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fuchsia / fuchsia / refs/heads/releases/canary / . / tools / fidl / fidlgen_cpp / goldens / protocol_layouts_wire_types.cc.golden
blob: 09ca00cf690186419eba7cd68639273f2a508ac5 [file] [log] [blame]
// WARNING: This file is machine generated by fidlgen.
// fidl_experiment = output_index_json
#include <fidl/test.protocollayouts/cpp/wire_types.h>
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wshadow"
auto ::test_protocollayouts::wire::LocalUnionPayload::Which() const -> ::test_protocollayouts::wire::LocalUnionPayload::Tag {
ZX_ASSERT(!has_invalid_tag());
switch (ordinal_) {
case ::test_protocollayouts::wire::LocalUnionPayload::Ordinal::kB:
return static_cast<::test_protocollayouts::wire::LocalUnionPayload::Tag>(ordinal_);
default:
return ::test_protocollayouts::wire::LocalUnionPayload::Tag::_do_not_handle_this__write_a_default_case_instead;
}
}
void ::test_protocollayouts::wire::LocalUnionPayload::SizeAndOffsetAssertionHelper() {
static_assert(sizeof(LocalUnionPayload) == sizeof(fidl_union_t));
static_assert(offsetof(LocalUnionPayload, ordinal_) == offsetof(fidl_union_t, tag));
static_assert(offsetof(LocalUnionPayload, envelope_) == offsetof(fidl_union_t, envelope));
}
void ::test_protocollayouts::wire::MainProtocolTwoWayImportWithErrorResult::SizeAndOffsetAssertionHelper() {
static_assert(sizeof(MainProtocolTwoWayImportWithErrorResult) == sizeof(fidl_union_t));
static_assert(offsetof(MainProtocolTwoWayImportWithErrorResult, ordinal_) == offsetof(fidl_union_t, tag));
static_assert(offsetof(MainProtocolTwoWayImportWithErrorResult, envelope_) == offsetof(fidl_union_t, envelope));
}
void ::test_protocollayouts::wire::MainProtocolTwoWayLocalWithErrorResult::SizeAndOffsetAssertionHelper() {
static_assert(sizeof(MainProtocolTwoWayLocalWithErrorResult) == sizeof(fidl_union_t));
static_assert(offsetof(MainProtocolTwoWayLocalWithErrorResult, ordinal_) == offsetof(fidl_union_t, tag));
static_assert(offsetof(MainProtocolTwoWayLocalWithErrorResult, envelope_) == offsetof(fidl_union_t, envelope));
}
auto ::test_protocollayouts::wire::MainProtocolTwoWayAnonRequest::Which() const -> ::test_protocollayouts::wire::MainProtocolTwoWayAnonRequest::Tag {
ZX_ASSERT(!has_invalid_tag());
switch (ordinal_) {
case ::test_protocollayouts::wire::MainProtocolTwoWayAnonRequest::Ordinal::kB:
return static_cast<::test_protocollayouts::wire::MainProtocolTwoWayAnonRequest::Tag>(ordinal_);
default:
return ::test_protocollayouts::wire::MainProtocolTwoWayAnonRequest::Tag::_do_not_handle_this__write_a_default_case_instead;
}
}
void ::test_protocollayouts::wire::MainProtocolTwoWayAnonRequest::SizeAndOffsetAssertionHelper() {
static_assert(sizeof(MainProtocolTwoWayAnonRequest) == sizeof(fidl_union_t));
static_assert(offsetof(MainProtocolTwoWayAnonRequest, ordinal_) == offsetof(fidl_union_t, tag));
static_assert(offsetof(MainProtocolTwoWayAnonRequest, envelope_) == offsetof(fidl_union_t, envelope));
}
auto ::test_protocollayouts::wire::MainProtocolTwoWayAnonWithErrorResponse::Which() const -> ::test_protocollayouts::wire::MainProtocolTwoWayAnonWithErrorResponse::Tag {
ZX_ASSERT(!has_invalid_tag());
switch (ordinal_) {
case ::test_protocollayouts::wire::MainProtocolTwoWayAnonWithErrorResponse::Ordinal::kB:
return static_cast<::test_protocollayouts::wire::MainProtocolTwoWayAnonWithErrorResponse::Tag>(ordinal_);
default:
return ::test_protocollayouts::wire::MainProtocolTwoWayAnonWithErrorResponse::Tag::_do_not_handle_this__write_a_default_case_instead;
}
}
void ::test_protocollayouts::wire::MainProtocolTwoWayAnonWithErrorResponse::SizeAndOffsetAssertionHelper() {
static_assert(sizeof(MainProtocolTwoWayAnonWithErrorResponse) == sizeof(fidl_union_t));
