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Diffstat (limited to 'indra/llcommon/lltracerecording.cpp')
-rw-r--r-- | indra/llcommon/lltracerecording.cpp | 1229 |
1 files changed, 1229 insertions, 0 deletions
diff --git a/indra/llcommon/lltracerecording.cpp b/indra/llcommon/lltracerecording.cpp new file mode 100644 index 0000000000..cd837c0867 --- /dev/null +++ b/indra/llcommon/lltracerecording.cpp @@ -0,0 +1,1229 @@ +/** + * @file lltracesampler.cpp + * + * $LicenseInfo:firstyear=2001&license=viewerlgpl$ + * Second Life Viewer Source Code + * Copyright (C) 2012, Linden Research, Inc. + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; + * version 2.1 of the License only. + * + * This library is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA + * + * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA + * $/LicenseInfo$ + */ + +#include "linden_common.h" + +#include "lltracerecording.h" + +#include "lltrace.h" +#include "llfasttimer.h" +#include "lltracethreadrecorder.h" +#include "llthread.h" + +inline F64 lerp(F64 a, F64 b, F64 u) +{ + return a + ((b - a) * u); +} + +namespace LLTrace +{ + +extern MemStatHandle gTraceMemStat; + +/////////////////////////////////////////////////////////////////////// +// Recording +/////////////////////////////////////////////////////////////////////// + +Recording::Recording(EPlayState state) +: mElapsedSeconds(0), + mActiveBuffers(NULL) +{ + claim_alloc(gTraceMemStat, this); + mBuffers = new AccumulatorBufferGroup(); + claim_alloc(gTraceMemStat, mBuffers); + setPlayState(state); +} + +Recording::Recording( const Recording& other ) +: mActiveBuffers(NULL) +{ + claim_alloc(gTraceMemStat, this); + *this = other; +} + +Recording& Recording::operator = (const Recording& other) +{ + // this will allow us to seamlessly start without affecting any data we've acquired from other + setPlayState(PAUSED); + + const_cast<Recording&>(other).update(); + EPlayState other_play_state = other.getPlayState(); + + mBuffers = other.mBuffers; + + // above call will clear mElapsedSeconds as a side effect, so copy it here + mElapsedSeconds = other.mElapsedSeconds; + mSamplingTimer = other.mSamplingTimer; + + setPlayState(other_play_state); + + return *this; +} + + +Recording::~Recording() +{ + disclaim_alloc(gTraceMemStat, this); + disclaim_alloc(gTraceMemStat, mBuffers); + + if (isStarted() && LLTrace::get_thread_recorder().notNull()) + { + LLTrace::get_thread_recorder()->deactivate(mBuffers.write()); + } +} + +// brings recording to front of recorder stack, with up to date info +void Recording::update() +{ + if (isStarted()) + { + mElapsedSeconds += mSamplingTimer.getElapsedTimeF64(); + + llassert(mActiveBuffers); + if(!mActiveBuffers->isCurrent()) + { + AccumulatorBufferGroup* buffers = mBuffers.write(); + LLTrace::get_thread_recorder()->deactivate(buffers); + mActiveBuffers = LLTrace::get_thread_recorder()->activate(buffers); + } + + mSamplingTimer.reset(); + } +} + +void Recording::handleReset() +{ + mBuffers.write()->reset(); + + mElapsedSeconds = F64Seconds(0.0); + mSamplingTimer.reset(); +} + +void Recording::handleStart() +{ + mSamplingTimer.reset(); + mBuffers.setStayUnique(true); + mActiveBuffers = LLTrace::get_thread_recorder()->activate(mBuffers.write()); +} + +void Recording::handleStop() +{ + mElapsedSeconds += mSamplingTimer.getElapsedTimeF64(); + LLTrace::get_thread_recorder()->deactivate(mBuffers.write()); + mActiveBuffers = NULL; + mBuffers.setStayUnique(false); +} + +void Recording::handleSplitTo(Recording& other) +{ + mBuffers.write()->handOffTo(*other.mBuffers.write()); +} + +void Recording::appendRecording( Recording& other ) +{ + update(); + other.update(); + mBuffers.write()->append(*other.mBuffers); + mElapsedSeconds += other.mElapsedSeconds; +} + +bool Recording::hasValue(const StatType<TimeBlockAccumulator>& stat) +{ + update(); + const TimeBlockAccumulator& accumulator = mBuffers->mStackTimers[stat.getIndex()]; + const TimeBlockAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mStackTimers[stat.getIndex()] : NULL; + return accumulator.hasValue() || (active_accumulator && active_accumulator->hasValue()); +} + +F64Seconds Recording::getSum(const StatType<TimeBlockAccumulator>& stat) +{ + update(); + const TimeBlockAccumulator& accumulator = mBuffers->mStackTimers[stat.getIndex()]; + const TimeBlockAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mStackTimers[stat.getIndex()] : NULL; + return F64Seconds((F64)(accumulator.mTotalTimeCounter) + (F64)(active_accumulator ? active_accumulator->mTotalTimeCounter : 0)) + / (F64)LLTrace::BlockTimer::countsPerSecond(); +} + +F64Seconds Recording::getSum(const StatType<TimeBlockAccumulator::SelfTimeFacet>& stat) +{ + update(); + const TimeBlockAccumulator& accumulator = mBuffers->mStackTimers[stat.getIndex()]; + const TimeBlockAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mStackTimers[stat.getIndex()] : NULL; + return F64Seconds(((F64)(accumulator.mSelfTimeCounter) + (F64)(active_accumulator ? active_accumulator->mSelfTimeCounter : 0)) / (F64)LLTrace::BlockTimer::countsPerSecond()); +} + + +S32 Recording::getSum(const StatType<TimeBlockAccumulator::CallCountFacet>& stat) +{ + update(); + const TimeBlockAccumulator& accumulator = mBuffers->mStackTimers[stat.getIndex()]; + const TimeBlockAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mStackTimers[stat.getIndex()] : NULL; + return accumulator.mCalls + (active_accumulator ? active_accumulator->mCalls : 0); +} + +F64Seconds Recording::getPerSec(const StatType<TimeBlockAccumulator>& stat) +{ + update(); + const TimeBlockAccumulator& accumulator = mBuffers->mStackTimers[stat.getIndex()]; + const TimeBlockAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mStackTimers[stat.getIndex()] : NULL; + + return F64Seconds((F64)(accumulator.mTotalTimeCounter + (active_accumulator ? active_accumulator->mTotalTimeCounter : 0)) + / ((F64)LLTrace::BlockTimer::countsPerSecond() * mElapsedSeconds.value())); +} + +F64Seconds Recording::getPerSec(const StatType<TimeBlockAccumulator::SelfTimeFacet>& stat) +{ + update(); + const TimeBlockAccumulator& accumulator = mBuffers->mStackTimers[stat.getIndex()]; + const TimeBlockAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mStackTimers[stat.getIndex()] : NULL; + + return F64Seconds((F64)(accumulator.mSelfTimeCounter + (active_accumulator ? active_accumulator->mSelfTimeCounter : 0)) + / ((F64)LLTrace::BlockTimer::countsPerSecond() * mElapsedSeconds.value())); +} + +F32 Recording::getPerSec(const StatType<TimeBlockAccumulator::CallCountFacet>& stat) +{ + update(); + const TimeBlockAccumulator& accumulator = mBuffers->mStackTimers[stat.getIndex()]; + const TimeBlockAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mStackTimers[stat.getIndex()] : NULL; + return (F32)(accumulator.mCalls + (active_accumulator ? active_accumulator->mCalls : 0)) / mElapsedSeconds.value(); +} + +bool Recording::hasValue(const StatType<MemAccumulator>& stat) +{ + update(); + const MemAccumulator& accumulator = mBuffers->mMemStats[stat.getIndex()]; + const MemAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mMemStats[stat.getIndex()] : NULL; + return accumulator.mSize.hasValue() || (active_accumulator && active_accumulator->mSize.hasValue() ? active_accumulator->mSize.hasValue() : false); +} + +F64Kilobytes Recording::getMin(const StatType<MemAccumulator>& stat) +{ + update(); + const MemAccumulator& accumulator = mBuffers->mMemStats[stat.getIndex()]; + const MemAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mMemStats[stat.getIndex()] : NULL; + return F64Bytes(llmin(accumulator.mSize.getMin(), (active_accumulator && active_accumulator->mSize.hasValue() ? active_accumulator->mSize.getMin() : F32_MAX))); +} + +F64Kilobytes Recording::getMean(const StatType<MemAccumulator>& stat) +{ + update(); + const MemAccumulator& accumulator = mBuffers->mMemStats[stat.getIndex()]; + const MemAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mMemStats[stat.getIndex()] : NULL; + + if (active_accumulator && active_accumulator->mSize.hasValue()) + { + return F64Bytes(lerp(accumulator.mSize.getMean(), active_accumulator->mSize.getMean(), active_accumulator->mSize.getSampleCount() / (accumulator.mSize.getSampleCount() + active_accumulator->mSize.getSampleCount()))); + } + else + { + return F64Bytes(accumulator.mSize.getMean()); + } +} + +F64Kilobytes Recording::getMax(const StatType<MemAccumulator>& stat) +{ + update(); + const MemAccumulator& accumulator = mBuffers->mMemStats[stat.getIndex()]; + const MemAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mMemStats[stat.getIndex()] : NULL; + return F64Bytes(llmax(accumulator.mSize.getMax(), active_accumulator && active_accumulator->mSize.hasValue() ? active_accumulator->mSize.getMax() : F32_MIN)); +} + +F64Kilobytes Recording::getStandardDeviation(const StatType<MemAccumulator>& stat) +{ + update(); + const MemAccumulator& accumulator = mBuffers->mMemStats[stat.getIndex()]; + const MemAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mMemStats[stat.getIndex()] : NULL; + if (active_accumulator && active_accumulator->hasValue()) + { + F64 sum_of_squares = SampleAccumulator::mergeSumsOfSquares(accumulator.mSize, active_accumulator->mSize); + return F64Bytes(sqrtf(sum_of_squares / (accumulator.mSize.getSamplingTime().value() + active_accumulator->mSize.getSamplingTime().value()))); + } + else + { + return F64Bytes(accumulator.mSize.getStandardDeviation()); + } +} + +F64Kilobytes Recording::getLastValue(const StatType<MemAccumulator>& stat) +{ + update(); + const MemAccumulator& accumulator = mBuffers->mMemStats[stat.getIndex()]; + const MemAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mMemStats[stat.getIndex()] : NULL; + return F64Bytes(active_accumulator ? active_accumulator->mSize.getLastValue() : accumulator.mSize.getLastValue()); +} + +bool Recording::hasValue(const StatType<MemAccumulator::AllocationFacet>& stat) +{ + update(); + const MemAccumulator& accumulator = mBuffers->mMemStats[stat.getIndex()]; + const MemAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mMemStats[stat.getIndex()] : NULL; + return accumulator.mAllocations.hasValue() || (active_accumulator ? active_accumulator->mAllocations.hasValue() : false); +} + +F64Kilobytes Recording::getSum(const StatType<MemAccumulator::AllocationFacet>& stat) +{ + update(); + const MemAccumulator& accumulator = mBuffers->mMemStats[stat.getIndex()]; + const MemAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mMemStats[stat.getIndex()] : NULL; + return F64Bytes(accumulator.mAllocations.getSum() + (active_accumulator ? active_accumulator->mAllocations.getSum() : 0)); +} + +F64Kilobytes Recording::getPerSec(const StatType<MemAccumulator::AllocationFacet>& stat) +{ + update(); + const MemAccumulator& accumulator = mBuffers->mMemStats[stat.getIndex()]; + const MemAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mMemStats[stat.getIndex()] : NULL; + return F64Bytes((accumulator.mAllocations.getSum() + (active_accumulator ? active_accumulator->mAllocations.getSum() : 0)) / mElapsedSeconds.value()); +} + +S32 Recording::getSampleCount(const StatType<MemAccumulator::AllocationFacet>& stat) +{ + update(); + const MemAccumulator& accumulator = mBuffers->mMemStats[stat.getIndex()]; + const MemAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mMemStats[stat.getIndex()] : NULL; + return accumulator.mAllocations.getSampleCount() + (active_accumulator ? active_accumulator->mAllocations.getSampleCount() : 0); +} + +bool Recording::hasValue(const StatType<MemAccumulator::DeallocationFacet>& stat) +{ + update(); + const MemAccumulator& accumulator = mBuffers->mMemStats[stat.getIndex()]; + const MemAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mMemStats[stat.getIndex()] : NULL; + return accumulator.mDeallocations.hasValue() || (active_accumulator ? active_accumulator->mDeallocations.hasValue() : false); +} + + +F64Kilobytes Recording::getSum(const StatType<MemAccumulator::DeallocationFacet>& stat) +{ + update(); + const MemAccumulator& accumulator = mBuffers->mMemStats[stat.getIndex()]; + const MemAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mMemStats[stat.getIndex()] : NULL; + return F64Bytes(accumulator.mDeallocations.getSum() + (active_accumulator ? active_accumulator->mDeallocations.getSum() : 0)); +} + +F64Kilobytes Recording::getPerSec(const StatType<MemAccumulator::DeallocationFacet>& stat) +{ + update(); + const MemAccumulator& accumulator = mBuffers->mMemStats[stat.getIndex()]; + const MemAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mMemStats[stat.getIndex()] : NULL; + return F64Bytes((accumulator.mDeallocations.getSum() + (active_accumulator ? active_accumulator->mDeallocations.getSum() : 0)) / mElapsedSeconds.value()); +} + +S32 Recording::getSampleCount(const StatType<MemAccumulator::DeallocationFacet>& stat) +{ + update(); + const MemAccumulator& accumulator = mBuffers->mMemStats[stat.getIndex()]; + const MemAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mMemStats[stat.getIndex()] : NULL; + return accumulator.mDeallocations.getSampleCount() + (active_accumulator ? active_accumulator->mDeallocations.getSampleCount() : 0); +} + +bool Recording::hasValue(const StatType<CountAccumulator>& stat) +{ + update(); + const CountAccumulator& accumulator = mBuffers->mCounts[stat.getIndex()]; + const CountAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mCounts[stat.getIndex()] : NULL; + return accumulator.hasValue() || (active_accumulator ? active_accumulator->hasValue() : false); +} + +F64 Recording::getSum(const StatType<CountAccumulator>& stat) +{ + update(); + const CountAccumulator& accumulator = mBuffers->mCounts[stat.getIndex()]; + const CountAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mCounts[stat.getIndex()] : NULL; + return accumulator.getSum() + (active_accumulator ? active_accumulator->getSum() : 0); +} + +F64 Recording::getPerSec( const StatType<CountAccumulator>& stat ) +{ + update(); + const CountAccumulator& accumulator = mBuffers->mCounts[stat.getIndex()]; + const CountAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mCounts[stat.getIndex()] : NULL; + F64 sum = accumulator.getSum() + (active_accumulator ? active_accumulator->getSum() : 0); + return sum / mElapsedSeconds.value(); +} + +S32 