mirror of
https://github.com/ptitSeb/Serious-Engine
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414 lines
12 KiB
C++
414 lines
12 KiB
C++
/* Copyright (c) 2002-2012 Croteam Ltd.
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This program is free software; you can redistribute it and/or modify
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it under the terms of version 2 of the GNU General Public License as published by
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the Free Software Foundation
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License along
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with this program; if not, write to the Free Software Foundation, Inc.,
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51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */
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#include "Engine/StdH.h"
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#include <Engine/Base/Profiling.h>
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#include <Engine/Templates/StaticArray.cpp>
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template class CStaticArray<CProfileCounter>;
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template class CStaticArray<CProfileTimer>;
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#if (defined USE_PORTABLE_C)
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#include <sys/time.h>
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#endif
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static inline __int64 ReadTSC_profile(void)
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{
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#if (defined USE_PORTABLE_C)
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#ifdef __arm__
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struct timespec tv;
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clock_gettime(CLOCK_MONOTONIC, &tv);
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return( (((__int64) tv.tv_sec) * 1000) + (((__int64) tv.tv_nsec) / 1000000) );
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#else
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struct timeval tv;
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gettimeofday(&tv, NULL);
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return( (((__int64) tv.tv_sec) * 1000) + (((__int64) tv.tv_usec) / 1000) );
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#endif
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#elif (defined __MSVC_INLINE__)
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__int64 mmRet;
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__asm {
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rdtsc
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mov dword ptr [mmRet+0],eax
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mov dword ptr [mmRet+4],edx
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}
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return mmRet;
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#elif (defined __GNU_INLINE__)
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__int64 mmRet;
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__asm__ __volatile__ (
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"rdtsc \n\t"
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"movl %%eax, 0(%%esi) \n\t"
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"movl %%edx, 4(%%esi) \n\t"
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:
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: "S" (&mmRet)
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: "memory", "eax", "edx"
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);
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return(mmRet);
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#else
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#error Please implement for your platform/compiler.
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#endif
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}
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/////////////////////////////////////////////////////////////////////
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// CProfileForm
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// how much it takes to start a profiling timer
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CTimerValue _tvStartEpsilon;
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// how much it takes to stop a profiling timer
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CTimerValue _tvStopEpsilon;
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// how much it takes to just start and stop a profiling timer (measure zero time)
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CTimerValue _tvStartStopEpsilon;
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// total sum of all timing offsets induced by all Starts and Stops so far
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CTimerValue _tvCurrentProfilingEpsilon;
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// Measure profiling errors and set epsilon corrections.
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static CTimerValue _tvTest;
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void CProfileForm::CalibrateProfilingTimers(void)
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{
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enum Epsilons {
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ETI_TOTAL,
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ETI_STARTSTOP,
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ETI_START,
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ETI_STOP,
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ETI_DUMMY,
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ETI_COUNT
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};
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CProfileForm pfCalibration("", "", 0, ETI_COUNT);
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// set all epsilons to zero, so that they don't interfere with the measuring
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_tvStartEpsilon.Clear();
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_tvStopEpsilon.Clear();
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_tvStartStopEpsilon.Clear();
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_tvCurrentProfilingEpsilon.Clear();
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/* NOTE: we must use one more counter (ETI_TOTAL), so that we don't overestimate
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* time spent in StartTimer(), StopTimer() if it is the first timer started.
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*/
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#define REPEATCOUNT 10000
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// measure how much it takes to start and stop timer
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// rcg10102001 gcc needs the "ll" postfix for numbers this big.
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#if (defined __GNUC__)
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#define BIGBIGNUMBER 0x7fffffffffffffffll;
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#else
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#define BIGBIGNUMBER 0x7fffffffffffffff;
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#endif
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__int64 llMinStartStopTime = BIGBIGNUMBER;
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{for (INDEX i=0; i<REPEATCOUNT; i++) {
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pfCalibration.Reset();
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pfCalibration.StartTimer(ETI_TOTAL);
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pfCalibration.StartTimer(ETI_STARTSTOP);
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pfCalibration.StopTimer(ETI_STARTSTOP);
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pfCalibration.StopTimer(ETI_TOTAL);
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__int64 llThisStartStopTime = pfCalibration.pf_aptTimers[ETI_STARTSTOP].
