96fcdcc219
DOCS_PREVIEW= https://skia.org/?cl=1316233002 Review URL: https://codereview.chromium.org/1316233002
221 lines
7.5 KiB
C++
221 lines
7.5 KiB
C++
/*
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* Copyright 2012 Google Inc.
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*
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* Use of this source code is governed by a BSD-style license that can be
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* found in the LICENSE file.
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*/
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#include "TimerData.h"
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#include "Timer.h"
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#include <limits>
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TimerData::TimerData(int maxNumTimings)
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: fMaxNumTimings(maxNumTimings)
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, fCurrTiming(0)
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, fWallTimes(maxNumTimings)
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, fTruncatedWallTimes(maxNumTimings)
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, fCpuTimes(maxNumTimings)
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, fTruncatedCpuTimes(maxNumTimings)
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, fGpuTimes(maxNumTimings) {}
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bool TimerData::appendTimes(Timer* timer) {
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SkASSERT(timer != nullptr);
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if (fCurrTiming >= fMaxNumTimings) {
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return false;
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}
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fWallTimes[fCurrTiming] = timer->fWall;
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fTruncatedWallTimes[fCurrTiming] = timer->fTruncatedWall;
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fCpuTimes[fCurrTiming] = timer->fCpu;
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fTruncatedCpuTimes[fCurrTiming] = timer->fTruncatedCpu;
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fGpuTimes[fCurrTiming] = timer->fGpu;
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++fCurrTiming;
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return true;
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}
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SkString TimerData::getResult(const char* doubleFormat,
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Result result,
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const char *configName,
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uint32_t timerFlags,
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int itersPerTiming) {
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SkASSERT(itersPerTiming >= 1);
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if (!fCurrTiming) {
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return SkString("");
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}
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int numTimings = fCurrTiming;
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SkString wallStr(" msecs = ");
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SkString truncWallStr(" Wmsecs = ");
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SkString cpuStr(" cmsecs = ");
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SkString truncCpuStr(" Cmsecs = ");
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SkString gpuStr(" gmsecs = ");
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double wallMin = std::numeric_limits<double>::max();
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double truncWallMin = std::numeric_limits<double>::max();
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double cpuMin = std::numeric_limits<double>::max();
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double truncCpuMin = std::numeric_limits<double>::max();
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double gpuMin = std::numeric_limits<double>::max();
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double wallSum = 0;
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double truncWallSum = 0;
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double cpuSum = 0;
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double truncCpuSum = 0;
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double gpuSum = 0;
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for (int i = 0; i < numTimings; ++i) {
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if (kPerIter_Result == result) {
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wallStr.appendf(doubleFormat, fWallTimes[i] / itersPerTiming);
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truncWallStr.appendf(doubleFormat, fTruncatedWallTimes[i] / itersPerTiming);
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cpuStr.appendf(doubleFormat, fCpuTimes[i] / itersPerTiming);
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truncCpuStr.appendf(doubleFormat, fTruncatedCpuTimes[i] / itersPerTiming);
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gpuStr.appendf(doubleFormat, fGpuTimes[i] / itersPerTiming);
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if (i != numTimings - 1) {
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static const char kSep[] = ", ";
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wallStr.append(kSep);
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truncWallStr.append(kSep);
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cpuStr.append(kSep);
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truncCpuStr.append(kSep);
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gpuStr.append(kSep);
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}
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} else if (kMin_Result == result) {
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wallMin = SkTMin(wallMin, fWallTimes[i]);
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truncWallMin = SkTMin(truncWallMin, fTruncatedWallTimes[i]);
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cpuMin = SkTMin(cpuMin, fCpuTimes[i]);
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truncCpuMin = SkTMin(truncCpuMin, fTruncatedCpuTimes[i]);
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gpuMin = SkTMin(gpuMin, fGpuTimes[i]);
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} else {
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SkASSERT(kAvg_Result == result);
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wallSum += fWallTimes[i];
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truncWallSum += fTruncatedWallTimes[i];
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cpuSum += fCpuTimes[i];
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truncCpuSum += fTruncatedCpuTimes[i];
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}
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// We always track the GPU sum because whether it is non-zero indicates if valid gpu times
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// were recorded at all.
