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// Copyright (c) 1996-2009 Nokia Corporation and/or its subsidiary(-ies).
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// All rights reserved.
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// This component and the accompanying materials are made available
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// under the terms of the License "Eclipse Public License v1.0"
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// which accompanies this distribution, and is available
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// at the URL "http://www.eclipse.org/legal/epl-v10.html".
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//
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// Initial Contributors:
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// Nokia Corporation - initial contribution.
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//
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// Contributors:
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//
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// Description:
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// e32test\misc\cpumeter.cpp
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//
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//
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#define __E32TEST_EXTENSION__
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#include <e32test.h>
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#include <e32hal.h>
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#include <e32svr.h>
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#include "u32std.h"
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RTest test(_L("CPU METER"));
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TBool CpuTimeSupported()
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{
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TTimeIntervalMicroSeconds time;
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TInt err = RThread().GetCpuTime(time);
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test(err == KErrNone || err == KErrNotSupported);
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return err == KErrNone;
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}
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TInt NumberOfCpus()
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{
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TInt r = UserSvr::HalFunction(EHalGroupKernel, EKernelHalNumLogicalCpus, 0, 0);
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test(r>0);
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return r;
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}
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class CCpuMeter : public CBase
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{
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public:
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CCpuMeter();
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~CCpuMeter();
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static CCpuMeter* New();
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TInt Construct();
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void Measure();
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void Display(TInt aInterval);
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public:
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TInt iNumCpus;
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TInt iNextMeas;
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RThread* iNullThreads;
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TTimeIntervalMicroSeconds* iMeas[2];
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TInt* iDelta;
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};
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CCpuMeter::CCpuMeter()
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{
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}
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CCpuMeter::~CCpuMeter()
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{
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TInt i;
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if (iNullThreads)
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{
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for (i=0; i<iNumCpus; ++i)
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iNullThreads[i].Close();
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User::Free(iNullThreads);
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}
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User::Free(iMeas[0]);
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User::Free(iMeas[1]);
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User::Free(iDelta);
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}
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TInt CCpuMeter::Construct()
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{
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iNumCpus = NumberOfCpus();
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iNullThreads = (RThread*)User::AllocZ(iNumCpus*sizeof(RThread));
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iDelta = (TInt*)User::AllocZ(iNumCpus*sizeof(TInt));
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iMeas[0] = (TTimeIntervalMicroSeconds*)User::AllocZ(iNumCpus*sizeof(TTimeIntervalMicroSeconds));
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iMeas[1] = (TTimeIntervalMicroSeconds*)User::AllocZ(iNumCpus*sizeof(TTimeIntervalMicroSeconds));
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if (!iNullThreads || !iDelta || !iMeas[0] || !iMeas[1])
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return KErrNoMemory;
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TFullName kname;
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_LIT(KLitKernelName, "ekern.exe*");
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_LIT(KLitNull, "::Null");
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TFindProcess fp(KLitKernelName);
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test_KErrNone(fp.Next(kname));
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test.Printf(_L("Found kernel process: %S\n"), &kname);
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kname.Append(KLitNull);
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TInt i;
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for (i=0; i<iNumCpus; ++i)
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{
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TFullName tname(kname);
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TFullName tname2;
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if (i>0)
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tname.AppendNum(i);
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TFindThread ft(tname);
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test_KErrNone(ft.Next(tname2));
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TInt r = iNullThreads[i].Open(ft);
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test_KErrNone(r);
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iNullThreads[i].FullName(tname2);
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test.Printf(_L("Found and opened %S\n"), &tname2);
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}
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for (i=0; i<iNumCpus; ++i)
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iNullThreads[i].GetCpuTime(iMeas[0][i]);
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iNextMeas = 1;
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return KErrNone;
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}
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CCpuMeter* CCpuMeter::New()
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{
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CCpuMeter* p = new CCpuMeter;
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if (!p)
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return 0;
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TInt r = p->Construct();
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if (r!=KErrNone)
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{
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delete p;
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return 0;
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}
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return p;
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}
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void CCpuMeter::Measure()
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{
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TInt i;
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for (i=0; i<iNumCpus; ++i)
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iNullThreads[i].GetCpuTime(iMeas[iNextMeas][i]);
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TInt prev = 1 - iNextMeas;
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for (i=0; i<iNumCpus; ++i)