static_assert(offsetof(MainProtocolTwoWayAnonWithErrorResponse, ordinal_) == offsetof(fidl_union_t, tag));
static_assert(offsetof(MainProtocolTwoWayAnonWithErrorResponse, envelope_) == offsetof(fidl_union_t, envelope));
}
void ::test_protocollayouts::wire::MainProtocolTwoWayAnonWithErrorResult::SizeAndOffsetAssertionHelper() {
static_assert(sizeof(MainProtocolTwoWayAnonWithErrorResult) == sizeof(fidl_union_t));
static_assert(offsetof(MainProtocolTwoWayAnonWithErrorResult, ordinal_) == offsetof(fidl_union_t, tag));
static_assert(offsetof(MainProtocolTwoWayAnonWithErrorResult, envelope_) == offsetof(fidl_union_t, envelope));
}
auto ::test_protocollayouts::wire::MainProtocolOnAnonRequest::Which() const -> ::test_protocollayouts::wire::MainProtocolOnAnonRequest::Tag {
ZX_ASSERT(!has_invalid_tag());
switch (ordinal_) {
case ::test_protocollayouts::wire::MainProtocolOnAnonRequest::Ordinal::kB:
return static_cast<::test_protocollayouts::wire::MainProtocolOnAnonRequest::Tag>(ordinal_);
default:
return ::test_protocollayouts::wire::MainProtocolOnAnonRequest::Tag::_do_not_handle_this__write_a_default_case_instead;
}
}
void ::test_protocollayouts::wire::MainProtocolOnAnonRequest::SizeAndOffsetAssertionHelper() {
static_assert(sizeof(MainProtocolOnAnonRequest) == sizeof(fidl_union_t));
static_assert(offsetof(MainProtocolOnAnonRequest, ordinal_) == offsetof(fidl_union_t, tag));
static_assert(offsetof(MainProtocolOnAnonRequest, envelope_) == offsetof(fidl_union_t, envelope));
}
bool ::fidl::WireTableFrame<::test_protocollayouts::wire::LocalTablePayload>::HasUnknownData() const {
return false;
}
uint64_t fidl::WireTableFrame<::test_protocollayouts::wire::LocalTablePayload>::ComputeMaxOrdinal() const {
uint64_t max_ordinal = 0;
if (!a_.has_data()) {
max_ordinal = 1;
}
return max_ordinal;
}
bool ::test_protocollayouts::wire::LocalTablePayload::HasUnknownData() const {
if (max_ordinal_ > 1) {
return true;
}
if (frame_ptr_ == nullptr) {
return false;
}
return frame_ptr_->HasUnknownData();
}
bool ::fidl::WireTableFrame<::test_protocollayouts::wire::MainProtocolOneWayAnonRequest>::HasUnknownData() const {
return false;
}
uint64_t fidl::WireTableFrame<::test_protocollayouts::wire::MainProtocolOneWayAnonRequest>::ComputeMaxOrdinal() const {
uint64_t max_ordinal = 0;
if (!a_.has_data()) {
max_ordinal = 1;
}
return max_ordinal;
}
bool ::test_protocollayouts::wire::MainProtocolOneWayAnonRequest::HasUnknownData() const {
if (max_ordinal_ > 1) {
return true;
}
if (frame_ptr_ == nullptr) {
return false;
}
return frame_ptr_->HasUnknownData();
}
bool ::fidl::WireTableFrame<::test_protocollayouts::wire::MainProtocolTwoWayAnonResponse>::HasUnknownData() const {
return false;
}
uint64_t fidl::WireTableFrame<::test_protocollayouts::wire::MainProtocolTwoWayAnonResponse>::ComputeMaxOrdinal() const {
uint64_t max_ordinal = 0;
if (!a_.has_data()) {
max_ordinal = 1;
}
return max_ordinal;
}
bool ::test_protocollayouts::wire::MainProtocolTwoWayAnonResponse::HasUnknownData() const {
if (max_ordinal_ > 1) {
return true;
}
if (frame_ptr_ == nullptr) {
return false;
}
return frame_ptr_->HasUnknownData();
}
bool ::fidl::WireTableFrame<::test_protocollayouts::wire::MainProtocolTwoWayAnonWithErrorRequest>::HasUnknownData() const {
return false;
}
uint64_t fidl::WireTableFrame<::test_protocollayouts::wire::MainProtocolTwoWayAnonWithErrorRequest>::ComputeMaxOrdinal() const {
uint64_t max_ordinal = 0;
if (!a_.has_data()) {
max_ordinal = 1;
}
return max_ordinal;
}
bool ::test_protocollayouts::wire::MainProtocolTwoWayAnonWithErrorRequest::HasUnknownData() const {
if (max_ordinal_ > 1) {
return true;
}
if (frame_ptr_ == nullptr) {
return false;
}
return frame_ptr_->HasUnknownData();
}
#pragma clang diagnostic pop