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24and26.cpp

/* FCE Ultra - NES/Famicom Emulator
 *
 * Copyright notice for this file:
 *  Copyright (C) 2002 Xodnizel
 *
 * 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., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 */

#include "mapinc.h"

static void (*sfun[3])(void);

#define vrctemp mapbyte1[0]
#define VPSG2 mapbyte3
#define VPSG mapbyte2

static void DoSQV1(void);
static void DoSQV2(void);
static void DoSawV(void);

static int swaparoo;

static int acount=0;

static void KonamiIRQHook(int a)
{
  #define LCYCS 341
//  #define LCYCS ((227*2)+1)
  if(IRQa)
  {
   acount+=a*3;
   if(acount>=LCYCS)
   {
    doagainbub:acount-=LCYCS;IRQCount++;
    if(IRQCount==0x100)
    {
     X6502_IRQBegin(FCEU_IQEXT);
     IRQCount=IRQLatch;
    }
    if(acount>=LCYCS) goto doagainbub;
   }
 }
}

static DECLFW(VRC6SW)
{
        A&=0xF003;
        if(A>=0x9000 && A<=0x9002)
        {
         VPSG[A&3]=V;
         if(sfun[0]) sfun[0]();
        }
        else if(A>=0xa000 && A<=0xa002)
        {
         VPSG[4|(A&3)]=V;
         if(sfun[1]) sfun[1]();
        }
        else if(A>=0xb000 && A<=0xb002)
        {
         VPSG2[A&3]=V;
         if(sfun[2]) sfun[2]();
        }

}

static DECLFW(Mapper24_write)
{
        if(swaparoo)
         A=(A&0xFFFC)|((A>>1)&1)|((A<<1)&2);
        if(A>=0x9000 && A<=0xb002)
        {
         VRC6SW(A,V);
         return;
        }
        A&=0xF003;
//        if(A>=0xF000) printf("%d, %d, $%04x:$%02x\n",scanline,timestamp,A,V);
        switch(A&0xF003)
        {
         case 0x8000:ROM_BANK16(0x8000,V);break;
         case 0xB003:
                    switch(V&0xF)
                 {
                  case 0x0:MIRROR_SET2(1);break;
                  case 0x4:MIRROR_SET2(0);break;
                  case 0x8:onemir(0);break;
                  case 0xC:onemir(1);break;
                 }
                 break;
         case 0xC000:ROM_BANK8(0xC000,V);break;
         case 0xD000:VROM_BANK1(0x0000,V);break;
         case 0xD001:VROM_BANK1(0x0400,V);break;
         case 0xD002:VROM_BANK1(0x0800,V);break;
         case 0xD003:VROM_BANK1(0x0c00,V);break;
         case 0xE000:VROM_BANK1(0x1000,V);break;
         case 0xE001:VROM_BANK1(0x1400,V);break;
         case 0xE002:VROM_BANK1(0x1800,V);break;
         case 0xE003:VROM_BANK1(0x1c00,V);break;
         case 0xF000:IRQLatch=V;
                        //acount=0;
                        break;
         case 0xF001:IRQa=V&2;
                     vrctemp=V&1;
                     if(V&2)
                     {
                      IRQCount=IRQLatch;
                      acount=0;
                     }
                     X6502_IRQEnd(FCEU_IQEXT);
                     break;
         case 0xf002:IRQa=vrctemp;
                     X6502_IRQEnd(FCEU_IQEXT);break;
         case 0xF003:break;
  }
}

static int32 CVBC[3];
static int32 vcount[3];
static int32 dcount[2];

static INLINE void DoSQV(int x)
{
 int32 V;
 int32 amp=(((VPSG[x<<2]&15)<<8)*6/8)>>4;
 int32 start,end;

 start=CVBC[x];
 end=(SOUNDTS<<16)/soundtsinc;
 if(end<=start) return;
 CVBC[x]=end;

 if(VPSG[(x<<2)|0x2]&0x80)
 {
  if(VPSG[x<<2]&0x80)
  {
   for(V=start;V<end;V++)
    Wave[V>>4]+=amp;
  }
  else
  {
   int32 thresh=(VPSG[x<<2]>>4)&7;
   int32 freq=((VPSG[(x<<2)|0x1]|((VPSG[(x<<2)|0x2]&15)<<8))+1)<<17;
   for(V=start;V<end;V++)
   {
    if(dcount[x]>thresh)        /* Greater than, not >=.  Important. */
     Wave[V>>4]+=amp;
    vcount[x]-=nesincsize;
    while(vcount[x]<=0)            /* Should only be <0 in a few circumstances. */
    {
     vcount[x]+=freq;
     dcount[x]=(dcount[x]+1)&15;
    }
   }
  }
 }
}

static void DoSQV1(void)
{
 DoSQV(0);
}

static void DoSQV2(void)
{
 DoSQV(1);
}

static void DoSawV(void)
{
    int V;
    int32 start,end;

