src/tracing/core/heapprofd_config.cc - platform/external/perfetto - Git at Google

 /*
  * Copyright (C) 2017 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 /*******************************************************************************
  * AUTOGENERATED - DO NOT EDIT
  *******************************************************************************
  * This file has been generated from the protobuf message
  * perfetto/config/profiling/heapprofd_config.proto
  * by
  * ../../tools/proto_to_cpp/proto_to_cpp.cc.
  * If you need to make changes here, change the .proto file and then run
  * ./tools/gen_tracing_cpp_headers_from_protos
  */

 #include "perfetto/tracing/core/heapprofd_config.h"

 #include "perfetto/config/profiling/heapprofd_config.pb.h"

 namespace perfetto {

 HeapprofdConfig::HeapprofdConfig() = default;
 HeapprofdConfig::~HeapprofdConfig() = default;
 HeapprofdConfig::HeapprofdConfig(const HeapprofdConfig&) = default;
 HeapprofdConfig& HeapprofdConfig::operator=(const HeapprofdConfig&) = default;
 HeapprofdConfig::HeapprofdConfig(HeapprofdConfig&&) noexcept = default;
 HeapprofdConfig& HeapprofdConfig::operator=(HeapprofdConfig&&) = default;

 #pragma GCC diagnostic push
 #pragma GCC diagnostic ignored "-Wfloat-equal"
 bool HeapprofdConfig::operator==(const HeapprofdConfig& other) const {
   return (sampling_interval_bytes_ == other.sampling_interval_bytes_) &&
          (process_cmdline_ == other.process_cmdline_) && (pid_ == other.pid_) &&
          (all_ == other.all_) &&
          (skip_symbol_prefix_ == other.skip_symbol_prefix_) &&
          (continuous_dump_config_ == other.continuous_dump_config_) &&
          (shmem_size_bytes_ == other.shmem_size_bytes_);
 }
 #pragma GCC diagnostic pop

 void HeapprofdConfig::FromProto(
     const perfetto::protos::HeapprofdConfig& proto) {
   static_assert(sizeof(sampling_interval_bytes_) ==
                     sizeof(proto.sampling_interval_bytes()),
                 "size mismatch");
   sampling_interval_bytes_ = static_cast<decltype(sampling_interval_bytes_)>(
       proto.sampling_interval_bytes());

   process_cmdline_.clear();
   for (const auto& field : proto.process_cmdline()) {
     process_cmdline_.emplace_back();
     static_assert(
         sizeof(process_cmdline_.back()) == sizeof(proto.process_cmdline(0)),
         "size mismatch");
     process_cmdline_.back() =
         static_cast<decltype(process_cmdline_)::value_type>(field);
   }

   pid_.clear();
   for (const auto& field : proto.pid()) {
     pid_.emplace_back();
     static_assert(sizeof(pid_.back()) == sizeof(proto.pid(0)), "size mismatch");
     pid_.back() = static_cast<decltype(pid_)::value_type>(field);
   }

   static_assert(sizeof(all_) == sizeof(proto.all()), "size mismatch");
   all_ = static_cast<decltype(all_)>(proto.all());

   skip_symbol_prefix_.clear();
   for (const auto& field : proto.skip_symbol_prefix()) {
     skip_symbol_prefix_.emplace_back();
     static_assert(sizeof(skip_symbol_prefix_.back()) ==
                       sizeof(proto.skip_symbol_prefix(0)),
                   "size mismatch");
     skip_symbol_prefix_.back() =
         static_cast<decltype(skip_symbol_prefix_)::value_type>(field);
   }

   continuous_dump_config_.FromProto(proto.continuous_dump_config());

   static_assert(sizeof(shmem_size_bytes_) == sizeof(proto.shmem_size_bytes()),
                 "size mismatch");
   shmem_size_bytes_ =
       static_cast<decltype(shmem_size_bytes_)>(proto.shmem_size_bytes());
   unknown_fields_ = proto.unknown_fields();
 }

 void HeapprofdConfig::ToProto(perfetto::protos::HeapprofdConfig* proto) const {
   proto->Clear();

   static_assert(sizeof(sampling_interval_bytes_) ==
                     sizeof(proto->sampling_interval_bytes()),
                 "size mismatch");
   proto->set_sampling_interval_bytes(
       static_cast<decltype(proto->sampling_interval_bytes())>(
           sampling_interval_bytes_));

