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fuchsia / fuchsia / refs/heads/releases/canary / . / tools / fidl / fidlgen_cpp / goldens / doc_comments_wire_types.h.golden
blob: ba53fb98cc2a74a969c848f9ce75571d4a8f1667 [file] [log] [blame]
// WARNING: This file is machine generated by fidlgen.
// fidl_experiment = output_index_json
#pragma once
#include <lib/fidl/cpp/wire/array.h>
#include <lib/fidl/cpp/wire/envelope.h>
#include <lib/fidl/cpp/wire/internal/framework_err.h>
#include <lib/fidl/cpp/wire/message.h>
#include <lib/fidl/cpp/wire/message_storage.h>
#include <lib/fidl/cpp/wire/object_view.h>
#include <lib/fidl/cpp/wire/string_view.h>
#include <lib/fidl/cpp/wire/traits.h>
#include <lib/fidl/cpp/wire/wire_types.h>
#include <lib/stdcompat/optional.h>
#include <cinttypes>
#ifdef __Fuchsia__
#include <lib/zx/channel.h>
#endif // __Fuchsia__
#include <fidl/test.doccomments/cpp/common_types.h>
#include <fidl/test.doccomments/cpp/markers.h>
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wshadow"
namespace test_doccomments {
namespace wire {
using MyStrictBits = ::test_doccomments::MyStrictBits;
using MyFlexibleBits = ::test_doccomments::MyFlexibleBits;
using MyStrictEnum = ::test_doccomments::MyStrictEnum;
using MyFlexibleEnum = ::test_doccomments::MyFlexibleEnum;
struct Struct;
class Table;
class StrictUnion;
class FlexibleUnion;
/// struct comment #1
///
/// struct comment #3
struct Struct {
/// struct member comment #1
///
/// struct member comment #3
int32_t field = {};
};
} // namespace wire
} // namespace test_doccomments
template <>
class ::fidl::WireTableBuilder<::test_doccomments::wire::Table>;
template <>
class ::fidl::WireTableExternalBuilder<::test_doccomments::wire::Table>;
template <>
struct ::fidl::WireTableFrame<::test_doccomments::wire::Table> final {
public:
WireTableFrame() = default;
// In its intended usage, WireTableFrame will be referenced by an ObjectView.
// If the ObjectView is assigned before a move or copy, then it will reference
// the old invalid object. Because this is unsafe, copies are disallowed and
// moves are only allowed by friend classes that operate safely.
WireTableFrame(const WireTableFrame&) = delete;
WireTableFrame& operator=(const WireTableFrame&) = delete;
private:
WireTableFrame(WireTableFrame&&) noexcept = default;
WireTableFrame& operator=(WireTableFrame&&) noexcept = default;
bool HasUnknownData() const;
uint64_t ComputeMaxOrdinal() const;
::fidl::Envelope<int32_t> field_;
friend class ::test_doccomments::wire::Table;
friend ::fidl::internal::WireTableBaseBuilder<::test_doccomments::wire::Table, ::fidl::WireTableBuilder<::test_doccomments::wire::Table>>;
friend ::fidl::internal::WireTableBaseBuilder<::test_doccomments::wire::Table, ::fidl::WireTableExternalBuilder<::test_doccomments::wire::Table>>;
};
namespace test_doccomments {
namespace wire {
/// table comment #1
///
/// table comment #3
class Table {
public:
Table() = default;
Table(const Table& other) noexcept = default;
Table& operator=(const Table& other) noexcept = default;
Table(Table&& other) noexcept = default;
Table& operator=(Table&& other) noexcept = default;
~Table() = default;
// Returns whether no field is set.
bool IsEmpty() const { return max_ordinal_ == 0; }
// Returns whether the table references unknown fields.
bool HasUnknownData() const;
// Return a builder that by defaults allocates of an arena.
static ::fidl::WireTableBuilder<::test_doccomments::wire::Table> Builder(::fidl::AnyArena& arena);
// Return a builder that relies on explicitly allocating |fidl::ObjectView|s.
