From f147a734b15511d0f1fecbcfd61c063dfaf0e848 Mon Sep 17 00:00:00 2001 From: Shyotl Date: Tue, 12 Feb 2013 20:47:55 -0600 Subject: [PATCH] LLStat dead code removal --- indra/llcommon/llstat.cpp | 996 ++-------------------------- indra/llcommon/llstat.h | 283 +------- indra/llmessage/llcircuit.cpp | 2 - indra/llmessage/llcircuit.h | 4 - indra/llmessage/lliohttpserver.cpp | 13 +- indra/llmessage/llmessagetemplate.h | 1 - indra/llmessage/llpumpio.cpp | 3 +- indra/newview/llfloaterjoystick.cpp | 3 +- indra/newview/llmemoryview.cpp | 2 + 9 files changed, 112 insertions(+), 1195 deletions(-) diff --git a/indra/llcommon/llstat.cpp b/indra/llcommon/llstat.cpp index ac5bdcffb..6cc2246e2 100644 --- a/indra/llcommon/llstat.cpp +++ b/indra/llcommon/llstat.cpp @@ -37,736 +37,30 @@ // statics -S32 LLPerfBlock::sStatsFlags = LLPerfBlock::LLSTATS_NO_OPTIONAL_STATS; // Control what is being recorded -LLPerfBlock::stat_map_t LLPerfBlock::sStatMap; // Map full path string to LLStatTime objects, tracks all active objects -std::string LLPerfBlock::sCurrentStatPath = ""; // Something like "/total_time/physics/physics step" - //------------------------------------------------------------------------ -// Live config file to trigger stats logging -static const char STATS_CONFIG_FILE_NAME[] = "/dev/shm/simperf/simperf_proc_config.llsd"; -static const F32 STATS_CONFIG_REFRESH_RATE = 5.0; // seconds - -class LLStatsConfigFile : public LLLiveFile -{ -public: - LLStatsConfigFile() - : LLLiveFile(filename(), STATS_CONFIG_REFRESH_RATE), - mChanged(false), mStatsp(NULL) { } - - static std::string filename(); - -protected: - /* virtual */ bool loadFile(); - -public: - void init(LLPerfStats* statsp); - static LLStatsConfigFile& instance(); - // return the singleton stats config file - - bool mChanged; - -protected: - LLPerfStats* mStatsp; -}; - -std::string LLStatsConfigFile::filename() -{ - return STATS_CONFIG_FILE_NAME; -} - -void LLStatsConfigFile::init(LLPerfStats* statsp) -{ - mStatsp = statsp; -} - -LLStatsConfigFile& LLStatsConfigFile::instance() -{ - static LLStatsConfigFile the_file; - return the_file; -} - - -/* virtual */ -// Load and parse the stats configuration file -bool LLStatsConfigFile::loadFile() -{ - if (!mStatsp) - { - llwarns << "Tries to load performance configure file without initializing LPerfStats" << llendl; - return false; - } - mChanged = true; - - LLSD stats_config; - { - llifstream file(filename().c_str()); - if (file.is_open()) - { - LLSDSerialize::fromXML(stats_config, file); - if (stats_config.isUndefined()) - { - llinfos << "Performance statistics configuration file ill-formed, not recording statistics" << llendl; - mStatsp->setReportPerformanceDuration( 0.f ); - return false; - } - } - else - { // File went away, turn off stats if it was on - if ( mStatsp->frameStatsIsRunning() ) - { - llinfos << "Performance statistics configuration file deleted, not recording statistics" << llendl; - mStatsp->setReportPerformanceDuration( 0.f ); - } - return true; - } - } - - F32 duration = 0.f; - F32 interval = 0.f; - S32 flags = LLPerfBlock::LLSTATS_BASIC_STATS; - - const char * w = "duration"; - if (stats_config.has(w)) - { - duration = (F32)stats_config[w].asReal(); - } - w = "interval"; - if (stats_config.has(w)) - { - interval = (F32)stats_config[w].asReal(); - } - w = "flags"; - if (stats_config.has(w)) - { - flags = (S32)stats_config[w].asInteger(); - if (flags == LLPerfBlock::LLSTATS_NO_OPTIONAL_STATS && - duration > 0) - { // No flags passed in, but have a duration, so reset to basic stats - flags = LLPerfBlock::LLSTATS_BASIC_STATS; - } - } - - mStatsp->setReportPerformanceDuration( duration, flags ); - mStatsp->setReportPerformanceInterval( interval ); - - if ( duration > 0 ) - { - if ( interval == 0.f ) - { - llinfos << "Recording performance stats every frame for " << duration << " sec" << llendl; - } - else - { - llinfos << "Recording performance stats every " << interval << " seconds for " << duration << " seconds" << llendl; - } - } - else - { - llinfos << "Performance stats recording turned off" << llendl; - } - return true; -} - - -//------------------------------------------------------------------------ - -LLPerfStats::LLPerfStats(const std::string& process_name, S32 process_pid) : - mFrameStatsFileFailure(FALSE), - mSkipFirstFrameStats(FALSE), - mProcessName(process_name), - mProcessPID(process_pid), - mReportPerformanceStatInterval(1.f), - mReportPerformanceStatEnd(0.0) -{ } - -LLPerfStats::~LLPerfStats() -{ - LLPerfBlock::clearDynamicStats(); - mFrameStatsFile.close(); -} - -void LLPerfStats::init() -{ - // Initialize the stats config file instance. - (void) LLStatsConfigFile::instance().init(this); - (void) LLStatsConfigFile::instance().checkAndReload(); -} - -// Open file for statistics -void LLPerfStats::openPerfStatsFile() -{ - if ( !mFrameStatsFile - && !mFrameStatsFileFailure ) - { - std::string stats_file = llformat("/dev/shm/simperf/%s_proc.