//$00 stop auto GSU::op_stop() { if(regs.cfgr.irq == 0) { regs.sfr.irq = 1; stop(); } regs.sfr.g = 0; regs.pipeline = 0x01; //nop regs.reset(); } //$01 nop auto GSU::op_nop() { regs.reset(); } //$02 cache auto GSU::op_cache() { if(regs.cbr != (regs.r[15] & 0xfff0)) { regs.cbr = regs.r[15] & 0xfff0; flushCache(); } regs.reset(); } //$03 lsr auto GSU::op_lsr() { regs.sfr.cy = (regs.sr() & 1); regs.dr() = regs.sr() >> 1; regs.sfr.s = (regs.dr() & 0x8000); regs.sfr.z = (regs.dr() == 0); regs.reset(); } //$04 rol auto GSU::op_rol() { bool carry = (regs.sr() & 0x8000); regs.dr() = (regs.sr() << 1) | regs.sfr.cy; regs.sfr.s = (regs.dr() & 0x8000); regs.sfr.cy = carry; regs.sfr.z = (regs.dr() == 0); regs.reset(); } //$05 bra e //$06 blt e //$07 bge e //$08 bne e //$09 beq e //$0a bpl e //$0b bmi e //$0c bcc e //$0d bcs e //$0e bvc e //$0f bvs e auto GSU::op_branch(bool c) { auto d = (int8)pipe(); if(c) regs.r[15] += d; } //$10-1f(b0) to rN //$10-1f(b1) move rN auto GSU::op_to_move(uint n) { if(!regs.sfr.b) { regs.dreg = n; } else { regs.r[n] = regs.sr(); regs.reset(); } } //$20-2f with rN auto GSU::op_with(uint n) { regs.sreg = n; regs.dreg = n; regs.sfr.b = 1; } //$30-3b(alt0) stw (rN) //$30-3b(alt1) stb (rN) auto GSU::op_store(uint n) { regs.ramaddr = regs.r[n]; writeRAMBuffer(regs.ramaddr, regs.sr()); if(!regs.sfr.alt1) writeRAMBuffer(regs.ramaddr ^ 1, regs.sr() >> 8); regs.reset(); } //$3c loop auto GSU::op_loop() { regs.r[12]--; regs.sfr.s = (regs.r[12] & 0x8000); regs.sfr.z = (regs.r[12] == 0); if(!regs.sfr.z) regs.r[15] = regs.r[13]; regs.reset(); } //$3d alt1 auto GSU::op_alt1() { regs.sfr.b = 0; regs.sfr.alt1 = 1; } //$3e alt2 auto GSU::op_alt2() { regs.sfr.b = 0; regs.sfr.alt2 = 1; } //$3f alt3 auto GSU::op_alt3() { regs.sfr.b = 0; regs.sfr.alt1 = 1; regs.sfr.alt2 = 1; } //$40-4b(alt0) ldw (rN) //$40-4b(alt1) ldb (rN) auto GSU::op_load(uint n) { regs.ramaddr = regs.r[n]; regs.dr() = readRAMBuffer(regs.ramaddr); if(!regs.sfr.alt1) regs.dr() |= readRAMBuffer(regs.ramaddr ^ 1) << 8; regs.reset(); } //$4c(alt0) plot //$4c(alt1) rpix auto GSU::op_plot_rpix() { if(!regs.sfr.alt1) { plot(regs.r[1], regs.r[2]); regs.r[1]++; } else { regs.dr() = rpix(regs.r[1], regs.r[2]); regs.sfr.s = (regs.dr() & 0x8000); regs.sfr.z = (regs.dr() == 0); } regs.reset(); } //$4d swap auto GSU::op_swap() { regs.dr() = (regs.sr() >> 8) | (regs.sr() << 8); regs.sfr.s = (regs.dr() & 0x8000); regs.sfr.z = (regs.dr() == 0); regs.reset(); } //$4e(alt0) color //$4e(alt1) cmode auto GSU::op_color_cmode() { if(!regs.sfr.alt1) { regs.colr = color(regs.sr()); } else { regs.por = regs.sr(); } regs.reset(); } //$4f not auto GSU::op_not() { regs.dr() = ~regs.sr(); regs.sfr.s = (regs.dr() & 0x8000); regs.sfr.z = (regs.dr() == 0); regs.reset(); } //$50-5f(alt0) add rN //$50-5f(alt1) adc rN //$50-5f(alt2) add #N //$50-5f(alt3) adc #N auto GSU::op_add_adc(uint n) { if(!regs.sfr.alt2) n = regs.r[n]; int