static void setupCop(u32 sr);
-OP(psxCFC0) { doLoad(regs_, _Rt_, regs_->CP0.r[_Rd_]); }
-
void MTC0(psxRegisters *regs_, int reg, u32 val) {
// SysPrintf("MTC0 %d: %x\n", reg, val);
switch (reg) {
}
OP(psxMTC0) { MTC0(regs_, _Rd_, _u32(_rRt_)); }
-OP(psxCTC0) { MTC0(regs_, _Rd_, _u32(_rRt_)); }
// no exception
static inline void psxNULLne(psxRegisters *regs) {
}
OP(psxCOP0) {
- switch (_Rs_) {
+ u32 rs = _Rs_;
+ if (rs & 0x10) {
+ u32 op2 = code & 0x1f;
+ switch (op2) {
+ case 0x01:
+ case 0x02:
+ case 0x06:
+ case 0x08: psxNULL(regs_, code); break;
+ case 0x10: psxRFE(regs_, code); break;
+ default: psxNULLne(regs_); break;
+ }
+ return;
+ }
+ switch (rs) {
case 0x00: psxMFC0(regs_, code); break;
- case 0x02: psxCFC0(regs_, code); break;
case 0x04: psxMTC0(regs_, code); break;
- case 0x06: psxCTC0(regs_, code); break;
- case 0x10: psxRFE(regs_, code); break;
+ case 0x02: // CFC
+ case 0x06: psxNULL(regs_, code); break; // CTC -> exception
+ case 0x08:
+ case 0x0c: log_unhandled("BC0 %08x @%08x\n", code, regs_->pc - 4);
default: psxNULLne(regs_); break;
}
}
log_unhandled("COP1 %08x @%08x\n", code, regs_->pc - 4);
}
-// TODO: wrong COP2 decoding
OP(psxCOP2) {
- psxCP2[_Funct_](®s_->CP2);
+ u32 rt = _Rt_, rd = _Rd_, rs = _Rs_;
+ if (rs & 0x10) {
+ psxCP2[_Funct_](®s_->CP2);
+ return;
+ }
+ switch (rs) {
+ case 0x00: doLoad(regs_, rt, MFC2(®s_->CP2, rd)); break; // MFC2
+ case 0x02: doLoad(regs_, rt, regs_->CP2C.r[rd]); break; // CFC2
+ case 0x04: MTC2(®s_->CP2, regs_->GPR.r[rt], rd); break; // MTC2
+ case 0x06: CTC2(®s_->CP2, regs_->GPR.r[rt], rd); break; // CTC2
+ case 0x08:
+ case 0x0c: log_unhandled("BC2 %08x @%08x\n", code, regs_->pc - 4);
+ default: psxNULLne(regs_); break;
+ }
}
OP(psxCOP2_stall) {
u32 f = _Funct_;
gteCheckStall(f);
- psxCP2[f](®s_->CP2);
-}
-
-OP(gteMFC2) {
- doLoad(regs_, _Rt_, MFC2(®s_->CP2, _Rd_));
-}
-
-OP(gteCFC2) {
- doLoad(regs_, _Rt_, regs_->CP2C.r[_Rd_]);
-}
-
-OP(gteMTC2) {
- MTC2(®s_->CP2, regs_->GPR.r[_Rt_], _Rd_);
-}
-
-OP(gteCTC2) {
- CTC2(®s_->CP2, regs_->GPR.r[_Rt_], _Rd_);
+ psxCOP2(regs_, code);
}
OP(gteLWC2) {
checkST(regs_, _oB_, 3);
}
-static void psxBASIC(struct psxCP2Regs *cp2regs) {
- psxRegisters *regs = (void *)((u8 *)cp2regs - offsetof(psxRegisters, CP2));
- u32 code = regs->code;
- assert(regs == &psxRegs);
- switch (_Rs_) {
- case 0x00: gteMFC2(regs, code); break;
- case 0x02: gteCFC2(regs, code); break;
- case 0x04: gteMTC2(regs, code); break;
- case 0x06: gteCTC2(regs, code); break;
- case 0x08:
- case 0x0c: log_unhandled("BC2 %08x @%08x\n", code, regs->pc - 4);
- default: psxNULLne(regs); break;
- }
-}
-
OP(psxREGIMM) {
u32 rt = _Rt_;
switch (rt) {
};
void (*psxCP2[64])(struct psxCP2Regs *regs) = {
- psxBASIC, gteRTPS , gteNULL , gteNULL, gteNULL, gteNULL , gteNCLIP, gteNULL, // 00
+ gteNULL , gteRTPS , gteNULL , gteNULL, gteNULL, gteNULL , gteNCLIP, gteNULL, // 00
gteNULL , gteNULL , gteNULL , gteNULL, gteOP , gteNULL , gteNULL , gteNULL, // 08
gteDPCS , gteINTPL, gteMVMVA, gteNCDS, gteCDP , gteNULL , gteNCDT , gteNULL, // 10
gteNULL , gteNULL , gteNULL , gteNCCS, gteCC , gteNULL , gteNCS , gteNULL, // 18
static void intReset() {
dloadClear(&psxRegs);
+ psxRegs.subCycle = 0;
}
static inline void execI_(u8 **memRLUT, psxRegisters *regs) {
break;
case R3000ACPU_NOTIFY_AFTER_LOAD:
dloadClear(&psxRegs);
+ psxRegs.subCycle = 0;
setupCop(psxRegs.CP0.n.SR);
// fallthrough
case R3000ACPU_NOTIFY_CACHE_ISOLATED: // Armored Core?
notaz.gp2x.de / pcsx_rearmed.git / commitdiff