bsnes/higan/sfc/coprocessor/sa1/sa1.cpp

313 lines
5.8 KiB
C++

#include <sfc/sfc.hpp>
namespace SuperFamicom {
#include "bus.cpp"
#include "dma.cpp"
#include "memory.cpp"
#include "io.cpp"
#include "serialization.cpp"
SA1 sa1;
auto SA1::Enter() -> void {
while(true) scheduler.synchronize(), sa1.main();
}
auto SA1::main() -> void {
if(r.wai) return instructionWAI();
if(r.stp) return instructionSTP();
if(mmio.sa1_rdyb || mmio.sa1_resb) {
//SA-1 co-processor is asleep
tick();
synchronize(cpu);
return;
}
if(status.interruptPending) {
status.interruptPending = false;
interrupt();
return;
}
instruction();
}
//override R65816::interrupt() to support SA-1 vector location IO registers
auto SA1::interrupt() -> void {
read(r.pc);
idle();
if(!r.e) push(r.pc >> 16);
push(r.pc >> 8);
push(r.pc >> 0);
push(r.e ? r.p & ~0x10 : r.p);
r.p.i = 1;
r.p.d = 0;
r.pc = r.vector; //PC bank set to 0x00
}
auto SA1::lastCycle() -> void {
if(mmio.sa1_nmi && !mmio.sa1_nmicl) {
status.interruptPending = true;
r.vector = mmio.cnv;
mmio.sa1_nmifl = true;
mmio.sa1_nmicl = 1;
r.wai = false;
} else if(!r.p.i) {
if(mmio.timer_irqen && !mmio.timer_irqcl) {
status.interruptPending = true;
r.vector = mmio.civ;
mmio.timer_irqfl = true;
r.wai = false;
} else if(mmio.dma_irqen && !mmio.dma_irqcl) {
status.interruptPending = true;
r.vector = mmio.civ;
mmio.dma_irqfl = true;
r.wai = false;
} else if(mmio.sa1_irq && !mmio.sa1_irqcl) {
status.interruptPending = true;
r.vector = mmio.civ;
mmio.sa1_irqfl = true;
r.wai = false;
}
}
}
auto SA1::interruptPending() const -> bool {
return status.interruptPending;
}
auto SA1::synchronizing() const -> bool {
return scheduler.synchronizing();
}
auto SA1::tick() -> void {
step(2);
if(++status.counter == 0) synchronize(cpu);
//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)) triggerIRQ(); break;
case 2: if(status.vcounter == mmio.vcnt && status.hcounter == 0) triggerIRQ(); break;
case 3: if(status.vcounter == mmio.vcnt && status.hcounter == (mmio.hcnt << 2)) triggerIRQ(); break;
}
}
auto SA1::triggerIRQ() -> 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 {
WDC65816::power();
create(SA1::Enter, system.colorburst() * 6.0);
cpubwram.dma = false;
for(auto addr : range(iram.size())) {
iram.write(addr, 0x00);
}
status.counter = 0;
status.interruptPending = 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(auto& n : mmio.brf) n = 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;
}
}