| // Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT. |
| |
| #ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_THERMAL_PROTO_H_ |
| #define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_THERMAL_PROTO_H_ |
| |
| #include <stddef.h> |
| #include <stdint.h> |
| |
| #include "perfetto/protozero/field_writer.h" |
| #include "perfetto/protozero/message.h" |
| #include "perfetto/protozero/packed_repeated_fields.h" |
| #include "perfetto/protozero/proto_decoder.h" |
| #include "perfetto/protozero/proto_utils.h" |
| |
| namespace perfetto { |
| namespace protos { |
| namespace pbzero { |
| |
| |
| class CdevUpdateFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> { |
| public: |
| CdevUpdateFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {} |
| explicit CdevUpdateFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {} |
| explicit CdevUpdateFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {} |
| bool has_target() const { return at<1>().valid(); } |
| uint64_t target() const { return at<1>().as_uint64(); } |
| bool has_type() const { return at<2>().valid(); } |
| ::protozero::ConstChars type() const { return at<2>().as_string(); } |
| }; |
| |
| class CdevUpdateFtraceEvent : public ::protozero::Message { |
| public: |
| using Decoder = CdevUpdateFtraceEvent_Decoder; |
| enum : int32_t { |
| kTargetFieldNumber = 1, |
| kTypeFieldNumber = 2, |
| }; |
| |
| using FieldMetadata_Target = |
| ::protozero::proto_utils::FieldMetadata< |
| 1, |
| ::protozero::proto_utils::RepetitionType::kNotRepeated, |
| ::protozero::proto_utils::ProtoSchemaType::kUint64, |
| uint64_t, |
| CdevUpdateFtraceEvent>; |
| |
| // Ceci n'est pas une pipe. |
| // This is actually a variable of FieldMetadataHelper<FieldMetadata<...>> |
| // type (and users are expected to use it as such, hence kCamelCase name). |
| // It is declared as a function to keep protozero bindings header-only as |
| // inline constexpr variables are not available until C++17 (while inline |
| // functions are). |
| // TODO(altimin): Use inline variable instead after adopting C++17. |
| static constexpr FieldMetadata_Target kTarget() { return {}; } |
| void set_target(uint64_t value) { |
| static constexpr uint32_t field_id = FieldMetadata_Target::kFieldId; |
| // Call the appropriate protozero::Message::Append(field_id, ...) |
| // method based on the type of the field. |
| ::protozero::internal::FieldWriter< |
| ::protozero::proto_utils::ProtoSchemaType::kUint64> |
| ::Append(*this, field_id, value); |
| } |
| |
| using FieldMetadata_Type = |
| ::protozero::proto_utils::FieldMetadata< |
| 2, |
| ::protozero::proto_utils::RepetitionType::kNotRepeated, |
| ::protozero::proto_utils::ProtoSchemaType::kString, |
| std::string, |
| CdevUpdateFtraceEvent>; |
| |
| // Ceci n'est pas une pipe. |
| // This is actually a variable of FieldMetadataHelper<FieldMetadata<...>> |
| // type (and users are expected to use it as such, hence kCamelCase name). |
| // It is declared as a function to keep protozero bindings header-only as |
| // inline constexpr variables are not available until C++17 (while inline |
| // functions are). |
| // TODO(altimin): Use inline variable instead after adopting C++17. |
| static constexpr FieldMetadata_Type kType() { return {}; } |
| void set_type(const char* data, size_t size) { |
| AppendBytes(FieldMetadata_Type::kFieldId, data, size); |
| } |
| void set_type(std::string value) { |
| static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId; |
| // Call the appropriate protozero::Message::Append(field_id, ...) |
| // method based on the type of the field. |
| ::protozero::internal::FieldWriter< |
| ::protozero::proto_utils::ProtoSchemaType::kString> |
| ::Append(*this, field_id, value); |
| } |
| }; |
| |
| class ThermalTemperatureFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> { |
| public: |
| ThermalTemperatureFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {} |
| explicit ThermalTemperatureFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {} |
| explicit ThermalTemperatureFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {} |
| bool has_id() const { return at<1>().valid(); } |
| int32_t id() const { return at<1>().as_int32(); } |
| bool has_temp() const { return at<2>().valid(); } |
| int32_t temp() const { return at<2>().as_int32(); } |
| bool has_temp_prev() const { return at<3>().valid(); } |
| int32_t temp_prev() const { return at<3>().as_int32(); } |
| bool has_thermal_zone() const { return at<4>().valid(); } |
| ::protozero::ConstChars thermal_zone() const { return at<4>().as_string(); } |
| }; |
| |
| class ThermalTemperatureFtraceEvent : public ::protozero::Message { |
| public: |
| using Decoder = ThermalTemperatureFtraceEvent_Decoder; |
| enum : int32_t { |
| kIdFieldNumber = 1, |
| kTempFieldNumber = 2, |