   for (const auto& it : process_cmdline_) {
     proto->add_process_cmdline(
         static_cast<decltype(proto->process_cmdline(0))>(it));
     static_assert(sizeof(it) == sizeof(proto->process_cmdline(0)),
                   "size mismatch");
   }

   for (const auto& it : pid_) {
     proto->add_pid(static_cast<decltype(proto->pid(0))>(it));
     static_assert(sizeof(it) == sizeof(proto->pid(0)), "size mismatch");
   }

   static_assert(sizeof(all_) == sizeof(proto->all()), "size mismatch");
   proto->set_all(static_cast<decltype(proto->all())>(all_));

   for (const auto& it : skip_symbol_prefix_) {
     proto->add_skip_symbol_prefix(
         static_cast<decltype(proto->skip_symbol_prefix(0))>(it));
     static_assert(sizeof(it) == sizeof(proto->skip_symbol_prefix(0)),
                   "size mismatch");
   }

   continuous_dump_config_.ToProto(proto->mutable_continuous_dump_config());

   static_assert(sizeof(shmem_size_bytes_) == sizeof(proto->shmem_size_bytes()),
                 "size mismatch");
   proto->set_shmem_size_bytes(
       static_cast<decltype(proto->shmem_size_bytes())>(shmem_size_bytes_));
   *(proto->mutable_unknown_fields()) = unknown_fields_;
 }

 HeapprofdConfig::ContinuousDumpConfig::ContinuousDumpConfig() = default;
 HeapprofdConfig::ContinuousDumpConfig::~ContinuousDumpConfig() = default;
 HeapprofdConfig::ContinuousDumpConfig::ContinuousDumpConfig(
     const HeapprofdConfig::ContinuousDumpConfig&) = default;
 HeapprofdConfig::ContinuousDumpConfig& HeapprofdConfig::ContinuousDumpConfig::
 operator=(const HeapprofdConfig::ContinuousDumpConfig&) = default;
 HeapprofdConfig::ContinuousDumpConfig::ContinuousDumpConfig(
     HeapprofdConfig::ContinuousDumpConfig&&) noexcept = default;
 HeapprofdConfig::ContinuousDumpConfig& HeapprofdConfig::ContinuousDumpConfig::
 operator=(HeapprofdConfig::ContinuousDumpConfig&&) = default;

 #pragma GCC diagnostic push
 #pragma GCC diagnostic ignored "-Wfloat-equal"
 bool HeapprofdConfig::ContinuousDumpConfig::operator==(
     const HeapprofdConfig::ContinuousDumpConfig& other) const {
   return (dump_phase_ms_ == other.dump_phase_ms_) &&
          (dump_interval_ms_ == other.dump_interval_ms_);
 }
 #pragma GCC diagnostic pop

 void HeapprofdConfig::ContinuousDumpConfig::FromProto(
     const perfetto::protos::HeapprofdConfig_ContinuousDumpConfig& proto) {
   static_assert(sizeof(dump_phase_ms_) == sizeof(proto.dump_phase_ms()),
                 "size mismatch");
   dump_phase_ms_ = static_cast<decltype(dump_phase_ms_)>(proto.dump_phase_ms());

   static_assert(sizeof(dump_interval_ms_) == sizeof(proto.dump_interval_ms()),
                 "size mismatch");
   dump_interval_ms_ =
       static_cast<decltype(dump_interval_ms_)>(proto.dump_interval_ms());
   unknown_fields_ = proto.unknown_fields();
 }

 void HeapprofdConfig::ContinuousDumpConfig::ToProto(
     perfetto::protos::HeapprofdConfig_ContinuousDumpConfig* proto) const {
   proto->Clear();

   static_assert(sizeof(dump_phase_ms_) == sizeof(proto->dump_phase_ms()),
                 "size mismatch");
   proto->set_dump_phase_ms(
       static_cast<decltype(proto->dump_phase_ms())>(dump_phase_ms_));

   static_assert(sizeof(dump_interval_ms_) == sizeof(proto->dump_interval_ms()),
                 "size mismatch");
   proto->set_dump_interval_ms(
       static_cast<decltype(proto->dump_interval_ms())>(dump_interval_ms_));
   *(proto->mutable_unknown_fields()) = unknown_fields_;
 }

