_field = true;
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write("\n");
}
} else if (emboss_reserved_local_field_options.allow_partial_output() &&
emboss_reserved_local_field_options.comments() &&
!values().IsAggregate() && !values().Ok()) {
if (emboss_reserved_local_field_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_field_options.current_indent());
}
emboss_reserved_local_stream->Write("# values: UNREADABLE\n");
}
}
(void)emboss_reserved_local_wrote_field;
if (emboss_reserved_local_options.multiline()) {
emboss_reserved_local_stream->Write(
emboss_reserved_local_options.current_indent());
emboss_reserved_local_stream->Write("}");
} else {
emboss_reserved_local_stream->Write(" }");
}
}
static constexpr bool IsAggregate() { return true; }
public:
typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
element_count() const;
::emboss::support::Maybe<bool> has_element_count() const;
public:
typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 1>>, 8>>
bias() const;
::emboss::support::Maybe<bool> has_bias() const;
public:
typename ::emboss::support::GenericArrayView<
typename ::emboss::test::GenericBiasedValueView<typename Storage::template OffsetStorageType</**/0, 2>::template OffsetStorageType</**/1, 0>>
, typename Storage::template OffsetStorageType</**/0, 2>, 1,
8 , ::std::int32_t>
values() const;
::emboss::support::Maybe<bool> has_values() const;
public:
class EmbossReservedDollarVirtualIntrinsicSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
explicit EmbossReservedDollarVirtualIntrinsicSizeInBytesView(
const GenericSizedArrayOfBiasedValuesView &emboss_reserved_local_view)
: view_(emboss_reserved_local_view) {}
EmbossReservedDollarVirtualIntrinsicSizeInBytesView() = delete;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) = default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(const EmbossReservedDollarVirtualIntrinsicSizeInBytesView &) =
default;
EmbossReservedDollarVirtualIntrinsicSizeInBytesView &operator=(EmbossReservedDollarVirtualIntrinsicSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualIntrinsicSizeInBytesView() = default;
::std::int32_t Read() const {
EMBOSS_CHECK(view_.has_IntrinsicSizeInBytes().ValueOr(false));
auto emboss_reserved_local_value = MaybeRead();
EMBOSS_CHECK(emboss_reserved_local_value.Known());
EMBOSS_CHECK(ValueIsOk(emboss_reserved_local_value.ValueOrDefault()));
return emboss_reserved_local_value.ValueOrDefault();
}
::std::int32_t UncheckedRead() const {
return MaybeRead().ValueOrDefault();
}
bool Ok() const {
auto emboss_reserved_local_value = MaybeRead();
return emboss_reserved_local_value.Known() &&
ValueIsOk(emboss_reserved_local_value.ValueOrDefault());
}
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
private:
::emboss::support::Maybe</**/ ::std::int32_t> MaybeRead() const {
const auto emboss_reserved_local_subexpr_1 = view_.element_count();
const auto emboss_reserved_local_subexpr_2 = (emboss_reserved_local_subexpr_1.Ok() ? ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(emboss_reserved_local_subexpr_1.UncheckedRead())) : ::emboss::support::Maybe</**/::std::int32_t>());
const auto emboss_reserved_local_subexpr_3 = ::emboss::support::Sum</**/::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t>(::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(2LL)), emboss_reserved_local_subexpr_2);
const auto emboss_reserved_local_subexpr_4 = ::emboss::support::Choice</**/::std::int32_t, ::std::int32_t, bool, ::std::int32_t, ::std::int32_t>(::emboss::support::Maybe</**/bool>(true), emboss_reserved_local_subexpr_3, ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL)));
const auto emboss_reserved_local_subexpr_5 = ::emboss::support::Maximum</**/::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t>(::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL)), ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL)), ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(2LL)), emboss_reserved_local_subexpr_4);
return emboss_reserved_local_subexpr_5;
}
static constexpr bool ValueIsOk(
::std::int32_t emboss_reserved_local_value) {
return (void)emboss_reserved_local_value, // Silence -Wunused-parameter
::emboss::support::Maybe<bool>(true).ValueOr(false);
}
const GenericSizedArrayOfBiasedValuesView view_;
};
EmbossReservedDollarVirtualIntrinsicSizeInBytesView IntrinsicSizeInBytes() const;
::emboss::support::Maybe<bool> has_IntrinsicSizeInBytes() const;
public:
class EmbossReservedDollarVirtualMaxSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMaxSizeInBytesView() {}
EmbossReservedDollarVirtualMaxSizeInBytesView(const EmbossReservedDollarVirtualMaxSizeInBytesView &) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView(EmbossReservedDollarVirtualMaxSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(const EmbossReservedDollarVirtualMaxSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMaxSizeInBytesView &operator=(EmbossReservedDollarVirtualMaxSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMaxSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMaxSizeInBytesView MaxSizeInBytes() {
return EmbossReservedDollarVirtualMaxSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MaxSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
public:
class EmbossReservedDollarVirtualMinSizeInBytesView final {
public:
using ValueType = ::std::int32_t;
constexpr EmbossReservedDollarVirtualMinSizeInBytesView() {}
EmbossReservedDollarVirtualMinSizeInBytesView(const EmbossReservedDollarVirtualMinSizeInBytesView &) = default;
EmbossReservedDollarVirtualMinSizeInBytesView(EmbossReservedDollarVirtualMinSizeInBytesView &&) = default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(const EmbossReservedDollarVirtualMinSizeInBytesView &) =
default;
EmbossReservedDollarVirtualMinSizeInBytesView &operator=(EmbossReservedDollarVirtualMinSizeInBytesView &&) =
default;
~EmbossReservedDollarVirtualMinSizeInBytesView() = default;
static constexpr ::std::int32_t Read();
static constexpr ::std::int32_t UncheckedRead();
static constexpr bool Ok() { return true; }
template <class Stream>
void WriteToTextStream(Stream *emboss_reserved_local_stream,
const ::emboss::TextOutputOptions
&emboss_reserved_local_options) const {
::emboss::support::WriteIntegerViewToTextStream(
this, emboss_reserved_local_stream, emboss_reserved_local_options);
}
static constexpr bool IsAggregate() { return false; }
};
static constexpr EmbossReservedDollarVirtualMinSizeInBytesView MinSizeInBytes() {
return EmbossReservedDollarVirtualMinSizeInBytesView();
}
static constexpr ::emboss::support::Maybe<bool> has_MinSizeInBytes() {
return ::emboss::support::Maybe<bool>(true);
}
private:
Storage backing_;
template <class OtherStorage>
friend class GenericSizedArrayOfBiasedValuesView;
};
using SizedArrayOfBiasedValuesView =
GenericSizedArrayOfBiasedValuesView</**/ ::emboss::support::ReadOnlyContiguousBuffer>;
using SizedArrayOfBiasedValuesWriter =
GenericSizedArrayOfBiasedValuesView</**/ ::emboss::support::ReadWriteContiguousBuffer>;
template <class View>
struct EmbossReservedInternalIsGenericSizedArrayOfBiasedValuesView {
static constexpr const bool value = false;
};
template <class Storage>
struct EmbossReservedInternalIsGenericSizedArrayOfBiasedValuesView<
GenericSizedArrayOfBiasedValuesView<Storage>> {
static constexpr const bool value = true;
};
template <typename T>
inline GenericSizedArrayOfBiasedValuesView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<
decltype(*::std::declval<T>()->data())>::type,
1, 0>>
MakeSizedArrayOfBiasedValuesView( T &&emboss_reserved_local_arg) {
return GenericSizedArrayOfBiasedValuesView<
/**/ ::emboss::support::ContiguousBuffer<
typename ::std::remove_reference<decltype(
*::std::declval<T>()->data())>::type,
1, 0>>(
::std::forward<T>(emboss_reserved_local_arg));
}
template <typename T>
inline GenericSizedArrayOfBiasedValuesView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>
MakeSizedArrayOfBiasedValuesView( T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericSizedArrayOfBiasedValuesView</**/ ::emboss::support::ContiguousBuffer<T, 1, 0>>(
