#include namespace SuperFamicom { SA1 sa1; #include "serialization.cpp" #include "bus/bus.cpp" #include "dma/dma.cpp" #include "memory/memory.cpp" #include "mmio/mmio.cpp" auto SA1::Enter() -> void { while(true) scheduler.synchronize(), sa1.main(); } auto SA1::main() -> void { if(mmio.sa1_rdyb || mmio.sa1_resb) { //SA-1 co-processor is asleep tick(); synchronizeCPU(); return; } if(status.interrupt_pending) { status.interrupt_pending = false; op_irq(); return; } op_exec(); } auto SA1::op_irq() -> void { op_read(regs.pc.d); op_io(); if(!regs.e) op_writestack(regs.pc.b); op_writestack(regs.pc.h); op_writestack(regs.pc.l); op_writestack(regs.e ? (regs.p & ~0x10) : regs.p); regs.pc.w = regs.vector; regs.pc.b = 0x00; regs.p.i = 1; regs.p.d = 0; } auto SA1::last_cycle() -> void { if(mmio.sa1_nmi && !mmio.sa1_nmicl) { status.interrupt_pending = true; regs.vector = mmio.cnv; mmio.sa1_nmifl = true; mmio.sa1_nmicl = 1; regs.wai = false; } else if(!regs.p.i) { if(mmio.timer_irqen && !mmio.timer_irqcl) { status.interrupt_pending = true; regs.vector = mmio.civ; mmio.timer_irqfl = true; regs.wai = false; } else if(mmio.dma_irqen && !mmio.dma_irqcl) { status.interrupt_pending = true; regs.vector = mmio.civ; mmio.dma_irqfl = true; regs.wai = false; } else if(mmio.sa1_irq && !mmio.sa1_irqcl) { status.interrupt_pending = true; regs.vector = mmio.civ; mmio.sa1_irqfl = true; regs.wai = false; } } } auto SA1::interrupt_pending() -> bool { return status.interrupt_pending; } auto SA1::tick() -> void { step(2); if(++status.tick_counter == 0) synchronizeCPU(); //adjust counters: //note that internally, status counters are in clocks; //whereas MMIO register counters are in dots (4 clocks = 1 dot) if(mmio.hvselb == 0) { //HV timer status.hcounter += 2; if(status.hcounter >= 1364) { status.hcounter = 0; if(++status.vcounter >= status.scanlines) status.vcounter = 0; } } else { //linear timer status.hcounter += 2; status.vcounter += (status.hcounter >> 11); status.hcounter &= 0x07ff; status.vcounter &= 0x01ff; } //test counters for timer IRQ switch((mmio.ven << 1) + (mmio.hen << 0)) { case 0: break; case 1: if(status.hcounter == (mmio.hcnt << 2)) trigger_irq(); break; case 2: if(status.vcounter == mmio.vcnt && status.hcounter == 0) trigger_irq(); break; case 3: if(status.vcounter == mmio.vcnt && status.hcounter == (mmio.hcnt << 2)) trigger_irq(); break; } } auto SA1::trigger_irq() -> void { mmio.timer_irqfl = true; if(mmio.timer_irqen) mmio.timer_irqcl = 0; } auto SA1::init() -> void { } auto SA1::load() -> void { } auto SA1::unload() -> void { rom.reset(); iram.reset(); bwram.reset(); } auto SA1::power() -> void { regs.a = regs.x = regs.y = 0x0000; regs.s = 0x01ff; } auto SA1::reset() -> void { create(SA1::Enter, system.cpuFrequency()); cpubwram.dma = false; for(auto addr : range(iram.size())) { iram.write(addr, 0x00); } regs.pc.d = 0x000000; regs.x.h = 0x00; regs.y.h = 0x00; regs.s.h = 0x01; regs.d = 0x0000; regs.db = 0x00; regs.p = 0x34; regs.e = 1; regs.mdr = 0x00; regs.wai = false; regs.vector = 0x0000; status.tick_counter = 0; status.interrupt_pending = false; status.scanlines = (system.region() == System::Region::NTSC ? 262 : 312); status.vcounter = 0; status.hcounter = 0; dma.line = 0; //$2200 CCNT mmio.sa1_irq = false; mmio.sa1_rdyb = false; mmio.sa1_resb = true; mmio.sa1_nmi = false; mmio.smeg = 0; //$2201 SIE mmio.cpu_irqen = false; mmio.chdma_irqen = false; //$2202 SIC mmio.cpu_irqcl = false; mmio.chdma_irqcl = false; //$2203,$2204 CRV mmio.crv = 0x0000; //$2205,$2206 CNV mmio.cnv = 0x0000; //$2207,$2208 CIV mmio.civ = 0x0000; //$2209 SCNT mmio.cpu_irq = false; mmio.cpu_ivsw = false; mmio.cpu_nvsw = false; mmio.cmeg = 0; //$220a CIE mmio.sa1_irqen = false; mmio.timer_irqen = false; mmio.dma_irqen = false; mmio.sa1_nmien = false; //$220b CIC mmio.sa1_irqcl = false; mmio.timer_irqcl = false; mmio.dma_irqcl = false; mmio.sa1_nmicl = false; //$220c,$220d SNV mmio.snv = 0x0000; //$220e,$220f SIV mmio.siv = 0x0000; //$2210 mmio.hvselb = false; mmio.ven = false; mmio.hen = false; //$2212,$2213 HCNT mmio.hcnt = 0x0000; //$2214,$2215 VCNT mmio.vcnt = 0x0000; //$2220-2223 CXB, DXB, EXB, FXB mmio.cbmode = 0; mmio.dbmode = 0; mmio.ebmode = 0; mmio.fbmode = 0; mmio.cb = 0x00; mmio.db = 0x01; mmio.eb = 0x02; mmio.fb = 0x03; //$2224 BMAPS mmio.sbm = 0x00; //$2225 BMAP mmio.sw46 = false; mmio.cbm = 0x00; //$2226 SWBE mmio.swen = false; //$2227 CWBE mmio.cwen = false; //$2228 BWPA mmio.bwp = 0x0f; //$2229 SIWP mmio.siwp = 0x00; //$222a CIWP mmio.ciwp = 0x00; //$2230 DCNT mmio.dmaen = false; mmio.dprio = false; mmio.cden = false; mmio.cdsel = false; mmio.dd = 0; mmio.sd = 0; //$2231 CDMA mmio.chdend = false; mmio.dmasize = 0; mmio.dmacb = 0; //$2232-$2234 SDA mmio.dsa = 0x000000; //$2235-$2237 DDA mmio.dda = 0x000000; //$2238,$2239 DTC mmio.dtc = 0x0000; //$223f BBF mmio.bbf = 0; //$2240-$224f BRF for(unsigned i = 0; i < 16; i++) { mmio.brf[i] = 0x00; } //$2250 MCNT mmio.acm = 0; mmio.md = 0; //$2251,$2252 MA mmio.ma = 0x0000; //$2253,$2254 MB mmio.mb = 0x0000; //$2258 VBD mmio.hl = false; mmio.vb = 16; //$2259-$225b mmio.va = 0x000000; mmio.vbit = 0; //$2300 SFR mmio.cpu_irqfl = false; mmio.chdma_irqfl = false; //$2301 CFR mmio.sa1_irqfl = false; mmio.timer_irqfl = false; mmio.dma_irqfl = false; mmio.sa1_nmifl = false; //$2302,$2303 HCR mmio.hcr = 0x0000; //$2304,$2305 VCR mmio.vcr = 0x0000; //$2306-$230a MR mmio.mr = 0; //$230b mmio.overflow = false; } }