static ::fidl::WireTableExternalBuilder<::test_doccomments::wire::Table> ExternalBuilder(::fidl::ObjectView<::fidl::WireTableFrame<::test_doccomments::wire::Table>> frame);
/// table field comment #1
///
/// table field comment #3
[[nodiscard]] int32_t& field() const {
ZX_ASSERT(has_Field());
return frame_ptr_->field_.get_data();
}
[[nodiscard]] bool has_Field() const {
return max_ordinal_ >= 1 && frame_ptr_->field_.has_data();
}
#if defined(FIDL_WIRE_ALLOW_DEPRECATED_MUTABLE_TABLES) || false
public:
#else // !defined(FIDL_WIRE_ALLOW_DEPRECATED_MUTABLE_TABLES)
private:
#endif // FIDL_WIRE_ALLOW_DEPRECATED_MUTABLE_TABLES
Table& set_field(int32_t elem) {
ZX_DEBUG_ASSERT(frame_ptr_ != nullptr);
frame_ptr_->field_.set_data(std::move(elem));
max_ordinal_ = std::max(max_ordinal_, static_cast<uint64_t>(1));
return *this;
}
Table& clear_Field() {
ZX_DEBUG_ASSERT(frame_ptr_ != nullptr);
frame_ptr_->field_.clear_data();
max_ordinal_ = frame_ptr_->ComputeMaxOrdinal();
return *this;
}
explicit Table(::fidl::AnyArena& allocator)
: frame_ptr_(::fidl::ObjectView<::fidl::WireTableFrame<::test_doccomments::wire::Table>>(allocator)) {}
// This constructor allows a user controlled allocation (not using a Arena).
// It should only be used when performance is key.
// As soon as the frame is given to the table, it must not be used directly or for another table.
explicit Table(::fidl::ObjectView<::fidl::WireTableFrame<::test_doccomments::wire::Table>>&& frame)
: frame_ptr_(std::move(frame)) {}
void Allocate(::fidl::AnyArena& allocator) {
max_ordinal_ = 0;
frame_ptr_ = ::fidl::ObjectView<::fidl::WireTableFrame<::test_doccomments::wire::Table>>(allocator);
}
void Init(::fidl::ObjectView<::fidl::WireTableFrame<::test_doccomments::wire::Table>>&& frame_ptr) {
max_ordinal_ = 0;
frame_ptr_ = std::move(frame_ptr);
}
private:
friend ::fidl::internal::WireTableBaseBuilder<::test_doccomments::wire::Table, ::fidl::WireTableBuilder<::test_doccomments::wire::Table>>;
friend ::fidl::internal::WireTableBaseBuilder<::test_doccomments::wire::Table, ::fidl::WireTableExternalBuilder<::test_doccomments::wire::Table>>;
uint64_t max_ordinal_ = 0;
::fidl::ObjectView<::fidl::WireTableFrame<::test_doccomments::wire::Table>> frame_ptr_;
};
} // namespace wire
} // namespace test_doccomments
template <typename BuilderImpl>
class ::fidl::internal::WireTableBaseBuilder<::test_doccomments::wire::Table, BuilderImpl> {
protected:
// |Wrapper_Ignore_Me_| wraps a |fidl::ObjectView<T>| and reduces its
// priority in overload resolution. When the user writes `{}` as the
// setter argument, that would default construct the field instead of
// constructing a NULL object view.
template <typename U>
struct Wrapper_Ignore_Me_ {
Wrapper_Ignore_Me_(U v) : value(v) {}
U value;
};
public:
// Build and return the table. The builder should not be used after this.
::test_doccomments::wire::Table Build() {
ZX_DEBUG_ASSERT(table_.frame_ptr_ != nullptr);
::test_doccomments::wire::Table t = std::move(table_);
// Poison this builder to prevent accidental reuse.
table_.frame_ptr_ = nullptr;
return t;
}
[[nodiscard]] bool has_Field() const {
return table_.has_Field();
}
// Clears the field field.
//
// This method should be used sparingly, such as only during tests, as it has
// O(number_of_fields) complexity.
void clear_Field() {
table_.clear_Field();
}
// Getter for field.
//
/// table field comment #1
///
/// table field comment #3
[[nodiscard]] int32_t& field() const {
return table_.field();
}
// Setter for field.