%d.llsd", mProcessName.c_str(), mProcessPID); - mFrameStatsFile.close(); - mFrameStatsFile.clear(); - mFrameStatsFile.open(stats_file, llofstream::out); - if ( mFrameStatsFile.fail() ) - { - llinfos << "Error opening statistics log file " << stats_file << llendl; - mFrameStatsFileFailure = TRUE; - } - else - { - LLSD process_info = LLSD::emptyMap(); - process_info["name"] = mProcessName; - process_info["pid"] = (LLSD::Integer) mProcessPID; - process_info["stat_rate"] = (LLSD::Integer) mReportPerformanceStatInterval; - // Add process-specific info. - addProcessHeaderInfo(process_info); - - mFrameStatsFile << LLSDNotationStreamer(process_info) << std::endl; - } - } -} - -// Dump out performance metrics over some time interval -void LLPerfStats::dumpIntervalPerformanceStats() -{ - // Ensure output file is OK - openPerfStatsFile(); - - if ( mFrameStatsFile ) - { - LLSD stats = LLSD::emptyMap(); - - LLStatAccum::TimeScale scale; - if ( getReportPerformanceInterval() == 0.f ) - { - scale = LLStatAccum::SCALE_PER_FRAME; - } - else if ( getReportPerformanceInterval() < 0.5f ) - { - scale = LLStatAccum::SCALE_100MS; - } - else - { - scale = LLStatAccum::SCALE_SECOND; - } - - // Write LLSD into log - stats["utc_time"] = (LLSD::String) LLError::utcTime(); - stats["timestamp"] = U64_to_str((totalTime() / 1000) + (gUTCOffset * 1000)); // milliseconds since epoch - stats["frame_number"] = (LLSD::Integer) LLFrameTimer::getFrameCount(); - - // Add process-specific frame info. - addProcessFrameInfo(stats, scale); - LLPerfBlock::addStatsToLLSDandReset( stats, scale ); - - mFrameStatsFile << LLSDNotationStreamer(stats) << std::endl; - } -} - -// Set length of performance stat recording. -// If turning stats on, caller must provide flags -void LLPerfStats::setReportPerformanceDuration( F32 seconds, S32 flags /* = LLSTATS_NO_OPTIONAL_STATS */ ) -{ - if ( seconds <= 0.f ) - { - mReportPerformanceStatEnd = 0.0; - LLPerfBlock::setStatsFlags(LLPerfBlock::LLSTATS_NO_OPTIONAL_STATS); // Make sure all recording is off - mFrameStatsFile.close(); - LLPerfBlock::clearDynamicStats(); - } - else - { - mReportPerformanceStatEnd = LLFrameTimer::getElapsedSeconds() + ((F64) seconds); - // Clear failure flag to try and create the log file once - mFrameStatsFileFailure = FALSE; - mSkipFirstFrameStats = TRUE; // Skip the first report (at the end of this frame) - LLPerfBlock::setStatsFlags(flags); - } -} - -void LLPerfStats::updatePerFrameStats() -{ - (void) LLStatsConfigFile::instance().checkAndReload(); - static LLFrameTimer performance_stats_timer; - if ( frameStatsIsRunning() ) - { - if ( mReportPerformanceStatInterval == 0 ) - { // Record info every frame - if ( mSkipFirstFrameStats ) - { // Skip the first time - was started this frame - mSkipFirstFrameStats = FALSE; - } - else - { - dumpIntervalPerformanceStats(); - } - } - else - { - performance_stats_timer.setTimerExpirySec( getReportPerformanceInterval() ); - if (performance_stats_timer.checkExpirationAndReset( mReportPerformanceStatInterval )) - { - dumpIntervalPerformanceStats(); - } - } - - if ( LLFrameTimer::getElapsedSeconds() > mReportPerformanceStatEnd ) - { // Reached end of time, clear it to stop reporting - setReportPerformanceDuration(0.f); // Don't set mReportPerformanceStatEnd directly - llinfos << "Recording performance stats completed" << llendl; - } - } -} - - -//------------------------------------------------------------------------ - -U64 LLStatAccum::sScaleTimes[NUM_SCALES] = -{ - USEC_PER_SEC / 10, // 100 millisec - USEC_PER_SEC * 1, // seconds - USEC_PER_SEC * 60, // minutes -#if ENABLE_LONG_TIME_STATS - // enable these when more time scales are desired - USEC_PER_SEC * 60*60, // hours - USEC_PER_SEC * 24*60*60, // days - USEC_PER_SEC * 7*24*60*60, // weeks -#endif -}; - - - -LLStatAccum::LLStatAccum(bool useFrameTimer) - : mUseFrameTimer(useFrameTimer), - mRunning(FALSE), - mLastTime(0), - mLastSampleValue(0.0), - mLastSampleValid(FALSE) -{ -} - -LLStatAccum::~LLStatAccum() -{ -} - - - -void LLStatAccum::reset(U64 when) -{ - mRunning = TRUE; - mLastTime = when; - - for (int i = 0; i < NUM_SCALES; ++i) - { - mBuckets[i].accum = 0.0; - mBuckets[i].endTime = when + sScaleTimes[i]; - mBuckets[i].lastValid = false; - } -} - -void LLStatAccum::sum(F64 value) -{ - sum(value, getCurrentUsecs()); -} - -void LLStatAccum::sum(F64 value, U64 when) -{ - if (!mRunning) - { - reset(when); - return; - } - if (when < mLastTime) - { - // This happens a LOT on some dual core systems. - lldebugs << "LLStatAccum::sum clock has gone backwards from " - << mLastTime << " to " << when << ", resetting" << llendl; - - reset(when); - return; - } - - // how long is this value for - U64 timeSpan = when - mLastTime; - - for (int i = 0; i < NUM_SCALES; ++i) - { - Bucket& bucket = mBuckets[i]; - - if (when < bucket.endTime) - { - bucket.accum += value; - } - else - { - U64 timeScale = sScaleTimes[i]; - - U64 timeLeft = when - bucket.endTime; - // how much time is left after filling this bucket - - if (timeLeft < timeScale) - { - F64 valueLeft = value * timeLeft / timeSpan; - - bucket.lastValid = true; - bucket.lastAccum = bucket.accum + (value - valueLeft); - bucket.accum = valueLeft; - bucket.endTime += timeScale; - } - else - { - U64 timeTail = timeLeft % timeScale; - - bucket.lastValid = true; - bucket.lastAccum = value * timeScale / timeSpan; - bucket.accum = value * timeTail / timeSpan; - bucket.endTime += (timeLeft - timeTail) + timeScale; - } - } - } - - mLastTime = when; -} - - -F32 LLStatAccum::meanValue(TimeScale scale) const -{ - if (!mRunning) - { - return 0.0; - } - if ( scale == SCALE_PER_FRAME ) - { // Per-frame not supported here - scale = SCALE_100MS; - } - - if (scale < 0 || scale >= NUM_SCALES) - { - llwarns << "llStatAccum::meanValue called for unsupported scale: " - << scale << llendl; - return 0.0; - } - - const Bucket& bucket = mBuckets[scale]; - - F64 value = bucket.accum; - U64 timeLeft = bucket.endTime - mLastTime; - U64 scaleTime = sScaleTimes[scale]; - - if (bucket.lastValid) - { - value += bucket.lastAccum * timeLeft / scaleTime; - } - else if (timeLeft < scaleTime) - { - value *= scaleTime / (scaleTime - timeLeft); - } - else - { - value = 0.0; - } - - return (F32)(value / scaleTime); -} - - -U64 LLStatAccum::getCurrentUsecs() const -{ - if (mUseFrameTimer) - { - return LLFrameTimer::getTotalTime(); - } - else - { - return totalTime(); - } -} - - -// ------------------------------------------------------------------------ - -LLStatRate::LLStatRate(bool use_frame_timer) - : LLStatAccum(use_frame_timer) -{ -} - -void LLStatRate::count(U32 value) -{ - sum((F64)value * sScaleTimes[SCALE_SECOND]); -} - - -void LLStatRate::mark() - { - // Effectively the same as count(1), but sets mLastSampleValue - U64 when = getCurrentUsecs(); - - if ( mRunning - && (when > mLastTime) ) - { // Set mLastSampleValue to the time from the last mark() - F64 duration = ((F64)(when - mLastTime)) / sScaleTimes[SCALE_SECOND]; - if ( duration > 0.0 ) - { - mLastSampleValue = 1.0 / duration; - } - else - { - mLastSampleValue = 0.0; - } - } - - sum( (F64) sScaleTimes[SCALE_SECOND], when); - } - - -// ------------------------------------------------------------------------ - - -LLStatMeasure::LLStatMeasure(bool use_frame_timer) - : LLStatAccum(use_frame_timer) -{ -} - -void LLStatMeasure::sample(F64 value) -{ - U64 when = getCurrentUsecs(); - - if (mLastSampleValid) - { - F64 avgValue = (value + mLastSampleValue) / 2.0; - F64 interval = (F64)(when - mLastTime); - - sum(avgValue * interval, when); - } - else - { - reset(when); - } - - mLastSampleValid = TRUE; - mLastSampleValue = value; -} - - -// ------------------------------------------------------------------------ - -LLStatTime::LLStatTime(const std::string & key) - : LLStatAccum(false), - mFrameNumber(LLFrameTimer::getFrameCount()), - mTotalTimeInFrame(0), - mKey(key) -#if LL_DEBUG - , mRunning(FALSE) -#endif -{ -} - -void LLStatTime::start() -{ - // Reset frame accumluation if the frame number has changed - U32 frame_number = LLFrameTimer::getFrameCount(); - if ( frame_number != mFrameNumber ) - { - mFrameNumber = frame_number; - mTotalTimeInFrame = 0; - } - - sum(0.0); - -#if LL_DEBUG - // Shouldn't be running already - llassert( !mRunning ); - mRunning = TRUE; -#endif -} - -void LLStatTime::stop() -{ - U64 end_time = getCurrentUsecs(); - U64 duration = end_time - mLastTime; - sum(F64(duration), end_time); - //llinfos << "mTotalTimeInFrame incremented from " << mTotalTimeInFrame << " to " << (mTotalTimeInFrame + duration) << llendl; - mTotalTimeInFrame += duration; - -#if LL_DEBUG - mRunning = FALSE; -#endif -} - -/* virtual */ F32 LLStatTime::meanValue(TimeScale scale) const -{ - if ( LLStatAccum::SCALE_PER_FRAME == scale ) - { - return (F32)mTotalTimeInFrame; - } - else - { - return LLStatAccum::meanValue(scale); - } -} - - -// ------------------------------------------------------------------------ - - -// Use this constructor for pre-defined LLStatTime objects -LLPerfBlock::LLPerfBlock(LLStatTime* stat ) : mPredefinedStat(stat), mDynamicStat(NULL) -{ - if (mPredefinedStat) - { - // If dynamic stats are turned on, this will create a separate entry in the stat map. - initDynamicStat(mPredefinedStat->mKey); - - // Start predefined stats. These stats are not part of the stat map. - mPredefinedStat->start(); - } -} - -// Use this constructor for normal, optional LLPerfBlock time slices -LLPerfBlock::LLPerfBlock( const char* key ) : mPredefinedStat(NULL), mDynamicStat(NULL) -{ - if ((sStatsFlags & LLSTATS_BASIC_STATS) == 0) - { // These are off unless the base set is enabled - return; - } - - initDynamicStat(key); -} - - -// Use this constructor for dynamically created LLPerfBlock time slices -// that are only enabled by specific control flags -LLPerfBlock::LLPerfBlock( const char* key1, const char* key2, S32 flags ) : mPredefinedStat(NULL), mDynamicStat(NULL) -{ - if ((sStatsFlags & flags) == 0) - { - return; - } - - if (NULL == key2 || strlen(key2) == 0) - { - initDynamicStat(key1); - } - else - { - std::ostringstream key; - key << key1 << "_" << key2; - initDynamicStat(key.str()); - } -} - -// Set up the result data map if dynamic stats are enabled -void LLPerfBlock::initDynamicStat(const std::string& key) -{ - // Early exit if dynamic stats aren't enabled. - if (sStatsFlags == LLSTATS_NO_OPTIONAL_STATS) - return; - - mLastPath = sCurrentStatPath; // Save and restore current path - sCurrentStatPath += "/" + key; // Add key to current path - - // See if the LLStatTime object already exists - stat_map_t::iterator iter = sStatMap.find(sCurrentStatPath); - if ( iter == sStatMap.end() ) - { - // StatEntry object doesn't exist, so create it - mDynamicStat = new StatEntry( key ); - sStatMap[ sCurrentStatPath ] = mDynamicStat; // Set the entry for this path - } - else - { - // Found this path in the map, use the object there - mDynamicStat = (*iter).second; // Get StatEntry for the current path - } - - if (mDynamicStat) - { - mDynamicStat->mStat.start(); - mDynamicStat->mCount++; - } - else - { - llwarns << "Initialized