| kTempPrevFieldNumber = 3, |
| kThermalZoneFieldNumber = 4, |
| }; |
| |
| using FieldMetadata_Id = |
| ::protozero::proto_utils::FieldMetadata< |
| 1, |
| ::protozero::proto_utils::RepetitionType::kNotRepeated, |
| ::protozero::proto_utils::ProtoSchemaType::kInt32, |
| int32_t, |
| ThermalTemperatureFtraceEvent>; |
| |
| // Ceci n'est pas une pipe. |
| // This is actually a variable of FieldMetadataHelper<FieldMetadata<...>> |
| // type (and users are expected to use it as such, hence kCamelCase name). |
| // It is declared as a function to keep protozero bindings header-only as |
| // inline constexpr variables are not available until C++17 (while inline |
| // functions are). |
| // TODO(altimin): Use inline variable instead after adopting C++17. |
| static constexpr FieldMetadata_Id kId() { return {}; } |
| void set_id(int32_t value) { |
| static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId; |
| // Call the appropriate protozero::Message::Append(field_id, ...) |
| // method based on the type of the field. |
| ::protozero::internal::FieldWriter< |
| ::protozero::proto_utils::ProtoSchemaType::kInt32> |
| ::Append(*this, field_id, value); |
| } |
| |
| using FieldMetadata_Temp = |
| ::protozero::proto_utils::FieldMetadata< |
| 2, |
| ::protozero::proto_utils::RepetitionType::kNotRepeated, |
| ::protozero::proto_utils::ProtoSchemaType::kInt32, |
| int32_t, |
| ThermalTemperatureFtraceEvent>; |
| |
| // Ceci n'est pas une pipe. |
| // This is actually a variable of FieldMetadataHelper<FieldMetadata<...>> |
| // type (and users are expected to use it as such, hence kCamelCase name). |
| // It is declared as a function to keep protozero bindings header-only as |
| // inline constexpr variables are not available until C++17 (while inline |
| // functions are). |
| // TODO(altimin): Use inline variable instead after adopting C++17. |
| static constexpr FieldMetadata_Temp kTemp() { return {}; } |
| void set_temp(int32_t value) { |
| static constexpr uint32_t field_id = FieldMetadata_Temp::kFieldId; |
| // Call the appropriate protozero::Message::Append(field_id, ...) |
| // method based on the type of the field. |
| ::protozero::internal::FieldWriter< |
| ::protozero::proto_utils::ProtoSchemaType::kInt32> |
| ::Append(*this, field_id, value); |
| } |
| |
| using FieldMetadata_TempPrev = |
| ::protozero::proto_utils::FieldMetadata< |
| 3, |
| ::protozero::proto_utils::RepetitionType::kNotRepeated, |
| ::protozero::proto_utils::ProtoSchemaType::kInt32, |
| int32_t, |
| ThermalTemperatureFtraceEvent>; |
| |
| // Ceci n'est pas une pipe. |
| // This is actually a variable of FieldMetadataHelper<FieldMetadata<...>> |
| // type (and users are expected to use it as such, hence kCamelCase name). |
| // It is declared as a function to keep protozero bindings header-only as |
| // inline constexpr variables are not available until C++17 (while inline |
| // functions are). |
| // TODO(altimin): Use inline variable instead after adopting C++17. |
| static constexpr FieldMetadata_TempPrev kTempPrev() { return {}; } |
| void set_temp_prev(int32_t value) { |
| static constexpr uint32_t field_id = FieldMetadata_TempPrev::kFieldId; |
| // Call the appropriate protozero::Message::Append(field_id, ...) |
| // method based on the type of the field. |
| ::protozero::internal::FieldWriter< |
| ::protozero::proto_utils::ProtoSchemaType::kInt32> |
| ::Append(*this, field_id, value); |
| } |
| |
| using FieldMetadata_ThermalZone = |
| ::protozero::proto_utils::FieldMetadata< |
| 4, |
| ::protozero::proto_utils::RepetitionType::kNotRepeated, |
| ::protozero::proto_utils::ProtoSchemaType::kString, |
| std::string, |
| ThermalTemperatureFtraceEvent>; |
| |
| // Ceci n'est pas une pipe. |
| // This is actually a variable of FieldMetadataHelper<FieldMetadata<...>> |
| // type (and users are expected to use it as such, hence kCamelCase name). |
| // It is declared as a function to keep protozero bindings header-only as |
| // inline constexpr variables are not available until C++17 (while inline |
| // functions are). |
| // TODO(altimin): Use inline variable instead after adopting C++17. |
| static constexpr FieldMetadata_ThermalZone kThermalZone() { return {}; } |
| void set_thermal_zone(const char* data, size_t size) { |
| AppendBytes(FieldMetadata_ThermalZone::kFieldId, data, size); |
| } |
| void set_thermal_zone(std::string value) { |
| static constexpr uint32_t field_id = FieldMetadata_ThermalZone::kFieldId; |
| // Call the appropriate protozero::Message::Append(field_id, ...) |
| // method based on the type of the field. |
| ::protozero::internal::FieldWriter< |
| ::protozero::proto_utils::ProtoSchemaType::kString> |
| ::Append(*this, field_id, value); |
| } |
| }; |
| |
| } // Namespace. |
| } // Namespace. |
| } // Namespace. |
| #endif // Include guard. |