// This is part of Pico Library // (c) Copyright 2004 Dave, All rights reserved. // (c) Copyright 2006-2007, Grazvydas "notaz" Ignotas // Free for non-commercial use. // For commercial use, separate licencing terms must be obtained. #include "PicoInt.h" #include "cd/gfx_cd.h" extern const unsigned char hcounts_32[]; extern const unsigned char hcounts_40[]; extern const unsigned short vcounts[]; extern int rendstatus; #ifndef UTYPES_DEFINED typedef unsigned char u8; typedef unsigned short u16; typedef unsigned int u32; #define UTYPES_DEFINED #endif static __inline void AutoIncrement() { Pico.video.addr=(unsigned short)(Pico.video.addr+Pico.video.reg[0xf]); } static void VideoWrite(u16 d) { unsigned int a=Pico.video.addr; switch (Pico.video.type) { case 1: if(a&1) d=(u16)((d<<8)|(d>>8)); // If address is odd, bytes are swapped (which game needs this?) Pico.vram [(a>>1)&0x7fff]=d; rendstatus|=0x10; break; case 3: Pico.m.dirtyPal = 1; //dprintf("w[%i] @ %04x, inc=%i [%i|%i]", Pico.video.type, a, Pico.video.reg[0xf], Pico.m.scanline, SekCyclesDone()); Pico.cram [(a>>1)&0x003f]=d; break; // wraps (Desert Strike) case 5: Pico.vsram[(a>>1)&0x003f]=d; break; } //dprintf("w[%i] @ %04x, inc=%i [%i|%i]", Pico.video.type, a, Pico.video.reg[0xf], Pico.m.scanline, SekCyclesDone()); AutoIncrement(); } static unsigned int VideoRead() { unsigned int a=0,d=0; a=Pico.video.addr; a>>=1; switch (Pico.video.type) { case 0: d=Pico.vram [a&0x7fff]; break; case 8: d=Pico.cram [a&0x003f]; break; case 4: d=Pico.vsram[a&0x003f]; break; } AutoIncrement(); return d; } static int GetDmaLength() { struct PicoVideo *pvid=&Pico.video; int len=0; // 16-bit words to transfer: len =pvid->reg[0x13]; len|=pvid->reg[0x14]<<8; // Charles MacDonald: if(!len) len = 0xffff; return len; } static void DmaSlow(int len) { u16 *pd=0, *pdend, *r; unsigned int a=Pico.video.addr, a2, d; unsigned char inc=Pico.video.reg[0xf]; unsigned int source; source =Pico.video.reg[0x15]<<1; source|=Pico.video.reg[0x16]<<9; source|=Pico.video.reg[0x17]<<17; dprintf("DmaSlow[%i] %06x->%04x len %i inc=%i blank %i [%i|%i] @ %x", Pico.video.type, source, a, len, inc, (Pico.video.status&8)||!(Pico.video.reg[1]&0x40), Pico.m.scanline, SekCyclesDone(), SekPc); if(Pico.m.scanline != -1) { Pico.m.dma_bytes += len; if ((PicoMCD&1) && (PicoOpt & 0x2000)) SekCyclesBurn(CheckDMA()); else SekSetCyclesLeftNoMCD(SekCyclesLeftNoMCD - CheckDMA()); } else { // be approximate in non-accurate mode SekSetCyclesLeft(SekCyclesLeft - (len*(((488<<8)/167))>>8)); } if ((source&0xe00000)==0xe00000) { // Ram pd=(u16 *)(Pico.ram+(source&0xfffe)); pdend=(u16 *)(Pico.ram+0x10000); } else if(PicoMCD & 1) { dprintf("DmaSlow CD, r3=%02x", Pico_mcd->s68k_regs[3]); if(source<0x20000) { // Bios area pd=(u16 *)(Pico_mcd->bios+(source&~1)); pdend=(u16 *)(Pico_mcd->bios+0x20000); } else if ((source&0xfc0000)==0x200000) { // Word Ram source -= 2; if (!