//
/// table field comment #1
///
/// table field comment #3
BuilderImpl& field(int32_t elem) {
ZX_DEBUG_ASSERT(table_.frame_ptr_ != nullptr);
table_.frame_ptr_->field_.set_data(std::move(elem));
table_.max_ordinal_ = std::max(table_.max_ordinal_, static_cast<uint64_t>(1));
return *static_cast<BuilderImpl*>(this);
}
protected:
WireTableBaseBuilder(::fidl::ObjectView<::fidl::WireTableFrame<::test_doccomments::wire::Table>>&& frame)
: table_(std::move(frame)) {}
private:
::test_doccomments::wire::Table table_;
};
template <>
class ::fidl::WireTableBuilder<::test_doccomments::wire::Table> final : public ::fidl::internal::WireTableBaseBuilder<::test_doccomments::wire::Table, ::fidl::WireTableBuilder<::test_doccomments::wire::Table>> {
using Base = ::fidl::internal::WireTableBaseBuilder<::test_doccomments::wire::Table, ::fidl::WireTableBuilder<::test_doccomments::wire::Table>>;
public:
private:
friend class ::test_doccomments::wire::Table;
WireTableBuilder(::fidl::AnyArena& arena)
: Base(::fidl::ObjectView<::fidl::WireTableFrame<::test_doccomments::wire::Table>>(arena)),
arena_(arena) {}
[[maybe_unused]] std::reference_wrapper<::fidl::AnyArena> arena_;
};
template <>
class ::fidl::WireTableExternalBuilder<::test_doccomments::wire::Table> final : public ::fidl::internal::WireTableBaseBuilder<::test_doccomments::wire::Table, ::fidl::WireTableExternalBuilder<::test_doccomments::wire::Table>> {
using Base = ::fidl::internal::WireTableBaseBuilder<::test_doccomments::wire::Table, ::fidl::WireTableExternalBuilder<::test_doccomments::wire::Table>>;
private:
friend class ::test_doccomments::wire::Table;
using Base::Base;
WireTableExternalBuilder(::fidl::WireTableFrame<::test_doccomments::wire::Table>* frame)
: Base(::fidl::ObjectView<::fidl::WireTableFrame<::test_doccomments::wire::Table>>::FromExternal(frame)) {}
};
namespace test_doccomments {
namespace wire {
inline ::fidl::WireTableBuilder<::test_doccomments::wire::Table> Table::Builder(::fidl::AnyArena& arena) {
return ::fidl::WireTableBuilder<::test_doccomments::wire::Table>(arena);
}
inline ::fidl::WireTableExternalBuilder<::test_doccomments::wire::Table> Table::ExternalBuilder(::fidl::ObjectView<::fidl::WireTableFrame<::test_doccomments::wire::Table>> frame) {
return ::fidl::WireTableExternalBuilder<::test_doccomments::wire::Table>(std::move(frame));
}
/// strict union comment #1
///
/// strict union comment #3
class StrictUnion {
public:
StrictUnion() : ordinal_(::test_doccomments::wire::StrictUnion::Ordinal::Invalid), envelope_{} {}
StrictUnion(const StrictUnion&) = default;
StrictUnion& operator=(const StrictUnion&) = default;
StrictUnion(StrictUnion&&) = default;
StrictUnion& operator=(StrictUnion&&) = default;
enum class Tag : fidl_xunion_tag_t {
kField = 1, // 0x1
};
bool has_invalid_tag() const { return ordinal_ == ::test_doccomments::wire::StrictUnion::Ordinal::Invalid; }
bool is_field() const { return ordinal_ == ::test_doccomments::wire::StrictUnion::Ordinal::kField; }
/// union member comment #1
///
/// union member comment #3
static StrictUnion WithField(int32_t val) {
StrictUnion result;
result.ordinal_ = ::test_doccomments::wire::StrictUnion::Ordinal::kField;
result.envelope_.As<int32_t>().set_data(std::move(val));
return result;
}
/// union member comment #1
///
/// union member comment #3
int32_t& field() {
ZX_ASSERT(ordinal_ == ::test_doccomments::wire::StrictUnion::Ordinal::kField);
return envelope_.As<int32_t>().get_data();
}
/// union member comment #1
///
/// union member comment #3
const int32_t& field() const {
ZX_ASSERT(ordinal_ == ::test_doccomments::wire::StrictUnion::Ordinal::kField);
return envelope_.As<int32_t>().get_data();
}
::test_doccomments::wire::StrictUnion::Tag Which() const {