NULL dynamic stat at '" << sCurrentStatPath << "'" << llendl; - sCurrentStatPath = mLastPath; - } -} - - -// Destructor does the time accounting -LLPerfBlock::~LLPerfBlock() -{ - if (mPredefinedStat) mPredefinedStat->stop(); - if (mDynamicStat) - { - mDynamicStat->mStat.stop(); - sCurrentStatPath = mLastPath; // Restore the path in case sStatsEnabled changed during this block - } -} - - -// Clear the map of any dynamic stats. Static routine -void LLPerfBlock::clearDynamicStats() -{ - std::for_each(sStatMap.begin(), sStatMap.end(), DeletePairedPointer()); - sStatMap.clear(); -} - -// static - Extract the stat info into LLSD -void LLPerfBlock::addStatsToLLSDandReset( LLSD & stats, - LLStatAccum::TimeScale scale ) -{ - // If we aren't in per-frame scale, we need to go from second to microsecond. - U32 scale_adjustment = 1; - if (LLStatAccum::SCALE_PER_FRAME != scale) - { - scale_adjustment = USEC_PER_SEC; - } - stat_map_t::iterator iter = sStatMap.begin(); - for ( ; iter != sStatMap.end(); ++iter ) - { // Put the entry into LLSD "/full/path/to/stat/" = microsecond total time - const std::string & stats_full_path = (*iter).first; - - StatEntry * stat = (*iter).second; - if (stat) - { - if (stat->mCount > 0) - { - stats[stats_full_path] = LLSD::emptyMap(); - stats[stats_full_path]["us"] = (LLSD::Integer) (scale_adjustment * stat->mStat.meanValue(scale)); - if (stat->mCount > 1) - { - stats[stats_full_path]["count"] = (LLSD::Integer) stat->mCount; - } - stat->mCount = 0; - } - } - else - { // Shouldn't have a NULL pointer in the map. - llwarns << "Unexpected NULL dynamic stat at '" << stats_full_path << "'" << llendl; - } - } -} - - -// ------------------------------------------------------------------------ - LLTimer LLStat::sTimer; LLFrameTimer LLStat::sFrameTimer; -void LLStat::init() +void LLStat::reset() { - llassert(mNumBins > 0); mNumValues = 0; mLastValue = 0.f; - mLastTime = 0.f; - mCurBin = (mNumBins-1); + delete[] mBins; + mBins = new ValueEntry[mNumBins]; + mCurBin = mNumBins-1; mNextBin = 0; - mBins = new F32[mNumBins]; - mBeginTime = new F64[mNumBins]; - mTime = new F64[mNumBins]; - mDT = new F32[mNumBins]; - for (U32 i = 0; i < mNumBins; i++) - { - mBins[i] = 0.f; - mBeginTime[i] = 0.0; - mTime[i] = 0.0; - mDT[i] = 0.f; - } +} + +LLStat::LLStat(std::string name, S32 num_bins, BOOL use_frame_timer) +: mUseFrameTimer(use_frame_timer), + mNumBins(num_bins), + mName(name), + mBins(NULL) +{ + llassert(mNumBins > 0); + mLastTime = 0.f; + + reset(); if (!mName.empty()) { @@ -787,27 +81,9 @@ LLStat::stat_map_t& LLStat::getStatList() return *stat_list; } -LLStat::LLStat(const U32 num_bins, const BOOL use_frame_timer) - : mUseFrameTimer(use_frame_timer), - mNumBins(num_bins) -{ - init(); -} - -LLStat::LLStat(std::string name, U32 num_bins, BOOL use_frame_timer) - : mUseFrameTimer(use_frame_timer), - mNumBins(num_bins), - mName(name) -{ - init(); -} - LLStat::~LLStat() { delete[] mBins; - delete[] mBeginTime; - delete[] mTime; - delete[] mDT; if (!mName.empty()) { @@ -819,76 +95,15 @@ LLStat::~LLStat() } } -void LLStat::reset() -{ - U32 i; - - mNumValues = 0; - mLastValue = 0.f; - mCurBin = (mNumBins-1); - delete[] mBins; - delete[] mBeginTime; - delete[] mTime; - delete[] mDT; - mBins = new F32[mNumBins]; - mBeginTime = new F64[mNumBins]; - mTime = new F64[mNumBins]; - mDT = new F32[mNumBins]; - for (i = 0; i < mNumBins; i++) - { - mBins[i] = 0.f; - mBeginTime[i] = 0.0; - mTime[i] = 0.0; - mDT[i] = 0.f; - } -} - -void LLStat::setBeginTime(const F64 time) -{ - mBeginTime[mNextBin] = time; -} - -void LLStat::addValueTime(const F64 time, const F32 value) -{ - if (mNumValues < mNumBins) - { - mNumValues++; - } - - // Increment the bin counters. - mCurBin++; - if ((U32)mCurBin == mNumBins) - { - mCurBin = 0; - } - mNextBin++; - if ((U32)mNextBin == mNumBins) - { - mNextBin = 0; - } - - mBins[mCurBin] = value; - mTime[mCurBin] = time; - mDT[mCurBin] = (F32)(mTime[mCurBin] - mBeginTime[mCurBin]); - //this value is used to prime the min/max calls - mLastTime = mTime[mCurBin]; - mLastValue = value; - - // Set the begin time for the next stat segment. - mBeginTime[mNextBin] = mTime[mCurBin]; - mTime[mNextBin] = mTime[mCurBin]; - mDT[mNextBin] = 0.f; -} - void LLStat::start() { if (mUseFrameTimer) { - mBeginTime[mNextBin] = sFrameTimer.getElapsedSeconds(); + mBins[mNextBin].mBeginTime = sFrameTimer.getElapsedSeconds(); } else { - mBeginTime[mNextBin] = sTimer.getElapsedTimeF64(); + mBins[mNextBin].mBeginTime = sTimer.getElapsedTimeF64(); } } @@ -901,41 +116,41 @@ void LLStat::addValue(const F32 value) // Increment the bin counters. mCurBin++; - if ((U32)mCurBin == mNumBins) + if ((U32)mCurBin >= mNumBins) { mCurBin = 0; } mNextBin++; - if ((U32)mNextBin == mNumBins) + if ((U32)mNextBin >= mNumBins) { mNextBin = 0; } - mBins[mCurBin] = value; + mBins[mCurBin].mValue = value; if (mUseFrameTimer) { - mTime[mCurBin] = sFrameTimer.getElapsedSeconds(); + mBins[mCurBin].mTime = sFrameTimer.getElapsedSeconds(); } else { - mTime[mCurBin] = sTimer.getElapsedTimeF64(); + mBins[mCurBin].mTime = sTimer.getElapsedTimeF64(); } - mDT[mCurBin] = (F32)(mTime[mCurBin] - mBeginTime[mCurBin]); + mBins[mCurBin].mDT = (F32)(mBins[mCurBin].mTime - mBins[mCurBin].mBeginTime); //this value is used to prime the min/max calls - mLastTime = mTime[mCurBin]; + mLastTime = mBins[mCurBin].mTime; mLastValue = value; // Set the begin time for the next stat segment. - mBeginTime[mNextBin] = mTime[mCurBin]; - mTime[mNextBin] = mTime[mCurBin]; - mDT[mNextBin] = 0.f; + mBins[mNextBin].mBeginTime = mBins[mCurBin].mTime; + mBins[mNextBin].mTime = mBins[mCurBin].mTime; + mBins[mNextBin].mDT = 0.f; } F32 LLStat::getMax() const { - U32 i; + S32 i; F32 current_max = mLastValue; if (mNumBins == 0) { @@ -943,16 +158,16 @@ F32 LLStat::getMax() const } else { - for (i = 0; (i < mNumBins) && (i < mNumValues); i++) + for (i = 0; (i < (S32)mNumBins) && (i < (S32)mNumValues); i++) { // Skip the bin we're currently filling. - if (i == (U32)mNextBin) + if (i == mNextBin) { continue; } - if (mBins[i] > current_max) + if (mBins[i].mValue > current_max) { - current_max = mBins[i]; + current_max = mBins[i].mValue; } } } @@ -961,17 +176,17 @@ F32 LLStat::getMax() const F32 LLStat::getMean() const { - U32 i; + S32 i; F32 current_mean = 0.f; - U32 samples = 0; - for (i = 0; (i < mNumBins) && (i < mNumValues); i++) + S32 samples = 0; + for (i = 0; (i < (S32)mNumBins) && (i < (S32)mNumValues); i++) { // Skip the bin we're currently filling. - if (i == (U32)mNextBin) + if (i == mNextBin) { continue; } - current_mean += mBins[i]; + current_mean += mBins[i].mValue; samples++; } @@ -989,7 +204,7 @@ F32 LLStat::getMean() const F32 LLStat::getMin() const { - U32 i; + S32 i; F32 current_min = mLastValue; if (mNumBins == 0) @@ -998,56 +213,22 @@ F32 LLStat::getMin() const } else { - for (i = 0; (i < mNumBins) && (i < mNumValues); i++) + for (i = 0; (i < (S32)mNumBins) && (i < (S32)mNumValues); i++) { // Skip the bin we're currently filling. - if (i == (U32)mNextBin) + if (i == mNextBin) { continue; } - if (mBins[i] < current_min) + if (mBins[i].mValue < current_min) { - current_min = mBins[i]; + current_min = mBins[i].mValue; } } } return current_min; } -F32 LLStat::getSum() const -{ - U32 i; - F32 sum = 0.f; - for (i = 0; (i < mNumBins) && (i < mNumValues); i++) - { - // Skip the bin we're currently filling. - if (i == (U32)mNextBin) - { - continue; - } - sum += mBins[i]; - } - - return sum; -} - -F32 LLStat::getSumDuration() const -{ - U32 i; - F32 sum = 0.f; - for (i = 0; (i < mNumBins) && (i < mNumValues); i++) - { - // Skip the bin we're currently filling. - if (i == (U32)mNextBin) - { - continue; - } - sum += mDT[i]; - } - - return sum; -} - F32 LLStat::getPrev(S32 age) const { S32 bin; @@ -1063,7 +244,7 @@ F32 LLStat::getPrev(S32 age) const // Bogus for bin we're currently working on. return 0.f; } - return mBins[bin]; + return mBins[bin].mValue; } F32 LLStat::getPrevPerSec(S32 age) const @@ -1081,7 +262,7 @@ F32 LLStat::getPrevPerSec(S32 age) const // Bogus for bin we're currently working on. return 0.f; } - return mBins[bin] / mDT[bin]; + return mBins[bin].mValue / mBins[bin].mDT; } F64 LLStat::getPrevBeginTime(S32 age) const @@ -1100,7 +281,7 @@ F64 LLStat::getPrevBeginTime(S32 age) const return 0.f; } - return mBeginTime[bin]; + return mBins[bin].mBeginTime; } F64 LLStat::getPrevTime(S32 age) const @@ -1119,69 +300,45 @@ F64 LLStat::getPrevTime(S32 age) const return 0.f; } - return mTime[bin]; + return mBins[bin].mTime; } -F32 LLStat::getBin(S32 bin) const -{ - return mBins[bin]; -} - -F32 LLStat::getBinPerSec(S32 bin) const -{ - return mBins[bin] / mDT[bin]; -} - -F64 LLStat::getBinBeginTime(S32 bin) const -{ - return mBeginTime[bin]; -} F64 LLStat::getBinTime(S32 bin) const { - return mTime[bin]; + return mBins[bin].mTime; } F32 LLStat::getCurrent() const { - return mBins[mCurBin]; + return mBins[mCurBin].mValue; } F32 LLStat::getCurrentPerSec() const { - return mBins[mCurBin] / mDT[mCurBin]; -} - -F64 LLStat::getCurrentBeginTime() const -{ - return mBeginTime[mCurBin]; -} - -F64 LLStat::getCurrentTime() const -{ - return mTime[mCurBin]; + return mBins[mCurBin].mValue / mBins[mCurBin].mDT; } F32 LLStat::getCurrentDuration() const { - return mDT[mCurBin]; + return mBins[mCurBin].mDT; } F32 LLStat::getMeanPerSec() const { - U32 i; + S32 i; F32 value = 0.f; F32 dt = 0.f; - for (i = 0; (i < mNumBins) && (i < mNumValues); i++) + for (i = 0; (i < (S32)mNumBins) && (i < (S32)mNumValues); i++) { // Skip the bin we're currently filling. - if (i == (U32)mNextBin) + if (i == mNextBin) { continue; } - value += mBins[i]; - dt += mDT[i]; + value += mBins[i].mValue; + dt += mBins[i].mDT; } if (dt > 0.f) @@ -1197,14 +354,14 @@ F32 LLStat::getMeanPerSec() const F32 LLStat::getMeanDuration() const { F32 dur = 0.0f; - U32 count = 0; - for (U32 i=0; (i < mNumBins) && (i < mNumValues); i++) + S32 count = 0; + for (S32 i=0; (i < (S32)mNumBins) && (i < (S32)mNumValues); i++) { - if (i == (U32)mNextBin) + if (i == mNextBin) { continue; } - dur += mDT[i]; + dur += mBins[i].mDT; count++; } @@ -1221,74 +378,63 @@ F32 LLStat::getMeanDuration() const F32 LLStat::getMaxPerSec() const { - U32 i; F32 value; if (mNextBin != 0) { - value = mBins[0]/mDT[0]; + value = mBins[0].mValue/mBins[0].mDT; } else if (mNumValues > 0) { - value = mBins[1]/mDT[1]; + value = mBins[1].mValue/mBins[1].mDT; } else { value = 0.f; } - for (i = 0; (i < mNumBins) && (i < mNumValues); i++) + for (S32 i = 0; (i < (S32)mNumBins) && (i < (S32)mNumValues); i++) { // Skip the bin we're currently filling. - if (i == (U32)mNextBin) + if (i == mNextBin) { continue; } - value = llmax(value, mBins[i]/mDT[i]); + value = llmax(value, mBins[i].mValue/mBins[i].mDT); } return value; } F32 LLStat::getMinPerSec() const { - U32 i; + S32 i; F32 value; if (mNextBin != 0) { - value = mBins[0]/mDT[0]; + value = mBins[0].mValue/mBins[0].mDT; } else if (mNumValues > 0) { - value = mBins[1]/mDT[1]; + value = mBins[1].mValue/mBins[0].mDT; } else { value = 0.f; } - for (i = 0; (i < mNumBins) && (i < mNumValues); i++) + for (i = 0; (i < (S32)mNumBins) && (i < (S32)mNumValues); i++) { // Skip the bin we're currently filling. - if (i == (U32)mNextBin) + if (i == mNextBin) { continue; } - value = llmin(value, mBins[i]/mDT[i]); + value = llmin(value, mBins[i].mValue/mBins[i].mDT); } return value; } -F32 LLStat::getMinDuration() const -{ - F32 dur = 0.0f; - for (U32 i=0; (i < mNumBins) && (i < mNumValues); i++) - { - dur = llmin(dur, mDT[i]); - } - return dur; -} - U32 LLStat::getNumValues() const { return mNumValues; diff --git a/indra/llcommon/llstat.h b/indra/llcommon/llstat.h index 1a8404cc0..12737a8ce 100644 --- a/indra/llcommon/llstat.h +++ b/indra/llcommon/llstat.h @@ -27,294 +27,52 @@ #ifndef LL_LLSTAT_H #define LL_LLSTAT_H -#include #include #include "lltimer.h" #include "llframetimer.h" -#include "llfile.h" class LLSD; -// Set this if longer stats are needed -#define ENABLE_LONG_TIME_STATS 0 - -// -// Accumulates statistics for an arbitrary length of time. -// Does this by maintaining a chain of accumulators, each one -// accumulation the results of the parent. Can scale to arbitrary -// amounts of time with very low memory cost. -// - -class LL_COMMON_API LLStatAccum -{ -protected: - LLStatAccum(bool use_frame_timer); - virtual ~LLStatAccum(); - -public: - enum TimeScale { - SCALE_100MS, - SCALE_SECOND, - SCALE_MINUTE, -#if ENABLE_LONG_TIME_STATS - SCALE_HOUR, - SCALE_DAY, - SCALE_WEEK, -#endif - NUM_SCALES, // Use to size storage arrays - SCALE_PER_FRAME // For latest frame information - should be after NUM_SCALES since this doesn't go into the time buckets - }; - - static U64 sScaleTimes[NUM_SCALES]; - - virtual F32 meanValue(TimeScale scale) const; - // see the subclasses for the specific meaning of value - - F32 meanValueOverLast100ms() const { return meanValue(SCALE_100MS); } - F32 meanValueOverLastSecond() const { return meanValue(SCALE_SECOND); } - F32 meanValueOverLastMinute() const { return meanValue(SCALE_MINUTE); } - - void reset(U64 when); - - void sum(F64 value); - void sum(F64 value, U64 when); - - U64 getCurrentUsecs() const; - // Get current microseconds based on timer type - - BOOL mUseFrameTimer; - BOOL mRunning; - - U64 mLastTime; - - struct Bucket - { - Bucket() : - accum(0.0), - endTime(0), - lastValid(false), - lastAccum(0.0) - {} - - F64 accum; - U64 endTime; - - bool lastValid; - F64 lastAccum; - }; - - Bucket mBuckets[NUM_SCALES]; - - BOOL mLastSampleValid; - F64 mLastSampleValue; -}; - -class LL_COMMON_API LLStatMeasure : public LLStatAccum - // gathers statistics about things that are measured - // ex.: tempature, time dilation -{ -public: - LLStatMeasure(bool use_frame_timer = true); - - void sample(F64); - void sample(S32 v) { sample((F64)v); } - void sample(U32 v) { sample((F64)v); } - void sample(S64 v) { sample((F64)v); } - void sample(U64 v) { sample((F64)v); } -}; - - -class LL_COMMON_API LLStatRate : public LLStatAccum - // gathers statistics about things that can be counted over time - // ex.: LSL instructions executed, messages sent, simulator frames completed - // renders it in terms of rate of thing per second -{ -public: - LLStatRate(bool use_frame_timer = true); - - void count(U32); - // used to note that n items have occured - - void mark(); - // used for counting the rate thorugh a point in the code -}; - - -class LL_COMMON_API LLStatTime : public LLStatAccum - // gathers statistics about time spent in a block of code - // measure average duration per second in the block -{ -public: - LLStatTime( const std::string & key = "undefined" ); - - U32 mFrameNumber; // Current frame number - U64 mTotalTimeInFrame; // Total time (microseconds) accumulated during the last frame - - void setKey( const std::string & key ) { mKey = key; }; - - virtual F32 meanValue(TimeScale scale) const; - -private: - void start(); // Start and stop measuring time block - void stop(); - - std::string mKey; // Tag representing this time block - -#if LL_DEBUG - BOOL mRunning; // TRUE if start() has been called -#endif - - friend class LLPerfBlock; -}; - -// ---------------------------------------------------------------------------- - - -// Use this class on the stack to record statistics about an area of code -class LL_COMMON_API LLPerfBlock -{ -public: - struct StatEntry - { - StatEntry(const std::string& key) : mStat(LLStatTime(key)), mCount(0) {} - LLStatTime mStat; - U32 mCount; - }; - typedef std::map stat_map_t; - - // Use this constructor for pre-defined LLStatTime objects - LLPerfBlock(LLStatTime* stat); - - // Use this constructor for normal, optional LLPerfBlock time slices - LLPerfBlock( const char* key ); - - // Use this constructor for dynamically created LLPerfBlock time slices - // that are only enabled by specific control flags - LLPerfBlock( const char* key1, const char* key2, S32 flags = LLSTATS_BASIC_STATS ); - - ~LLPerfBlock(); - - enum - { // Stats bitfield flags - LLSTATS_NO_OPTIONAL_STATS = 0x00, // No optional stats gathering, just pre-defined