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pt_tvElapsed.tv_llValue;
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if (llThisStartStopTime<llMinStartStopTime) {
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llMinStartStopTime = llThisStartStopTime;
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}
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}}
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_tvStartStopEpsilon = llMinStartStopTime;
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// measure how much it takes to start timer
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__int64 llMinStartTime = BIGBIGNUMBER;
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{for (INDEX i=0; i<REPEATCOUNT; i++) {
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pfCalibration.Reset();
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pfCalibration.StartTimer(ETI_TOTAL);
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pfCalibration.StartTimer(ETI_START);
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pfCalibration.StartTimer(ETI_DUMMY);
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pfCalibration.StopTimer(ETI_START);
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pfCalibration.StopTimer(ETI_TOTAL);
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pfCalibration.StopTimer(ETI_DUMMY);
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__int64 llThisStartTime = pfCalibration.pf_aptTimers[ETI_START].
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pt_tvElapsed.tv_llValue;
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if (llThisStartTime<llMinStartTime) {
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llMinStartTime = llThisStartTime;
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}
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}}
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_tvStartEpsilon = llMinStartTime;
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// measure how much it takes to stop timer
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__int64 llMinStopTime = BIGBIGNUMBER;
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{for (INDEX i=0; i<REPEATCOUNT; i++) {
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pfCalibration.Reset();
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pfCalibration.StartTimer(ETI_TOTAL);
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pfCalibration.StartTimer(ETI_DUMMY);
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pfCalibration.StartTimer(ETI_STOP);
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pfCalibration.StopTimer(ETI_DUMMY);
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pfCalibration.StopTimer(ETI_STOP);
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pfCalibration.StopTimer(ETI_TOTAL);
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__int64 llThisStopTime = pfCalibration.pf_aptTimers[ETI_STOP].
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pt_tvElapsed.tv_llValue;
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if (llThisStopTime<llMinStopTime) {
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llMinStopTime = llThisStopTime;
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}
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}}
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_tvStopEpsilon = llMinStopTime;
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pfCalibration.Reset();
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pfCalibration.StartTimer(ETI_TOTAL);
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pfCalibration.StartTimer(ETI_STARTSTOP);
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pfCalibration.StopTimer(ETI_STARTSTOP);
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pfCalibration.StopTimer(ETI_TOTAL);
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_tvTest = pfCalibration.pf_aptTimers[ETI_STARTSTOP].pt_tvElapsed;
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}
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/*
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* Constructor for profile form with given number of counters and timers.
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*/
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CProfileForm::CProfileForm(
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const CTString &strTitle, const CTString &strAveragingUnits,
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INDEX ctCounters, INDEX ctTimers)
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{
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// remember title and averaging units
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pf_strTitle = strTitle;
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pf_strAveragingUnits = strAveragingUnits;
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// create given number of counters
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pf_apcCounters.New(ctCounters);
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// create given number of timers
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pf_aptTimers.New(ctTimers);
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// reset all values
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pf_ctRunningTimers = 0;
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// for all timers
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FOREACHINSTATICARRAY(pf_aptTimers, CProfileTimer, itpt) {
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// clear the timer
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itpt->pt_tvElapsed.Clear();
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itpt->pt_tvStarted.tv_llValue = (__int64) -1;
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itpt->pt_ctAveraging = 0;
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}
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}
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void CProfileForm::Clear(void)
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{
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pf_strTitle.Clear();
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pf_strAveragingUnits.Clear();
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pf_apcCounters.Clear();
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pf_aptTimers.Clear();
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}
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/*
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* Get name of a counter.
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*/
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const CTString &CProfileForm::GetCounterName(INDEX iCounter)
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{
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return pf_apcCounters[iCounter].pc_strName;
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}
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/*
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* Get name of a timer.