(Pico_mcd->s68k_regs[3]&4)) { // 2M mode pd=(u16 *)(Pico_mcd->word_ram2M+(source&0x3fffe)); pdend=(u16 *)(Pico_mcd->word_ram2M+0x40000); } else { if (source < 0x220000) { // 1M mode int bank = Pico_mcd->s68k_regs[3]&1; pd=(u16 *)(Pico_mcd->word_ram1M[bank]+(source&0x1fffe)); pdend=(u16 *)(Pico_mcd->word_ram1M[bank]+0x20000); } else { DmaSlowCell(source, a, len, inc); return; } } } else if ((source&0xfe0000)==0x020000) { // Prg Ram u8 *prg_ram = Pico_mcd->prg_ram_b[Pico_mcd->s68k_regs[3]>>6]; pd=(u16 *)(prg_ram+(source&0x1fffe)); pdend=(u16 *)(prg_ram+0x20000); } else { dprintf("DmaSlow FIXME: unsupported src"); return; } } else { if(source pdend - pd) { len = pdend - pd; dprintf("DmaSlow overflow"); } switch (Pico.video.type) { case 1: // vram r = Pico.vram; if (inc == 2 && !(a&1) && a+len*2 < 0x10000) { // most used DMA mode memcpy16(r + (a>>1), pd, len); a += len*2; } else { for(; len; len--) { d=*pd++; if(a&1) d=(d<<8)|(d>>8); r[a>>1] = (u16)d; // will drop the upper bits // AutoIncrement a=(u16)(a+inc); // didn't src overlap? //if(pd >= pdend) pd-=0x8000; // should be good for RAM, bad for ROM } } rendstatus|=0x10; break; case 3: // cram Pico.m.dirtyPal = 1; r = Pico.cram; for(a2=a&0x7f; len; len--) { r[a2>>1] = (u16)*pd++; // bit 0 is ignored // AutoIncrement a2+=inc; // didn't src overlap? //if(pd >= pdend) pd-=0x8000; // good dest? if(a2 >= 0x80) break; // Todds Adventures in Slime World / Andre Agassi tennis } a=(a&0xff00)|a2; break; case 5: // vsram[a&0x003f]=d; r = Pico.vsram; for(a2=a&0x7f; len; len--) { r[a2>>1] = (u16)*pd++; // AutoIncrement a2+=inc; // didn't src overlap? //if(pd >= pdend) pd-=0x8000; // good dest? if(a2 >= 0x80) break; } a=(a&0xff00)|a2; break; } // remember addr Pico.video.addr=(u16)a; } static void DmaCopy(int len) { u16 a=Pico.video.addr; unsigned char *vr = (unsigned char *) Pico.vram; unsigned char *vrs; unsigned char inc=Pico.video.reg[0xf]; int source; dprintf("DmaCopy len %i [%i|%i]", len, Pico.m.scanline, SekCyclesDone()); Pico.m.dma_bytes += len; if(Pico.m.scanline != -1) Pico.video.status|=2; // dma busy source =Pico.video.reg[0x15]; source|=Pico.video.reg[0x16]<<8; vrs=vr+source; if(source+len > 0x10000) len=0x10000-source; // clip?? for(;len;len--) { vr[a] = *vrs++; // AutoIncrement a=(u16)(a+inc); } // remember addr Pico.video.addr=a; rendstatus|=0x10; } // check: Contra, Megaman // note: this is still inaccurate static void DmaFill(int data) { int len; unsigned short a=Pico.video.addr; unsigned char *vr=(unsigned char *) Pico.vram; unsigned char high = (unsigned char) (data >> 8); unsigned char inc=Pico.video.reg[0xf]; len=GetDmaLength(); dprintf("DmaFill len %i inc %i [%i|%i]", len, inc, Pico.m.scanline, SekCyclesDone()); Pico.m.dma_bytes += len; if(Pico.m.scanline != -1) Pico.video.status|=2; // dma busy (in accurate mode) // from Charles MacDonald's genvdp.txt: // Write lower byte to address specified vr[a] = (unsigned char) data; a=(u16)(a+inc); if(!inc) len=1; for(;len;len--) { // Write upper byte to adjacent address // (here we are byteswapped, so address is already 'adjacent') vr[a] = high; // Increment address register a=(u16)(a+inc); } // remember addr Pico.video.addr=a; // update length Pico.video.reg[0x13] = Pico.video.reg[0x14] = 0; // Dino Dini's Soccer (E) (by Haze) rendstatus|=0x10; } static void CommandDma() { struct PicoVideo *pvid=&Pico.video; int len=0,method=0; if ((pvid->reg[1]&0x10)==0) return; // DMA not enabled len=GetDmaLength(); method=pvid->reg[0x17]>>6; if (method< 2) DmaSlow(len); // 68000 to VDP if (method==3) DmaCopy(len); // VRAM Copy } static void CommandChange() { struct PicoVideo *pvid=&Pico.video; unsigned int cmd=0,addr=0; cmd=pvid->command; // Get type of transfer 0xc0000030 (v/c/vsram read/write) pvid->type=(unsigned char)(((cmd>>2)&0xc)|(cmd>>30)); // Get address 0x3fff0003 addr =(cmd>>16)&0x3fff; addr|=(cmd<<14)&0xc000; pvid->addr=(unsigned short)addr; //dprintf("addr set: %04x", addr); // Check for dma: if (cmd&0x80) CommandDma(); } PICO_INTERNAL_ASM void PicoVideoWrite(unsigned int a,unsigned short d) { struct PicoVideo *pvid=&Pico.video; a&=0x1c; if (a==0x00) // Data port 0 or 2 { if (pvid->pending) CommandChange(); pvid->pending=0; // If a DMA fill has been set up, do it if ((pvid->command&0x80) && (pvid->reg[1]&0x10) && (pvid->reg[0x17]>>6)==2) { DmaFill(d); } else { VideoWrite(d); } return; } if (a==0x04) // Control (command) port 4 or 6 { //dprintf("vdp cw(%04x), p=%i @ %06x [%i]", d, pvid->pending, SekPc, SekCyclesDone()); if(pvid->pending) { // Low word of command: pvid->command&=0xffff0000; pvid->command|=d; pvid->pending=0; CommandChange(); } else { if((d&0xc000)==0x8000) { // Register write: int num=(d>>8)&0x1f; if(num==00) dprintf("hint_onoff: %i->%i [%i|%i] pend=%i @ %06x", (pvid->reg[0]&0x10)>>4, (d&0x10)>>4, Pico.m.scanline, SekCyclesDone(), (pvid->pending_ints&0x10)>>4, SekPc); if(num==01) dprintf("vint_onoff: %i->%i [%i|%i] pend=%i @ %06x", (pvid->reg[1]&0x20)>>5, (d&0x20)>>5, Pico.m.scanline, SekCyclesDone(), (pvid->pending_ints&0x20)>>5, SekPc); //if(num==01) dprintf("set_blank: %i @ %06x [%i|%i]", !((d&0x40)>>6), SekPc, Pico.m.scanline, SekCyclesDone()); //if(num==05) dprintf("spr_set: %i @ %06x [%i|%i]", (unsigned char)d, SekPc, Pico.m.scanline, SekCyclesDone()); //if(num==10) dprintf("hint_set: %i @ %06x [%i|%i]", (unsigned char)d, SekPc, Pico.m.scanline, SekCyclesDone()); pvid->reg[num]=(unsigned char)d; #if !