emboss_reserved_local_data,
emboss_reserved_local_size);
}
template <typename T, ::std::size_t kAlignment>
inline GenericSizedArrayOfBiasedValuesView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>
MakeAlignedSizedArrayOfBiasedValuesView(
T *emboss_reserved_local_data,
::std::size_t emboss_reserved_local_size) {
return GenericSizedArrayOfBiasedValuesView<
/**/ ::emboss::support::ContiguousBuffer<T, kAlignment, 0>>(
emboss_reserved_local_data,
emboss_reserved_local_size);
}
namespace MultiVersion {
} // namespace MultiVersion
template <class Storage>
inline typename ::emboss::support::EnumView<
/**/ ::emboss::test::MessageId,
::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
GenericMultiVersionView<Storage>::message_id()
const {
if ( has_message_id().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::support::EnumView<
/**/ ::emboss::test::MessageId,
::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
(
backing_
.template GetOffsetStorage<0,
0>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::support::EnumView<
/**/ ::emboss::test::MessageId,
::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericMultiVersionView<Storage>::has_message_id() const {
return ::emboss::support::Maybe</**/bool>(true);
}
template <class Storage>
inline typename ::emboss::test::GenericAxesView<typename Storage::template OffsetStorageType</**/0, 1>>
GenericMultiVersionView<Storage>::axes()
const {
const auto emboss_reserved_local_subexpr_1 = product();
const auto emboss_reserved_local_subexpr_2 = (emboss_reserved_local_subexpr_1.Ok() ? ::emboss::support::Maybe</**/::emboss::test::Product>(static_cast</**/::emboss::test::Product>(emboss_reserved_local_subexpr_1.UncheckedRead())) : ::emboss::support::Maybe</**/::emboss::test::Product>());
const auto emboss_reserved_local_subexpr_3 = ::emboss::support::Equal</**/::emboss::test::Product, bool, ::emboss::test::Product, ::emboss::test::Product>(emboss_reserved_local_subexpr_2, ::emboss::support::Maybe</**/::emboss::test::Product>(static_cast</**/::emboss::test::Product>(23)));
const auto emboss_reserved_local_subexpr_4 = ::emboss::support::Choice</**/::std::int32_t, ::std::int32_t, bool, ::std::int32_t, ::std::int32_t>(emboss_reserved_local_subexpr_3, ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(3LL)), ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(2LL)));
if (emboss_reserved_local_subexpr_4.Known() && has_axes().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(12LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::test::GenericAxesView<typename Storage::template OffsetStorageType</**/0, 1>>
(
emboss_reserved_local_subexpr_4.ValueOrDefault(), backing_
.template GetOffsetStorage<0,
1>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::test::GenericAxesView<typename Storage::template OffsetStorageType</**/0, 1>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericMultiVersionView<Storage>::has_axes() const {
return ::emboss::support::Equal</**/::emboss::test::MessageId, bool, ::emboss::test::MessageId, ::emboss::test::MessageId>((message_id().Ok() ? ::emboss::support::Maybe</**/::emboss::test::MessageId>(static_cast</**/::emboss::test::MessageId>(message_id().UncheckedRead())) : ::emboss::support::Maybe</**/::emboss::test::MessageId>()), ::emboss::support::Maybe</**/::emboss::test::MessageId>(static_cast</**/::emboss::test::MessageId>(0)));
}
template <class Storage>
inline typename ::emboss::test::GenericConfigView<typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 1>>, 32>>
GenericMultiVersionView<Storage>::config()
const {
if ( has_config().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::test::GenericConfigView<typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 1>>, 32>>
(
backing_
.template GetOffsetStorage<0,
1>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::test::GenericConfigView<typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 1>>, 32>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericMultiVersionView<Storage>::has_config() const {
return ::emboss::support::Equal</**/::emboss::test::MessageId, bool, ::emboss::test::MessageId, ::emboss::test::MessageId>((message_id().Ok() ? ::emboss::support::Maybe</**/::emboss::test::MessageId>(static_cast</**/::emboss::test::MessageId>(message_id().UncheckedRead())) : ::emboss::support::Maybe</**/::emboss::test::MessageId>()), ::emboss::support::Maybe</**/::emboss::test::MessageId>(static_cast</**/::emboss::test::MessageId>(1)));
}
template <class Storage>
inline typename ::emboss::test::GenericConfigVXView<typename Storage::template OffsetStorageType</**/0, 1>>
GenericMultiVersionView<Storage>::config_vx()
const {
if ( has_config_vx().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(8LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::test::GenericConfigVXView<typename Storage::template OffsetStorageType</**/0, 1>>
(
backing_
.template GetOffsetStorage<0,
1>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::test::GenericConfigVXView<typename Storage::template OffsetStorageType</**/0, 1>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericMultiVersionView<Storage>::has_config_vx() const {
return ::emboss::support::And</**/bool, bool, bool, bool>(::emboss::support::Equal</**/::emboss::test::Product, bool, ::emboss::test::Product, ::emboss::test::Product>((product().Ok() ? ::emboss::support::Maybe</**/::emboss::test::Product>(static_cast</**/::emboss::test::Product>(product().UncheckedRead())) : ::emboss::support::Maybe</**/::emboss::test::Product>()), ::emboss::support::Maybe</**/::emboss::test::Product>(static_cast</**/::emboss::test::Product>(23))), ::emboss::support::Equal</**/::emboss::test::MessageId, bool, ::emboss::test::MessageId, ::emboss::test::MessageId>((message_id().Ok() ? ::emboss::support::Maybe</**/::emboss::test::MessageId>(static_cast</**/::emboss::test::MessageId>(message_id().UncheckedRead())) : ::emboss::support::Maybe</**/::emboss::test::MessageId>()), ::emboss::support::Maybe</**/::emboss::test::MessageId>(static_cast</**/::emboss::test::MessageId>(1))));
}
template <class Storage>
inline typename GenericMultiVersionView<Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView
GenericMultiVersionView<Storage>::IntrinsicSizeInBytes() const {
return
typename GenericMultiVersionView<Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView(
*this);
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericMultiVersionView<Storage>::has_IntrinsicSizeInBytes() const {
return ::emboss::support::Maybe</**/bool>(true);
}
namespace MultiVersion {
inline constexpr ::std::int32_t MaxSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(13LL)).ValueOrDefault();
}
} // namespace MultiVersion
template <class Storage>
inline constexpr ::std::int32_t
GenericMultiVersionView<Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::Read() {
return MultiVersion::MaxSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericMultiVersionView<
Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::UncheckedRead() {
return MultiVersion::MaxSizeInBytes();
}
namespace MultiVersion {
inline constexpr ::std::int32_t MinSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL)).ValueOrDefault();
}
} // namespace MultiVersion
template <class Storage>
inline constexpr ::std::int32_t
GenericMultiVersionView<Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::Read() {
return MultiVersion::MinSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericMultiVersionView<
Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::UncheckedRead() {
return MultiVersion::MinSizeInBytes();
}
namespace Axes {
} // namespace Axes
template <class Storage>
inline typename ::emboss::support::GenericArrayView<
typename ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 0>::template OffsetStorageType</**/4, 0>>
, typename Storage::template OffsetStorageType</**/0, 0>, 4,
8 , ::emboss::test::AxisType>
GenericAxesView<Storage>::values()
const {
if (::emboss::support::Maybe</**/::emboss::test::AxisType>(static_cast</**/::emboss::test::AxisType>(-1)).Known() && has_values().ValueOr(false)) {