    start=CVBC[2];
    end=(SOUNDTS<<16)/soundtsinc;
    if(end<=start) return;
    CVBC[2]=end;

   if(VPSG2[2]&0x80)
   {
    static int32 saw1phaseacc=0;
    uint32 freq3;
    static uint8 b3=0;
    static int32 phaseacc=0;
    static uint32 duff=0;

    freq3=(VPSG2[1]+((VPSG2[2]&15)<<8)+1);

    for(V=start;V<end;V++)
    {
     saw1phaseacc-=nesincsize;
     if(saw1phaseacc<=0)
     {
      int32 t;
      rea:
      t=freq3;
      t<<=18;
      saw1phaseacc+=t;
      phaseacc+=VPSG2[0]&0x3f;
      b3++;
      if(b3==7)
      {
       b3=0;
       phaseacc=0;
      }
      if(saw1phaseacc<=0)
       goto rea;
      duff=(((phaseacc>>3)&0x1f)<<4)*6/8;
      }
     Wave[V>>4]+=duff;
    }
   }
}

static INLINE void DoSQVHQ(int x)
{
 uint32 V; //mbg merge 7/17/06 made uint
 int32 amp=((VPSG[x<<2]&15)<<8)*6/8;

 if(VPSG[(x<<2)|0x2]&0x80)
 {
  if(VPSG[x<<2]&0x80)
  {
   for(V=CVBC[x];V<SOUNDTS;V++)
    WaveHi[V]+=amp;
  }
  else
  {
   int32 thresh=(VPSG[x<<2]>>4)&7;
   for(V=CVBC[x];V<SOUNDTS;V++)
   {
    if(dcount[x]>thresh)        /* Greater than, not >=.  Important. */
     WaveHi[V]+=amp;
    vcount[x]--;
    if(vcount[x]<=0)            /* Should only be <0 in a few circumstances. */
    {
     vcount[x]=(VPSG[(x<<2)|0x1]|((VPSG[(x<<2)|0x2]&15)<<8))+1;
     dcount[x]=(dcount[x]+1)&15;
    }
   }
  }
 }
 CVBC[x]=SOUNDTS;
}

static void DoSQV1HQ(void)
{
 DoSQVHQ(0);
}

static void DoSQV2HQ(void)
{
 DoSQVHQ(1);
}

static void DoSawVHQ(void)
{
 static uint8 b3=0;
 static int32 phaseacc=0;
 uint32 V; //mbg merge 7/17/06 made uint32

 if(VPSG2[2]&0x80)
 {
  for(V=CVBC[2];V<SOUNDTS;V++)
  {
   WaveHi[V]+=(((phaseacc>>3)&0x1f)<<8)*6/8;
   vcount[2]--;
   if(vcount[2]<=0)
   {
    vcount[2]=(VPSG2[1]+((VPSG2[2]&15)<<8)+1)<<1;
    phaseacc+=VPSG2[0]&0x3f;
    b3++;
    if(b3==7)
    {
     b3=0;
     phaseacc=0;
   }

   }
  }
 }
 CVBC[2]=SOUNDTS;
}


void VRC6Sound(int Count)
{
    int x;

    DoSQV1();
    DoSQV2();
    DoSawV();
    for(x=0;x<3;x++)
     CVBC[x]=Count;
}

void VRC6SoundHQ(void)
{
    DoSQV1HQ();
    DoSQV2HQ();
    DoSawVHQ();
}

void VRC6SyncHQ(int32 ts)
{
 int x;
 for(x=0;x<3;x++) CVBC[x]=ts;
}

static void VRC6_ESI(void)
{
        GameExpSound.RChange=VRC6_ESI;
        GameExpSound.Fill=VRC6Sound;
        GameExpSound.HiFill=VRC6SoundHQ;
        GameExpSound.HiSync=VRC6SyncHQ;

        memset(CVBC,0,sizeof(CVBC));
        memset(vcount,0,sizeof(vcount));
        memset(dcount,0,sizeof(dcount));
        if(FSettings.SndRate)
        {
         if(FSettings.soundq>=1)
         {
          sfun[0]=DoSQV1HQ;
          sfun[1]=DoSQV2HQ;
          sfun[2]=DoSawVHQ;
         }
         else
         {
          sfun[0]=DoSQV1;
          sfun[1]=DoSQV2;
          sfun[2]=DoSawV;
         }
        }
        else
         memset(sfun,0,sizeof(sfun));
}

void Mapper24_init(void)
{
        SetWriteHandler(0x8000,0xffff,Mapper24_write);
        VRC6_ESI();
        MapIRQHook=KonamiIRQHook;
        swaparoo=0;
}

void Mapper26_init(void)
{
        SetWriteHandler(0x8000,0xffff,Mapper24_write);
        VRC6_ESI();
        MapIRQHook=KonamiIRQHook;
        swaparoo=1;
}

void NSFVRC6_Init(void)
{
        VRC6_ESI();
        SetWriteHandler(0x8000,0xbfff,VRC6SW);
}

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