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|
/***************************************************************************
* Copyright (C) 2010 by Blade_Arma *
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
* This program is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU General Public License for more details. *
* *
* You should have received a copy of the GNU General Public License *
* along with this program; if not, write to the *
* Free Software Foundation, Inc., *
* 51 Franklin Street, Fifth Floor, Boston, MA 02111-1307 USA. *
***************************************************************************/
/*
* Internal PSX counters.
*/
#include "psxcounters.h"
#include "debug.h"
/******************************************************************************/
typedef struct Rcnt
{
u16 mode, target;
u32 rate, irq, counterState, irqState;
u32 cycle, cycleStart;
} Rcnt;
enum
{
Rc0Gate = 0x0001, // 0 not implemented
Rc1Gate = 0x0001, // 0 not implemented
Rc2Disable = 0x0001, // 0 partially implemented
RcUnknown1 = 0x0002, // 1 ?
RcUnknown2 = 0x0004, // 2 ?
RcCountToTarget = 0x0008, // 3
RcIrqOnTarget = 0x0010, // 4
RcIrqOnOverflow = 0x0020, // 5
RcIrqRegenerate = 0x0040, // 6
RcUnknown7 = 0x0080, // 7 ?
Rc0PixelClock = 0x0100, // 8 fake implementation
Rc1HSyncClock = 0x0100, // 8
Rc2Unknown8 = 0x0100, // 8 ?
Rc0Unknown9 = 0x0200, // 9 ?
Rc1Unknown9 = 0x0200, // 9 ?
Rc2OneEighthClock = 0x0200, // 9
RcUnknown10 = 0x0400, // 10 ?
RcCountEqTarget = 0x0800, // 11
RcOverflow = 0x1000, // 12
RcUnknown13 = 0x2000, // 13 ? (always zero)
RcUnknown14 = 0x4000, // 14 ? (always zero)
RcUnknown15 = 0x8000, // 15 ? (always zero)
};
#define CounterQuantity ( 4 )
//static const u32 CounterQuantity = 4;
static const u32 CountToOverflow = 0;
static const u32 CountToTarget = 1;
static const u32 FrameRate[] = { 60, 50 };
static const u32 VBlankStart[] = { 240, 256 };
static const u32 HSyncTotal[] = { 263, 313 };
static const u32 SpuUpdInterval[] = { 32, 32 };
#define VERBOSE_LEVEL 0
static const s32 VerboseLevel = VERBOSE_LEVEL;
/******************************************************************************/
static Rcnt rcnts[ CounterQuantity ];
static u32 hSyncCount = 0;
static u32 spuSyncCount = 0;
static u32 hsync_steps = 0;
static u32 gpu_wants_hcnt = 0;
u32 psxNextCounter = 0, psxNextsCounter = 0;
/******************************************************************************/
static inline
void setIrq( u32 irq )
{
psxHu32ref(0x1070) |= SWAPu32(irq);
}
static
void verboseLog( u32 level, const char *str, ... )
{
#if VERBOSE_LEVEL > 0
if( level <= VerboseLevel )
{
va_list va;
char buf[ 4096 ];
va_start( va, str );
vsprintf( buf, str, va );
va_end( va );
printf( "%s", buf );
fflush( stdout );
}
#endif
}
/******************************************************************************/
static inline
void _psxRcntWcount( u32 index, u32 value )
{
if( value > 0xffff )
{
verboseLog( 1, "[RCNT %i] wcount > 0xffff: %x\n", index, value );
value &= 0xffff;
}
rcnts[index].cycleStart = psxRegs.cycle;
rcnts[index].cycleStart -= value * rcnts[index].rate;
// TODO: <=.