ZX_ASSERT(!has_invalid_tag());
return static_cast<::test_doccomments::wire::StrictUnion::Tag>(ordinal_);
}
private:
enum class Ordinal : fidl_xunion_tag_t {
Invalid = 0,
kField = 1, // 0x1
};
static void SizeAndOffsetAssertionHelper();
::test_doccomments::wire::StrictUnion::Ordinal ordinal_;
FIDL_ALIGNDECL
::fidl::UntypedEnvelope envelope_;
};
/// flexible union comment #1
///
/// flexible union comment #3
class FlexibleUnion {
public:
FlexibleUnion() : ordinal_(::test_doccomments::wire::FlexibleUnion::Ordinal::Invalid), envelope_{} {}
FlexibleUnion(const FlexibleUnion&) = default;
FlexibleUnion& operator=(const FlexibleUnion&) = default;
FlexibleUnion(FlexibleUnion&&) = default;
FlexibleUnion& operator=(FlexibleUnion&&) = default;
enum class Tag : fidl_xunion_tag_t {
kField = 1, // 0x1
_do_not_handle_this__write_a_default_case_instead = ::std::numeric_limits<::fidl_union_tag_t>::max(),
};
constexpr bool IsUnknown() const {
return Which() == ::test_doccomments::wire::FlexibleUnion::Tag::_do_not_handle_this__write_a_default_case_instead;
}
bool has_invalid_tag() const { return ordinal_ == ::test_doccomments::wire::FlexibleUnion::Ordinal::Invalid; }
bool is_field() const { return ordinal_ == ::test_doccomments::wire::FlexibleUnion::Ordinal::kField; }
/// union member comment #1
///
/// union member comment #3
static FlexibleUnion WithField(int32_t val) {
FlexibleUnion result;
result.ordinal_ = ::test_doccomments::wire::FlexibleUnion::Ordinal::kField;
result.envelope_.As<int32_t>().set_data(std::move(val));
return result;
}
/// union member comment #1
///
/// union member comment #3
int32_t& field() {
ZX_ASSERT(ordinal_ == ::test_doccomments::wire::FlexibleUnion::Ordinal::kField);
return envelope_.As<int32_t>().get_data();
}
/// union member comment #1
///
/// union member comment #3
const int32_t& field() const {
ZX_ASSERT(ordinal_ == ::test_doccomments::wire::FlexibleUnion::Ordinal::kField);
return envelope_.As<int32_t>().get_data();
}
::test_doccomments::wire::FlexibleUnion::Tag Which() const;
private:
enum class Ordinal : fidl_xunion_tag_t {
Invalid = 0,
kField = 1, // 0x1
};
static void SizeAndOffsetAssertionHelper();
::test_doccomments::wire::FlexibleUnion::Ordinal ordinal_;
FIDL_ALIGNDECL
::fidl::UntypedEnvelope envelope_;
};
/// const comment #1
///
/// const comment #3
constexpr int32_t kC = 4u;
} // namespace wire
} // namespace test_doccomments
namespace fidl {
template <bool IsRecursive>
struct internal::WireCodingTraits<::test_doccomments::wire::MyStrictBits, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive> {
static constexpr size_t kInlineSize = sizeof(uint32_t);
static constexpr bool kIsMemcpyCompatible = false;
static void Encode(internal::WireEncoder* encoder, ::test_doccomments::wire::MyStrictBits* value, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
if (unlikely(static_cast<uint32_t>(*value) & ~3ull)) {
encoder->SetError(::fidl::internal::kCodingErrorUnknownBitSetInBitsValue);
}
*position.As<::test_doccomments::wire::MyStrictBits>() = *value;
}
static void Decode(internal::WireDecoder* decoder, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
::test_doccomments::wire::MyStrictBits value = *position.As<::test_doccomments::wire::MyStrictBits>();
if (unlikely(static_cast<uint32_t>(value) & ~3ull)) {
decoder->SetError(::fidl::internal::kCodingErrorUnknownBitSetInBitsValue);
}
}
};
template <bool IsRecursive>
struct internal::WireCodingTraits<::test_doccomments::wire::MyFlexibleBits, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive> {
static constexpr size_t kInlineSize = sizeof(uint32_t);
static constexpr bool kIsMemcpyCompatible = true;
