/** * @file llstat.cpp * * $LicenseInfo:firstyear=2001&license=viewerlgpl$ * Second Life Viewer Source Code * Copyright (C) 2010, 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 "llstat.h" #include "lllivefile.h" #include "llerrorcontrol.h" #include "llframetimer.h" #include "timing.h" #include "llsd.h" #include "llsdserialize.h" #include "llstl.h" #include "u64.h" // statics //------------------------------------------------------------------------ LLTimer LLStat::sTimer; LLFrameTimer LLStat::sFrameTimer; void LLStat::reset() { mNumValues = 0; mLastValue = 0.f; delete[] mBins; mBins = new ValueEntry[mNumBins]; mCurBin = mNumBins-1; mNextBin = 0; } LLStat::LLStat(std::string name, BOOL use_frame_timer) : LLInstanceTracker(name), mUseFrameTimer(use_frame_timer), mNumBins(50), mName(name), mBins(NULL) { llassert(mNumBins > 0); mLastTime = 0.f; reset(); } LLStat::~LLStat() { delete[] mBins; } // //void LLStat::start() //{ // if (mUseFrameTimer) // { // mBins[mNextBin].mBeginTime = sFrameTimer.getElapsedSeconds(); // } // else // { // mBins[mNextBin].mBeginTime = sTimer.getElapsedTimeF64(); // } //} void LLStat::addValue(const F32 value) { if (mNumValues < mNumBins) { mNumValues++; } // Increment the bin counters. mCurBin++; if (mCurBin >= mNumBins) { mCurBin = 0; } mNextBin++; if (mNextBin >= mNumBins) { mNextBin = 0; } mBins[mCurBin].mValue = value; if (mUseFrameTimer) { mBins[mCurBin].mTime = sFrameTimer.getElapsedSeconds(); } else { mBins[mCurBin].mTime = sTimer.getElapsedTimeF64(); } mBins[mCurBin].mDT = (F32)(mBins[mCurBin].mTime - mBins[mCurBin].mBeginTime); //this value is used to prime the min/max calls mLastTime = mBins[mCurBin].mTime; mLastValue = value; // Set the begin time for the next stat segment. mBins[mNextBin].mBeginTime = mBins[mCurBin].mTime; mBins[mNextBin].mTime = mBins[mCurBin].mTime; mBins[mNextBin].mDT = 0.f; } F32 LLStat::getMax() const { S32 i; F32 current_max = mLastValue; if (mNumBins == 0) { current_max = 0.f; } else { for (i = 0; (i < mNumBins) && (i < mNumValues); i++) { // Skip the bin we're currently filling. if (i == mNextBin) { continue; } if (mBins[i].mValue > current_max) { current_max = mBins[i].mValue; } } } return current_max; } F32 LLStat::getMean() const { S32 i; F32 current_mean = 0.f; S32 samples = 0; for (i = 0; (i < mNumBins) && (i < mNumValues); i++) { // Skip the bin we're currently filling. if (i == mNextBin) { continue; } current_mean += mBins[i].mValue; samples++; } // There will be a wrap error at 2^32. :) if (samples != 0) { current_mean /= samples; } else { current_mean = 0.f; } return current_mean; } F32 LLStat::getMin() const { S32 i; F32 current_min = mLastValue; if (mNumBins == 0) { current_min = 0.f; } else { for (i = 0; (i < mNumBins) && (i < mNumValues); i++) { // Skip the bin we're currently filling. if (i == mNextBin) { continue; } if (mBins[i].mValue < current_min) { current_min = mBins[i].mValue; } } } return current_min; } F32 LLStat::getPrev(S32 age) const { S32 bin; bin = mCurBin - age; while (bin < 0) { bin += mNumBins; } if (bin == mNextBin) { // Bogus for bin we're currently working on. return 0.f; } return mBins[bin].mValue; } F32 LLStat::getPrevPerSec(S32 age) const { S32 bin; bin = mCurBin - age; while (bin < 0) { bin += mNumBins; } if (bin == mNextBin) { // Bogus for bin we're currently working on. return 0.f; } return mBins[bin].mValue / mBins[bin].mDT; } F32 LLStat::getCurrent() const { return mBins[mCurBin].mValue; } F32 LLStat::getCurrentPerSec() const { return mBins[mCurBin].mValue / mBins[mCurBin].mDT; } F32 LLStat::getMeanPerSec() const { S32 i; F32 value = 0.f; F32 dt = 0.f; for (i = 0; (i < mNumBins) && (i < mNumValues); i++) { // Skip the bin we're currently filling. if (i == mNextBin) { continue; } value += mBins[i].mValue; dt += mBins[i].mDT; } if (dt > 0.f) { return value/dt; } else { return 0.f; } } F32 LLStat::getMaxPerSec() const { F32 value; if (mNextBin != 0) { value = mBins[0].mValue/mBins[0].mDT; } else if (mNumValues > 0) { value = mBins[1].mValue/mBins[1].mDT; } else { value = 0.f; } for (S32 i = 0; (i < mNumBins) && (i < mNumValues); i++) { // Skip the bin we're currently filling. if (i == mNextBin) { continue; } value = llmax(value, mBins[i].mValue/mBins[i].mDT); } return value; } F32 LLStat::getMinPerSec() const { S32 i; F32 value; if (mNextBin != 0) { value = mBins[0].mValue/mBins[0].mDT; } else if (mNumValues > 0) { value = mBins[1].mValue/mBins[0].mDT; } else { value = 0.f; } for (i = 0; (i < mNumBins) && (i < mNumValues); i++) { // Skip the bin we're currently filling. if (i == mNextBin) { continue; } value = llmin(value, mBins[i].mValue/mBins[i].mDT); } return value; } U32 LLStat::getNumValues() const { return mNumValues; } S32 LLStat::getNumBins() const { return mNumBins; } S32 LLStat::getNextBin() const { return mNextBin; }