/* Copyright (c) 2016 PaddlePaddle Authors. All Rights Reserve. 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. */ #include "Stat.h" #include #include #include "Util.h" namespace paddle { StatSet globalStat("GlobalStatInfo"); void Stat::addSample(uint64_t value) { StatInfo* statInfo = statInfo_.get(false); if (!statInfo) { statInfo = new StatInfo(this); statInfo_.set(statInfo); std::lock_guard guard(lock_); threadLocalBuf_.push_back({statInfo, getTID()}); } if (value > statInfo->max_) { statInfo->max_ = value; } if (value < statInfo->min_) { statInfo->min_ = value; } statInfo->total_ += value; statInfo->count_++; } void Stat::mergeThreadStat(StatInfo& allThreadStat) { allThreadStat = destructStat_; for (auto& buf : threadLocalBuf_) { if (buf.first->max_ > allThreadStat.max_) { allThreadStat.max_ = buf.first->max_; } if (buf.first->min_ < allThreadStat.min_) { allThreadStat.min_ = buf.first->min_; } allThreadStat.total_ += buf.first->total_; allThreadStat.count_ += buf.first->count_; } } void Stat::reset() { std::lock_guard guard(lock_); for (auto& buf : threadLocalBuf_) { buf.first->reset(); } } std::ostream& operator<<(std::ostream& outPut, const Stat& stat) { std::lock_guard guard(const_cast(stat).lock_); auto showStat = [&](const StatInfo* info, pid_t tid, bool isFirst = true) { uint64_t average = 0; if (info->count_ > 0) { outPut << std::setfill(' ') << std::left; if (!isFirst) { outPut << std::setw(42) << " "; } average = info->total_ / info->count_; outPut << "Stat=" << std::setw(30) << stat.getName(); if (tid) { outPut << " TID=" << std::setw(6) << tid; } outPut << " total=" << std::setw(10) << info->total_ * 0.001 << " avg=" << std::setw(10) << average * 0.001 << " max=" << std::setw(10) << info->max_ * 0.001 << " min=" << std::setw(10) << info->min_ * 0.001 << " count=" << std::setw(10) << info->count_ << std::endl; } }; if (!stat.getThreadInfo()) { StatInfo infoVarTmp; const_cast(stat).mergeThreadStat(infoVarTmp); showStat(&infoVarTmp, 0); } else { bool isFirst = true; for (auto& buf : stat.threadLocalBuf_) { showStat(buf.first, buf.second, isFirst); if (isFirst) isFirst = false; } showStat(&stat.destructStat_, 0); } return outPut; } BarrierStatPtr StatSet::getStat(uint16_t numConnThreads, const std::string& name, BarrierStatType bType) { { ReadLockGuard guard(lock_); auto it = barrierStatSet_.find(name); if (it != barrierStatSet_.end()) { return it->second; } } std::lock_guard guard(lock_); // test again with lock_guard auto it = barrierStatSet_.find(name); if (it != barrierStatSet_.end()) { return it->second; } BarrierStatPtr stat; if (bType == BARRIER_END) { stat = std::make_shared(numConnThreads, name); } else if (bType == BARRIER_DELTA) { stat = std::make_shared(numConnThreads, name); } auto ret = barrierStatSet_.insert(std::make_pair(name, stat)); return ret.first->second; } void StatSet::printSegTimerStatus() { ReadLockGuard guard(lock_); LOG(INFO) << std::setiosflags(std::ios::left) << std::setfill(' ') << "======= StatSet: [" << name_ << "] status ======" << std::endl; for (auto& stat : statSet_) { LOG(INFO) << std::setiosflags(std::ios::left) << std::setfill(' ') << *(stat.second); } } void StatSet::printBarrierTimerStatus() { ReadLockGuard guard(lock_); // control barrierAbstact in runtime, so enable compliation LOG(INFO) << std::setiosflags(std::ios::left) << std::setfill(' ') << "======= BarrierStatSet status ======" << std::endl; for (auto& stat : barrierStatSet_) { LOG(INFO) << std::setiosflags(std::ios::left) << std::setfill(' ') << *(stat.second); } } void StatSet::printAllStatus() { #ifndef PADDLE_DISABLE_TIMER printSegTimerStatus(); #endif printBarrierTimerStatus(); LOG(INFO) << std::setiosflags(std::ios::left) << "--------------------------------------------------" << std::endl; } void StatSet::printStatus(const std::string& name) { ReadLockGuard guard(lock_); auto iter = statSet_.find(name); CHECK(iter != statSet_.end()) << name << " is not registed in " << name_; LOG(INFO) << *(iter->second); } void StatSet::reset(bool clearRawData) { ReadLockGuard guard(lock_); for (auto& stat : statSet_) { stat.second->reset(); } // reset barrierStat for (auto& stat : barrierStatSet_) { stat.second->reset(clearRawData); } } void StatSet::setThreadInfo(const std::string& name, bool flag) { ReadLockGuard guard(lock_); auto iter = statSet_.find(name); CHECK(iter != statSet_.end()) << name << " is not registed in " << name_; iter->second->setThreadInfo(flag); } void StatSet::deleteStat(const std::string& name) { std::lock_guard guard(lock_); auto iter = statSet_.find(name); CHECK(iter != statSet_.end()) << name << " is not registed in " << name_; statSet_.erase(iter); } StatInfo::~StatInfo() { if (stat_) { std::lock_guard guard(stat_->lock_); if (stat_->destructStat_.max_ < this->max_) { stat_->destructStat_.max_ = this->max_; } if (stat_->destructStat_.min_ > this->min_) { stat_->destructStat_.min_ = this->min_; } stat_->destructStat_.total_ += this->total_; stat_->destructStat_.count_ += this->count_; stat_->threadLocalBuf_.remove({this, getTID()}); } } static unsigned g_profileCount = 0; static std::recursive_mutex g_profileMutex; GpuProfiler::GpuProfiler(std::string statName, std::string info) : guard_(g_profileMutex) { if (++g_profileCount == 1) { LOG(INFO) << "Enable GPU Profiler Stat: [" << statName << "] " << info; hl_profiler_start(); } } GpuProfiler::~GpuProfiler() { if (--g_profileCount == 0) { hl_profiler_end(); } } } // namespace paddle