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*/
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const CTString &CProfileForm::GetTimerName(INDEX iTimer)
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{
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return pf_aptTimers[iTimer].pt_strName;
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}
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/* Start a timer. */
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void CProfileForm::StartTimer_internal(INDEX iTimer)
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{
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CProfileTimer &pt = pf_aptTimers[iTimer];
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//ASSERT(pt.pt_tvStarted.tv_llValue<0);
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CTimerValue tvNow = CTimerValue(ReadTSC_profile())-_tvCurrentProfilingEpsilon;
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pt.pt_tvStarted = tvNow;
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pf_ctRunningTimers++;
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if (pf_ctRunningTimers==1) {
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pf_tvOverAllStarted = tvNow;
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}
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_tvCurrentProfilingEpsilon += _tvStartEpsilon;
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}
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/* Stop a timer. */
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void CProfileForm::StopTimer_internal(INDEX iTimer)
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{
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CProfileTimer &pt = pf_aptTimers[iTimer];
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//ASSERT(pt.pt_tvStarted.tv_llValue>0);
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CTimerValue tvNow = CTimerValue(ReadTSC_profile())-_tvCurrentProfilingEpsilon;
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pt.pt_tvElapsed +=
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tvNow - pf_aptTimers[iTimer].pt_tvStarted - _tvStartStopEpsilon + _tvStartEpsilon;
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pf_ctRunningTimers--;
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if (pf_ctRunningTimers==0) {
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pf_tvOverAllElapsed += tvNow-pf_tvOverAllStarted;
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}
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IFDEBUG(pt.pt_tvStarted.tv_llValue = (__int64) -1);
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_tvCurrentProfilingEpsilon += _tvStopEpsilon;
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}
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/* Get current value of a counter. */
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INDEX CProfileForm::GetCounterCount(INDEX iCounter) {
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return pf_apcCounters[iCounter].pc_ctCount;
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};
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// override to provide external averaging
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INDEX CProfileForm::GetAveragingCounter(void)
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{
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return pf_ctAveragingCounter;
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}
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/* Get current value of a timer in seconds or in percentage of module time. */
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double CProfileForm::GetTimerAverageTime(INDEX iTimer) {
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// must not report while some timers are active!
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ASSERT(pf_ctRunningTimers==0);
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return pf_aptTimers[iTimer].pt_tvElapsed.GetSeconds()/GetAveragingCounter();
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}
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double CProfileForm::GetTimerPercentageOfModule(INDEX iTimer) {
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// must not report while some timers are active!
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ASSERT(pf_ctRunningTimers==0);
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return pf_aptTimers[iTimer].pt_tvElapsed.GetSeconds()
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/pf_tvOverAllElapsed.GetSeconds()*100;
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}
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/* Get percentage of module time in application time. */
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double CProfileForm::GetModulePercentage(void) {
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// must not report while some timers are active!
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ASSERT(pf_ctRunningTimers==0);
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// calculate total application time since profile form was reset
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CTimerValue tvNow = _pTimer->GetHighPrecisionTimer();
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CTimerValue tvApplicationElapsed = tvNow-pf_tvLastReset;
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return pf_tvOverAllElapsed.GetSeconds()/tvApplicationElapsed.GetSeconds()*100;
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}
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/*
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* Reset all profiling values.
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*/
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void CProfileForm::Reset(void)
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{
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// must not reset profiling form while some timers are active!