r = regs.sr() + n + (regs.sfr.alt1 ? regs.sfr.cy : 0); regs.sfr.ov = ~(regs.sr() ^ n) & (n ^ r) & 0x8000; regs.sfr.s = (r & 0x8000); regs.sfr.cy = (r >= 0x10000); regs.sfr.z = ((uint16)r == 0); regs.dr() = r; regs.reset(); } //$60-6f(alt0) sub rN //$60-6f(alt1) sbc rN //$60-6f(alt2) sub #N //$60-6f(alt3) cmp rN auto GSU::op_sub_sbc_cmp(uint n) { if(!regs.sfr.alt2 || regs.sfr.alt1) n = regs.r[n]; int r = regs.sr() - n - (!regs.sfr.alt2 && regs.sfr.alt1 ? !regs.sfr.cy : 0); regs.sfr.ov = (regs.sr() ^ n) & (regs.sr() ^ r) & 0x8000; regs.sfr.s = (r & 0x8000); regs.sfr.cy = (r >= 0); regs.sfr.z = ((uint16)r == 0); if(!regs.sfr.alt2 || !regs.sfr.alt1) regs.dr() = r; regs.reset(); } //$70 merge auto GSU::op_merge() { regs.dr() = (regs.r[7] & 0xff00) | (regs.r[8] >> 8); regs.sfr.ov = (regs.dr() & 0xc0c0); regs.sfr.s = (regs.dr() & 0x8080); regs.sfr.cy = (regs.dr() & 0xe0e0); regs.sfr.z = (regs.dr() & 0xf0f0); regs.reset(); } //$71-7f(alt0) and rN //$71-7f(alt1) bic rN //$71-7f(alt2) and #N //$71-7f(alt3) bic #N auto GSU::op_and_bic(uint n) { if(!regs.sfr.alt2) n = regs.r[n]; regs.dr() = regs.sr() & (regs.sfr.alt1 ? ~n : n); regs.sfr.s = (regs.dr() & 0x8000); regs.sfr.z = (regs.dr() == 0); regs.reset(); } //$80-8f(alt0) mult rN //$80-8f(alt1) umult rN //$80-8f(alt2) mult #N //$80-8f(alt3) umult #N auto GSU::op_mult_umult(uint n) { if(!regs.sfr.alt2) n = regs.r[n]; regs.dr() = (!regs.sfr.alt1 ? ((int8)regs.sr() * (int8)n) : ((uint8)regs.sr() * (uint8)n)); regs.sfr.s = (regs.dr() & 0x8000); regs.sfr.z = (regs.dr() == 0); regs.reset(); if(!regs.cfgr.ms0) step(regs.clsr ? 1 : 2); } //$90 sbk auto GSU::op_sbk() { writeRAMBuffer(regs.ramaddr ^ 0, regs.sr() >> 0); writeRAMBuffer(regs.ramaddr ^ 1, regs.sr() >> 8); regs.reset(); } //$91-94 link #N auto GSU::op_link(uint n) { regs.r[11] = regs.r[15] + n; regs.reset(); } //$95 sex auto GSU::op_sex() { regs.dr() = (int8)regs.sr(); regs.sfr.s = (regs.dr() & 0x8000); regs.sfr.z = (regs.dr() == 0); regs.reset(); } //$96(alt0) asr //$96(alt1) div2 auto GSU::op_asr_div2() { regs.sfr.cy = (regs.sr() & 1); regs.dr() = ((int16)regs.sr() >> 1) + (regs.sfr.alt1 ? ((regs.sr() + 1) >> 16) : 0); regs.sfr.s = (regs.dr() & 0x8000); regs.sfr.z = (regs.dr() == 0); regs.reset(); } //$97 ror auto GSU::op_ror() { bool carry = (regs.sr() & 1); regs.dr() = (regs.sfr.cy << 15) | (regs.sr() >> 1); regs.sfr.s = (regs.dr() & 0x8000); regs.sfr.cy = carry; regs.sfr.z = (regs.dr() == 0); regs.reset(); } //$98-9d(alt0) jmp rN //$98-9d(alt1) ljmp rN auto GSU::op_jmp_ljmp(uint n) { if(!regs.sfr.alt1) { regs.r[15] = regs.r[n]; } else { regs.pbr = regs.r[n] & 0x7f; regs.r[15] = regs.sr(); regs.cbr = regs.r[15] & 0xfff0; flushCache(); } regs.reset(); } //$9e lob auto GSU::op_lob() { regs.dr() = regs.sr() & 0xff; regs.sfr.s = (regs.dr() & 0x80); regs.sfr.z = (regs.dr() == 0); regs.reset(); } //$9f(alt0) fmult //$9f(alt1) lmult auto GSU::op_fmult_lmult() { uint32 result = (int16)regs.sr() * (int16)regs.r[6]; if(regs.sfr.alt1) regs.r[4] = result; regs.dr() = result >> 16; regs.sfr.s = (regs.dr() & 0x8000); regs.sfr.cy = (result & 0x8000); regs.sfr.z = (regs.dr() == 0); regs.reset(); step((regs.cfgr.ms0 ? 