static void Encode(internal::WireEncoder* encoder, ::test_doccomments::wire::MyFlexibleBits* value, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
*position.As<::test_doccomments::wire::MyFlexibleBits>() = *value;
}
static void Decode(internal::WireDecoder* decoder, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
}
};
template <bool IsRecursive>
struct internal::WireCodingTraits<::test_doccomments::wire::MyStrictEnum, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive> {
static constexpr size_t kInlineSize = sizeof(uint32_t);
static constexpr bool kIsMemcpyCompatible = false;
static void Encode(internal::WireEncoder* encoder, ::test_doccomments::wire::MyStrictEnum* value, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
switch (*value) {
case ::test_doccomments::wire::MyStrictEnum::kFoo:
case ::test_doccomments::wire::MyStrictEnum::kBar:
break;
default:
encoder->SetError(::fidl::internal::kCodingErrorUnknownEnumValue);
return;
}
*position.As<::test_doccomments::wire::MyStrictEnum>() = *value;
}
static void Decode(internal::WireDecoder* decoder, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
[[maybe_unused]] ::test_doccomments::wire::MyStrictEnum value = *position.As<::test_doccomments::wire::MyStrictEnum>();
switch (value) {
case ::test_doccomments::wire::MyStrictEnum::kFoo:
case ::test_doccomments::wire::MyStrictEnum::kBar:
break;
default:
decoder->SetError(::fidl::internal::kCodingErrorUnknownEnumValue);
return;
}
}
};
template <bool IsRecursive>
struct internal::WireCodingTraits<::test_doccomments::wire::MyFlexibleEnum, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive> {
static constexpr size_t kInlineSize = sizeof(uint32_t);
static constexpr bool kIsMemcpyCompatible = true;
static void Encode(internal::WireEncoder* encoder, ::test_doccomments::wire::MyFlexibleEnum* value, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
*position.As<::test_doccomments::wire::MyFlexibleEnum>() = *value;
}
static void Decode(internal::WireDecoder* decoder, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
}
};
template <>
struct TypeTraits<::test_doccomments::wire::Struct> {
static constexpr uint32_t kMaxNumHandles = 0;
static constexpr uint32_t kMaxDepth = 0;
static constexpr uint32_t kPrimarySize = 4;
[[maybe_unused]]
static constexpr uint32_t kMaxOutOfLine = 0;
static constexpr bool kHasFlexibleEnvelope = false;
static constexpr bool kHasPointer = false;
};
template <>
struct IsFidlType<::test_doccomments::wire::Struct> : public std::true_type {};
template <>
struct IsWire<::test_doccomments::wire::Struct> : public std::true_type {};
template <>
struct IsStruct<::test_doccomments::wire::Struct> : public std::true_type {};
static_assert(std::is_standard_layout_v<::test_doccomments::wire::Struct>);
static_assert(offsetof(::test_doccomments::wire::Struct, field) == 0);
static_assert(sizeof(::test_doccomments::wire::Struct) == TypeTraits<::test_doccomments::wire::Struct>::kPrimarySize);
template <bool IsRecursive>
struct ::fidl::internal::WireCodingTraits<::test_doccomments::wire::Struct, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive> {
static constexpr size_t kInlineSize = 4;
static constexpr auto kMembers = std::make_tuple(::fidl::internal::WireStructMemberCodingInfo<int32_t, fidl::internal::WireCodingConstraintEmpty, IsRecursive>());
static constexpr bool kHasPadding = false;
using Base = WireStructCodingTraitsBase<::test_doccomments::wire::Struct, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive>;
static constexpr bool kIsMemcpyCompatible = Base::kIsMemcpyCompatible;
static void Encode(
internal::WireEncoder* encoder, ::test_doccomments::wire::Struct* value, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
if constexpr (kIsMemcpyCompatible) {
