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chromium / chromiumos / codesearch / gen / arm64-generic / b732042866598138608f8de69761be8166813e97 / . / src / out / arm64-generic / gen / include / camera / mojo / camera_diagnostics.mojom-shared-internal.h
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// camera/mojo/camera_diagnostics.mojom-shared-internal.h is auto generated by mojom_bindings_generator.py, do not edit
// Copyright 2016 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef CAMERA_MOJO_CAMERA_DIAGNOSTICS_MOJOM_SHARED_INTERNAL_H_
#define CAMERA_MOJO_CAMERA_DIAGNOSTICS_MOJOM_SHARED_INTERNAL_H_
#include "mojo/public/cpp/bindings/lib/array_internal.h"
#include "mojo/public/cpp/bindings/lib/bindings_internal.h"
#include "mojo/public/cpp/bindings/lib/map_data_internal.h"
#include "mojo/public/cpp/bindings/lib/buffer.h"
#include "mojo/public/cpp/bindings/lib/native_enum_data.h"
#include "mojo/public/interfaces/bindings/native_struct.mojom-shared-internal.h"
namespace mojo {
namespace internal {
class ValidationContext;
}
}
namespace cros::camera_diag::mojom {
namespace internal {
class AnalyzerResult_Data;
class DiagnosticsResult_Data;
class FrameAnalysisConfig_Data;
class CameraFrameBuffer_Data;
class CameraStream_Data;
class CameraFrame_Data;
class StreamingConfig_Data;
class FrameAnalysisResult_Data;
class StartStreamingResult_Data;
struct AnalyzerStatus_Data {
public:
static bool constexpr kIsExtensible = false;
static bool IsKnownValue(int32_t value) {
switch (value) {
case 0:
case 1:
case 2:
return true;
}
return false;
}
static bool Validate(int32_t value,
mojo::internal::ValidationContext* validation_context) {
if (kIsExtensible || IsKnownValue(value))
return true;
ReportValidationError(validation_context,
mojo::internal::VALIDATION_ERROR_UNKNOWN_ENUM_VALUE);
return false;
}
};
struct AnalyzerType_Data {
public:
static bool constexpr kIsExtensible = true;
static bool IsKnownValue(int32_t value) {
switch (value) {
case 0:
case 1:
case 2:
return true;
}
return false;
}
static bool Validate(int32_t value,
mojo::internal::ValidationContext* validation_context) {
if (kIsExtensible || IsKnownValue(value))
return true;
ReportValidationError(validation_context,
mojo::internal::VALIDATION_ERROR_UNKNOWN_ENUM_VALUE);
return false;
}
};
struct CameraIssue_Data {
public:
static bool constexpr kIsExtensible = true;
static bool IsKnownValue(int32_t value) {
switch (value) {
case 0:
case 1:
case 2:
case 3:
case 4:
return true;
}
return false;
}
static bool Validate(int32_t value,
mojo::internal::ValidationContext* validation_context) {
if (kIsExtensible || IsKnownValue(value))
return true;
ReportValidationError(validation_context,
mojo::internal::VALIDATION_ERROR_UNKNOWN_ENUM_VALUE);
return false;
}
};
struct ClientType_Data {
public:
static bool constexpr kIsExtensible = true;
static bool IsKnownValue(int32_t value) {
switch (value) {
case 0:
case 1:
case 2:
return true;
}
return false;
}
static bool Validate(int32_t value,
mojo::internal::ValidationContext* validation_context) {
if (kIsExtensible || IsKnownValue(value))
return true;
ReportValidationError(validation_context,
mojo::internal::VALIDATION_ERROR_UNKNOWN_ENUM_VALUE);
return false;
}
};
struct DataSource_Data {
public:
static bool constexpr kIsExtensible = true;
static bool IsKnownValue(int32_t value) {
switch (value) {
case 0:
case 1:
case 2:
case 3:
return true;
}
return false;
}
static bool Validate(int32_t value,
mojo::internal::ValidationContext* validation_context) {
if (kIsExtensible || IsKnownValue(value))
return true;
ReportValidationError(validation_context,
mojo::internal::VALIDATION_ERROR_UNKNOWN_ENUM_VALUE);
return false;
}
};
struct ErrorCode_Data {
public:
static bool constexpr kIsExtensible = true;
static bool IsKnownValue(int32_t value) {
switch (value) {
case 0:
case 1:
case 2:
case 3:
case 4:
case 5:
case 6:
case 7:
return true;
}
return false;
}
static bool Validate(int32_t value,
mojo::internal::ValidationContext* validation_context) {
if (kIsExtensible || IsKnownValue(value))
return true;
ReportValidationError(validation_context,
mojo::internal::VALIDATION_ERROR_UNKNOWN_ENUM_VALUE);
return false;
}
};
struct PixelFormat_Data {
public:
static bool constexpr kIsExtensible = true;
static bool IsKnownValue(int32_t value) {
switch (value) {
case 0:
case 1:
return true;
}
return false;
}
static bool Validate(int32_t value,
mojo::internal::ValidationContext* validation_context) {
if (kIsExtensible || IsKnownValue(value))
return true;
ReportValidationError(validation_context,
mojo::internal::VALIDATION_ERROR_UNKNOWN_ENUM_VALUE);
return false;
}
};
#pragma pack(push, 1)
class FrameAnalysisResult_Data {
public:
// Used to identify Mojom Union Data Classes.