const auto emboss_reserved_local_subexpr_1 = axes();
const auto emboss_reserved_local_subexpr_2 = (emboss_reserved_local_subexpr_1.Ok() ? ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(emboss_reserved_local_subexpr_1.UncheckedRead())) : ::emboss::support::Maybe</**/::std::int32_t>());
const auto emboss_reserved_local_subexpr_3 = ::emboss::support::Product</**/::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t>(emboss_reserved_local_subexpr_2, ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL)));
auto emboss_reserved_local_size = emboss_reserved_local_subexpr_3;
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::support::GenericArrayView<
typename ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 0>::template OffsetStorageType</**/4, 0>>
, typename Storage::template OffsetStorageType</**/0, 0>, 4,
8 , ::emboss::test::AxisType>
(
::emboss::support::Maybe</**/::emboss::test::AxisType>(static_cast</**/::emboss::test::AxisType>(-1)).ValueOrDefault(), backing_
.template GetOffsetStorage<0,
0>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::support::GenericArrayView<
typename ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 0>::template OffsetStorageType</**/4, 0>>
, typename Storage::template OffsetStorageType</**/0, 0>, 4,
8 , ::emboss::test::AxisType>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericAxesView<Storage>::has_values() const {
return ::emboss::support::Maybe</**/bool>(true);
}
template <class Storage>
inline typename ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 0>>
GenericAxesView<Storage>::x()
const {
if (::emboss::support::Maybe</**/::emboss::test::AxisType>(static_cast</**/::emboss::test::AxisType>(1)).Known() && has_x().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 0>>
(
::emboss::support::Maybe</**/::emboss::test::AxisType>(static_cast</**/::emboss::test::AxisType>(1)).ValueOrDefault(), backing_
.template GetOffsetStorage<0,
0>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 0>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericAxesView<Storage>::has_x() const {
return ::emboss::support::GreaterThan</**/::std::int32_t, bool, ::std::int32_t, ::std::int32_t>((axes().Ok() ? ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(axes().UncheckedRead())) : ::emboss::support::Maybe</**/::std::int32_t>()), ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL)));
}
template <class Storage>
inline typename ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 4>>
GenericAxesView<Storage>::y()
const {
if (::emboss::support::Maybe</**/::emboss::test::AxisType>(static_cast</**/::emboss::test::AxisType>(2)).Known() && has_y().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 4>>
(
::emboss::support::Maybe</**/::emboss::test::AxisType>(static_cast</**/::emboss::test::AxisType>(2)).ValueOrDefault(), backing_
.template GetOffsetStorage<0,
4>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 4>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericAxesView<Storage>::has_y() const {
return ::emboss::support::GreaterThan</**/::std::int32_t, bool, ::std::int32_t, ::std::int32_t>((axes().Ok() ? ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(axes().UncheckedRead())) : ::emboss::support::Maybe</**/::std::int32_t>()), ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL)));
}
template <class Storage>
inline typename ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 8>>
GenericAxesView<Storage>::z()
const {
if (::emboss::support::Maybe</**/::emboss::test::AxisType>(static_cast</**/::emboss::test::AxisType>(3)).Known() && has_z().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(8LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 8>>
(
::emboss::support::Maybe</**/::emboss::test::AxisType>(static_cast</**/::emboss::test::AxisType>(3)).ValueOrDefault(), backing_
.template GetOffsetStorage<0,
8>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 8>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericAxesView<Storage>::has_z() const {
return ::emboss::support::GreaterThan</**/::std::int32_t, bool, ::std::int32_t, ::std::int32_t>((axes().Ok() ? ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(axes().UncheckedRead())) : ::emboss::support::Maybe</**/::std::int32_t>()), ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(2LL)));
}
template <class Storage>
inline typename GenericAxesView<Storage>::EmbossReservedVirtualAxisCountPlusOneView
GenericAxesView<Storage>::axis_count_plus_one() const {
return
typename GenericAxesView<Storage>::EmbossReservedVirtualAxisCountPlusOneView(
*this);
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericAxesView<Storage>::has_axis_count_plus_one() const {
return ::emboss::support::Maybe</**/bool>(true);
}
template <class Storage>
inline typename GenericAxesView<Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView
GenericAxesView<Storage>::IntrinsicSizeInBytes() const {
return
typename GenericAxesView<Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView(
*this);
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericAxesView<Storage>::has_IntrinsicSizeInBytes() const {
return ::emboss::support::Maybe</**/bool>(true);
}
namespace Axes {
inline constexpr ::std::int32_t MaxSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(60LL)).ValueOrDefault();
}
} // namespace Axes
template <class Storage>
inline constexpr ::std::int32_t
GenericAxesView<Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::Read() {
return Axes::MaxSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericAxesView<
Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::UncheckedRead() {
return Axes::MaxSizeInBytes();
}
namespace Axes {
inline constexpr ::std::int32_t MinSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL)).ValueOrDefault();
}
} // namespace Axes
template <class Storage>
inline constexpr ::std::int32_t
GenericAxesView<Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::Read() {
return Axes::MinSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericAxesView<
Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::UncheckedRead() {
return Axes::MinSizeInBytes();
}
namespace AxisPair {
} // namespace AxisPair
template <class Storage>
inline typename GenericAxisPairView<Storage>::EmbossReservedVirtualAxisTypeAView
GenericAxisPairView<Storage>::axis_type_a() const {
return
typename GenericAxisPairView<Storage>::EmbossReservedVirtualAxisTypeAView(
*this);
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericAxisPairView<Storage>::has_axis_type_a() const {
return ::emboss::support::Maybe</**/bool>(true);
}
template <class Storage>
inline typename ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 0>>
GenericAxisPairView<Storage>::axis_a()
const {
const auto emboss_reserved_local_subexpr_1 = axis_type_a();
const auto emboss_reserved_local_subexpr_2 = (emboss_reserved_local_subexpr_1.Ok() ? ::emboss::support::Maybe</**/::emboss::test::AxisType>(static_cast</**/::emboss::test::AxisType>(emboss_reserved_local_subexpr_1.UncheckedRead())) : ::emboss::support::Maybe</**/::emboss::test::AxisType>());
if (emboss_reserved_local_subexpr_2.Known() && has_axis_a().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 0>>
(
emboss_reserved_local_subexpr_2.ValueOrDefault(), backing_
.template GetOffsetStorage<0,
0>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 0>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericAxisPairView<Storage>::has_axis_a() const {
return ::emboss::support::Maybe</**/bool>(true);
}
template <class Storage>
inline typename GenericAxisPairView<Storage>::EmbossReservedVirtualAxisTypeBView
GenericAxisPairView<Storage>::axis_type_b() const {
return
typename GenericAxisPairView<Storage>::EmbossReservedVirtualAxisTypeBView(
*this);
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericAxisPairView<Storage>::has_axis_type_b() const {
return ::emboss::support::Maybe</**/bool>(true);
}
template <class Storage>
inline typename ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 4>>
GenericAxisPairView<Storage>::axis_b()
const {