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iDelta[i] = TInt(iMeas[iNextMeas][i].Int64() - iMeas[prev][i].Int64());
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iNextMeas = prev;
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}
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void CCpuMeter::Display(TInt aInterval)
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{
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TBuf<80> buf;
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TInt i;
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for (i=0; i<iNumCpus; ++i)
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{
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TInt dv = (1000*(aInterval - iDelta[i]))/aInterval;
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if (dv<0)
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dv=0;
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if (dv>1000)
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dv=1000;
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buf.AppendFormat(_L(" %4d"),dv);
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}
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buf.Append(TChar('\n'));
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test.Printf(buf);
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}
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void UseKernelCpuTime()
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{
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test.Start(_L("Create CCpuMeter"));
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CCpuMeter* m = CCpuMeter::New();
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test_NotNull(m);
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TInt iv = 1000500; // on average 1000.5 ms
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TRequestStatus s;
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CConsoleBase* console = test.Console();
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console->Read(s);
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FOREVER
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{
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User::AfterHighRes(1000000);
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m->Measure();
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m->Display(iv);
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while (s!=KRequestPending)
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{
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User::WaitForRequest(s);
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TKeyCode k = console->KeyCode();
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if (k == EKeyEscape)
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{
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delete m;
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return;
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}
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console->Read(s);
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}
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}
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}
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TUint32 NopCount=0;
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TUint MaxCycles;
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_LIT(KLitThreadName,"IdleThread");
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extern TInt CountNops(TAny*);
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void MeasureByNOPs()
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{
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test.Start(_L("Create thread"));
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RThread t;
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TInt r=t.Create(KLitThreadName,CountNops,0x1000,NULL,NULL);
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test(r==KErrNone);
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t.SetPriority(EPriorityAbsoluteVeryLow);
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t.Resume();
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test.Next(_L("Get processor clock frequency"));
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TMachineInfoV2Buf buf;
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TMachineInfoV2& info=buf();
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r=UserHal::MachineInfo(buf);
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test(r==KErrNone);
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MaxCycles=info.iProcessorClockInKHz*1000;
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test.Printf(_L("Clock frequency %dHz\n"),MaxCycles);
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TRequestStatus s;
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CConsoleBase* console=test.Console();
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console->Read(s);
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#ifdef __WINS__
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TInt timerperiod = 5;
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UserSvr::HalFunction(EHalGroupEmulator,EEmulatorHalIntProperty,(TAny*)"TimerResolution",&timerperiod);
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#endif
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FOREVER
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{
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TUint32 init_count=NopCount;
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TUint32 init_ms=User::NTickCount();
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User::After(1000000);
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TUint32 final_count=NopCount;
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TUint32 final_ms=User::NTickCount();
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TUint32 cycles=final_count-init_count;
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TUint32 ms=final_ms-init_ms;
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#ifdef __WINS__
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ms*=timerperiod;
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#endif
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while (s!=KRequestPending)
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{
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User::WaitForRequest(s);
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TKeyCode k=console->KeyCode();
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if (k==EKeyTab)
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{
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// calibrate
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TInt64 inst64 = MAKE_TINT64(0, cycles);
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inst64*=1000;
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inst64/=MAKE_TINT64(0,ms);
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MaxCycles=I64LOW(inst64);
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test.Printf(_L("NOPs per second %u\n"),MaxCycles);
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}
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else if (k==EKeyEscape)
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return;
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console->Read(s);
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}
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TInt64 used64=MAKE_TINT64(0, MaxCycles);
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used64-=MAKE_TINT64(0,cycles);
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used64*=1000000;
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used64/=MAKE_TINT64(0,ms);
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used64/=MAKE_TINT64(0, MaxCycles);
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test.Printf(_L("%4d\n"),I64INT(used64));
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}
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}
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GLDEF_C TInt E32Main()
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{
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test.SetLogged(EFalse);
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test.Title();
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RThread().SetPriority(EPriorityAbsoluteHigh);
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if (CpuTimeSupported())
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{
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UseKernelCpuTime();
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}
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if (NumberOfCpus()>1)
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{
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test.Printf(_L("Needs RThread::GetCpuTime() on SMP systems\n"));
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}
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else
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MeasureByNOPs();
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return 0;
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}
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