Recording::getSampleCount( const StatType<CountAccumulator>& stat ) +{ + update(); + const CountAccumulator& accumulator = mBuffers->mCounts[stat.getIndex()]; + const CountAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mCounts[stat.getIndex()] : NULL; + return accumulator.getSampleCount() + (active_accumulator ? active_accumulator->getSampleCount() : 0); +} + +bool Recording::hasValue(const StatType<SampleAccumulator>& stat) +{ + update(); + const SampleAccumulator& accumulator = mBuffers->mSamples[stat.getIndex()]; + const SampleAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mSamples[stat.getIndex()] : NULL; + return accumulator.hasValue() || (active_accumulator && active_accumulator->hasValue()); +} + +F64 Recording::getMin( const StatType<SampleAccumulator>& stat ) +{ + update(); + const SampleAccumulator& accumulator = mBuffers->mSamples[stat.getIndex()]; + const SampleAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mSamples[stat.getIndex()] : NULL; + return llmin(accumulator.getMin(), active_accumulator && active_accumulator->hasValue() ? active_accumulator->getMin() : F32_MAX); +} + +F64 Recording::getMax( const StatType<SampleAccumulator>& stat ) +{ + update(); + const SampleAccumulator& accumulator = mBuffers->mSamples[stat.getIndex()]; + const SampleAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mSamples[stat.getIndex()] : NULL; + return llmax(accumulator.getMax(), active_accumulator && active_accumulator->hasValue() ? active_accumulator->getMax() : F32_MIN); +} + +F64 Recording::getMean( const StatType<SampleAccumulator>& stat ) +{ + update(); + const SampleAccumulator& accumulator = mBuffers->mSamples[stat.getIndex()]; + const SampleAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mSamples[stat.getIndex()] : NULL; + if (active_accumulator && active_accumulator->hasValue()) + { + return lerp(accumulator.getMean(), active_accumulator->getMean(), active_accumulator->getSampleCount() / (accumulator.getSampleCount() + active_accumulator->getSampleCount())); + } + else + { + return accumulator.getMean(); + } +} + +F64 Recording::getStandardDeviation( const StatType<SampleAccumulator>& stat ) +{ + update(); + const SampleAccumulator& accumulator = mBuffers->mSamples[stat.getIndex()]; + const SampleAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mSamples[stat.getIndex()] : NULL; + + if (active_accumulator && active_accumulator->hasValue()) + { + F64 sum_of_squares = SampleAccumulator::mergeSumsOfSquares(accumulator, *active_accumulator); + return sqrtf(sum_of_squares / (accumulator.getSamplingTime() + active_accumulator->getSamplingTime())); + } + else + { + return accumulator.getStandardDeviation(); + } +} + +F64 Recording::getLastValue( const StatType<SampleAccumulator>& stat ) +{ + update(); + const SampleAccumulator& accumulator = mBuffers->mSamples[stat.getIndex()]; + const SampleAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mSamples[stat.getIndex()] : NULL; + return (active_accumulator && active_accumulator->hasValue() ? active_accumulator->getLastValue() : accumulator.getLastValue()); +} + +S32 Recording::getSampleCount( const StatType<SampleAccumulator>& stat ) +{ + update(); + const SampleAccumulator& accumulator = mBuffers->mSamples[stat.getIndex()]; + const SampleAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mSamples[stat.getIndex()] : NULL; + return accumulator.getSampleCount() + (active_accumulator && active_accumulator->hasValue() ? active_accumulator->getSampleCount() : 0); +} + +bool Recording::hasValue(const StatType<EventAccumulator>& stat) +{ + update(); + const EventAccumulator& accumulator = mBuffers->mEvents[stat.getIndex()]; + const EventAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mEvents[stat.getIndex()] : NULL; + return accumulator.hasValue() || (active_accumulator && active_accumulator->hasValue()); +} + +F64 Recording::getSum( const StatType<EventAccumulator>& stat) +{ + update(); + const EventAccumulator& accumulator = mBuffers->mEvents[stat.getIndex()]; + const EventAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mEvents[stat.getIndex()] : NULL; + return (F64)(accumulator.getSum() + (active_accumulator && active_accumulator->hasValue() ? active_accumulator->getSum() : 0)); +} + +F64 Recording::getMin( const StatType<EventAccumulator>& stat ) +{ + update(); + const EventAccumulator& accumulator = mBuffers->mEvents[stat.getIndex()]; + const EventAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mEvents[stat.getIndex()] : NULL; + return llmin(accumulator.getMin(), active_accumulator && active_accumulator->hasValue() ? active_accumulator->getMin() : F32_MAX); +} + +F64 Recording::getMax( const StatType<EventAccumulator>& stat ) +{ + update(); + const EventAccumulator& accumulator = mBuffers->mEvents[stat.getIndex()]; + const EventAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mEvents[stat.getIndex()] : NULL; + return llmax(accumulator.getMax(), active_accumulator && active_accumulator->hasValue() ? active_accumulator->getMax() : F32_MIN); +} + +F64 Recording::getMean( const StatType<EventAccumulator>& stat ) +{ + update(); + const EventAccumulator& accumulator = mBuffers->mEvents[stat.getIndex()]; + const EventAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mEvents[stat.getIndex()] : NULL; + if (active_accumulator && active_accumulator->hasValue()) + { + return lerp(accumulator.getMean(), active_accumulator->getMean(), active_accumulator->getSampleCount() / (accumulator.getSampleCount() + active_accumulator->getSampleCount())); + } + else + { + return accumulator.getMean(); + } +} + +F64 Recording::getStandardDeviation( const StatType<EventAccumulator>& stat ) +{ + update(); + const EventAccumulator& accumulator = mBuffers->mEvents[stat.getIndex()]; + const EventAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mEvents[stat.getIndex()] : NULL; + + if (active_accumulator && active_accumulator->hasValue()) + { + F64 sum_of_squares = EventAccumulator::mergeSumsOfSquares(accumulator, *active_accumulator); + return sqrtf(sum_of_squares / (accumulator.getSampleCount() + active_accumulator->getSampleCount())); + } + else + { + return accumulator.getStandardDeviation(); + } +} + +F64 Recording::getLastValue( const StatType<EventAccumulator>& stat ) +{ + update(); + const EventAccumulator& accumulator = mBuffers->mEvents[stat.getIndex()]; + const EventAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mEvents[stat.getIndex()] : NULL; + return active_accumulator ? active_accumulator->getLastValue() : accumulator.getLastValue(); +} + +S32 Recording::getSampleCount( const StatType<EventAccumulator>& stat ) +{ + update(); + const EventAccumulator& accumulator = mBuffers->mEvents[stat.getIndex()]; + const EventAccumulator* active_accumulator = mActiveBuffers ? &mActiveBuffers->mEvents[stat.getIndex()] : NULL; + return accumulator.getSampleCount() + (active_accumulator ? active_accumulator->getSampleCount() : 0); +} + +/////////////////////////////////////////////////////////////////////// +// PeriodicRecording +/////////////////////////////////////////////////////////////////////// + +PeriodicRecording::PeriodicRecording( S32 num_periods, EPlayState state) +: mAutoResize(num_periods == 0), + mCurPeriod(0), + mNumRecordedPeriods(0), + mRecordingPeriods(num_periods ? num_periods : 1) +{ + setPlayState(state); + claim_alloc(gTraceMemStat, this); +} + +PeriodicRecording::~PeriodicRecording() +{ + disclaim_alloc(gTraceMemStat, this); +} + +void PeriodicRecording::nextPeriod() +{ + if (mAutoResize) + { + mRecordingPeriods.push_back(Recording()); + } + + Recording& old_recording = getCurRecording(); + mCurPeriod = (mCurPeriod + 1) % mRecordingPeriods.size(); + old_recording.splitTo(getCurRecording()); + + mNumRecordedPeriods = llmin((S32)mRecordingPeriods.size() - 1, mNumRecordedPeriods + 1); +} + +void PeriodicRecording::appendRecording(Recording& recording) +{ + getCurRecording().appendRecording(recording); + nextPeriod(); +} + + +void PeriodicRecording::appendPeriodicRecording( PeriodicRecording& other ) +{ + if (other.mRecordingPeriods.empty()) return; + + getCurRecording().update(); + other.getCurRecording().update(); + + const S32 other_recording_slots = other.mRecordingPeriods.size(); + const S32 other_num_recordings = other.getNumRecordedPeriods(); + const S32 other_current_recording_index = other.mCurPeriod; + const S32 other_oldest_recording_index = (other_current_recording_index + other_recording_slots - other_num_recordings) % other_recording_slots; + + // append first recording into our current slot + getCurRecording().appendRecording(other.mRecordingPeriods[other_oldest_recording_index]); + + // from now on, add new recordings for everything after the first + S32 other_index = (other_oldest_recording_index + 1) % other_recording_slots; + + if (mAutoResize) + { + // push back recordings for everything in the middle + S32 other_index = (other_oldest_recording_index + 1) % other_recording_slots; + while (other_index != other_current_recording_index) + { + mRecordingPeriods.push_back(other.mRecordingPeriods[other_index]); + other_index = (other_index + 1) % other_recording_slots; + } + + // add final recording, if it wasn't already added as the first + if (other_num_recordings > 1) + { + mRecordingPeriods.push_back(other.mRecordingPeriods[other_current_recording_index]); + } + + mCurPeriod = mRecordingPeriods.size() - 1; + mNumRecordedPeriods = mRecordingPeriods.size() - 1; + } + else + { + S32 num_to_copy = llmin((S32)mRecordingPeriods.size(), (S32)other_num_recordings); + + std::vector<Recording>::iterator src_it = other.mRecordingPeriods.begin() + other_index ; + std::vector<Recording>::iterator dest_it = mRecordingPeriods.begin() + mCurPeriod; + + // already consumed the first recording from other, so start counting at 1 + for(S32 i = 1; i < num_to_copy; i++) + { + *dest_it = *src_it; + + if (++src_it == other.mRecordingPeriods.end()) + { + src_it = other.mRecordingPeriods.begin(); + } + + if (++dest_it == mRecordingPeriods.end()) + { + dest_it = mRecordingPeriods.begin(); + } + } + + // want argument to % to be positive, otherwise result could be negative and thus out of bounds + llassert(num_to_copy >= 1); + // advance to last recording period copied, and make that our current period + mCurPeriod = (mCurPeriod + num_to_copy - 1) % mRecordingPeriods.size(); + mNumRecordedPeriods = llmin((S32)mRecordingPeriods.size() - 1, mNumRecordedPeriods + num_to_copy - 1); + } + + // end with fresh period, otherwise next appendPeriodicRecording() will merge the first + // recording period with the last one appended here + nextPeriod(); + getCurRecording().setPlayState(getPlayState()); +} + +F64Seconds PeriodicRecording::getDuration() const +{ + F64Seconds duration; + S32 num_periods = mRecordingPeriods.size(); + for (S32 i = 1; i <= num_periods; i++) + { + S32 index = (mCurPeriod + num_periods - i) % num_periods; + duration += mRecordingPeriods[index].getDuration(); + } + return duration; +} + + +LLTrace::Recording PeriodicRecording::snapshotCurRecording() const +{ + Recording recording_copy(getCurRecording()); + recording_copy.stop(); + return recording_copy; +} + + +Recording& PeriodicRecording::getLastRecording() +{ + return getPrevRecording(1); +} + +const Recording& PeriodicRecording::getLastRecording() const +{ + return getPrevRecording(1); +} + +Recording& PeriodicRecording::getCurRecording() +{ + return mRecordingPeriods[mCurPeriod]; +} + +const Recording& PeriodicRecording::getCurRecording() const +{ + return mRecordingPeriods[mCurPeriod]; +} + +Recording& PeriodicRecording::getPrevRecording( S32 offset ) +{ + S32 num_periods = mRecordingPeriods.size(); + offset = llclamp(offset, 0, num_periods - 1); + return mRecordingPeriods[(mCurPeriod + num_periods - offset) % num_periods]; +} + +const Recording& PeriodicRecording::getPrevRecording( S32 offset ) const +{ + S32 num_periods = mRecordingPeriods.size(); + offset = llclamp(offset, 0, num_periods - 1); + return mRecordingPeriods[(mCurPeriod + num_periods - offset) % num_periods]; +} + +void PeriodicRecording::handleStart() +{ + getCurRecording().start(); +} + +void PeriodicRecording::handleStop() +{ + getCurRecording().pause(); +} + +void PeriodicRecording::handleReset() +{ + getCurRecording().stop(); + + if (mAutoResize) + { + mRecordingPeriods.clear(); + mRecordingPeriods.push_back(Recording()); + } + else + { + for (std::vector<Recording>::iterator it = mRecordingPeriods.begin(), end_it = mRecordingPeriods.end(); + it != end_it; + ++it) + { + it->reset(); + } + } + mCurPeriod = 0; + mNumRecordedPeriods = 0; + getCurRecording().setPlayState(getPlayState()); +} + +void PeriodicRecording::handleSplitTo(PeriodicRecording& other) +{ + getCurRecording().splitTo(other.getCurRecording()); +} + +F64 PeriodicRecording::getPeriodMin( const StatType<EventAccumulator>& stat, S32 num_periods /*= S32_MAX*/ ) +{ + num_periods = llmin(num_periods, getNumRecordedPeriods()); + + bool has_value = false; + F64 min_val = std::numeric_limits<F64>::max(); + for (S32 i = 1; i <= num_periods; i++) + { + Recording& recording = getPrevRecording(i); + if (recording.hasValue(stat)) + { + min_val = llmin(min_val, recording.getMin(stat)); + has_value = true; + } + } + + return has_value + ? min_val + : NaN; +} + +F64 PeriodicRecording::getPeriodMax( const StatType<EventAccumulator>& stat, S32 num_periods /*= S32_MAX*/ ) +{ + num_periods = llmin(num_periods, getNumRecordedPeriods()); + + bool has_value = false; + F64 max_val = std::numeric_limits<F64>::min(); + for (S32 i = 1; i <= num_periods; i++) + { + Recording& recording = getPrevRecording(i); + if (recording.hasValue(stat)) + { + max_val = llmax(max_val, recording.getMax(stat)); + has_value = true; + } + } + + return has_value + ? max_val + : NaN; +} + +// calculates means using aggregates per period +F64 PeriodicRecording::getPeriodMean( const StatType<EventAccumulator>& stat, S32 num_periods /*= S32_MAX*/ ) +{ + num_periods = llmin(num_periods, getNumRecordedPeriods()); + + F64 mean = 0; + S32 valid_period_count = 0; + + for (S32 i = 1; i <= num_periods; i++) + { + Recording& recording = getPrevRecording(i); + if (recording.hasValue(stat)) + { + mean += recording.getMean(stat); + valid_period_count++; + } + } + + return valid_period_count + ? mean / (F64)valid_period_count + : NaN; +} + + +F64 PeriodicRecording::getPeriodStandardDeviation( const StatType<EventAccumulator>& stat, S32 num_periods /*= S32_MAX*/ ) +{ + num_periods = llmin(num_periods, getNumRecordedPeriods()); + + F64 period_mean = getPeriodMean(stat, num_periods); + F64 sum_of_squares = 0; + S32 valid_period_count = 0; + + for (S32 i = 1; i <= num_periods; i++) + { + Recording& recording = getPrevRecording(i); + if (recording.hasValue(stat)) + { + F64 delta = recording.getMean(stat) - period_mean; + sum_of_squares += delta * delta; + valid_period_count++; + } + } + + return valid_period_count + ? sqrt((F64)sum_of_squares / (F64)valid_period_count) + : NaN; +} + +F64 PeriodicRecording::getPeriodMin( const StatType<SampleAccumulator>& stat, S32 num_periods /*= S32_MAX*/ ) +{ + num_periods = llmin(num_periods, getNumRecordedPeriods()); + + bool has_value = false; + F64 min_val = std::numeric_limits<F64>::max(); + for (S32 i = 1; i <= num_periods; i++) + { + Recording& recording = getPrevRecording(i); + if (recording.hasValue(stat)) + { + min_val = llmin(min_val, recording.getMin(stat)); + has_value = true; + } + } + + return has_value + ? min_val + : NaN; +} + +F64 PeriodicRecording::getPeriodMax(const StatType<SampleAccumulator>& stat, S32 num_periods /*= S32_MAX*/) +{ + num_periods = llmin(num_periods, getNumRecordedPeriods()); + + bool has_value = false; + F64 max_val = std::numeric_limits<F64>::min(); + for (S32 i = 1; i <= num_periods; i++) + { + Recording& recording = getPrevRecording(i); + if (recording.hasValue(stat)) + { + max_val = llmax(max_val, recording.getMax(stat)); + has_value = true; + } + } + + return has_value + ? max_val + : NaN; +} + + +F64 PeriodicRecording::getPeriodMean( const StatType<SampleAccumulator>& stat, S32 num_periods /*= S32_MAX*/ ) +{ + num_periods = llmin(num_periods, getNumRecordedPeriods()); + + S32 valid_period_count = 0; + F64 mean = 0; + + for (S32 i = 1; i <= num_periods; i++) + { + Recording& recording = getPrevRecording(i); + if (recording.hasValue(stat)) + { + mean += recording.getMean(stat); + valid_period_count++; + } + } + + return valid_period_count + ? mean / F64(valid_period_count) + : NaN; +} + +F64 PeriodicRecording::getPeriodStandardDeviation( const StatType<SampleAccumulator>& stat, S32 num_periods /*= S32_MAX*/ ) +{ + num_periods = llmin(num_periods, getNumRecordedPeriods()); + + F64 period_mean = getPeriodMean(stat, num_periods); + S32 valid_period_count = 0; + F64 sum_of_squares = 0; + + for (S32 i = 1; i <= num_periods; i++) + { + Recording& recording = getPrevRecording(i); + if (recording.hasValue(stat)) + { + F64 delta = recording.getMean(stat) - period_mean; + sum_of_squares += delta * delta; + valid_period_count++; + } + } + + return valid_period_count + ? sqrt(sum_of_squares / (F64)valid_period_count) + : NaN; +} + + +F64Kilobytes PeriodicRecording::getPeriodMin( const StatType<MemAccumulator>& stat, S32 num_periods /*= S32_MAX*/ ) +{ + num_periods = llmin(num_periods, getNumRecordedPeriods()); + + F64Kilobytes min_val(std::numeric_limits<F64>::max()); + for (S32 i = 1; i <= num_periods; i++) + { + Recording& recording = getPrevRecording(i); + min_val = llmin(min_val, recording.getMin(stat)); + } + + return min_val; +} + +F64Kilobytes PeriodicRecording::getPeriodMin(const MemStatHandle& stat, S32 num_periods) +{ + return getPeriodMin(static_cast<const StatType<MemAccumulator>&>(stat), num_periods); +} + +F64Kilobytes PeriodicRecording::getPeriodMax(const StatType<MemAccumulator>& stat, S32 num_periods /*= S32_MAX*/) +{ + num_periods = llmin(num_periods, getNumRecordedPeriods()); + + F64Kilobytes max_val(0.0); + for (S32 i = 1; i <= num_periods; i++) + { + Recording& recording = getPrevRecording(i); + max_val = llmax(max_val, recording.getMax(stat)); + } + + return max_val; +} + +F64Kilobytes PeriodicRecording::getPeriodMax(const MemStatHandle& stat, S32 num_periods) +{ + return getPeriodMax(static_cast<const StatType<MemAccumulator>&>(stat), num_periods); +} + +F64Kilobytes PeriodicRecording::getPeriodMean( const StatType<MemAccumulator>& stat, S32 num_periods /*= S32_MAX*/ ) +{ + num_periods = llmin(num_periods, getNumRecordedPeriods()); + + F64Kilobytes mean(0); + + for (S32 i = 1; i <= num_periods; i++) + { + Recording& recording = getPrevRecording(i); + mean += recording.getMean(stat); + } + + return mean / F64(num_periods); +} + +F64Kilobytes PeriodicRecording::getPeriodMean(const MemStatHandle& stat, S32 num_periods) +{ + return getPeriodMean(static_cast<const StatType<MemAccumulator>&>(stat), num_periods); +} + +F64Kilobytes PeriodicRecording::getPeriodStandardDeviation( const StatType<MemAccumulator>& stat, S32 num_periods /*= S32_MAX*/ ) +{ + num_periods = llmin(num_periods, getNumRecordedPeriods()); + + F64Kilobytes