const auto emboss_reserved_local_subexpr_1 = axis_type_b();
const auto emboss_reserved_local_subexpr_2 = (emboss_reserved_local_subexpr_1.Ok() ? ::emboss::support::Maybe</**/::emboss::test::AxisType>(static_cast</**/::emboss::test::AxisType>(emboss_reserved_local_subexpr_1.UncheckedRead())) : ::emboss::support::Maybe</**/::emboss::test::AxisType>());
if (emboss_reserved_local_subexpr_2.Known() && has_axis_b().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 4>>
(
emboss_reserved_local_subexpr_2.ValueOrDefault(), backing_
.template GetOffsetStorage<0,
4>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::test::GenericAxisView<typename Storage::template OffsetStorageType</**/0, 4>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericAxisPairView<Storage>::has_axis_b() const {
return ::emboss::support::Maybe</**/bool>(true);
}
namespace AxisPair {
inline constexpr ::std::int32_t IntrinsicSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(8LL)).ValueOrDefault();
}
} // namespace AxisPair
template <class Storage>
inline constexpr ::std::int32_t
GenericAxisPairView<Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView::Read() {
return AxisPair::IntrinsicSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericAxisPairView<
Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView::UncheckedRead() {
return AxisPair::IntrinsicSizeInBytes();
}
namespace AxisPair {
inline constexpr ::std::int32_t MaxSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(8LL)).ValueOrDefault();
}
} // namespace AxisPair
template <class Storage>
inline constexpr ::std::int32_t
GenericAxisPairView<Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::Read() {
return AxisPair::MaxSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericAxisPairView<
Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::UncheckedRead() {
return AxisPair::MaxSizeInBytes();
}
namespace AxisPair {
inline constexpr ::std::int32_t MinSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(8LL)).ValueOrDefault();
}
} // namespace AxisPair
template <class Storage>
inline constexpr ::std::int32_t
GenericAxisPairView<Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::Read() {
return AxisPair::MinSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericAxisPairView<
Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::UncheckedRead() {
return AxisPair::MinSizeInBytes();
}
namespace AxesEnvelope {
} // namespace AxesEnvelope
template <class Storage>
inline typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
GenericAxesEnvelopeView<Storage>::axis_count()
const {
if ( has_axis_count().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
(
backing_
.template GetOffsetStorage<0,
0>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericAxesEnvelopeView<Storage>::has_axis_count() const {
return ::emboss::support::Maybe</**/bool>(true);
}
template <class Storage>
inline typename ::emboss::test::GenericAxesView<typename Storage::template OffsetStorageType</**/0, 1>>
GenericAxesEnvelopeView<Storage>::axes()
const {
const auto emboss_reserved_local_subexpr_1 = axis_count();
const auto emboss_reserved_local_subexpr_2 = (emboss_reserved_local_subexpr_1.Ok() ? ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(emboss_reserved_local_subexpr_1.UncheckedRead())) : ::emboss::support::Maybe</**/::std::int32_t>());
if (emboss_reserved_local_subexpr_2.Known() && has_axes().ValueOr(false)) {
const auto emboss_reserved_local_subexpr_3 = ::emboss::support::Product</**/::std::int32_t, ::std::int32_t, ::std::int32_t, ::std::int32_t>(emboss_reserved_local_subexpr_2, ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL)));
auto emboss_reserved_local_size = emboss_reserved_local_subexpr_3;
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::test::GenericAxesView<typename Storage::template OffsetStorageType</**/0, 1>>
(
emboss_reserved_local_subexpr_2.ValueOrDefault(), backing_
.template GetOffsetStorage<0,
1>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::test::GenericAxesView<typename Storage::template OffsetStorageType</**/0, 1>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericAxesEnvelopeView<Storage>::has_axes() const {
return ::emboss::support::Maybe</**/bool>(true);
}
template <class Storage>
inline typename GenericAxesEnvelopeView<Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView
GenericAxesEnvelopeView<Storage>::IntrinsicSizeInBytes() const {
return
typename GenericAxesEnvelopeView<Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView(
*this);
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericAxesEnvelopeView<Storage>::has_IntrinsicSizeInBytes() const {
return ::emboss::support::Maybe</**/bool>(true);
}
namespace AxesEnvelope {
inline constexpr ::std::int32_t MaxSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1021LL)).ValueOrDefault();
}
} // namespace AxesEnvelope
template <class Storage>
inline constexpr ::std::int32_t
GenericAxesEnvelopeView<Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::Read() {
return AxesEnvelope::MaxSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericAxesEnvelopeView<
Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::UncheckedRead() {
return AxesEnvelope::MaxSizeInBytes();
}
namespace AxesEnvelope {
inline constexpr ::std::int32_t MinSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL)).ValueOrDefault();
}
} // namespace AxesEnvelope
template <class Storage>
inline constexpr ::std::int32_t
GenericAxesEnvelopeView<Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::Read() {
return AxesEnvelope::MinSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericAxesEnvelopeView<
Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::UncheckedRead() {
return AxesEnvelope::MinSizeInBytes();
}
namespace Axis {
} // namespace Axis
template <class Storage>
inline typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<32, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 32>>
GenericAxisView<Storage>::value()
const {
if ( has_value().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<32, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 32>>
(
backing_
.template GetOffsetStorage<0,
0>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<32, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 32>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericAxisView<Storage>::has_value() const {
return ::emboss::support::Maybe</**/bool>(true);
}
template <class Storage>
inline typename GenericAxisView<Storage>::EmbossReservedVirtualAxisTypeView
GenericAxisView<Storage>::axis_type() const {
return
typename GenericAxisView<Storage>::EmbossReservedVirtualAxisTypeView(
*this);
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericAxisView<Storage>::has_axis_type() const {
return ::emboss::support::Maybe</**/bool>(true);
}
template <class Storage>
inline typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<32, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 32>>
GenericAxisView<Storage>::x()
const {
if ( has_x().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<32, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 32>>
(
backing_
.template GetOffsetStorage<0,
0>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<32, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 32>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericAxisView<Storage>::has_x() const {
return ::emboss::support::Equal</**/::emboss::test::AxisType, bool, ::emboss::test::AxisType, ::emboss::test::AxisType>((axis_type().Ok() ? ::emboss::support::Maybe</**/::emboss::test::AxisType>(static_cast</**/::emboss::test::AxisType>(axis_type().UncheckedRead())) : ::emboss::support::Maybe</**/::emboss::test::AxisType>()), ::emboss::support::Maybe</**/::emboss::test::AxisType>(static_cast</**/::emboss::test::AxisType>(1)));
}
template <class Storage>
inline typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<32, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 32>>
GenericAxisView<Storage>::y()
const {
if ( has_y().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<32, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 32>>