if( value < rcnts[index].target )
{
rcnts[index].cycle = rcnts[index].target * rcnts[index].rate;
rcnts[index].counterState = CountToTarget;
}
else
{
rcnts[index].cycle = 0xffff * rcnts[index].rate;
rcnts[index].counterState = CountToOverflow;
}
}
static inline
u32 _psxRcntRcount( u32 index )
{
u32 count;
count = psxRegs.cycle;
count -= rcnts[index].cycleStart;
if (rcnts[index].rate > 1)
count /= rcnts[index].rate;
if( count > 0xffff )
{
verboseLog( 1, "[RCNT %i] rcount > 0xffff: %x\n", index, count );
count &= 0xffff;
}
return count;
}
/******************************************************************************/
static
void psxRcntSet()
{
s32 countToUpdate;
u32 i;
psxNextsCounter = psxRegs.cycle;
psxNextCounter = 0x7fffffff;
for( i = 0; i < CounterQuantity; ++i )
{
countToUpdate = rcnts[i].cycle - (psxNextsCounter - rcnts[i].cycleStart);
if( countToUpdate < 0 )
{
psxNextCounter = 0;
break;
}
if( countToUpdate < (s32)psxNextCounter )
{
psxNextCounter = countToUpdate;
}
}
}
/******************************************************************************/
static
void psxRcntReset( u32 index )
{
u32 count;
if( rcnts[index].counterState == CountToTarget )
{
if( rcnts[index].mode & RcCountToTarget )
{
count = psxRegs.cycle;
count -= rcnts[index].cycleStart;
if (rcnts[index].rate > 1)
count /= rcnts[index].rate;
count -= rcnts[index].target;
}
else
{
count = _psxRcntRcount( index );
}
_psxRcntWcount( index, count );
if( rcnts[index].mode & RcIrqOnTarget )
{
if( (rcnts[index].mode & RcIrqRegenerate) || (!rcnts[index].irqState) )
{
verboseLog( 3, "[RCNT %i] irq: %x\n", index, count );
setIrq( rcnts[index].irq );
rcnts[index].irqState = 1;
}
}
rcnts[index].mode |= RcCountEqTarget;
}
else if( rcnts[index].counterState == CountToOverflow )
{
count = psxRegs.cycle;
count -= rcnts[index].cycleStart;
if (rcnts[index].rate > 1)
count /= rcnts[index].rate;
count -= 0xffff;
_psxRcntWcount( index, count );
if( rcnts[index].mode & RcIrqOnOverflow )
{
if( (rcnts[index].mode & RcIrqRegenerate) || (!rcnts[index].irqState) )
{
verboseLog( 3, "[RCNT %i] irq: %x\n", index, count );
setIrq( rcnts[index].irq );
rcnts[index].irqState = 1;
}
}
rcnts[index].mode |= RcOverflow;
}
rcnts[index].mode |= RcUnknown10;
psxRcntSet();
}
void psxRcntUpdate()
{
u32 cycle;
cycle = psxRegs.cycle;
// rcnt 0.
if( cycle - rcnts[0].cycleStart >= rcnts[0].cycle )
{
psxRcntReset( 0 );
}
// rcnt 1.
if( cycle - rcnts[1].cycleStart >= rcnts[1].cycle )
{
psxRcntReset( 1 );
}
// rcnt 2.
if( cycle - rcnts[2].cycleStart >= rcnts[2].cycle )
{
psxRcntReset( 2 );
}
// rcnt base.
if( cycle - rcnts[3].cycleStart >= rcnts[3].cycle )
{
u32 leftover_cycles = cycle - rcnts[3].cycleStart - rcnts[3].cycle;
u32 next_vsync, next_lace;
spuSyncCount += hsync_steps;
hSyncCount += hsync_steps;
// Update spu.
if( spuSyncCount >= SpuUpdInterval[Config.PsxType] )
{
spuSyncCount = 0;
if( SPU_async )
{
SPU_async( SpuUpdInterval[Config.PsxType] * rcnts[3].target );
}
}
// VSync irq.