memcpy(position.As<void>(), value, sizeof(::test_doccomments::wire::Struct));
} else {
internal::WireCodingTraits<int32_t, fidl::internal::WireCodingConstraintEmpty, IsRecursive>::Encode(encoder, &value->field, position + 0, recursion_depth);
}
}
static void Decode(
internal::WireDecoder* decoder, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
if constexpr (!Base::are_members_memcpy_compatible) {
internal::WireCodingTraits<int32_t, fidl::internal::WireCodingConstraintEmpty, IsRecursive>::Decode(
decoder, position + 0, recursion_depth);
}
}
};
template <>
struct TypeTraits<::test_doccomments::wire::Table> {
static constexpr uint32_t kMaxNumHandles = 0;
static constexpr uint32_t kMaxDepth = 2;
static constexpr uint32_t kPrimarySize = 16;
[[maybe_unused]]
static constexpr uint32_t kMaxOutOfLine = 8;
static constexpr bool kHasFlexibleEnvelope = true;
static constexpr bool kHasPointer = true;
};
template <>
struct IsFidlType<::test_doccomments::wire::Table> : public std::true_type {};
template <>
struct IsWire<::test_doccomments::wire::Table> : public std::true_type {};
template <>
struct IsTable<::test_doccomments::wire::Table> : public std::true_type {};
static_assert(std::is_standard_layout_v<::test_doccomments::wire::Table>);
template <bool IsRecursive>
struct ::fidl::internal::WireCodingTraits<::test_doccomments::wire::Table, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive>
: ::fidl::internal::WireTableCodingTraitsBase<IsRecursive> {
using Base = ::fidl::internal::WireTableCodingTraitsBase<IsRecursive>;
static constexpr size_t kInlineSize = 16;
static constexpr bool kIsMemcpyCompatible = false;
static void Encode(internal::WireEncoder* encoder, ::test_doccomments::wire::Table* value, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
RecursionDepth<IsRecursive> inner_depth = recursion_depth.Add(encoder, 2);
if (!inner_depth.IsValid()) {
return;
}
::fidl::internal::WirePosition vector_position;
if (Base::PreworkResult::kEarlyExit ==
Base::PrepareForBodyEncode(encoder, value, position, &vector_position)) {
return;
}
fidl_vector_t* vec = reinterpret_cast<fidl_vector_t*>(value);
fidl_envelope_t* envelopes = static_cast<fidl_envelope_t*>(vec->data);
for (size_t i = 0; i < vec->count; i++) {
size_t encode_inline_size = 0;
switch (i) {
case 0:
encode_inline_size = ::fidl::internal::WireCodingTraits<int32_t, fidl::internal::WireCodingConstraintEmpty, IsRecursive>::kInlineSize;
break;
}
::fidl::internal::EncodeFn<IsRecursive> encode_fn = nullptr;
switch (i) {
case 0:
encode_fn = ::fidl::internal::MakeEncodeFn<int32_t, fidl::internal::WireCodingConstraintEmpty, IsRecursive>();
break;
}
WirePosition envelope_position = vector_position + i * sizeof(fidl_envelope_t);
WireEncodeEnvelope(encode_inline_size, encode_fn, encoder, &envelopes[i], envelope_position, inner_depth);
}
}
static void Decode(internal::WireDecoder* decoder, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
RecursionDepth<IsRecursive> inner_depth = recursion_depth.Add(decoder, 2);
if (!inner_depth.IsValid()) {
return;
}
::fidl::internal::WirePosition vector_position;
if (Base::PreworkResult::kEarlyExit == Base::DecodePrework(decoder, position, &vector_position)) {
return;
}
fidl_vector_t* vec = position.As<fidl_vector_t>();
for (size_t i = 0; i < vec->count; i++) {
size_t decode_inline_size = 0;
switch (i) {
case 0:
decode_inline_size = ::fidl::internal::WireCodingTraits<int32_t, fidl::internal::WireCodingConstraintEmpty, IsRecursive>::kInlineSize;
break;
}
DecodeFn<IsRecursive> decode_fn = nullptr;
switch (i) {
case 0:
decode_fn = ::fidl::internal::MakeDecodeFn<int32_t, fidl::internal::WireCodingConstraintEmpty, IsRecursive>();
break;
}