(
backing_
.template GetOffsetStorage<0,
0>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<32, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 32>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericAxisView<Storage>::has_y() const {
return ::emboss::support::Equal</**/::emboss::test::AxisType, bool, ::emboss::test::AxisType, ::emboss::test::AxisType>((axis_type().Ok() ? ::emboss::support::Maybe</**/::emboss::test::AxisType>(static_cast</**/::emboss::test::AxisType>(axis_type().UncheckedRead())) : ::emboss::support::Maybe</**/::emboss::test::AxisType>()), ::emboss::support::Maybe</**/::emboss::test::AxisType>(static_cast</**/::emboss::test::AxisType>(2)));
}
template <class Storage>
inline typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<32, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 32>>
GenericAxisView<Storage>::z()
const {
if ( has_z().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<32, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 32>>
(
backing_
.template GetOffsetStorage<0,
0>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<32, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 32>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericAxisView<Storage>::has_z() const {
return ::emboss::support::Equal</**/::emboss::test::AxisType, bool, ::emboss::test::AxisType, ::emboss::test::AxisType>((axis_type().Ok() ? ::emboss::support::Maybe</**/::emboss::test::AxisType>(static_cast</**/::emboss::test::AxisType>(axis_type().UncheckedRead())) : ::emboss::support::Maybe</**/::emboss::test::AxisType>()), ::emboss::support::Maybe</**/::emboss::test::AxisType>(static_cast</**/::emboss::test::AxisType>(3)));
}
namespace Axis {
inline constexpr ::std::int32_t IntrinsicSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL)).ValueOrDefault();
}
} // namespace Axis
template <class Storage>
inline constexpr ::std::int32_t
GenericAxisView<Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView::Read() {
return Axis::IntrinsicSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericAxisView<
Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView::UncheckedRead() {
return Axis::IntrinsicSizeInBytes();
}
namespace Axis {
inline constexpr ::std::int32_t MaxSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL)).ValueOrDefault();
}
} // namespace Axis
template <class Storage>
inline constexpr ::std::int32_t
GenericAxisView<Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::Read() {
return Axis::MaxSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericAxisView<
Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::UncheckedRead() {
return Axis::MaxSizeInBytes();
}
namespace Axis {
inline constexpr ::std::int32_t MinSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL)).ValueOrDefault();
}
} // namespace Axis
template <class Storage>
inline constexpr ::std::int32_t
GenericAxisView<Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::Read() {
return Axis::MinSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericAxisView<
Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::UncheckedRead() {
return Axis::MinSizeInBytes();
}
namespace Config {
} // namespace Config
template <class Storage>
inline typename ::emboss::prelude::FlagView<
/**/ ::emboss::support::FixedSizeViewParameters<1, ::emboss::support::AllValuesAreOk>,
typename Storage::template OffsetStorageType</**/0, 31>>
GenericConfigView<Storage>::power()
const {
if ( has_power().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(31LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::prelude::FlagView<
/**/ ::emboss::support::FixedSizeViewParameters<1, ::emboss::support::AllValuesAreOk>,
typename Storage::template OffsetStorageType</**/0, 31>>
(
backing_
.template GetOffsetStorage<0,
31>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::prelude::FlagView<
/**/ ::emboss::support::FixedSizeViewParameters<1, ::emboss::support::AllValuesAreOk>,
typename Storage::template OffsetStorageType</**/0, 31>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericConfigView<Storage>::has_power() const {
return ::emboss::support::Maybe</**/bool>(true);
}
namespace Config {
inline constexpr ::std::int32_t IntrinsicSizeInBits() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(32LL)).ValueOrDefault();
}
} // namespace Config
template <class Storage>
inline constexpr ::std::int32_t
GenericConfigView<Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBitsView::Read() {
return Config::IntrinsicSizeInBits();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericConfigView<
Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBitsView::UncheckedRead() {
return Config::IntrinsicSizeInBits();
}
namespace Config {
inline constexpr ::std::int32_t MaxSizeInBits() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(32LL)).ValueOrDefault();
}
} // namespace Config
template <class Storage>
inline constexpr ::std::int32_t
GenericConfigView<Storage>::EmbossReservedDollarVirtualMaxSizeInBitsView::Read() {
return Config::MaxSizeInBits();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericConfigView<
Storage>::EmbossReservedDollarVirtualMaxSizeInBitsView::UncheckedRead() {
return Config::MaxSizeInBits();
}
namespace Config {
inline constexpr ::std::int32_t MinSizeInBits() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(32LL)).ValueOrDefault();
}
} // namespace Config
template <class Storage>
inline constexpr ::std::int32_t
GenericConfigView<Storage>::EmbossReservedDollarVirtualMinSizeInBitsView::Read() {
return Config::MinSizeInBits();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericConfigView<
Storage>::EmbossReservedDollarVirtualMinSizeInBitsView::UncheckedRead() {
return Config::MinSizeInBits();
}
namespace ConfigVX {
namespace EmbossReservedAnonymousField1 {
} // namespace EmbossReservedAnonymousField1
template <class Storage>
inline typename ::emboss::prelude::FlagView<
/**/ ::emboss::support::FixedSizeViewParameters<1, ::emboss::support::AllValuesAreOk>,
typename Storage::template OffsetStorageType</**/0, 31>>
GenericEmbossReservedAnonymousField1View<Storage>::power()
const {
if ( has_power().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(31LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::prelude::FlagView<
/**/ ::emboss::support::FixedSizeViewParameters<1, ::emboss::support::AllValuesAreOk>,
typename Storage::template OffsetStorageType</**/0, 31>>
(
backing_
.template GetOffsetStorage<0,
31>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::prelude::FlagView<
/**/ ::emboss::support::FixedSizeViewParameters<1, ::emboss::support::AllValuesAreOk>,
typename Storage::template OffsetStorageType</**/0, 31>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericEmbossReservedAnonymousField1View<Storage>::has_power() const {
return ::emboss::support::Maybe</**/bool>(true);
}
namespace EmbossReservedAnonymousField1 {
inline constexpr ::std::int32_t IntrinsicSizeInBits() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(32LL)).ValueOrDefault();
}
} // namespace EmbossReservedAnonymousField1
template <class Storage>
inline constexpr ::std::int32_t
GenericEmbossReservedAnonymousField1View<Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBitsView::Read() {
return EmbossReservedAnonymousField1::IntrinsicSizeInBits();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericEmbossReservedAnonymousField1View<
Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBitsView::UncheckedRead() {
return EmbossReservedAnonymousField1::IntrinsicSizeInBits();
}
namespace EmbossReservedAnonymousField1 {
inline constexpr ::std::int32_t MaxSizeInBits() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(32LL)).ValueOrDefault();
}
} // namespace EmbossReservedAnonymousField1
template <class Storage>
inline constexpr ::std::int32_t
GenericEmbossReservedAnonymousField1View<Storage>::EmbossReservedDollarVirtualMaxSizeInBitsView::Read() {
return EmbossReservedAnonymousField1::MaxSizeInBits();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericEmbossReservedAnonymousField1View<
Storage>::EmbossReservedDollarVirtualMaxSizeInBitsView::UncheckedRead() {
return EmbossReservedAnonymousField1::MaxSizeInBits();
}
namespace EmbossReservedAnonymousField1 {
inline constexpr ::std::int32_t MinSizeInBits() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(32LL)).ValueOrDefault();
}
} // namespace EmbossReservedAnonymousField1
template <class Storage>
inline constexpr ::std::int32_t
GenericEmbossReservedAnonymousField1View<Storage>::EmbossReservedDollarVirtualMinSizeInBitsView::Read() {
return EmbossReservedAnonymousField1::MinSizeInBits();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericEmbossReservedAnonymousField1View<
Storage>::EmbossReservedDollarVirtualMinSizeInBitsView::UncheckedRead() {
return EmbossReservedAnonymousField1::MinSizeInBits();
}
} // namespace ConfigVX
template <class Storage>
inline typename ::emboss::test::ConfigVX::GenericEmbossReservedAnonymousField1View<typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 32>>
GenericConfigVXView<Storage>::emboss_reserved_anonymous_field_1()
const {
if ( has_emboss_reserved_anonymous_field_1().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::test::ConfigVX::GenericEmbossReservedAnonymousField1View<typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 32>>
(
backing_
.template GetOffsetStorage<0,
0>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::test::ConfigVX::GenericEmbossReservedAnonymousField1View<typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 32>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericConfigVXView<Storage>::has_emboss_reserved_anonymous_field_1() const {
return ::emboss::support::Maybe</**/bool>(true);
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericConfigVXView<Storage>::has_power() const {
return ::emboss::support::And</**/bool, bool, bool, bool>(::emboss::support::Maybe</**/bool>(true), ::emboss::support::Maybe</**/bool>(true));
}
template <class Storage>
inline typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<32, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 4>>, 32>>
GenericConfigVXView<Storage>::gain()
const {
if ( has_gain().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(4LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<32, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 4>>, 32>>
(
backing_
.template GetOffsetStorage<0,
4>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<32, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 4>>, 32>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericConfigVXView<Storage>::has_gain() const {
return ::emboss::support::Maybe</**/bool>(true);
}
namespace ConfigVX {
inline constexpr ::std::int32_t IntrinsicSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(8LL)).ValueOrDefault();
}
} // namespace ConfigVX
template <class Storage>
inline constexpr ::std::int32_t
GenericConfigVXView<Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView::Read() {
return ConfigVX::IntrinsicSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericConfigVXView<
Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView::UncheckedRead() {
return ConfigVX::IntrinsicSizeInBytes();
}
namespace ConfigVX {
inline constexpr ::std::int32_t MaxSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(8LL)).ValueOrDefault();
}
} // namespace ConfigVX
template <class Storage>
inline constexpr ::std::int32_t
GenericConfigVXView<Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::Read() {
return ConfigVX::MaxSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericConfigVXView<
Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::UncheckedRead() {
return ConfigVX::MaxSizeInBytes();
}
namespace ConfigVX {
inline constexpr ::std::int32_t MinSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(8LL)).ValueOrDefault();
}
} // namespace ConfigVX
template <class Storage>
inline constexpr ::std::int32_t
GenericConfigVXView<Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::Read() {
return ConfigVX::MinSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericConfigVXView<
Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::UncheckedRead() {
return ConfigVX::MinSizeInBytes();
}
namespace StructWithUnusedParameter {
} // namespace StructWithUnusedParameter
template <class Storage>
inline typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
GenericStructWithUnusedParameterView<Storage>::y()
const {
if ( has_y().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
(
backing_
.template GetOffsetStorage<0,
0>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericStructWithUnusedParameterView<Storage>::has_y() const {
return ::emboss::support::Maybe</**/bool>(true);
}
namespace StructWithUnusedParameter {
inline constexpr ::std::int32_t IntrinsicSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL)).ValueOrDefault();
}
} // namespace StructWithUnusedParameter
template <class Storage>
inline constexpr ::std::int32_t
GenericStructWithUnusedParameterView<Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView::Read() {
return StructWithUnusedParameter::IntrinsicSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericStructWithUnusedParameterView<
Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView::UncheckedRead() {
return StructWithUnusedParameter::IntrinsicSizeInBytes();
}
namespace StructWithUnusedParameter {
inline constexpr ::std::int32_t MaxSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL)).ValueOrDefault();
}
} // namespace StructWithUnusedParameter
template <class Storage>
inline constexpr ::std::int32_t
GenericStructWithUnusedParameterView<Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::Read() {
return StructWithUnusedParameter::MaxSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericStructWithUnusedParameterView<
Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::UncheckedRead() {
return StructWithUnusedParameter::MaxSizeInBytes();
}
namespace StructWithUnusedParameter {
inline constexpr ::std::int32_t MinSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL)).ValueOrDefault();
}
} // namespace StructWithUnusedParameter
template <class Storage>
inline constexpr ::std::int32_t
GenericStructWithUnusedParameterView<Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::Read() {
return StructWithUnusedParameter::MinSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericStructWithUnusedParameterView<
Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::UncheckedRead() {
return StructWithUnusedParameter::MinSizeInBytes();
}
namespace StructContainingStructWithUnusedParameter {
} // namespace StructContainingStructWithUnusedParameter
template <class Storage>
inline typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 1>>, 8>>
GenericStructContainingStructWithUnusedParameterView<Storage>::x()
const {
if ( has_x().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 1>>, 8>>
(
backing_
.template GetOffsetStorage<0,
1>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 1>>, 8>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericStructContainingStructWithUnusedParameterView<Storage>::has_x() const {
return ::emboss::support::Maybe</**/bool>(true);
}
template <class Storage>
inline typename ::emboss::test::GenericStructWithUnusedParameterView<typename Storage::template OffsetStorageType</**/0, 0>>
GenericStructContainingStructWithUnusedParameterView<Storage>::swup()
const {
const auto emboss_reserved_local_subexpr_1 = x();
const auto emboss_reserved_local_subexpr_2 = (emboss_reserved_local_subexpr_1.Ok() ? ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(emboss_reserved_local_subexpr_1.UncheckedRead())) : ::emboss::support::Maybe</**/::std::int32_t>());
if (emboss_reserved_local_subexpr_2.Known() && has_swup().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::test::GenericStructWithUnusedParameterView<typename Storage::template OffsetStorageType</**/0, 0>>
(
emboss_reserved_local_subexpr_2.ValueOrDefault(), backing_
.template GetOffsetStorage<0,