(defined(EMU_C68K) && defined(EMU_M68K)) // not debugging Cyclone // update IRQ level (Lemmings, Wiz 'n' Liz intro, ... ) // may break if done improperly: // International Superstar Soccer Deluxe (crash), Street Racer (logos), Burning Force (gfx), Fatal Rewind (hang), Sesame Street Counting Cafe if(num < 2) { #ifdef EMU_C68K // hack: make sure we do not touch the irq line if Cyclone is just about to take the IRQ if (PicoCpu.irq <= (PicoCpu.srh&7)) { #endif int lines, pints; lines = (pvid->reg[1] & 0x20) | (pvid->reg[0] & 0x10); pints = (pvid->pending_ints&lines); if(pints & 0x20) SekInterrupt(6); else if(pints & 0x10) SekInterrupt(4); else SekInterrupt(0); #ifdef EMU_C68K // adjust cycles for Cyclone so it would take the int "in time" if(PicoCpu.irq) { SekEndRun(24); } } #endif } else #endif if(num == 5) rendstatus|=1; else if(num == 0xc) Pico.m.dirtyPal = 2; // renderers should update their palettes if sh/hi mode is changed pvid->type=0; // register writes clear command (else no Sega logo in Golden Axe II) } else { // High word of command: pvid->command&=0x0000ffff; pvid->command|=d<<16; pvid->pending=1; } } } } PICO_INTERNAL_ASM unsigned int PicoVideoRead(unsigned int a) { unsigned int d=0; a&=0x1c; if (a==0x00) // data port { d=VideoRead(); goto end; } if (a==0x04) // control port { d=Pico.video.status; if(PicoOpt&0x10) d|=0x0020; // sprite collision (Shadow of the Beast) if(Pico.m.rotate++&8) d|=0x0100; else d|=0x0200; // Toggle fifo full empty (who uses that stuff?) if(!(Pico.video.reg[1]&0x40)) d|=0x0008; // set V-Blank if display is disabled if(SekCyclesLeft < 84+4) d|=0x0004; // H-Blank (Sonic3 vs) // dprintf("sr_read %04x @ %06x [%i|%i]", d, SekPc, Pico.m.scanline, SekCyclesDone()); Pico.video.pending=0; // ctrl port reads clear write-pending flag (Charles MacDonald) goto end; } // H-counter info (based on Generator): // frame: // | <- hblank? -> | // start <416> hint <36> hdisplay <38> end // CPU cycles // |---------...---------|------------|-------------| // 0 B6 E4 FF // 40 cells // 0 93 E8 FF // 32 cells // Gens (?) v-render // start hint hdisplay <404> | // |---------------------|--------------------------| // E4 (hc[0x43]==0) 07 B1 // 40 // E8 (hc[0x45]==0) 05 91 // 32 // check: Sonic 3D Blast bonus, Cannon Fodder, Chase HQ II, 3 Ninjas kick back, Road Rash 3, Skitchin', Wheel of Fortune if ((a&0x1c)==0x08) { unsigned int hc; if(Pico.m.scanline != -1) { int lineCycles=(488-SekCyclesLeft)&0x1ff; d=Pico.m.scanline; // V-Counter if(Pico.video.reg[12]&1) hc=hcounts_40[lineCycles]; else hc=hcounts_32[lineCycles]; //if(lineCycles > 488-12) d++; // Wheel of Fortune } else { // get approximate V-Counter d=vcounts[SekCyclesDone()>>8]; hc = Pico.m.rotate&0xff; } if(Pico.m.pal) { if(d >= 0x103) d-=56; // based on Gens } else { if(d >= 0xEB) d-=6; } if((Pico.video.reg[12]&6) == 6) { // interlace mode 2 (Combat Cars (UE) [!]) d <<= 1; if (d&0xf00) d|= 1; } dprintf("hv: %02x %02x (%i) @ %06x", hc, d, SekCyclesDone(), SekPc); d&=0xff; d<<=8; d|=hc; goto end; } end: return d; }