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re3/src/core/Timer.cpp
2020-06-01 18:32:34 +03:00

246 lines
4.9 KiB
C++

#define WITHWINDOWS
#include "common.h"
#include "crossplatform.h"
#include "DMAudio.h"
#include "Record.h"
#include "Timer.h"
uint32 CTimer::m_snTimeInMilliseconds;
PauseModeTime CTimer::m_snTimeInMillisecondsPauseMode = 1;
uint32 CTimer::m_snTimeInMillisecondsNonClipped;
uint32 CTimer::m_snPreviousTimeInMilliseconds;
uint32 CTimer::m_FrameCounter;
float CTimer::ms_fTimeScale;
float CTimer::ms_fTimeStep;
float CTimer::ms_fTimeStepNonClipped;
bool CTimer::m_UserPause;
bool CTimer::m_CodePause;
uint32 _nCyclesPerMS = 1;
#ifdef _WIN32
LARGE_INTEGER _oldPerfCounter;
LARGE_INTEGER perfSuspendCounter;
#define RsTimerType uint32
#else
#define RsTimerType double
#endif
RsTimerType oldPcTimer;
RsTimerType suspendPcTimer;
uint32 suspendDepth;
#ifdef FIX_HIGH_FPS_BUGS_ON_FRONTEND
double frameTime;
#endif
void CTimer::Initialise(void)
{
debug("Initialising CTimer...\n");
ms_fTimeScale = 1.0f;
ms_fTimeStep = 1.0f;
suspendDepth = 0;
m_UserPause = false;
m_CodePause = false;
m_snTimeInMillisecondsNonClipped = 0;
m_snPreviousTimeInMilliseconds = 0;
m_snTimeInMilliseconds = 1;
#ifdef _WIN32
LARGE_INTEGER perfFreq;
if ( QueryPerformanceFrequency(&perfFreq) )
{
OutputDebugString("Performance counter available\n");
_nCyclesPerMS = uint32(perfFreq.QuadPart / 1000);
QueryPerformanceCounter(&_oldPerfCounter);
}
else
#endif
{
OutputDebugString("Performance counter not available, using millesecond timer\n");
_nCyclesPerMS = 0;
oldPcTimer = RsTimer();
}
m_snTimeInMilliseconds = m_snPreviousTimeInMilliseconds;
m_FrameCounter = 0;
DMAudio.ResetTimers(m_snPreviousTimeInMilliseconds);
debug("CTimer ready\n");
}
void CTimer::Shutdown(void)
{
;
}
void CTimer::Update(void)
{
m_snPreviousTimeInMilliseconds = m_snTimeInMilliseconds;
#ifdef _WIN32
if ( (double)_nCyclesPerMS != 0.0 )
{
LARGE_INTEGER pc;
QueryPerformanceCounter(&pc);
int32 updInCycles = (pc.LowPart - _oldPerfCounter.LowPart); // & 0x7FFFFFFF; pointless
_oldPerfCounter = pc;
float updInCyclesScaled = updInCycles * ms_fTimeScale;
// We need that real frame time to fix transparent menu bug.
#ifndef FIX_HIGH_FPS_BUGS_ON_FRONTEND
double
#endif
frameTime = updInCyclesScaled / (double)_nCyclesPerMS;
m_snTimeInMillisecondsPauseMode = m_snTimeInMillisecondsPauseMode + frameTime;
if ( GetIsPaused() )
ms_fTimeStep = 0.0f;
else
{
m_snTimeInMilliseconds = m_snTimeInMilliseconds + frameTime;
m_snTimeInMillisecondsNonClipped = m_snTimeInMillisecondsNonClipped + frameTime;
ms_fTimeStep = frameTime / 1000.0f * 50.0f;
}
}
else
#endif
{
RsTimerType timer = RsTimer();
RsTimerType updInMs = timer - oldPcTimer;
// We need that real frame time to fix transparent menu bug.
#ifndef FIX_HIGH_FPS_BUGS_ON_FRONTEND
double
#endif
frameTime = (double)updInMs * ms_fTimeScale;
oldPcTimer = timer;
m_snTimeInMillisecondsPauseMode = m_snTimeInMillisecondsPauseMode + frameTime;
if ( GetIsPaused() )
ms_fTimeStep = 0.0f;
else
{
m_snTimeInMilliseconds = m_snTimeInMilliseconds + frameTime;
m_snTimeInMillisecondsNonClipped = m_snTimeInMillisecondsNonClipped + frameTime;
ms_fTimeStep = frameTime / 1000.0f * 50.0f;
}
}
if ( ms_fTimeStep < 0.01f && !GetIsPaused() )
ms_fTimeStep = 0.01f;
ms_fTimeStepNonClipped = ms_fTimeStep;
if ( !CRecordDataForGame::IsPlayingBack() )
{
ms_fTimeStep = Min(3.0f, ms_fTimeStep);
if ( (m_snTimeInMilliseconds - m_snPreviousTimeInMilliseconds) > 60 )
m_snTimeInMilliseconds = m_snPreviousTimeInMilliseconds + 60;
}
if ( CRecordDataForChase::IsRecording() )
{
ms_fTimeStep = 1.0f;
m_snTimeInMilliseconds = m_snPreviousTimeInMilliseconds + 16;
}
m_FrameCounter++;
}
void CTimer::Suspend(void)
{
if ( ++suspendDepth > 1 )
return;
#ifdef _WIN32
if ( (double)_nCyclesPerMS != 0.0 )
QueryPerformanceCounter(&perfSuspendCounter);
else
#endif
suspendPcTimer = RsTimer();
}
void CTimer::Resume(void)
{
if ( --suspendDepth != 0 )
return;
#ifdef _WIN32
if ( (double)_nCyclesPerMS != 0.0 )
{
LARGE_INTEGER pc;
QueryPerformanceCounter(&pc);
_oldPerfCounter.LowPart += pc.LowPart - perfSuspendCounter.LowPart;
}
else
#endif
oldPcTimer += RsTimer() - suspendPcTimer;
}
uint32 CTimer::GetCyclesPerMillisecond(void)
{
#ifdef _WIN32
if (_nCyclesPerMS != 0)
return _nCyclesPerMS;
else
#endif
return 1;
}
uint32 CTimer::GetCurrentTimeInCycles(void)
{
#ifdef _WIN32
if ( _nCyclesPerMS != 0 )
{
LARGE_INTEGER pc;
QueryPerformanceCounter(&pc);
return (pc.LowPart - _oldPerfCounter.LowPart); // & 0x7FFFFFFF; pointless
}
else
#endif
return RsTimer() - oldPcTimer;
}
bool CTimer::GetIsSlowMotionActive(void)
{
return ms_fTimeScale < 1.0f;
}
void CTimer::Stop(void)
{
m_snPreviousTimeInMilliseconds = m_snTimeInMilliseconds;
}
void CTimer::StartUserPause(void)
{
m_UserPause = true;
}
void CTimer::EndUserPause(void)
{
m_UserPause = false;
}
uint32 CTimer::GetCyclesPerFrame()
{
return 20;
}