::fidl::internal::WireDecodeOptionalEnvelope(decode_inline_size, decode_fn, decoder, vector_position + i * sizeof(fidl_envelope_t), inner_depth);
}
}
};
template <>
struct TypeTraits<::test_doccomments::wire::StrictUnion> {
static constexpr uint32_t kMaxNumHandles = 0;
static constexpr uint32_t kMaxDepth = 1;
static constexpr uint32_t kPrimarySize = 16;
[[maybe_unused]]
static constexpr uint32_t kMaxOutOfLine = 0;
static constexpr bool kHasFlexibleEnvelope = false;
static constexpr bool kHasPointer = true;
};
template <>
struct IsFidlType<::test_doccomments::wire::StrictUnion> : public std::true_type {};
template <>
struct IsWire<::test_doccomments::wire::StrictUnion> : public std::true_type {};
template <>
struct IsUnion<::test_doccomments::wire::StrictUnion> : public std::true_type {};
static_assert(std::is_standard_layout_v<::test_doccomments::wire::StrictUnion>);
template <typename Constraint, bool IsRecursive>
struct ::fidl::internal::WireCodingTraits<::test_doccomments::wire::StrictUnion, Constraint, IsRecursive> {
static constexpr size_t kInlineSize = 16;
static constexpr bool kIsMemcpyCompatible = false;
static void Encode(internal::WireEncoder* encoder, ::test_doccomments::wire::StrictUnion* value, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
fidl_union_t* u = reinterpret_cast<fidl_union_t*>(value);
if (unlikely(u->tag == 0)) {
if constexpr (Constraint::is_optional) {
*position.As<fidl_union_t>() = {};
return;
}
encoder->SetError(kCodingErrorInvalidUnionTag);
return;
}
RecursionDepth<IsRecursive> inner_depth = recursion_depth.Add(encoder, 1);
if (!inner_depth.IsValid()) {
return;
}
*position.As<fidl_xunion_tag_t>() = u->tag;
size_t encode_inline_size;
switch (u->tag) {
case 1: // ::test_doccomments::wire::StrictUnion::Tag::kField
encode_inline_size = ::fidl::internal::WireCodingTraits<int32_t, fidl::internal::WireCodingConstraintEmpty, IsRecursive>::kInlineSize;
break;
default:
encode_inline_size = 0;
break;
}
::fidl::internal::EncodeFn<IsRecursive> encode_fn;
switch (u->tag) {
case 1: // ::test_doccomments::wire::StrictUnion::Tag::kField
encode_fn = ::fidl::internal::MakeEncodeFn<int32_t, fidl::internal::WireCodingConstraintEmpty, IsRecursive>();
break;
default:
encode_fn = nullptr;
break;
}
WireEncodeEnvelope(encode_inline_size, encode_fn, encoder, &u->envelope, position + sizeof(fidl_xunion_tag_t), inner_depth);
}
static void Decode(internal::WireDecoder* decoder, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
::test_doccomments::wire::StrictUnion::Tag tag = *position.As<::test_doccomments::wire::StrictUnion::Tag>();
if (unlikely(static_cast<uint64_t>(tag) == 0)) {
if constexpr (!Constraint::is_optional) {
decoder->SetError(kCodingErrorInvalidUnionTag);
return;
}
static_assert(sizeof(fidl_envelope_t) == sizeof(uint64_t));
if (*(position + sizeof(fidl_xunion_tag_t)).As<uint64_t>() != 0) {
decoder->SetError(kCodingErrorZeroTagButNonZeroEnvelope);
}
return;
}
RecursionDepth<IsRecursive> inner_depth = recursion_depth.Add(decoder, 1);
if (!inner_depth.IsValid()) {
return;
}
size_t decode_inline_size;
switch (tag) {
case ::test_doccomments::wire::StrictUnion::Tag::kField:
decode_inline_size = ::fidl::internal::WireCodingTraits<int32_t, fidl::internal::WireCodingConstraintEmpty, IsRecursive>::kInlineSize;
break;
default:
decode_inline_size = 0;
break;
}
DecodeFn<IsRecursive> decode_fn;
switch (tag) {
case ::test_doccomments::wire::StrictUnion::Tag::kField:
decode_fn = ::fidl::internal::MakeDecodeFn<int32_t, fidl::internal::WireCodingConstraintEmpty, IsRecursive>();
break;
default:
decode_fn = nullptr;
break;
}
::fidl::internal::WireDecodeStrictEnvelope(decode_inline_size, decode_fn, decoder, position + sizeof(fidl_xunion_tag_t), inner_depth);
}
};
// Top-level union.