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gpuSum += fGpuTimes[i];
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}
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if (kMin_Result == result) {
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wallStr.appendf(doubleFormat, wallMin / itersPerTiming);
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truncWallStr.appendf(doubleFormat, truncWallMin / itersPerTiming);
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cpuStr.appendf(doubleFormat, cpuMin / itersPerTiming);
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truncCpuStr.appendf(doubleFormat, truncCpuMin / itersPerTiming);
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gpuStr.appendf(doubleFormat, gpuMin / itersPerTiming);
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} else if (kAvg_Result == result) {
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int divisor = numTimings * itersPerTiming;
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wallStr.appendf(doubleFormat, wallSum / divisor);
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truncWallStr.appendf(doubleFormat, truncWallSum / divisor);
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cpuStr.appendf(doubleFormat, cpuSum / divisor);
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truncCpuStr.appendf(doubleFormat, truncCpuSum / divisor);
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gpuStr.appendf(doubleFormat, gpuSum / divisor);
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}
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SkString str;
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str.printf(" %4s:", configName);
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if (timerFlags & kWall_Flag) {
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str += wallStr;
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}
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if (timerFlags & kTruncatedWall_Flag) {
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str += truncWallStr;
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}
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if (timerFlags & kCpu_Flag) {
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str += cpuStr;
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}
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if (timerFlags & kTruncatedCpu_Flag) {
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str += truncCpuStr;
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}
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if ((timerFlags & kGpu_Flag) && gpuSum > 0) {
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str += gpuStr;
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}
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return str;
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}
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Json::Value TimerData::getJSON(uint32_t timerFlags,
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Result result,
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int itersPerTiming) {
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SkASSERT(itersPerTiming >= 1);
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Json::Value dataNode;
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Json::Value wallNode, truncWall, cpuNode, truncCpu, gpuNode;
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if (!fCurrTiming) {
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return dataNode;
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}
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int numTimings = fCurrTiming;
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double wallMin = std::numeric_limits<double>::max();
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double truncWallMin = std::numeric_limits<double>::max();
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double cpuMin = std::numeric_limits<double>::max();
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double truncCpuMin = std::numeric_limits<double>::max();
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double gpuMin = std::numeric_limits<double>::max();
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double wallSum = 0;
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double truncWallSum = 0;
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double cpuSum = 0;
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double truncCpuSum = 0;
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double gpuSum = 0;
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for (int i = 0; i < numTimings; ++i) {
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if (kPerIter_Result == result) {
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wallNode.append(fWallTimes[i] / itersPerTiming);
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truncWall.append(fTruncatedWallTimes[i] / itersPerTiming);
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cpuNode.append(fCpuTimes[i] / itersPerTiming);
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truncCpu.append(fTruncatedCpuTimes[i] / itersPerTiming);
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gpuNode.append(fGpuTimes[i] / itersPerTiming);
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} else if (kMin_Result == result) {
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wallMin = SkTMin(wallMin, fWallTimes[i]);
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truncWallMin = SkTMin(truncWallMin, fTruncatedWallTimes[i]);
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cpuMin = SkTMin(cpuMin, fCpuTimes[i]);
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truncCpuMin = SkTMin(truncCpuMin, fTruncatedCpuTimes[i]);
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gpuMin = SkTMin(gpuMin, fGpuTimes[i]);
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} else {
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SkASSERT(kAvg_Result == result);
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wallSum += fWallTimes[i];
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truncWallSum += fTruncatedWallTimes[i];
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cpuSum += fCpuTimes[i];
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truncCpuSum += fTruncatedCpuTimes[i];
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}
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// We always track the GPU sum because whether it is non-zero indicates if valid gpu times
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// were recorded at all.
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gpuSum += fGpuTimes[i];
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}
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if (kMin_Result == result) {
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wallNode.append(wallMin / itersPerTiming);
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truncWall.append(truncWallMin / itersPerTiming);
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cpuNode.append(cpuMin / itersPerTiming);
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truncCpu.append(truncCpuMin / itersPerTiming);
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gpuNode.append(gpuMin / itersPerTiming);
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} else if (kAvg_Result == result) {
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int divisor = numTimings * itersPerTiming;
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wallNode.append(wallSum / divisor);
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truncWall.append(truncWallSum / divisor);
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cpuNode.append(cpuSum / divisor);
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truncCpu.append(truncCpuSum / divisor);
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gpuNode.append(gpuSum / divisor);
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}
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if (timerFlags & kWall_Flag) {
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dataNode["wall"] = wallNode;
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}
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if (timerFlags & kTruncatedWall_Flag) {
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dataNode["truncWall"] = truncWall;
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}
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if (timerFlags & kCpu_Flag) {
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dataNode["cpu"] = cpuNode;
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}
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if (timerFlags & kTruncatedCpu_Flag) {
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dataNode["trucCpu"] = truncCpu;
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}
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if ((timerFlags & kGpu_Flag) && gpuSum > 0) {
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dataNode["gpu"] = gpuNode;
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}
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return dataNode;
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}
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