LLStatTime objects - LLSTATS_BASIC_STATS = 0x01, // Gather basic optional runtime stats - LLSTATS_SCRIPT_FUNCTIONS = 0x02, // Include LSL function calls - }; - static void setStatsFlags( S32 flags ) { sStatsFlags = flags; }; - static S32 getStatsFlags() { return sStatsFlags; }; - - static void clearDynamicStats(); // Reset maps to clear out dynamic objects - static void addStatsToLLSDandReset( LLSD & stats, // Get current information and clear time bin - LLStatAccum::TimeScale scale ); - -private: - // Initialize dynamically created LLStatTime objects - void initDynamicStat(const std::string& key); - - std::string mLastPath; // Save sCurrentStatPath when this is called - LLStatTime * mPredefinedStat; // LLStatTime object to get data - StatEntry * mDynamicStat; // StatEntryobject to get data - - static S32 sStatsFlags; // Control what is being recorded - static stat_map_t sStatMap; // Map full path string to LLStatTime objects - static std::string sCurrentStatPath; // Something like "frame/physics/physics step" -}; - -// ---------------------------------------------------------------------------- - -class LL_COMMON_API LLPerfStats -{ -public: - LLPerfStats(const std::string& process_name = "unknown", S32 process_pid = 0); - virtual ~LLPerfStats(); - - virtual void init(); // Reset and start all stat timers - virtual void updatePerFrameStats(); - // Override these function to add process-specific information to the performance log header and per-frame logging. - virtual void addProcessHeaderInfo(LLSD& info) { /* not implemented */ } - virtual void addProcessFrameInfo(LLSD& info, LLStatAccum::TimeScale scale) { /* not implemented */ } - - // High-resolution frame stats - BOOL frameStatsIsRunning() { return (mReportPerformanceStatEnd > 0.); }; - F32 getReportPerformanceInterval() const { return mReportPerformanceStatInterval; }; - void setReportPerformanceInterval( F32 interval ) { mReportPerformanceStatInterval = interval; }; - void setReportPerformanceDuration( F32 seconds, S32 flags = LLPerfBlock::LLSTATS_NO_OPTIONAL_STATS ); - void setProcessName(const std::string& process_name) { mProcessName = process_name; } - void setProcessPID(S32 process_pid) { mProcessPID = process_pid; } - -protected: - void openPerfStatsFile(); // Open file for high resolution metrics logging - void dumpIntervalPerformanceStats(); - - llofstream mFrameStatsFile; // File for per-frame stats - BOOL mFrameStatsFileFailure; // Flag to prevent repeat opening attempts - BOOL mSkipFirstFrameStats; // Flag to skip one (partial) frame report - std::string mProcessName; - S32 mProcessPID; - -private: - F32 mReportPerformanceStatInterval; // Seconds between performance stats - F64 mReportPerformanceStatEnd; // End time (seconds) for performance stats -}; - // ---------------------------------------------------------------------------- class LL_COMMON_API LLStat { private: typedef std::multimap stat_map_t; - void init(); static stat_map_t& getStatList(); public: - LLStat(U32 num_bins = 32, BOOL use_frame_timer = FALSE); - LLStat(std::string name, U32 num_bins = 32, BOOL use_frame_timer = FALSE); + LLStat(std::string name = std::string(), S32 num_bins = 32, BOOL use_frame_timer = FALSE); ~LLStat(); - void reset(); - void start(); // Start the timer for the current "frame", otherwise uses the time tracked from // the last addValue + void reset(); void addValue(const F32 value = 1.f); // Adds the current value being tracked, and tracks the DT. void addValue(const S32 value) { addValue((F32)value); } void addValue(const U32 value) { addValue((F32)value); } - - void setBeginTime(const F64 time); - void addValueTime(const F64 time, const F32 value = 1.f); S32 getCurBin() const; S32 getNextBin() const; - F32 getCurrent() const; - F32 getCurrentPerSec() const; - F64 getCurrentBeginTime() const; - F64 getCurrentTime() const; - F32 getCurrentDuration() const; - F32 getPrev(S32 age) const; // Age is how many "addValues" previously - zero is current F32 getPrevPerSec(S32 age) const; // Age is how many "addValues" previously - zero is current + F32 getCurrent() const; + F32 getCurrentPerSec() const; + F32 getCurrentDuration() const; + F64 getPrevBeginTime(S32 age) const; F64 getPrevTime(S32 age) const; - - F32 getBin(S32 bin) const; - F32 getBinPerSec(S32 bin) const; - F64 getBinBeginTime(S32 bin) const; F64 getBinTime(S32 bin) const; - F32 getMax() const; - F32 getMaxPerSec() const; - - F32 getMean() const; - F32 getMeanPerSec() const; - F32 getMeanDuration() const; - F32 getMin() const; F32 getMinPerSec() const; - F32 getMinDuration() const; - - F32 getSum() const; - F32 getSumDuration() const; + F32 getMean() const; + F32 getMeanPerSec() const; + F32 getMeanDuration() const; + F32 getMax() const; + F32 getMaxPerSec() const; U32 getNumValues() const; S32 getNumBins() const; @@ -326,10 +84,21 @@ private: U32 mNumBins; F32 mLastValue; F64 mLastTime; - F32 *mBins; - F64 *mBeginTime; - F64 *mTime; - F32 *mDT; + + struct ValueEntry + { + ValueEntry() + : mValue(0.f), + mBeginTime(0.0), + mTime(0.0), + mDT(0.f) + {} + F32 mValue; + F64 mBeginTime; + F64 mTime; + F32 mDT; + }; + ValueEntry* mBins; S32 mCurBin; S32 mNextBin; diff --git a/indra/llmessage/llcircuit.cpp b/indra/llmessage/llcircuit.cpp index 2ae76ab5e..6bb435f53 100644 --- a/indra/llmessage/llcircuit.cpp +++ b/indra/llmessage/llcircuit.cpp @@ -680,7 +680,6 @@ void LLCircuitData::checkPacketInID(TPACKETID id, BOOL receive_resent) setPacketInID((id + 1) % LL_MAX_OUT_PACKET_ID); mLastPacketGap = 0; - mOutOfOrderRate.count(0); return; } @@ -776,7 +775,6 @@ void LLCircuitData::checkPacketInID(TPACKETID id, BOOL receive_resent) } } - mOutOfOrderRate.count(gap); mLastPacketGap = gap; } diff --git a/indra/llmessage/llcircuit.h b/indra/llmessage/llcircuit.h index cd7576efa..13b0e9e49 100644 --- a/indra/llmessage/llcircuit.h +++ b/indra/llmessage/llcircuit.h @@ -40,7 +40,6 @@ #include "llpacketack.h" #include "lluuid.h" #include "llthrottle.h" -#include "llstat.h" // // Constants @@ -126,8 +125,6 @@ public: S32 getUnackedPacketCount() const { return mUnackedPacketCount; } S32 getUnackedPacketBytes() const { return mUnackedPacketBytes; } F64 getNextPingSendTime() const { return mNextPingSendTime; } - F32 getOutOfOrderRate(LLStatAccum::TimeScale scale = LLStatAccum::SCALE_MINUTE) - { return mOutOfOrderRate.meanValue(scale); } U32 getLastPacketGap() const { return mLastPacketGap; } LLHost getHost() const { return mHost; } F64 getLastPacketInTime() const { return mLastPacketInTime; } @@ -275,7 +272,6 @@ protected: LLTimer mExistenceTimer; // initialized when circuit created, used to track bandwidth numbers S32 mCurrentResendCount; // Number of resent packets since last spam - LLStatRate mOutOfOrderRate; // Rate of out of order packets coming in. U32 mLastPacketGap; // Gap in sequence number of last packet. const F32 mHeartbeatInterval; diff --git a/indra/llmessage/lliohttpserver.cpp b/indra/llmessage/lliohttpserver.cpp index 6e2ec7f9b..9ce06f147 100644 --- a/indra/llmessage/lliohttpserver.cpp +++ b/indra/llmessage/lliohttpserver.cpp @@ -141,6 +141,11 @@ private: }; static LLFastTimer::DeclareTimer FTM_PROCESS_HTTP_PIPE("HTTP Pipe"); +static LLFastTimer::DeclareTimer FTM_PROCESS_HTTP_GET("HTTP Get"); +static LLFastTimer::DeclareTimer FTM_PROCESS_HTTP_PUT("HTTP Put"); +static LLFastTimer::DeclareTimer FTM_PROCESS_HTTP_POST("HTTP Post"); +static LLFastTimer::DeclareTimer FTM_PROCESS_HTTP_DELETE("HTTP Delete"); + LLIOPipe::EStatus LLHTTPPipe::process_impl( const LLChannelDescriptors& channels, buffer_ptr_t& buffer, @@ -177,12 +182,12 @@ LLIOPipe::EStatus LLHTTPPipe::process_impl( std::string verb = context[CONTEXT_REQUEST][CONTEXT_VERB]; if(verb == HTTP_VERB_GET) { - LLPerfBlock getblock("http_get"); + LLFastTimer _(FTM_PROCESS_HTTP_GET); mNode.get(LLHTTPNode::ResponsePtr(mResponse), context); } else if(verb == HTTP_VERB_PUT) { - LLPerfBlock putblock("http_put"); + LLFastTimer _(FTM_PROCESS_HTTP_PUT); LLSD input; if (mNode.getContentType() == LLHTTPNode::CONTENT_TYPE_LLSD) { @@ -198,7 +203,7 @@ LLIOPipe::EStatus LLHTTPPipe::process_impl( } else if(verb == HTTP_VERB_POST) { - LLPerfBlock postblock("http_post"); + LLFastTimer _(FTM_PROCESS_HTTP_POST); LLSD input; if (mNode.getContentType() == LLHTTPNode::CONTENT_TYPE_LLSD) { @@ -214,7 +219,7 @@ LLIOPipe::EStatus LLHTTPPipe::process_impl( } else if(verb == HTTP_VERB_DELETE) { - LLPerfBlock delblock("http_delete"); + LLFastTimer _(FTM_PROCESS_HTTP_DELETE); mNode.del(LLHTTPNode::ResponsePtr(mResponse), context); } else if(verb == HTTP_VERB_OPTIONS) diff --git a/indra/llmessage/llmessagetemplate.h b/indra/llmessage/llmessagetemplate.h index 16d825d33..a91a8f775 100644 --- a/indra/llmessage/llmessagetemplate.h +++ b/indra/llmessage/llmessagetemplate.h @@ -364,7 +364,6 @@ public: { if (mHandlerFunc) { - LLPerfBlock msg_cb_time("msg_cb", mName); mHandlerFunc(msgsystem, mUserData); return TRUE; } diff --git a/indra/llmessage/llpumpio.cpp b/indra/llmessage/llpumpio.cpp index e6c6a42d6..d4f6f59b1 100644 --- a/indra/llmessage/llpumpio.cpp +++ b/indra/llmessage/llpumpio.cpp @@ -454,6 +454,7 @@ void LLPumpIO::pump() } static LLFastTimer::DeclareTimer FTM_PUMP_IO("Pump IO"); +static LLFastTimer::DeclareTimer FTM_PUMP_POLL("Pump Poll"); LLPumpIO::current_chain_t LLPumpIO::removeRunningChain(LLPumpIO::current_chain_t& run_chain) { @@ -549,7 +550,7 @@ void LLPumpIO::pump(const S32& poll_timeout) S32 count = 0; S32 client_id = 0; { - LLPerfBlock polltime("pump_poll"); + LLFastTimer _(FTM_PUMP_POLL); apr_pollset_poll(mPollset, poll_timeout, &count, &poll_fd); } PUMP_DEBUG; diff --git a/indra/newview/llfloaterjoystick.cpp b/indra/newview/llfloaterjoystick.cpp index e5811671e..19e1b3e2c 100644 --- a/indra/newview/llfloaterjoystick.cpp +++ b/indra/newview/llfloaterjoystick.cpp @@ -106,7 +106,8 @@ BOOL LLFloaterJoystick::postBuild() for (U32 i = 0; i < 6; i++) { axis.setArg("[NUM]", llformat("%d", i)); - mAxisStats[i] = new LLStat(4); + std::string stat_name(llformat("Joystick axis %d", i)); + mAxisStats[i] = new LLStat(stat_name,4); mAxisStatsBar[i] = mAxisStatsView->addStat(axis, mAxisStats[i]); mAxisStatsBar[i]->mMinBar = -range; mAxisStatsBar[i]->mMaxBar = range; diff --git a/indra/newview/llmemoryview.cpp b/indra/newview/llmemoryview.cpp index 5cba79d9d..e4815fbb1 100644 --- a/indra/newview/llmemoryview.cpp +++ b/indra/newview/llmemoryview.cpp @@ -104,6 +104,7 @@ void LLMemoryView::refreshProfile() mLines.clear(); +#if MEM_TRACK_MEM if(mAlloc->isProfiling()) { const LLAllocatorHeapProfile &prof = mAlloc->getProfile(); @@ -118,6 +119,7 @@ void LLMemoryView::refreshProfile() mLines.push_back(utf8string_to_wstring(ss.str())); } } +#endif } void LLMemoryView::draw()