project64/Source/Project64-core/N64System/Mips/SystemTiming.cpp

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2012-12-19 09:30:18 +00:00
/****************************************************************************
* *
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* Project64 - A Nintendo 64 emulator. *
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* http://www.pj64-emu.com/ *
* Copyright (C) 2012 Project64. All rights reserved. *
* *
* License: *
* GNU/GPLv2 http://www.gnu.org/licenses/gpl-2.0.html *
* *
****************************************************************************/
#include "stdafx.h"
#include <Project64-core/N64System/Mips/SystemTiming.h>
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#include <Project64-core/N64System/SystemGlobals.h>
#include <Project64-core/N64System/Mips/RegisterClass.h>
#include <Project64-core/N64System/Mips/Disk.h>
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#include <Project64-core/N64System/N64Class.h>
#include <Project64-core/3rdParty/zip.h>
CSystemTimer::CSystemTimer(CRegisters &Reg, int32_t & NextTimer) :
m_LastUpdate(0),
m_NextTimer(NextTimer),
m_Current(UnknownTimer),
m_inFixTimer(false),
m_Reg(Reg)
{
memset(m_TimerDetatils, 0, sizeof(m_TimerDetatils));
}
void CSystemTimer::Reset()
{
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//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;
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SetTimer(ViTimer, 50000, false);
SetCompareTimer();
}
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void CSystemTimer::SetTimer(TimerType Type, uint32_t Cycles, bool bRelative)
{
Cycles *= CGameSettings::OverClockModifier();
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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_t)Cycles - (int64_t)m_NextTimer; //replace the new cycles
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}
}
else
{
m_TimerDetatils[Type].CyclesToTimer = (int64_t)Cycles - (int64_t)m_NextTimer; //replace the new cycles
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}
FixTimers();
}
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uint32_t CSystemTimer::GetTimer(TimerType Type)
{
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if (Type >= MaxTimer || Type == UnknownTimer)
{
g_Notify->BreakPoint(__FILE__, __LINE__);
return 0;
}
if (!m_TimerDetatils[Type].Active)
{
return 0;
}
int64_t CyclesToTimer = m_TimerDetatils[Type].CyclesToTimer + m_NextTimer;
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if (CyclesToTimer < 0)
{
return 0;
}
if (CyclesToTimer > 0x7FFFFFFF)
{
return 0x7FFFFFFF;
}
return (uint32_t)(CyclesToTimer / CGameSettings::OverClockModifier());
}
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void CSystemTimer::StopTimer(TimerType Type)
{
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if (Type >= MaxTimer || Type == UnknownTimer)
{
g_Notify->BreakPoint(__FILE__, __LINE__);
return;
}
m_TimerDetatils[Type].Active = false;
FixTimers();
}
void CSystemTimer::FixTimers()
{
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if (m_inFixTimer)
{
return;
}
m_inFixTimer = true;
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UpdateTimers();
if (GetTimer(CompareTimer) > 0x60000000)
{
SetCompareTimer();
}
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//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;
}
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//Set Max timer
m_NextTimer = 0x7FFFFFFF;
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//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()
{
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int TimeTaken = m_LastUpdate - m_NextTimer;
if (TimeTaken != 0)
{
int32_t random, wired;
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m_LastUpdate = m_NextTimer;
m_Reg.COUNT_REGISTER += (TimeTaken / CGameSettings::OverClockModifier());
random = m_Reg.RANDOM_REGISTER - (TimeTaken / g_System->CountPerOp());
wired = m_Reg.WIRED_REGISTER;
if (random < wired)
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{
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if (wired == 0)
{
random &= 31;
}
else
{
uint32_t increment = 32 - wired;
random += ((wired - random + increment - 1) / increment) * increment;
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}
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}
m_Reg.RANDOM_REGISTER = random;
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}
}
void CSystemTimer::TimerDone()
{
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UpdateTimers();
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switch (m_Current)
{
case CSystemTimer::CompareTimer:
m_Reg.FAKE_CAUSE_REGISTER |= CAUSE_IP7;
m_Reg.CheckInterrupts();
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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);
m_Reg.MI_INTR_REG |= MI_INTR_SI;
m_Reg.SI_STATUS_REG |= SI_STATUS_INTERRUPT;
m_Reg.CheckInterrupts();
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break;
case CSystemTimer::PiTimer:
g_SystemTimer->StopTimer(CSystemTimer::PiTimer);
m_Reg.PI_STATUS_REG &= ~PI_STATUS_DMA_BUSY;
m_Reg.MI_INTR_REG |= MI_INTR_PI;
m_Reg.CheckInterrupts();
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break;
case CSystemTimer::DDPiTimer:
g_SystemTimer->StopTimer(CSystemTimer::DDPiTimer);
m_Reg.PI_STATUS_REG &= ~PI_STATUS_DMA_BUSY;
DiskBMUpdate();
m_Reg.MI_INTR_REG |= MI_INTR_PI;
m_Reg.CheckInterrupts();
break;
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case CSystemTimer::ViTimer:
try
{
g_System->RefreshScreen();
}
catch (...)