typedef void MojomUnionDataType;
FrameAnalysisResult_Data() = default;
// Do nothing in the destructor since it won't be called when it is a
// non-inlined union.
~FrameAnalysisResult_Data() = default;
static bool Validate(const void* data,
mojo::internal::ValidationContext* validation_context,
bool inlined);
bool is_null() const { return size == 0; }
void set_null() {
size = 0U;
tag = static_cast<FrameAnalysisResult_Tag>(0);
data.unknown = 0U;
}
// TODO(crbug.com/40731316): SHOUTY_CASE values are being deprecated per C++ code style
// guidelines (https://google.github.io/styleguide/cppguide.html#Enumerator_Names),
// please use kCamelCase values instead. Cleanup NULL_VALUE, BOOL_VALUE, INT_VALUE, etc.
// generation once codebase is transitioned to kNullValue, kBoolValue, kIntValue, etc.
enum class FrameAnalysisResult_Tag : uint32_t {
kError,
kRes,
};
// A note on layout:
// "Each non-static data member is allocated as if it were the sole member of
// a struct." - Section 9.5.2 ISO/IEC 14882:2011 (The C++ Spec)
union MOJO_ALIGNAS(8) Union_ {
Union_() : unknown(0) {}
int32_t f_error;
mojo::internal::Pointer<internal::DiagnosticsResult_Data> f_res;
uint64_t unknown;
};
uint32_t size;
FrameAnalysisResult_Tag tag;
Union_ data;
};
static_assert(sizeof(FrameAnalysisResult_Data) == mojo::internal::kUnionDataSize,
"Bad sizeof(FrameAnalysisResult_Data)");
class StartStreamingResult_Data {
public:
// Used to identify Mojom Union Data Classes.
typedef void MojomUnionDataType;
StartStreamingResult_Data() = default;
// Do nothing in the destructor since it won't be called when it is a
// non-inlined union.
~StartStreamingResult_Data() = default;
static bool Validate(const void* data,
mojo::internal::ValidationContext* validation_context,
bool inlined);
bool is_null() const { return size == 0; }
void set_null() {
size = 0U;
tag = static_cast<StartStreamingResult_Tag>(0);
data.unknown = 0U;
}
// TODO(crbug.com/40731316): SHOUTY_CASE values are being deprecated per C++ code style
// guidelines (https://google.github.io/styleguide/cppguide.html#Enumerator_Names),
// please use kCamelCase values instead. Cleanup NULL_VALUE, BOOL_VALUE, INT_VALUE, etc.
