windows-nt/Source/XPSP1/NT/multimedia/dshow/vidctl/msvidctl/perfcntr.h

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2020-09-26 03:20:57 -05:00
#define _100NS_IN_MS (10*1000)
#define NANOSECONDS 10000000
#define CONVERT_PERFORMANCE_TIME(Frequency, PerformanceTime) \
((((ULONGLONG)(ULONG)(PerformanceTime).HighPart * NANOSECONDS / (Frequency)) << 32) + \
((((((ULONGLONG)(ULONG)(PerformanceTime).HighPart * NANOSECONDS) % (Frequency)) << 32) + \
((ULONGLONG)(PerformanceTime).LowPart * NANOSECONDS)) / (Frequency)))
#ifdef DEBUG
#include "trace.h"
#define VIDPERF(Y,X) CPerfVidCtl __cperfvidctl(Y,X);
#define VIDPERF_FUNC CPerfVidCtl __cperfvidctl(TRACE_ERROR, __FUNCTION__);
#define VIDPERF_FUNC2 CPerfVidCtl __cperfvidctl(TRACE_ALWAYS, __FUNCTION__);
class CPerfCounter
/*++
Abstract:
This provides a simple performace counter. Simply call Start() to
start counting. Calling Stop() will spit out the results. You can
optional specify a name for your counter.
Author:
Sam Clement (samclem) 24-Feb-2000
Bryan A. Woodruff (bryanw) 10-Jun-2001
Refactored for use with IOTest
Luke W. McCullough (LukeM) 01-Jan-2002
Added VidCtl Specific Class and Debug state
--*/
{
public:
CPerfCounter() : m_Name(NULL) { _Setup(); }
explicit CPerfCounter(const char* Name) : m_Name(Name) { _Setup(); }
~CPerfCounter() {}
void _Setup()
{
ZeroMemory(&m_StartTime, sizeof(m_StartTime));
ZeroMemory(&m_CurrentTime, sizeof(m_CurrentTime));
ZeroMemory(&m_CounterFreq, sizeof(m_CounterFreq));
QueryPerformanceFrequency(&m_CounterFreq);
QueryPerformanceCounter(&m_StartTime);
}
void Reset()
{
QueryPerformanceCounter(&m_StartTime);
}
LONGLONG Stop()
{
QueryPerformanceCounter(&m_CurrentTime);
m_CurrentTime.QuadPart = m_CurrentTime.QuadPart - m_StartTime.QuadPart;
m_CurrentTime.QuadPart = CONVERT_PERFORMANCE_TIME(m_CounterFreq.QuadPart, m_CurrentTime);
return m_CurrentTime.QuadPart;
}
LONGLONG GetLastTime()
{
return m_CurrentTime.QuadPart;
}
void Trace()
{
Stop();
(void)StringCchPrintfA(m_Outbuf, sizeof(m_Outbuf) / sizeof(m_Outbuf[0]), "\n*\n* PerfCounter: %s%s%s%ld ms\n*\n",
(m_Name ? "(" : ""),
(m_Name ? m_Name : ""),
(m_Name ? ") " : ""),
(m_CurrentTime.QuadPart / _100NS_IN_MS));
puts( m_Outbuf );
}
private:
LARGE_INTEGER m_StartTime;
LARGE_INTEGER m_CurrentTime;
LARGE_INTEGER m_CounterFreq;
const char* m_Name;
char m_Outbuf[MAX_PATH];
};
class CPerfVidCtl : public CPerfCounter{
private:
char* dbString;
DWORD traceLevel;
public:
CPerfVidCtl(DWORD tLevel, char *debugString){
traceLevel = tLevel;
dbString = new char[strlen(debugString)+1];
lstrcpynA(dbString, debugString, strlen(debugString)+1);
_Setup();
Reset();
TRACELSM(traceLevel, (dbgDump << dbString << " : Start"), "");
}
~CPerfVidCtl(){
if(!!dbString){
LONGLONG curTime = Stop();
TRACELSM(traceLevel, (dbgDump << dbString << " : End :" << (unsigned long)(curTime / _100NS_IN_MS) << "." << (unsigned long)(curTime % _100NS_IN_MS) << " ms"), "");
}
delete[] dbString;
}
};
#else
//
// No perf counter. Make it an empty object (should be optimized out)
//
class CPerfCounter
{
public:
inline CPerfCounter() {}
inline explicit CPerfCounter(const char* Name) {}
inline ~CPerfCounter() {}
inline void Reset() {}
inline LONGLONG Stop() { return 0; }
inline LONGLONG GetLastTime() { return 0; }
inline void Trace() {}
};
#define VIDPERF(X,Y)
#define VIDPERF_FUNC
#endif