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//ASSERT(pf_ctRunningTimers==0);
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// remember time when form was reset
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pf_tvLastReset = _pTimer->GetHighPrecisionTimer();
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// clear global entries
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pf_tvOverAllElapsed.Clear();
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pf_ctAveragingCounter = 0;
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// for all counters
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FOREACHINSTATICARRAY(pf_apcCounters, CProfileCounter, itpc) {
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// clear the counter
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itpc->pc_ctCount = 0;
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}
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// for all timers
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FOREACHINSTATICARRAY(pf_aptTimers, CProfileTimer, itpt) {
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// clear the timer
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itpt->pt_tvElapsed.Clear();
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itpt->pt_tvStarted.tv_llValue = (__int64) -1;
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itpt->pt_ctAveraging = 0;
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}
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}
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/* Print one counter in report. */
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void CProfileCounter::Report(char *&strBuffer, INDEX ctAveragingCount)
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{
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if (ctAveragingCount==0) {
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ctAveragingCount = 1;
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}
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strBuffer += sprintf(strBuffer, "%-45s: %7d %7.2f\n",
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(const char *) pc_strName, pc_ctCount, (double)pc_ctCount/ctAveragingCount);
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}
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/* Print one timer in report. */
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void CProfileTimer::Report(char *&strBuffer,
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INDEX ctAveragingCount,
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CTimerValue tvAppElapsed, CTimerValue tvModElapsed)
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{
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if (ctAveragingCount==0) {
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ctAveragingCount = 1;
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}
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if (pt_strAveragingName=="") {
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strBuffer += sprintf(strBuffer, "%-45s: %6.2f%% %6.2f%% %6.2f ms\n",
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(const char *) pt_strName,
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pt_tvElapsed.GetSeconds()/tvAppElapsed.GetSeconds()*100,
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pt_tvElapsed.GetSeconds()/tvModElapsed.GetSeconds()*100,
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pt_tvElapsed.GetSeconds()/ctAveragingCount*1000
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);
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} else {
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INDEX ctLocalAveraging = pt_ctAveraging;
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if (ctLocalAveraging==0) {
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ctLocalAveraging = 1;
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}
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strBuffer += sprintf(strBuffer, "%-45s: %6.2f%% %6.2f%% %6.2f ms (%4.0fc/%s x%d)\n",
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(const char *) pt_strName,
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pt_tvElapsed.GetSeconds()/tvAppElapsed.GetSeconds()*100,
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pt_tvElapsed.GetSeconds()/tvModElapsed.GetSeconds()*100,
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pt_tvElapsed.GetSeconds()/ctAveragingCount*1000,
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pt_tvElapsed.GetSeconds()/ctLocalAveraging*_pTimer->tm_llCPUSpeedHZ,
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(const char *) pt_strAveragingName,
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pt_ctAveraging/ctAveragingCount
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);
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}
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}
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/*
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* Report profiling results.
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*/
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void CProfileForm::Report(CTString &strReport)
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{
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static char aBuffer[16000];
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char *strBuffer = aBuffer;
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// must not report profiling form while some timers are active!
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if (pf_ctRunningTimers!=0) {
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strBuffer += sprintf(strBuffer,
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"WARNING: Some timers are still active - the results are wrong!\n");
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}
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//ASSERT(pf_ctRunningTimers==0);
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// calculate total application time since profile form was reset
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CTimerValue tvNow = _pTimer->GetHighPrecisionTimer();
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CTimerValue tvApplicationElapsed = tvNow-pf_tvLastReset;
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// calculate total time spent in profiled module
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CTimerValue tvModuleElapsed = pf_tvOverAllElapsed;
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// print the main header
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strBuffer += sprintf(strBuffer, "%s profile for last %d %s:\n",
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(const char *) pf_strTitle,
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GetAveragingCounter(),
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(const char *) pf_strAveragingUnits);
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// print header for timers
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strBuffer += sprintf(strBuffer,
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"Module time: %6.2f%% of application time. Average time: %6.2fms\n",
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tvModuleElapsed.GetSeconds()/tvApplicationElapsed.GetSeconds()*100.0,
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tvModuleElapsed.GetSeconds()/GetAveragingCounter()*1000.0
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);
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strBuffer += sprintf(strBuffer, "\n");
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// for all timers
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FOREACHINSTATICARRAY(pf_aptTimers, CProfileTimer, itpt) {
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// print the timer
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itpt->Report(strBuffer, GetAveragingCounter(), tvApplicationElapsed, tvModuleElapsed);
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}
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strBuffer += sprintf(strBuffer, "\n");
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// for all counters
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FOREACHINSTATICARRAY(pf_apcCounters, CProfileCounter, itpc) {
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// print the counter
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itpc->Report(strBuffer, GetAveragingCounter());
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}
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// print the footer
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strBuffer += sprintf(strBuffer, "--------------------\n");
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// return the buffer
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strReport = aBuffer;
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}
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