// generation once codebase is transitioned to kNullValue, kBoolValue, kIntValue, etc.
enum class StartStreamingResult_Tag : uint32_t {
kError,
kStream,
};
// A note on layout:
// "Each non-static data member is allocated as if it were the sole member of
// a struct." - Section 9.5.2 ISO/IEC 14882:2011 (The C++ Spec)
union MOJO_ALIGNAS(8) Union_ {
Union_() : unknown(0) {}
int32_t f_error;
mojo::internal::Pointer<internal::CameraStream_Data> f_stream;
uint64_t unknown;
};
uint32_t size;
StartStreamingResult_Tag tag;
Union_ data;
};
static_assert(sizeof(StartStreamingResult_Data) == mojo::internal::kUnionDataSize,
"Bad sizeof(StartStreamingResult_Data)");
class AnalyzerResult_Data {
public:
static bool Validate(const void* data,
mojo::internal::ValidationContext* validation_context);
mojo::internal::StructHeader header_;
int32_t type;
int32_t status;
private:
friend class mojo::internal::MessageFragment<AnalyzerResult_Data>;
AnalyzerResult_Data();
~AnalyzerResult_Data() = delete;
};
static_assert(sizeof(AnalyzerResult_Data) == 16,
"Bad sizeof(AnalyzerResult_Data)");
// Used by AnalyzerResult::WrapAsMessage to lazily serialize the struct.
template <typename UserType, typename DataView>
struct AnalyzerResult_UnserializedMessageContext
: public mojo::internal::UnserializedMessageContext {
public:
static const mojo::internal::UnserializedMessageContext::Tag kMessageTag;
AnalyzerResult_UnserializedMessageContext(
uint32_t message_name,
uint32_t message_flags,
UserType input)
: mojo::internal::UnserializedMessageContext(&kMessageTag, message_name, message_flags)
, user_data_(std::move(input)) {}
~AnalyzerResult_UnserializedMessageContext() override = default;
UserType TakeData() {
return std::move(user_data_);
}
private:
// mojo::internal::UnserializedMessageContext:
void Serialize(mojo::Message& message) override {
mojo::internal::MessageFragment<AnalyzerResult_Data> fragment(message);
mojo::internal::Serialize<DataView>(user_data_, fragment);
}
UserType user_data_;
};
template <typename UserType, typename DataView>
const mojo::internal::UnserializedMessageContext::Tag
AnalyzerResult_UnserializedMessageContext<UserType, DataView>::kMessageTag = {};
class DiagnosticsResult_Data {
public:
static bool Validate(const void* data,
mojo::internal::ValidationContext* validation_context);
mojo::internal::StructHeader header_;
uint32_t numeber_of_analyzed_frames;
int32_t suggested_issue;
mojo::internal::Pointer<mojo::internal::Array_Data<mojo::internal::Pointer<internal::AnalyzerResult_Data>>> analyzer_results;
private:
friend class mojo::internal::MessageFragment<DiagnosticsResult_Data>;
DiagnosticsResult_Data();
~DiagnosticsResult_Data() = delete;
};
static_assert(sizeof(DiagnosticsResult_Data) == 24,
"Bad sizeof(DiagnosticsResult_Data)");
// Used by DiagnosticsResult::WrapAsMessage to lazily serialize the struct.
template <typename UserType, typename DataView>
struct DiagnosticsResult_UnserializedMessageContext
: public mojo::internal::UnserializedMessageContext {
public:
static const mojo::internal::UnserializedMessageContext::Tag kMessageTag;
DiagnosticsResult_UnserializedMessageContext(
uint32_t message_name,
uint32_t message_flags,
UserType input)
: mojo::internal::UnserializedMessageContext(&kMessageTag, message_name, message_flags)
, user_data_(std::move(input)) {}
~DiagnosticsResult_UnserializedMessageContext() override = default;
UserType TakeData() {
return std::move(user_data_);
}
private:
// mojo::internal::UnserializedMessageContext:
void Serialize(mojo::Message& message) override {
mojo::internal::MessageFragment<DiagnosticsResult_Data> fragment(message);
mojo::internal::Serialize<DataView>(user_data_, fragment);
}
UserType user_data_;
};
template <typename UserType, typename DataView>
const mojo::internal::UnserializedMessageContext::Tag
DiagnosticsResult_UnserializedMessageContext<UserType, DataView>::kMessageTag = {};
class FrameAnalysisConfig_Data {
public:
static bool Validate(const void* data,
mojo::internal::ValidationContext* validation_context);
mojo::internal::StructHeader header_;
int32_t client_type;
uint32_t duration_ms;
private:
friend class mojo::internal::MessageFragment<FrameAnalysisConfig_Data>;
FrameAnalysisConfig_Data();
~FrameAnalysisConfig_Data() = delete;
};
static_assert(sizeof(FrameAnalysisConfig_Data) == 16,
"Bad sizeof(FrameAnalysisConfig_Data)");
// Used by FrameAnalysisConfig::WrapAsMessage to lazily serialize the struct.