{
WriteTrace(TraceN64System, TraceError, "Exception caught\nFile: %s\nLine: %d", __FILE__, __LINE__);
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}
m_Reg.MI_INTR_REG |= MI_INTR_VI;
m_Reg.CheckInterrupts();
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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);
m_Reg.m_GfxIntrReg |= MI_INTR_DP;
m_Reg.CheckInterrupts();
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break;
case CSystemTimer::AiTimerInterrupt:
g_SystemTimer->StopTimer(CSystemTimer::AiTimerInterrupt);
g_Audio->InterruptTimerDone();
break;
case CSystemTimer::AiTimerBusy:
g_SystemTimer->StopTimer(CSystemTimer::AiTimerBusy);
g_Audio->BusyTimerDone();
break;
default:
g_Notify->BreakPoint(__FILE__, __LINE__);
}
//CheckTimer();
/*if (Profiling)
{
StartTimer(LastTimer);
}*/
}
void CSystemTimer::SetCompareTimer()
{
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uint32_t NextCompare = 0x7FFFFFFF;
if (g_Reg)
{
NextCompare = m_Reg.COMPARE_REGISTER - m_Reg.COUNT_REGISTER;
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if ((NextCompare & 0x80000000) != 0)
{
NextCompare = 0x7FFFFFFF;
}
}
SetTimer(CompareTimer, NextCompare, false);
}
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void CSystemTimer::UpdateCompareTimer(void)
{
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SetCompareTimer();
}
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bool CSystemTimer::SaveAllowed(void)
{
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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(zipFile & file) const
{
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uint32_t TimerDetailsSize = sizeof(TIMER_DETAILS);
uint32_t 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::SaveData(CFile & file) const
{
uint32_t TimerDetailsSize = sizeof(TIMER_DETAILS);
uint32_t Entries = sizeof(m_TimerDetatils) / sizeof(m_TimerDetatils[0]);
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file.Write(&TimerDetailsSize, sizeof(TimerDetailsSize));
file.Write(&Entries, sizeof(Entries));
file.Write((void *)&m_TimerDetatils, sizeof(m_TimerDetatils));
file.Write((void *)&m_LastUpdate, sizeof(m_LastUpdate));
file.Write(&m_NextTimer, sizeof(m_NextTimer));
file.Write((void *)&m_Current, sizeof(m_Current));
}
void CSystemTimer::LoadData(zipFile & file)
{
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uint32_t TimerDetailsSize, Entries;
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unzReadCurrentFile(file, &TimerDetailsSize, sizeof(TimerDetailsSize));
unzReadCurrentFile(file, &Entries, sizeof(Entries));
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if (TimerDetailsSize != sizeof(TIMER_DETAILS))
{
g_Notify->BreakPoint(__FILE__, __LINE__);
return;
}
if (Entries != sizeof(m_TimerDetatils) / sizeof(m_TimerDetatils[0]))
{
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if (Entries < (sizeof(m_TimerDetatils) / sizeof(m_TimerDetatils[0])))
{
memset((void *)&m_TimerDetatils, 0, sizeof(m_TimerDetatils));
unzReadCurrentFile(file, (void *)&m_TimerDetatils, Entries * sizeof(m_TimerDetatils[0]));
}
else
{
g_Notify->BreakPoint(__FILE__, __LINE__);
return;
}
}
else
{
unzReadCurrentFile(file, (void *)&m_TimerDetatils, sizeof(m_TimerDetatils));
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}
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::LoadData(CFile & file)
{
uint32_t TimerDetailsSize, Entries;
file.Read(&TimerDetailsSize, sizeof(TimerDetailsSize));
file.Read(&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;
}
file.Read((void *)&m_TimerDetatils, sizeof(m_TimerDetatils));
file.Read((void *)&m_LastUpdate, sizeof(m_LastUpdate));
file.Read(&m_NextTimer, sizeof(m_NextTimer));
file.Read((void *)&m_Current, sizeof(m_Current));
}
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void CSystemTimer::RecordDifference(CLog &LogFile, const CSystemTimer& rSystemTimer)
{
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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);
}
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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, (uint32_t)m_TimerDetatils[i].CyclesToTimer, (uint32_t)rSystemTimer.m_TimerDetatils[i].CyclesToTimer);
}
}
}
bool CSystemTimer::operator == (const CSystemTimer& rSystemTimer) const
{
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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;
}
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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);
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}