 }  // namespace perfetto
	/*
	* Copyright (C) 2017 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	/*******************************************************************************
	* AUTOGENERATED - DO NOT EDIT
	*******************************************************************************
	* This file has been generated from the protobuf message
	* perfetto/config/profiling/heapprofd_config.proto
	* by
	* ../../tools/proto_to_cpp/proto_to_cpp.cc.
	* If you need to make changes here, change the .proto file and then run
	* ./tools/gen_tracing_cpp_headers_from_protos
	*/

	#include "perfetto/tracing/core/heapprofd_config.h"

	#include "perfetto/config/profiling/heapprofd_config.pb.h"

	namespace perfetto {

	HeapprofdConfig::HeapprofdConfig() = default;
	HeapprofdConfig::~HeapprofdConfig() = default;
	HeapprofdConfig::HeapprofdConfig(const HeapprofdConfig&) = default;
	HeapprofdConfig& HeapprofdConfig::operator=(const HeapprofdConfig&) = default;
	HeapprofdConfig::HeapprofdConfig(HeapprofdConfig&&) noexcept = default;
	HeapprofdConfig& HeapprofdConfig::operator=(HeapprofdConfig&&) = default;

	#pragma GCC diagnostic push
	#pragma GCC diagnostic ignored "-Wfloat-equal"
	bool HeapprofdConfig::operator==(const HeapprofdConfig& other) const {
	return (sampling_interval_bytes_ == other.sampling_interval_bytes_) &&
	(process_cmdline_ == other.process_cmdline_) && (pid_ == other.pid_) &&
	(all_ == other.all_) &&
	(skip_symbol_prefix_ == other.skip_symbol_prefix_) &&
	(continuous_dump_config_ == other.continuous_dump_config_) &&
	(shmem_size_bytes_ == other.shmem_size_bytes_);
	}
	#pragma GCC diagnostic pop

	void HeapprofdConfig::FromProto(
	const perfetto::protos::HeapprofdConfig& proto) {
	static_assert(sizeof(sampling_interval_bytes_) ==
	sizeof(proto.sampling_interval_bytes()),
	"size mismatch");
	sampling_interval_bytes_ = static_cast<decltype(sampling_interval_bytes_)>(
	proto.sampling_interval_bytes());

	process_cmdline_.clear();
	for (const auto& field : proto.process_cmdline()) {
	process_cmdline_.emplace_back();
	static_assert(
	sizeof(process_cmdline_.back()) == sizeof(proto.process_cmdline(0)),
	"size mismatch");
	process_cmdline_.back() =
	static_cast<decltype(process_cmdline_)::value_type>(field);
	}

	pid_.clear();
	for (const auto& field : proto.pid()) {
	pid_.emplace_back();
	static_assert(sizeof(pid_.back()) == sizeof(proto.pid(0)), "size mismatch");
	pid_.back() = static_cast<decltype(pid_)::value_type>(field);
	}

	static_assert(sizeof(all_) == sizeof(proto.all()), "size mismatch");
	all_ = static_cast<decltype(all_)>(proto.all());

	skip_symbol_prefix_.clear();
	for (const auto& field : proto.skip_symbol_prefix()) {
	skip_symbol_prefix_.emplace_back();
	static_assert(sizeof(skip_symbol_prefix_.back()) ==
	sizeof(proto.skip_symbol_prefix(0)),
	"size mismatch");
	skip_symbol_prefix_.back() =
	static_cast<decltype(skip_symbol_prefix_)::value_type>(field);
	}

	continuous_dump_config_.FromProto(proto.continuous_dump_config());

	static_assert(sizeof(shmem_size_bytes_) == sizeof(proto.shmem_size_bytes()),
	"size mismatch");
	shmem_size_bytes_ =
	static_cast<decltype(shmem_size_bytes_)>(proto.shmem_size_bytes());
	unknown_fields_ = proto.unknown_fields();
	}

	void HeapprofdConfig::ToProto(perfetto::protos::HeapprofdConfig* proto) const {
	proto->Clear();

	static_assert(sizeof(sampling_interval_bytes_) ==
	sizeof(proto->sampling_interval_bytes()),
	"size mismatch");
	proto->set_sampling_interval_bytes(
	static_cast<decltype(proto->sampling_interval_bytes())>(
	sampling_interval_bytes_));