if( hSyncCount == VBlankStart[Config.PsxType] )
{
GPU_vBlank( 1, &hSyncCount, &gpu_wants_hcnt );
// For the best times. :D
//setIrq( 0x01 );
}
// Update lace. (with InuYasha fix)
if( hSyncCount >= (Config.VSyncWA ? HSyncTotal[Config.PsxType] / BIAS : HSyncTotal[Config.PsxType]) )
{
hSyncCount = 0;
GPU_vBlank( 0, &hSyncCount, &gpu_wants_hcnt );
setIrq( 0x01 );
EmuUpdate();
GPU_updateLace();
}
// Schedule next call, in hsyncs
hsync_steps = SpuUpdInterval[Config.PsxType] - spuSyncCount;
next_vsync = VBlankStart[Config.PsxType] - hSyncCount; // ok to overflow
next_lace = HSyncTotal[Config.PsxType] - hSyncCount;
if( next_vsync && next_vsync < hsync_steps )
hsync_steps = next_vsync;
if( next_lace && next_lace < hsync_steps )
hsync_steps = next_lace;
if( gpu_wants_hcnt )
hsync_steps = 1;
rcnts[3].cycleStart = cycle - leftover_cycles;
rcnts[3].cycle = hsync_steps * rcnts[3].target;
psxRcntSet();
}
#ifndef NDEBUG
DebugVSync();
#endif
}
/******************************************************************************/
void psxRcntWcount( u32 index, u32 value )
{
verboseLog( 2, "[RCNT %i] wcount: %x\n", index, value );
_psxRcntWcount( index, value );
psxRcntSet();
}
void psxRcntWmode( u32 index, u32 value )
{
verboseLog( 1, "[RCNT %i] wmode: %x\n", index, value );
rcnts[index].mode = value;
rcnts[index].irqState = 0;
switch( index )
{
case 0:
if( value & Rc0PixelClock )
{
rcnts[index].rate = 5;
}
else
{
rcnts[index].rate = 1;
}
break;
case 1:
if( value & Rc1HSyncClock )
{
rcnts[index].rate = (PSXCLK / (FrameRate[Config.PsxType] * HSyncTotal[Config.PsxType]));
}
else
{
rcnts[index].rate = 1;
}
break;
case 2:
if( value & Rc2OneEighthClock )
{
rcnts[index].rate = 8;
}
else
{
rcnts[index].rate = 1;
}
// TODO: wcount must work.
if( value & Rc2Disable )
{
rcnts[index].rate = 0xffffffff;
}
break;
}
_psxRcntWcount( index, 0 );
psxRcntSet();
}
void psxRcntWtarget( u32 index, u32 value )
{
verboseLog( 1, "[RCNT %i] wtarget: %x\n", index, value );
rcnts[index].target = value;
_psxRcntWcount( index, _psxRcntRcount( index ) );
psxRcntSet();
}
/******************************************************************************/
u32 psxRcntRcount( u32 index )
{
u32 count;
count = _psxRcntRcount( index );
// Parasite Eve 2 fix.
if( Config.RCntFix )
{
if( index == 2 )
{
if( rcnts[index].counterState == CountToTarget )
{
count /= BIAS;
}
}
}
verboseLog( 2, "[RCNT %i] rcount: %x\n", index, count );
return count;
}
u32 psxRcntRmode( u32 index )
{
u16 mode;
mode = rcnts[index].mode;
rcnts[index].mode &= 0xe7ff;
verboseLog( 2, "[RCNT %i] rmode: %x\n", index, mode );
return mode;
}
u32 psxRcntRtarget( u32 index )
{
verboseLog( 2, "[RCNT %i] rtarget: %x\n", index, rcnts[index].target );
return rcnts[index].target;
}
/******************************************************************************/
void psxRcntInit()
{
s32 i;
// rcnt 0.
rcnts[0].rate = 1;
rcnts[0].irq = 0x10;
// rcnt 1.
rcnts[1].rate = 1;
rcnts[1].irq = 0x20;
// rcnt 2.
rcnts[2].rate = 1;
rcnts[2].irq = 0x40;
// rcnt base.
rcnts[3].rate = 1;
rcnts[3].mode = RcCountToTarget;
rcnts[3].target = (PSXCLK / (FrameRate[Config.PsxType] * HSyncTotal[Config.PsxType]));
for( i = 0; i < CounterQuantity; ++i )
{
_psxRcntWcount( i, 0 );
}
hSyncCount = 0;
spuSyncCount = 0;
hsync_steps = 1;
psxRcntSet();
}
/******************************************************************************/
s32 psxRcntFreeze( gzFile f, s32 Mode )
{
gzfreeze( &rcnts, sizeof(rcnts) );
gzfreeze( &hSyncCount, sizeof(hSyncCount) );
gzfreeze( &spuSyncCount, sizeof(spuSyncCount) );
gzfreeze( &psxNextCounter, sizeof(psxNextCounter) );
gzfreeze( &psxNextsCounter, sizeof(psxNextsCounter) );
if (Mode == 0)
hsync_steps = (psxRegs.cycle - rcnts[3].cycleStart) / rcnts[3].target;
return 0;
}
/******************************************************************************/
|