period_mean = getPeriodMean(stat, num_periods); + S32 valid_period_count = 0; + F64 sum_of_squares = 0; + + for (S32 i = 1; i <= num_periods; i++) + { + Recording& recording = getPrevRecording(i); + if (recording.hasValue(stat)) + { + F64Kilobytes delta = recording.getMean(stat) - period_mean; + sum_of_squares += delta.value() * delta.value(); + valid_period_count++; + } + } + + return F64Kilobytes(valid_period_count + ? sqrt(sum_of_squares / (F64)valid_period_count) + : NaN); +} + +F64Kilobytes PeriodicRecording::getPeriodStandardDeviation(const MemStatHandle& stat, S32 num_periods) +{ + return getPeriodStandardDeviation(static_cast<const StatType<MemAccumulator>&>(stat), num_periods); +} + +/////////////////////////////////////////////////////////////////////// +// ExtendableRecording +/////////////////////////////////////////////////////////////////////// + +void ExtendableRecording::extend() +{ + // push the data back to accepted recording + mAcceptedRecording.appendRecording(mPotentialRecording); + // flush data, so we can start from scratch + mPotentialRecording.reset(); +} + +void ExtendableRecording::handleStart() +{ + mPotentialRecording.start(); +} + +void ExtendableRecording::handleStop() +{ + mPotentialRecording.pause(); +} + +void ExtendableRecording::handleReset() +{ + mAcceptedRecording.reset(); + mPotentialRecording.reset(); +} + +void ExtendableRecording::handleSplitTo(ExtendableRecording& other) +{ + mPotentialRecording.splitTo(other.mPotentialRecording); +} + + +/////////////////////////////////////////////////////////////////////// +// ExtendablePeriodicRecording +/////////////////////////////////////////////////////////////////////// + + +ExtendablePeriodicRecording::ExtendablePeriodicRecording() +: mAcceptedRecording(0), + mPotentialRecording(0) +{} + +void ExtendablePeriodicRecording::extend() +{ + // push the data back to accepted recording + mAcceptedRecording.appendPeriodicRecording(mPotentialRecording); + // flush data, so we can start from scratch + mPotentialRecording.reset(); +} + + +void ExtendablePeriodicRecording::handleStart() +{ + mPotentialRecording.start(); +} + +void ExtendablePeriodicRecording::handleStop() +{ + mPotentialRecording.pause(); +} + +void ExtendablePeriodicRecording::handleReset() +{ + mAcceptedRecording.reset(); + mPotentialRecording.reset(); +} + +void ExtendablePeriodicRecording::handleSplitTo(ExtendablePeriodicRecording& other) +{ + mPotentialRecording.splitTo(other.mPotentialRecording); +} + + +PeriodicRecording& get_frame_recording() +{ + static LLThreadLocalPointer<PeriodicRecording> sRecording(new PeriodicRecording(200, PeriodicRecording::STARTED)); + return *sRecording; +} + +} + +void LLStopWatchControlsMixinCommon::start() +{ + switch (mPlayState) + { + case STOPPED: + handleReset(); + handleStart(); + mPlayState = STARTED; + break; + case PAUSED: + handleStart(); + mPlayState = STARTED; + break; + case STARTED: + break; + default: + llassert(false); + break; + } +} + +void LLStopWatchControlsMixinCommon::stop() +{ + switch (mPlayState) + { + case STOPPED: + break; + case PAUSED: + mPlayState = STOPPED; + break; + case STARTED: + handleStop(); + mPlayState = STOPPED; + break; + default: + llassert(false); + break; + } +} + +void LLStopWatchControlsMixinCommon::pause() +{ + switch (mPlayState) + { + case STOPPED: + // stay stopped, don't go to pause + break; + case PAUSED: + break; + case STARTED: + handleStop(); + mPlayState = PAUSED; + break; + default: + llassert(false); + break; + } +} + +void LLStopWatchControlsMixinCommon::unpause() +{ + switch (mPlayState) + { + case STOPPED: + // stay stopped, don't start + break; + case PAUSED: + handleStart(); + mPlayState = STARTED; + break; + case STARTED: + break; + default: + llassert(false); + break; + } +} + +void LLStopWatchControlsMixinCommon::resume() +{ + switch (mPlayState) + { + case STOPPED: + handleStart(); + mPlayState = STARTED; + break; + case PAUSED: + handleStart(); + mPlayState = STARTED; + break; + case STARTED: + break; + default: + llassert(false); + break; + } +} + +void LLStopWatchControlsMixinCommon::restart() +{ + switch (mPlayState) + { + case STOPPED: + handleReset(); + handleStart(); + mPlayState = STARTED; + break; + case PAUSED: + handleReset(); + handleStart(); + mPlayState = STARTED; + break; + case STARTED: + handleReset(); + break; + default: + llassert(false); + break; + } +} + +void LLStopWatchControlsMixinCommon::reset() +{ + handleReset(); +} + +void LLStopWatchControlsMixinCommon::setPlayState( EPlayState state ) +{ + switch(state) + { + case STOPPED: + stop(); + break; + case PAUSED: + pause(); + break; + case STARTED: + start(); + break; + default: + llassert(false); + break; + } + + mPlayState = state; +} |