#include "stdafx.h" CSystemTimer::CSystemTimer( int & NextTimer ) : m_NextTimer(NextTimer), m_inFixTimer(false) { } void CSystemTimer::Reset ( void ) { //initialise Structure for (int i = 0; i < MaxTimer; i++) { m_TimerDetatils[i].Active = false; m_TimerDetatils[i].CyclesToTimer = 0; } m_Current = UnknownTimer; m_LastUpdate = 0; m_NextTimer = 0; SetTimer(ViTimer,50000,false); SetCompareTimer(); } void CSystemTimer::SetTimer ( TimerType Type, DWORD Cycles, bool bRelative ) { if (Type >= MaxTimer || Type == UnknownTimer) { g_Notify->BreakPoint(__FILE__,__LINE__); return; } UpdateTimers(); m_TimerDetatils[Type].Active = true; if (bRelative) { if (m_TimerDetatils[Type].Active) { m_TimerDetatils[Type].CyclesToTimer += Cycles; //Add to the timer } else { m_TimerDetatils[Type].CyclesToTimer = (__int64)Cycles - (__int64)m_NextTimer; //replace the new cycles } } else { m_TimerDetatils[Type].CyclesToTimer = (__int64)Cycles - (__int64)m_NextTimer; //replace the new cycles } FixTimers(); } DWORD CSystemTimer::GetTimer ( TimerType Type ) { if (Type >= MaxTimer || Type == UnknownTimer) { g_Notify->BreakPoint(__FILE__,__LINE__); return 0; } if (!m_TimerDetatils[Type].Active) { return 0; } __int64 CyclesToTimer = m_TimerDetatils[Type].CyclesToTimer + m_NextTimer; if (CyclesToTimer < 0) { return 0; } if (CyclesToTimer > 0x7FFFFFFF) { return 0x7FFFFFFF; } return (DWORD)CyclesToTimer; } void CSystemTimer::StopTimer ( TimerType Type ) { if (Type >= MaxTimer || Type == UnknownTimer) { g_Notify->BreakPoint(__FILE__,__LINE__); return; } m_TimerDetatils[Type].Active = false; FixTimers(); } void CSystemTimer::FixTimers (void) { if (m_inFixTimer) { return; } m_inFixTimer = true; UpdateTimers(); if (GetTimer(CompareTimer) > 0x60000000) { SetCompareTimer(); } //Update the cycles for the remaining number of cycles to timer int count; for (count = 0; count < MaxTimer; count++) { if (!m_TimerDetatils[count].Active) { continue; } m_TimerDetatils[count].CyclesToTimer += m_NextTimer; } //Set Max timer m_NextTimer = 0x7FFFFFFF; //Find the smallest timer left to go for (count = 0; count < MaxTimer; count++) { if (!m_TimerDetatils[count].Active) { continue; } if (m_TimerDetatils[count].CyclesToTimer >= m_NextTimer) { continue; } m_NextTimer = (int)m_TimerDetatils[count].CyclesToTimer; m_Current = (TimerType)count; } //Move the timer back this value for (count = 0; count < MaxTimer; count++) { if (!m_TimerDetatils[count].Active) { continue; } m_TimerDetatils[count].CyclesToTimer -= m_NextTimer; } m_LastUpdate = m_NextTimer; m_inFixTimer = false; } void CSystemTimer::UpdateTimers ( void ) { int TimeTaken = m_LastUpdate - m_NextTimer; if (TimeTaken != 0) { m_LastUpdate = m_NextTimer; g_Reg->COUNT_REGISTER += TimeTaken; g_Reg->RANDOM_REGISTER -= TimeTaken / CountPerOp(); while ((int)g_Reg->RANDOM_REGISTER < (int)g_Reg->WIRED_REGISTER) { g_Reg->RANDOM_REGISTER += 32 - g_Reg->WIRED_REGISTER; } } } void CSystemTimer::TimerDone (void) { UpdateTimers(); /* DWORD LastTimer; if (Profiling) { LastTimer = StartTimer(Timer_Done); } #if (!defined(EXTERNAL_RELEASE)) if (LogOptions.GenerateLog && LogOptions.LogExceptions && !LogOptions.NoInterrupts) { LogMessage("%08X: Timer Done (Type: %d CurrentTimer: %d)", *_PROGRAM_COUNTER, m_Current, *_Timer ); } #endif */ switch (m_Current) { case CSystemTimer::CompareTimer: g_Reg->FAKE_CAUSE_REGISTER |= CAUSE_IP7; g_Reg->CheckInterrupts(); UpdateCompareTimer(); break; case CSystemTimer::SoftResetTimer: g_SystemTimer->StopTimer(CSystemTimer::SoftResetTimer); g_System->ExternalEvent(SysEvent_ResetCPU_SoftDone); break; case CSystemTimer::SiTimer: g_SystemTimer->StopTimer(CSystemTimer::SiTimer); g_Reg->MI_INTR_REG |= MI_INTR_SI; g_Reg->SI_STATUS_REG |= SI_STATUS_INTERRUPT; g_Reg->CheckInterrupts(); break; case CSystemTimer::PiTimer: g_SystemTimer->StopTimer(CSystemTimer::PiTimer); g_Reg->PI_STATUS_REG &= ~PI_STATUS_DMA_BUSY; g_Reg->MI_INTR_REG |= MI_INTR_PI; g_Reg->CheckInterrupts(); break; case CSystemTimer::ViTimer: try { g_System->RefreshScreen(); } catch (...) { WriteTraceF(TraceError,"Exception caught in Refresh Screen\nFile: %s\nLine: %d",__FILE__,__LINE__); } g_Reg->MI_INTR_REG |= MI_INTR_VI; g_Reg->CheckInterrupts(); break; case CSystemTimer::RspTimer: g_SystemTimer->StopTimer(CSystemTimer::RspTimer); try { g_System->RunRSP(); } catch (...) { g_Notify->BreakPoint(__FILE__,__LINE__); } break; case CSystemTimer::RSPTimerDlist: g_SystemTimer->StopTimer(CSystemTimer::RSPTimerDlist); g_Reg->m_GfxIntrReg |= MI_INTR_DP; g_Reg->CheckInterrupts(); break; case CSystemTimer::AiTimer: g_SystemTimer->StopTimer(CSystemTimer::AiTimer); g_Audio->TimerDone(); break; default: g_Notify->BreakPoint(__FILE__,__LINE__); } //CheckTimer(); /*if (Profiling) { StartTimer(LastTimer); }*/ } void CSystemTimer::SetCompareTimer ( void ) { DWORD NextCompare = 0x7FFFFFFF; if (g_Reg) { NextCompare = g_Reg->COMPARE_REGISTER - g_Reg->COUNT_REGISTER; if ((NextCompare & 0x80000000) != 0) { NextCompare = 0x7FFFFFFF; } } SetTimer(CompareTimer,NextCompare,false); } void CSystemTimer::UpdateCompareTimer ( void ) { SetCompareTimer(); } bool CSystemTimer::SaveAllowed ( void ) { if (GetTimer(CompareTimer) <= 0) { return false; } for (int i = 0; i < MaxTimer; i++) { if (i == CompareTimer) { continue; } if (i == ViTimer) { continue; } if (m_TimerDetatils[i].Active) { return false; } } return true; } void CSystemTimer::SaveData ( void * file ) const { DWORD TimerDetailsSize = sizeof(TIMER_DETAILS); DWORD Entries = sizeof(m_TimerDetatils)/sizeof(m_TimerDetatils[0]); zipWriteInFileInZip(file,&TimerDetailsSize,sizeof(TimerDetailsSize)); zipWriteInFileInZip(file,&Entries,sizeof(Entries)); zipWriteInFileInZip(file,(void *)&m_TimerDetatils,sizeof(m_TimerDetatils)); zipWriteInFileInZip(file,(void *)&m_LastUpdate,sizeof(m_LastUpdate)); zipWriteInFileInZip(file,&m_NextTimer,sizeof(m_NextTimer)); zipWriteInFileInZip(file,(void *)&m_Current,sizeof(m_Current)); } void CSystemTimer::LoadData ( void * file ) { DWORD TimerDetailsSize, Entries; unzReadCurrentFile( file,&TimerDetailsSize,sizeof(TimerDetailsSize)); unzReadCurrentFile( file,&Entries,sizeof(Entries)); if (TimerDetailsSize != sizeof(TIMER_DETAILS)) { g_Notify->BreakPoint(__FILE__,__LINE__); return; } if (Entries != sizeof(m_TimerDetatils)/sizeof(m_TimerDetatils[0])) { g_Notify->BreakPoint(__FILE__,__LINE__); return; } unzReadCurrentFile(file,(void *)&m_TimerDetatils,sizeof(m_TimerDetatils)); unzReadCurrentFile(file,(void *)&m_LastUpdate,sizeof(m_LastUpdate)); unzReadCurrentFile(file,&m_NextTimer,sizeof(m_NextTimer)); unzReadCurrentFile(file,(void *)&m_Current,sizeof(m_Current)); } void CSystemTimer::RecordDifference( CLog &LogFile, const CSystemTimer& rSystemTimer) { if (m_LastUpdate != rSystemTimer.m_LastUpdate) { LogFile.LogF("Timer-LastUpdate: %X %X\r\n",m_LastUpdate,rSystemTimer.m_LastUpdate); } if (m_NextTimer != rSystemTimer.m_NextTimer) { LogFile.LogF("Timer-NextTimer: %X %X\r\n",m_NextTimer,rSystemTimer.m_NextTimer); } if (m_Current != rSystemTimer.m_Current) { LogFile.LogF("Timer-Current %X %X\r\n",m_Current,rSystemTimer.m_Current); } if (m_inFixTimer != rSystemTimer.m_inFixTimer) { LogFile.LogF("Timer-inFixTimer %X %X\r\n",(int)m_inFixTimer,(int)rSystemTimer.m_inFixTimer); } for (int i = 0; i < MaxTimer; i++) { if (m_TimerDetatils[i].Active != rSystemTimer.m_TimerDetatils[i].Active) { LogFile.LogF("Timer-m_TimerDetatils[%d] %X %X\r\n",i,(int)m_TimerDetatils[i].Active,(int)rSystemTimer.m_TimerDetatils[i].Active); } if (m_TimerDetatils[i].CyclesToTimer != rSystemTimer.m_TimerDetatils[i].CyclesToTimer) { LogFile.LogF("Timer-m_TimerDetatils[%d] 0x%08X, 0x%08X\r\n",i,(DWORD)m_TimerDetatils[i].CyclesToTimer,(DWORD)rSystemTimer.m_TimerDetatils[i].CyclesToTimer ); } } } bool CSystemTimer::operator == (const CSystemTimer& rSystemTimer) const { if (m_LastUpdate != rSystemTimer.m_LastUpdate) { return false; } if (m_NextTimer != rSystemTimer.m_NextTimer) { return false; } if (m_Current != rSystemTimer.m_Current) { return false; } if (m_inFixTimer != rSystemTimer.m_inFixTimer) { return false; } for (int i = 0; i < MaxTimer; i++) { if (m_TimerDetatils[i].Active != rSystemTimer.m_TimerDetatils[i].Active) { return false; } if (m_TimerDetatils[i].CyclesToTimer != rSystemTimer.m_TimerDetatils[i].CyclesToTimer) { return false; } } return true; } bool CSystemTimer::operator != (const CSystemTimer& rSystemTimer) const { return !(*this == rSystemTimer); }