	for (const auto& it : process_cmdline_) {
	proto->add_process_cmdline(
	static_cast<decltype(proto->process_cmdline(0))>(it));
	static_assert(sizeof(it) == sizeof(proto->process_cmdline(0)),
	"size mismatch");
	}

	for (const auto& it : pid_) {
	proto->add_pid(static_cast<decltype(proto->pid(0))>(it));
	static_assert(sizeof(it) == sizeof(proto->pid(0)), "size mismatch");
	}

	static_assert(sizeof(all_) == sizeof(proto->all()), "size mismatch");
	proto->set_all(static_cast<decltype(proto->all())>(all_));

	for (const auto& it : skip_symbol_prefix_) {
	proto->add_skip_symbol_prefix(
	static_cast<decltype(proto->skip_symbol_prefix(0))>(it));
	static_assert(sizeof(it) == sizeof(proto->skip_symbol_prefix(0)),
	"size mismatch");
	}

	continuous_dump_config_.ToProto(proto->mutable_continuous_dump_config());

	static_assert(sizeof(shmem_size_bytes_) == sizeof(proto->shmem_size_bytes()),
	"size mismatch");
	proto->set_shmem_size_bytes(
	static_cast<decltype(proto->shmem_size_bytes())>(shmem_size_bytes_));
	*(proto->mutable_unknown_fields()) = unknown_fields_;
	}

	HeapprofdConfig::ContinuousDumpConfig::ContinuousDumpConfig() = default;
	HeapprofdConfig::ContinuousDumpConfig::~ContinuousDumpConfig() = default;
	HeapprofdConfig::ContinuousDumpConfig::ContinuousDumpConfig(
	const HeapprofdConfig::ContinuousDumpConfig&) = default;
	HeapprofdConfig::ContinuousDumpConfig& HeapprofdConfig::ContinuousDumpConfig::
	operator=(const HeapprofdConfig::ContinuousDumpConfig&) = default;
	HeapprofdConfig::ContinuousDumpConfig::ContinuousDumpConfig(
	HeapprofdConfig::ContinuousDumpConfig&&) noexcept = default;
	HeapprofdConfig::ContinuousDumpConfig& HeapprofdConfig::ContinuousDumpConfig::
	operator=(HeapprofdConfig::ContinuousDumpConfig&&) = default;

	#pragma GCC diagnostic push
	#pragma GCC diagnostic ignored "-Wfloat-equal"
	bool HeapprofdConfig::ContinuousDumpConfig::operator==(
	const HeapprofdConfig::ContinuousDumpConfig& other) const {
	return (dump_phase_ms_ == other.dump_phase_ms_) &&
	(dump_interval_ms_ == other.dump_interval_ms_);
	}
	#pragma GCC diagnostic pop

	void HeapprofdConfig::ContinuousDumpConfig::FromProto(
	const perfetto::protos::HeapprofdConfig_ContinuousDumpConfig& proto) {
	static_assert(sizeof(dump_phase_ms_) == sizeof(proto.dump_phase_ms()),
	"size mismatch");
	dump_phase_ms_ = static_cast<decltype(dump_phase_ms_)>(proto.dump_phase_ms());

	static_assert(sizeof(dump_interval_ms_) == sizeof(proto.dump_interval_ms()),
	"size mismatch");
	dump_interval_ms_ =
	static_cast<decltype(dump_interval_ms_)>(proto.dump_interval_ms());
	unknown_fields_ = proto.unknown_fields();
	}

	void HeapprofdConfig::ContinuousDumpConfig::ToProto(
	perfetto::protos::HeapprofdConfig_ContinuousDumpConfig* proto) const {
	proto->Clear();

	static_assert(sizeof(dump_phase_ms_) == sizeof(proto->dump_phase_ms()),
	"size mismatch");
	proto->set_dump_phase_ms(
	static_cast<decltype(proto->dump_phase_ms())>(dump_phase_ms_));

	static_assert(sizeof(dump_interval_ms_) == sizeof(proto->dump_interval_ms()),
	"size mismatch");
	proto->set_dump_interval_ms(
	static_cast<decltype(proto->dump_interval_ms())>(dump_interval_ms_));
	*(proto->mutable_unknown_fields()) = unknown_fields_;
	}

	} // namespace perfetto