v811_spc009/device/generic/vulkan-cereal/third-party/perfetto-tracing-only/clock_snapshot.pbzero.h

// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.

#ifndef PERFETTO_PROTOS_CLOCK_SNAPSHOT_PROTO_H_
#define PERFETTO_PROTOS_CLOCK_SNAPSHOT_PROTO_H_

#include <stddef.h>
#include <stdint.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 ClockSnapshot_Clock;
enum BuiltinClock : int32_t;

enum ClockSnapshot_Clock_BuiltinClocks : int32_t {
  ClockSnapshot_Clock_BuiltinClocks_UNKNOWN = 0,
  ClockSnapshot_Clock_BuiltinClocks_REALTIME = 1,
  ClockSnapshot_Clock_BuiltinClocks_REALTIME_COARSE = 2,
  ClockSnapshot_Clock_BuiltinClocks_MONOTONIC = 3,
  ClockSnapshot_Clock_BuiltinClocks_MONOTONIC_COARSE = 4,
  ClockSnapshot_Clock_BuiltinClocks_MONOTONIC_RAW = 5,
  ClockSnapshot_Clock_BuiltinClocks_BOOTTIME = 6,
  ClockSnapshot_Clock_BuiltinClocks_BUILTIN_CLOCK_MAX_ID = 63,
};

const ClockSnapshot_Clock_BuiltinClocks ClockSnapshot_Clock_BuiltinClocks_MIN = ClockSnapshot_Clock_BuiltinClocks_UNKNOWN;
const ClockSnapshot_Clock_BuiltinClocks ClockSnapshot_Clock_BuiltinClocks_MAX = ClockSnapshot_Clock_BuiltinClocks_BUILTIN_CLOCK_MAX_ID;

class ClockSnapshot_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
 public:
  ClockSnapshot_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
  explicit ClockSnapshot_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
  explicit ClockSnapshot_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
  bool has_clocks() const { return at<1>().valid(); }
  ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> clocks() const { return GetRepeated<::protozero::ConstBytes>(1); }
  bool has_primary_trace_clock() const { return at<2>().valid(); }
  int32_t primary_trace_clock() const { return at<2>().as_int32(); }
};

class ClockSnapshot : public ::protozero::Message {
 public:
  using Decoder = ClockSnapshot_Decoder;
  enum : int32_t {
    kClocksFieldNumber = 1,
    kPrimaryTraceClockFieldNumber = 2,
  };
  using Clock = ::perfetto::protos::pbzero::ClockSnapshot_Clock;
  template <typename T = ClockSnapshot_Clock> T* add_clocks() {
    return BeginNestedMessage<T>(1);
  }

  void set_primary_trace_clock(::perfetto::protos::pbzero::BuiltinClock value) {
    AppendTinyVarInt(2, value);
  }
};

class ClockSnapshot_Clock_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
 public:
  ClockSnapshot_Clock_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
  explicit ClockSnapshot_Clock_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
  explicit ClockSnapshot_Clock_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
  bool has_clock_id() const { return at<1>().valid(); }
  uint32_t clock_id() const { return at<1>().as_uint32(); }
  bool has_timestamp() const { return at<2>().valid(); }
  uint64_t timestamp() const { return at<2>().as_uint64(); }
  bool has_is_incremental() const { return at<3>().valid(); }
  bool is_incremental() const { return at<3>().as_bool(); }
  bool has_unit_multiplier_ns() const { return at<4>().valid(); }
  uint64_t unit_multiplier_ns() const { return at<4>().as_uint64(); }
};

class ClockSnapshot_Clock : public ::protozero::Message {
 public:
  using Decoder = ClockSnapshot_Clock_Decoder;
  enum : int32_t {
    kClockIdFieldNumber = 1,
    kTimestampFieldNumber = 2,
    kIsIncrementalFieldNumber = 3,
    kUnitMultiplierNsFieldNumber = 4,
  };
  using BuiltinClocks = ::perfetto::protos::pbzero::ClockSnapshot_Clock_BuiltinClocks;
  static const BuiltinClocks UNKNOWN = ClockSnapshot_Clock_BuiltinClocks_UNKNOWN;
  static const BuiltinClocks REALTIME = ClockSnapshot_Clock_BuiltinClocks_REALTIME;
  static const BuiltinClocks REALTIME_COARSE = ClockSnapshot_Clock_BuiltinClocks_REALTIME_COARSE;
  static const BuiltinClocks MONOTONIC = ClockSnapshot_Clock_BuiltinClocks_MONOTONIC;
  static const BuiltinClocks MONOTONIC_COARSE = ClockSnapshot_Clock_BuiltinClocks_MONOTONIC_COARSE;
  static const BuiltinClocks MONOTONIC_RAW = ClockSnapshot_Clock_BuiltinClocks_MONOTONIC_RAW;
  static const BuiltinClocks BOOTTIME = ClockSnapshot_Clock_BuiltinClocks_BOOTTIME;
  static const BuiltinClocks BUILTIN_CLOCK_MAX_ID = ClockSnapshot_Clock_BuiltinClocks_BUILTIN_CLOCK_MAX_ID;
  void set_clock_id(uint32_t value) {
    AppendVarInt(1, value);
  }
  void set_timestamp(uint64_t value) {
    AppendVarInt(2, value);
  }
  void set_is_incremental(bool value) {
    AppendTinyVarInt(3, value);
  }
  void set_unit_multiplier_ns(uint64_t value) {
    AppendVarInt(4, value);
  }
};

} // Namespace.
} // Namespace.
} // Namespace.
#endif  // Include guard.