template <typename UserType, typename DataView>
struct FrameAnalysisConfig_UnserializedMessageContext
: public mojo::internal::UnserializedMessageContext {
public:
static const mojo::internal::UnserializedMessageContext::Tag kMessageTag;
FrameAnalysisConfig_UnserializedMessageContext(
uint32_t message_name,
uint32_t message_flags,
UserType input)
: mojo::internal::UnserializedMessageContext(&kMessageTag, message_name, message_flags)
, user_data_(std::move(input)) {}
~FrameAnalysisConfig_UnserializedMessageContext() override = default;
UserType TakeData() {
return std::move(user_data_);
}
private:
// mojo::internal::UnserializedMessageContext:
void Serialize(mojo::Message& message) override {
mojo::internal::MessageFragment<FrameAnalysisConfig_Data> fragment(message);
mojo::internal::Serialize<DataView>(user_data_, fragment);
}
UserType user_data_;
};
template <typename UserType, typename DataView>
const mojo::internal::UnserializedMessageContext::Tag
FrameAnalysisConfig_UnserializedMessageContext<UserType, DataView>::kMessageTag = {};
class CameraFrameBuffer_Data {
public:
static bool Validate(const void* data,
mojo::internal::ValidationContext* validation_context);
mojo::internal::StructHeader header_;
uint32_t size;
mojo::internal::Handle_Data shm_handle;
private:
friend class mojo::internal::MessageFragment<CameraFrameBuffer_Data>;
CameraFrameBuffer_Data();
~CameraFrameBuffer_Data() = delete;
};
static_assert(sizeof(CameraFrameBuffer_Data) == 16,
"Bad sizeof(CameraFrameBuffer_Data)");
// Used by CameraFrameBuffer::WrapAsMessage to lazily serialize the struct.
template <typename UserType, typename DataView>
struct CameraFrameBuffer_UnserializedMessageContext
: public mojo::internal::UnserializedMessageContext {
public:
static const mojo::internal::UnserializedMessageContext::Tag kMessageTag;
CameraFrameBuffer_UnserializedMessageContext(
uint32_t message_name,
uint32_t message_flags,
UserType input)
: mojo::internal::UnserializedMessageContext(&kMessageTag, message_name, message_flags)
, user_data_(std::move(input)) {}
~CameraFrameBuffer_UnserializedMessageContext() override = default;
UserType TakeData() {
return std::move(user_data_);
}
private:
// mojo::internal::UnserializedMessageContext:
void Serialize(mojo::Message& message) override {
mojo::internal::MessageFragment<CameraFrameBuffer_Data> fragment(message);
mojo::internal::Serialize<DataView>(user_data_, fragment);
}
UserType user_data_;
};
template <typename UserType, typename DataView>
const mojo::internal::UnserializedMessageContext::Tag
CameraFrameBuffer_UnserializedMessageContext<UserType, DataView>::kMessageTag = {};
class CameraStream_Data {
public:
static bool Validate(const void* data,
mojo::internal::ValidationContext* validation_context);
mojo::internal::StructHeader header_;
uint32_t width;
uint32_t height;
int32_t pixel_format;
uint8_t padfinal_[4];
private:
friend class mojo::internal::MessageFragment<CameraStream_Data>;
CameraStream_Data();
~CameraStream_Data() = delete;
};
static_assert(sizeof(CameraStream_Data) == 24,
"Bad sizeof(CameraStream_Data)");
// Used by CameraStream::WrapAsMessage to lazily serialize the struct.
