uint8 *C; register uint8 cc; uint32 vadr; #ifndef PPUT_MMC5SP uint8 zz; #else uint8 xs,ys; xs=X1; ys=((scanline>>3)+MMC5HackSPScroll)&0x1F; if(ys>=0x1E) ys-=0x1E; #endif if(X1>=2) { uint8 *S=PALRAM; uint32 pixdata; pixdata=ppulut1[(pshift[0]>>(8-XOffset))&0xFF]|ppulut2[(pshift[1]>>(8-XOffset))&0xFF]; pixdata|=ppulut3[XOffset|(atlatch<<3)]; //printf("%02x ",ppulut3[XOffset|(atlatch<<3)]); P[0]=S[pixdata&0xF]; pixdata>>=4; P[1]=S[pixdata&0xF]; pixdata>>=4; P[2]=S[pixdata&0xF]; pixdata>>=4; P[3]=S[pixdata&0xF]; pixdata>>=4; P[4]=S[pixdata&0xF]; pixdata>>=4; P[5]=S[pixdata&0xF]; pixdata>>=4; P[6]=S[pixdata&0xF]; pixdata>>=4; P[7]=S[pixdata&0xF]; P+=8; } #ifdef PPUT_MMC5SP vadr=(MMC5HackExNTARAMPtr[xs|(ys<<5)]<<4)+(vofs&7); #else zz=RefreshAddr&0x1F; C=vnapage[(RefreshAddr>>10)&3]; vadr=(C[RefreshAddr&0x3ff]<<4)+vofs; /* Fetch name table byte. */ #endif #ifdef PPUT_HOOK PPU_hook(0x2000|(RefreshAddr&0xfff)); #endif #ifdef PPUT_MMC5SP cc=MMC5HackExNTARAMPtr[0x3c0+(xs>>2)+((ys&0x1C)<<1)]; cc=((cc >> ((xs&2) + ((ys&0x2)<<1))) &3); #else #ifdef PPUT_MMC5CHR1 cc=(MMC5HackExNTARAMPtr[RefreshAddr & 0x3ff] & 0xC0)>>6; #else cc=C[0x3c0+(zz>>2)+((RefreshAddr&0x380)>>4)]; /* Fetch attribute table byte. */ cc=((cc >> ((zz&2) + ((RefreshAddr&0x40)>>4))) &3); #endif #endif atlatch>>=2; atlatch|=cc<<2; pshift[0]<<=8; pshift[1]<<=8; #ifdef PPUT_MMC5SP C = MMC5HackVROMPTR+vadr; C += ((MMC5HackSPPage & 0x3f & MMC5HackVROMMask) << 12); #else #ifdef PPUT_MMC5CHR1 C = MMC5HackVROMPTR; C += (((MMC5HackExNTARAMPtr[RefreshAddr & 0x3ff]) & 0x3f & MMC5HackVROMMask) << 12) + (vadr & 0xfff); C += (MMC50x5130&0x3)<<18; //11-jun-2009 for kuja_killer #elif defined(PPUT_MMC5) C=MMC5BGVRAMADR(vadr); #else C = VRAMADR(vadr); #endif #endif #ifdef PPUT_HOOK PPU_hook(vadr); #endif pshift[0]|=C[0]; pshift[1]|=C[8]; if((RefreshAddr&0x1f)==0x1f) RefreshAddr^=0x41F; else RefreshAddr++; #ifdef PPUT_HOOK PPU_hook(0x2000|(RefreshAddr&0xfff)); #endif