0>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::test::GenericStructWithUnusedParameterView<typename Storage::template OffsetStorageType</**/0, 0>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericStructContainingStructWithUnusedParameterView<Storage>::has_swup() const {
return ::emboss::support::Maybe</**/bool>(true);
}
namespace StructContainingStructWithUnusedParameter {
inline constexpr ::std::int32_t IntrinsicSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(2LL)).ValueOrDefault();
}
} // namespace StructContainingStructWithUnusedParameter
template <class Storage>
inline constexpr ::std::int32_t
GenericStructContainingStructWithUnusedParameterView<Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView::Read() {
return StructContainingStructWithUnusedParameter::IntrinsicSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericStructContainingStructWithUnusedParameterView<
Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView::UncheckedRead() {
return StructContainingStructWithUnusedParameter::IntrinsicSizeInBytes();
}
namespace StructContainingStructWithUnusedParameter {
inline constexpr ::std::int32_t MaxSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(2LL)).ValueOrDefault();
}
} // namespace StructContainingStructWithUnusedParameter
template <class Storage>
inline constexpr ::std::int32_t
GenericStructContainingStructWithUnusedParameterView<Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::Read() {
return StructContainingStructWithUnusedParameter::MaxSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericStructContainingStructWithUnusedParameterView<
Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::UncheckedRead() {
return StructContainingStructWithUnusedParameter::MaxSizeInBytes();
}
namespace StructContainingStructWithUnusedParameter {
inline constexpr ::std::int32_t MinSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(2LL)).ValueOrDefault();
}
} // namespace StructContainingStructWithUnusedParameter
template <class Storage>
inline constexpr ::std::int32_t
GenericStructContainingStructWithUnusedParameterView<Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::Read() {
return StructContainingStructWithUnusedParameter::MinSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericStructContainingStructWithUnusedParameterView<
Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::UncheckedRead() {
return StructContainingStructWithUnusedParameter::MinSizeInBytes();
}
namespace BiasedValue {
} // namespace BiasedValue
template <class Storage>
inline typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
GenericBiasedValueView<Storage>::raw_value()
const {
if ( has_raw_value().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
(
backing_
.template GetOffsetStorage<0,
0>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericBiasedValueView<Storage>::has_raw_value() const {
return ::emboss::support::Maybe</**/bool>(true);
}
template <class Storage>
inline typename GenericBiasedValueView<Storage>::EmbossReservedVirtualValueView
GenericBiasedValueView<Storage>::value() const {
return
typename GenericBiasedValueView<Storage>::EmbossReservedVirtualValueView(
*this);
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericBiasedValueView<Storage>::has_value() const {
return ::emboss::support::Maybe</**/bool>(true);
}
namespace BiasedValue {
inline constexpr ::std::int32_t IntrinsicSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL)).ValueOrDefault();
}
} // namespace BiasedValue
template <class Storage>
inline constexpr ::std::int32_t
GenericBiasedValueView<Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView::Read() {
return BiasedValue::IntrinsicSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericBiasedValueView<
Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView::UncheckedRead() {
return BiasedValue::IntrinsicSizeInBytes();
}
namespace BiasedValue {
inline constexpr ::std::int32_t MaxSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL)).ValueOrDefault();
}
} // namespace BiasedValue
template <class Storage>
inline constexpr ::std::int32_t
GenericBiasedValueView<Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::Read() {
return BiasedValue::MaxSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericBiasedValueView<
Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::UncheckedRead() {
return BiasedValue::MaxSizeInBytes();
}
namespace BiasedValue {
inline constexpr ::std::int32_t MinSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL)).ValueOrDefault();
}
} // namespace BiasedValue
template <class Storage>
inline constexpr ::std::int32_t
GenericBiasedValueView<Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::Read() {
return BiasedValue::MinSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericBiasedValueView<
Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::UncheckedRead() {
return BiasedValue::MinSizeInBytes();
}
namespace VirtualFirstFieldWithParam {
} // namespace VirtualFirstFieldWithParam
template <class Storage>
inline typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
GenericVirtualFirstFieldWithParamView<Storage>::x()
const {
if ( has_x().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
(
backing_
.template GetOffsetStorage<0,
0>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericVirtualFirstFieldWithParamView<Storage>::has_x() const {
return ::emboss::support::Maybe</**/bool>(true);
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericVirtualFirstFieldWithParamView<Storage>::has_value() const {
return ::emboss::support::Maybe</**/bool>(true);
}
namespace VirtualFirstFieldWithParam {
inline constexpr ::std::int32_t IntrinsicSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL)).ValueOrDefault();
}
} // namespace VirtualFirstFieldWithParam
template <class Storage>
inline constexpr ::std::int32_t
GenericVirtualFirstFieldWithParamView<Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView::Read() {
return VirtualFirstFieldWithParam::IntrinsicSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericVirtualFirstFieldWithParamView<
Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView::UncheckedRead() {
return VirtualFirstFieldWithParam::IntrinsicSizeInBytes();
}
namespace VirtualFirstFieldWithParam {
inline constexpr ::std::int32_t MaxSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL)).ValueOrDefault();
}
} // namespace VirtualFirstFieldWithParam
template <class Storage>
inline constexpr ::std::int32_t
GenericVirtualFirstFieldWithParamView<Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::Read() {
return VirtualFirstFieldWithParam::MaxSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericVirtualFirstFieldWithParamView<
Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::UncheckedRead() {
return VirtualFirstFieldWithParam::MaxSizeInBytes();
}
namespace VirtualFirstFieldWithParam {
inline constexpr ::std::int32_t MinSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL)).ValueOrDefault();
}
} // namespace VirtualFirstFieldWithParam
template <class Storage>
inline constexpr ::std::int32_t
GenericVirtualFirstFieldWithParamView<Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::Read() {
return VirtualFirstFieldWithParam::MinSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericVirtualFirstFieldWithParamView<
Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::UncheckedRead() {
return VirtualFirstFieldWithParam::MinSizeInBytes();
}
namespace ConstVirtualFirstFieldWithParam {
} // namespace ConstVirtualFirstFieldWithParam
namespace ConstVirtualFirstFieldWithParam {
inline constexpr ::std::int32_t value() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(10LL)).ValueOrDefault();
}
} // namespace ConstVirtualFirstFieldWithParam
template <class Storage>
inline constexpr ::std::int32_t
GenericConstVirtualFirstFieldWithParamView<Storage>::EmbossReservedVirtualValueView::Read() {
return ConstVirtualFirstFieldWithParam::value();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericConstVirtualFirstFieldWithParamView<
Storage>::EmbossReservedVirtualValueView::UncheckedRead() {
return ConstVirtualFirstFieldWithParam::value();
}
template <class Storage>