template <typename UserType, typename DataView>
struct CameraStream_UnserializedMessageContext
: public mojo::internal::UnserializedMessageContext {
public:
static const mojo::internal::UnserializedMessageContext::Tag kMessageTag;
CameraStream_UnserializedMessageContext(
uint32_t message_name,
uint32_t message_flags,
UserType input)
: mojo::internal::UnserializedMessageContext(&kMessageTag, message_name, message_flags)
, user_data_(std::move(input)) {}
~CameraStream_UnserializedMessageContext() override = default;
UserType TakeData() {
return std::move(user_data_);
}
private:
// mojo::internal::UnserializedMessageContext:
void Serialize(mojo::Message& message) override {
mojo::internal::MessageFragment<CameraStream_Data> fragment(message);
mojo::internal::Serialize<DataView>(user_data_, fragment);
}
UserType user_data_;
};
template <typename UserType, typename DataView>
const mojo::internal::UnserializedMessageContext::Tag
CameraStream_UnserializedMessageContext<UserType, DataView>::kMessageTag = {};
class CameraFrame_Data {
public:
static bool Validate(const void* data,
mojo::internal::ValidationContext* validation_context);
mojo::internal::StructHeader header_;
mojo::internal::Pointer<internal::CameraStream_Data> stream;
uint8_t frame_number_$flag : 1;
uint8_t is_empty : 1;
uint8_t pad2_[3];
uint32_t frame_number_$value;
int32_t source;
uint8_t pad4_[4];
mojo::internal::Pointer<internal::CameraFrameBuffer_Data> buffer;
private:
friend class mojo::internal::MessageFragment<CameraFrame_Data>;
CameraFrame_Data();
~CameraFrame_Data() = delete;
};
static_assert(sizeof(CameraFrame_Data) == 40,
"Bad sizeof(CameraFrame_Data)");
// Used by CameraFrame::WrapAsMessage to lazily serialize the struct.
template <typename UserType, typename DataView>
struct CameraFrame_UnserializedMessageContext
: public mojo::internal::UnserializedMessageContext {
public:
static const mojo::internal::UnserializedMessageContext::Tag kMessageTag;
CameraFrame_UnserializedMessageContext(
uint32_t message_name,
uint32_t message_flags,
UserType input)
: mojo::internal::UnserializedMessageContext(&kMessageTag, message_name, message_flags)
, user_data_(std::move(input)) {}
~CameraFrame_UnserializedMessageContext() override = default;
UserType TakeData() {
return std::move(user_data_);
}
private:
// mojo::internal::UnserializedMessageContext:
void Serialize(mojo::Message& message) override {
mojo::internal::MessageFragment<CameraFrame_Data> fragment(message);
mojo::internal::Serialize<DataView>(user_data_, fragment);
}
UserType user_data_;
};
template <typename UserType, typename DataView>
const mojo::internal::UnserializedMessageContext::Tag
CameraFrame_UnserializedMessageContext<UserType, DataView>::kMessageTag = {};
class StreamingConfig_Data {
public:
static bool Validate(const void* data,
mojo::internal::ValidationContext* validation_context);
mojo::internal::StructHeader header_;
uint32_t frame_interval;
uint8_t padfinal_[4];
private:
friend class mojo::internal::MessageFragment<StreamingConfig_Data>;
StreamingConfig_Data();
~StreamingConfig_Data() = delete;
};
static_assert(sizeof(StreamingConfig_Data) == 16,
"Bad sizeof(StreamingConfig_Data)");
// Used by StreamingConfig::WrapAsMessage to lazily serialize the struct.
template <typename UserType, typename DataView>
struct StreamingConfig_UnserializedMessageContext
: public mojo::internal::UnserializedMessageContext {
public:
static const mojo::internal::UnserializedMessageContext::Tag kMessageTag;
StreamingConfig_UnserializedMessageContext(
uint32_t message_name,
uint32_t message_flags,
UserType input)
: mojo::internal::UnserializedMessageContext(&kMessageTag, message_name, message_flags)
, user_data_(std::move(input)) {}
~StreamingConfig_UnserializedMessageContext() override = default;
UserType TakeData() {
return std::move(user_data_);
}
private:
// mojo::internal::UnserializedMessageContext:
void Serialize(mojo::Message& message) override {
mojo::internal::MessageFragment<StreamingConfig_Data> fragment(message);
mojo::internal::Serialize<DataView>(user_data_, fragment);
}
UserType user_data_;
};
template <typename UserType, typename DataView>
const mojo::internal::UnserializedMessageContext::Tag
StreamingConfig_UnserializedMessageContext<UserType, DataView>::kMessageTag = {};
#pragma pack(pop)
} // namespace internal
} // cros::camera_diag::mojom
#endif // CAMERA_MOJO_CAMERA_DIAGNOSTICS_MOJOM_SHARED_INTERNAL_H_