template <bool IsRecursive>
struct ::fidl::internal::WireCodingTraits<::test_doccomments::wire::StrictUnion, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive>
: public ::fidl::internal::WireCodingTraits<::test_doccomments::wire::StrictUnion, ::fidl::internal::WireCodingConstraintUnion<false>, IsRecursive> {};
template <>
struct TypeTraits<::test_doccomments::wire::FlexibleUnion> {
static constexpr uint32_t kMaxNumHandles = 0;
static constexpr uint32_t kMaxDepth = 1;
static constexpr uint32_t kPrimarySize = 16;
[[maybe_unused]]
static constexpr uint32_t kMaxOutOfLine = 0;
static constexpr bool kHasFlexibleEnvelope = true;
static constexpr bool kHasPointer = true;
};
template <>
struct IsFidlType<::test_doccomments::wire::FlexibleUnion> : public std::true_type {};
template <>
struct IsWire<::test_doccomments::wire::FlexibleUnion> : public std::true_type {};
template <>
struct IsUnion<::test_doccomments::wire::FlexibleUnion> : public std::true_type {};
static_assert(std::is_standard_layout_v<::test_doccomments::wire::FlexibleUnion>);
template <typename Constraint, bool IsRecursive>
struct ::fidl::internal::WireCodingTraits<::test_doccomments::wire::FlexibleUnion, Constraint, IsRecursive> {
static constexpr size_t kInlineSize = 16;
static constexpr bool kIsMemcpyCompatible = false;
static void Encode(internal::WireEncoder* encoder, ::test_doccomments::wire::FlexibleUnion* value, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
fidl_union_t* u = reinterpret_cast<fidl_union_t*>(value);
if (unlikely(u->tag == 0)) {
if constexpr (Constraint::is_optional) {
*position.As<fidl_union_t>() = {};
return;
}
encoder->SetError(kCodingErrorInvalidUnionTag);
return;
}
RecursionDepth<IsRecursive> inner_depth = recursion_depth.Add(encoder, 1);
if (!inner_depth.IsValid()) {
return;
}
*position.As<fidl_xunion_tag_t>() = u->tag;
size_t encode_inline_size;
switch (u->tag) {
case 1: // ::test_doccomments::wire::FlexibleUnion::Tag::kField
encode_inline_size = ::fidl::internal::WireCodingTraits<int32_t, fidl::internal::WireCodingConstraintEmpty, IsRecursive>::kInlineSize;
break;
default:
encode_inline_size = 0;
break;
}
::fidl::internal::EncodeFn<IsRecursive> encode_fn;
switch (u->tag) {
case 1: // ::test_doccomments::wire::FlexibleUnion::Tag::kField
encode_fn = ::fidl::internal::MakeEncodeFn<int32_t, fidl::internal::WireCodingConstraintEmpty, IsRecursive>();
break;
default:
encode_fn = nullptr;
break;
}
WireEncodeEnvelope(encode_inline_size, encode_fn, encoder, &u->envelope, position + sizeof(fidl_xunion_tag_t), inner_depth);
}
static void Decode(internal::WireDecoder* decoder, ::fidl::internal::WirePosition position, RecursionDepth<IsRecursive> recursion_depth) {
::test_doccomments::wire::FlexibleUnion::Tag tag = *position.As<::test_doccomments::wire::FlexibleUnion::Tag>();
if (unlikely(static_cast<uint64_t>(tag) == 0)) {
if constexpr (!Constraint::is_optional) {
decoder->SetError(kCodingErrorInvalidUnionTag);
return;
}
static_assert(sizeof(fidl_envelope_t) == sizeof(uint64_t));
if (*(position + sizeof(fidl_xunion_tag_t)).As<uint64_t>() != 0) {
decoder->SetError(kCodingErrorZeroTagButNonZeroEnvelope);
}
return;
}
RecursionDepth<IsRecursive> inner_depth = recursion_depth.Add(decoder, 1);
if (!inner_depth.IsValid()) {
return;
}
size_t decode_inline_size;
switch (tag) {
case ::test_doccomments::wire::FlexibleUnion::Tag::kField:
decode_inline_size = ::fidl::internal::WireCodingTraits<int32_t, fidl::internal::WireCodingConstraintEmpty, IsRecursive>::kInlineSize;
break;
default:
decode_inline_size = 0;
break;
}
DecodeFn<IsRecursive> decode_fn;
switch (tag) {
case ::test_doccomments::wire::FlexibleUnion::Tag::kField:
decode_fn = ::fidl::internal::MakeDecodeFn<int32_t, fidl::internal::WireCodingConstraintEmpty, IsRecursive>();
break;
default:
decode_fn = nullptr;
break;
}
::fidl::internal::WireDecodeFlexibleEnvelope(decode_inline_size, decode_fn, decoder, position + sizeof(fidl_xunion_tag_t), inner_depth);
}
};
// Top-level union.
template <bool IsRecursive>
struct ::fidl::internal::WireCodingTraits<::test_doccomments::wire::FlexibleUnion, ::fidl::internal::WireCodingConstraintEmpty, IsRecursive>
: public ::fidl::internal::WireCodingTraits<::test_doccomments::wire::FlexibleUnion, ::fidl::internal::WireCodingConstraintUnion<false>, IsRecursive> {};
#pragma clang diagnostic pop
} // namespace fidl