inline typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
GenericConstVirtualFirstFieldWithParamView<Storage>::x()
const {
if ( has_x().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
(
backing_
.template GetOffsetStorage<0,
0>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericConstVirtualFirstFieldWithParamView<Storage>::has_x() const {
return ::emboss::support::Maybe</**/bool>(true);
}
namespace ConstVirtualFirstFieldWithParam {
inline constexpr ::std::int32_t IntrinsicSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL)).ValueOrDefault();
}
} // namespace ConstVirtualFirstFieldWithParam
template <class Storage>
inline constexpr ::std::int32_t
GenericConstVirtualFirstFieldWithParamView<Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView::Read() {
return ConstVirtualFirstFieldWithParam::IntrinsicSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericConstVirtualFirstFieldWithParamView<
Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView::UncheckedRead() {
return ConstVirtualFirstFieldWithParam::IntrinsicSizeInBytes();
}
namespace ConstVirtualFirstFieldWithParam {
inline constexpr ::std::int32_t MaxSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL)).ValueOrDefault();
}
} // namespace ConstVirtualFirstFieldWithParam
template <class Storage>
inline constexpr ::std::int32_t
GenericConstVirtualFirstFieldWithParamView<Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::Read() {
return ConstVirtualFirstFieldWithParam::MaxSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericConstVirtualFirstFieldWithParamView<
Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::UncheckedRead() {
return ConstVirtualFirstFieldWithParam::MaxSizeInBytes();
}
namespace ConstVirtualFirstFieldWithParam {
inline constexpr ::std::int32_t MinSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL)).ValueOrDefault();
}
} // namespace ConstVirtualFirstFieldWithParam
template <class Storage>
inline constexpr ::std::int32_t
GenericConstVirtualFirstFieldWithParamView<Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::Read() {
return ConstVirtualFirstFieldWithParam::MinSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericConstVirtualFirstFieldWithParamView<
Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::UncheckedRead() {
return ConstVirtualFirstFieldWithParam::MinSizeInBytes();
}
namespace SizedArrayOfBiasedValues {
} // namespace SizedArrayOfBiasedValues
template <class Storage>
inline typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
GenericSizedArrayOfBiasedValuesView<Storage>::element_count()
const {
if ( has_element_count().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(0LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
(
backing_
.template GetOffsetStorage<0,
0>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 0>>, 8>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericSizedArrayOfBiasedValuesView<Storage>::has_element_count() const {
return ::emboss::support::Maybe</**/bool>(true);
}
template <class Storage>
inline typename ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 1>>, 8>>
GenericSizedArrayOfBiasedValuesView<Storage>::bias()
const {
if ( has_bias().ValueOr(false)) {
auto emboss_reserved_local_size = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL));
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(1LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 1>>, 8>>
(
backing_
.template GetOffsetStorage<0,
1>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::prelude::UIntView<
/**/ ::emboss::support::FixedSizeViewParameters<8, ::emboss::support::AllValuesAreOk>,
typename ::emboss::support::BitBlock</**/::emboss::support::LittleEndianByteOrderer<typename Storage::template OffsetStorageType</**/0, 1>>, 8>>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericSizedArrayOfBiasedValuesView<Storage>::has_bias() const {
return ::emboss::support::Maybe</**/bool>(true);
}
template <class Storage>
inline typename ::emboss::support::GenericArrayView<
typename ::emboss::test::GenericBiasedValueView<typename Storage::template OffsetStorageType</**/0, 2>::template OffsetStorageType</**/1, 0>>
, typename Storage::template OffsetStorageType</**/0, 2>, 1,
8 , ::std::int32_t>
GenericSizedArrayOfBiasedValuesView<Storage>::values()
const {
const auto emboss_reserved_local_subexpr_1 = bias();
const auto emboss_reserved_local_subexpr_2 = (emboss_reserved_local_subexpr_1.Ok() ? ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(emboss_reserved_local_subexpr_1.UncheckedRead())) : ::emboss::support::Maybe</**/::std::int32_t>());
if (emboss_reserved_local_subexpr_2.Known() && has_values().ValueOr(false)) {
const auto emboss_reserved_local_subexpr_3 = element_count();
const auto emboss_reserved_local_subexpr_4 = (emboss_reserved_local_subexpr_3.Ok() ? ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(emboss_reserved_local_subexpr_3.UncheckedRead())) : ::emboss::support::Maybe</**/::std::int32_t>());
auto emboss_reserved_local_size = emboss_reserved_local_subexpr_4;
auto emboss_reserved_local_offset = ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(2LL));
if (emboss_reserved_local_size.Known() &&
emboss_reserved_local_size.ValueOr(0) >= 0 &&
emboss_reserved_local_offset.Known() &&
emboss_reserved_local_offset.ValueOr(0) >= 0) {
return ::emboss::support::GenericArrayView<
typename ::emboss::test::GenericBiasedValueView<typename Storage::template OffsetStorageType</**/0, 2>::template OffsetStorageType</**/1, 0>>
, typename Storage::template OffsetStorageType</**/0, 2>, 1,
8 , ::std::int32_t>
(
emboss_reserved_local_subexpr_2.ValueOrDefault(), backing_
.template GetOffsetStorage<0,
2>(
emboss_reserved_local_offset.ValueOrDefault(),
emboss_reserved_local_size.ValueOrDefault()));
}
}
return ::emboss::support::GenericArrayView<
typename ::emboss::test::GenericBiasedValueView<typename Storage::template OffsetStorageType</**/0, 2>::template OffsetStorageType</**/1, 0>>
, typename Storage::template OffsetStorageType</**/0, 2>, 1,
8 , ::std::int32_t>
();
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericSizedArrayOfBiasedValuesView<Storage>::has_values() const {
return ::emboss::support::Maybe</**/bool>(true);
}
template <class Storage>
inline typename GenericSizedArrayOfBiasedValuesView<Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView
GenericSizedArrayOfBiasedValuesView<Storage>::IntrinsicSizeInBytes() const {
return
typename GenericSizedArrayOfBiasedValuesView<Storage>::EmbossReservedDollarVirtualIntrinsicSizeInBytesView(
*this);
}
template <class Storage>
inline ::emboss::support::Maybe<bool>
GenericSizedArrayOfBiasedValuesView<Storage>::has_IntrinsicSizeInBytes() const {
return ::emboss::support::Maybe</**/bool>(true);
}
namespace SizedArrayOfBiasedValues {
inline constexpr ::std::int32_t MaxSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(257LL)).ValueOrDefault();
}
} // namespace SizedArrayOfBiasedValues
template <class Storage>
inline constexpr ::std::int32_t
GenericSizedArrayOfBiasedValuesView<Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::Read() {
return SizedArrayOfBiasedValues::MaxSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericSizedArrayOfBiasedValuesView<
Storage>::EmbossReservedDollarVirtualMaxSizeInBytesView::UncheckedRead() {
return SizedArrayOfBiasedValues::MaxSizeInBytes();
}
namespace SizedArrayOfBiasedValues {
inline constexpr ::std::int32_t MinSizeInBytes() {
return ::emboss::support::Maybe</**/::std::int32_t>(static_cast</**/::std::int32_t>(2LL)).ValueOrDefault();
}
} // namespace SizedArrayOfBiasedValues
template <class Storage>
inline constexpr ::std::int32_t
GenericSizedArrayOfBiasedValuesView<Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::Read() {
return SizedArrayOfBiasedValues::MinSizeInBytes();
}
template <class Storage>
inline constexpr ::std::int32_t
GenericSizedArrayOfBiasedValuesView<
Storage>::EmbossReservedDollarVirtualMinSizeInBytesView::UncheckedRead() {
return SizedArrayOfBiasedValues::MinSizeInBytes();
}
} // namespace test
} // namespace emboss
/* NOLINTEND */
#endif // TESTDATA_PARAMETERS_EMB_H_