3 : 7) * (regs.clsr ? 1 : 2)); } //$a0-af(alt0) ibt rN,#pp //$a0-af(alt1) lms rN,(yy) //$a0-af(alt2) sms (yy),rN auto GSU::op_ibt_lms_sms(uint n) { if(regs.sfr.alt1) { regs.ramaddr = pipe() << 1; uint8 lo = readRAMBuffer(regs.ramaddr ^ 0) << 0; regs.r[n] = readRAMBuffer(regs.ramaddr ^ 1) << 8 | lo; } else if(regs.sfr.alt2) { regs.ramaddr = pipe() << 1; writeRAMBuffer(regs.ramaddr ^ 0, regs.r[n] >> 0); writeRAMBuffer(regs.ramaddr ^ 1, regs.r[n] >> 8); } else { regs.r[n] = (int8)pipe(); } regs.reset(); } //$b0-bf(b0) from rN //$b0-bf(b1) moves rN auto GSU::op_from_moves(uint n) { if(!regs.sfr.b) { regs.sreg = n; } else { regs.dr() = regs.r[n]; regs.sfr.ov = (regs.dr() & 0x80); regs.sfr.s = (regs.dr() & 0x8000); regs.sfr.z = (regs.dr() == 0); regs.reset(); } } //$c0 hib auto GSU::op_hib() { regs.dr() = regs.sr() >> 8; regs.sfr.s = (regs.dr() & 0x80); regs.sfr.z = (regs.dr() == 0); regs.reset(); } //$c1-cf(alt0) or rN //$c1-cf(alt1) xor rN //$c1-cf(alt2) or #N //$c1-cf(alt3) xor #N auto GSU::op_or_xor(uint n) { if(!regs.sfr.alt2) n = regs.r[n]; regs.dr() = (!regs.sfr.alt1 ? (regs.sr() | n) : (regs.sr() ^ n)); regs.sfr.s = (regs.dr() & 0x8000); regs.sfr.z = (regs.dr() == 0); regs.reset(); } //$d0-de inc rN auto GSU::op_inc(uint n) { regs.r[n]++; regs.sfr.s = (regs.r[n] & 0x8000); regs.sfr.z = (regs.r[n] == 0); regs.reset(); } //$df(alt0) getc //$df(alt2) ramb //$df(alt3) romb auto GSU::op_getc_ramb_romb() { if(!regs.sfr.alt2) { regs.colr = color(readROMBuffer()); } else if(!regs.sfr.alt1) { syncRAMBuffer(); regs.rambr = regs.sr() & 0x01; } else { syncROMBuffer(); regs.rombr = regs.sr() & 0x7f; } regs.reset(); } //$e0-ee dec rN auto GSU::op_dec(uint n) { regs.r[n]--; regs.sfr.s = (regs.r[n] & 0x8000); regs.sfr.z = (regs.r[n] == 0); regs.reset(); } //$ef(alt0) getb //$ef(alt1) getbh //$ef(alt2) getbl //$ef(alt3) getbs auto GSU::op_getb() { switch(regs.sfr.alt2 << 1 | regs.sfr.alt1 << 0) { case 0: regs.dr() = readROMBuffer(); break; case 1: regs.dr() = readROMBuffer() << 8 | (uint8)regs.sr(); break; case 2: regs.dr() = (regs.sr() & 0xff00) | readROMBuffer(); break; case 3: regs.dr() = (int8)readROMBuffer(); break; } regs.reset(); } //$f0-ff(alt0) iwt rN,#xx //$f0-ff(alt1) lm rN,(xx) //$f0-ff(alt2) sm (xx),rN auto GSU::op_iwt_lm_sm(uint n) { if(regs.sfr.alt1) { regs.ramaddr = pipe() << 0; regs.ramaddr |= pipe() << 8; uint8 lo = readRAMBuffer(regs.ramaddr ^ 0) << 0; regs.r[n] = readRAMBuffer(regs.ramaddr ^ 1) << 8 | lo; } else if(regs.sfr.alt2) { regs.ramaddr = pipe() << 0; regs.ramaddr |= pipe() << 8; writeRAMBuffer(regs.ramaddr ^ 0, regs.r[n] >> 0); writeRAMBuffer(regs.ramaddr ^ 1, regs.r[n] >> 8); } else { uint8 lo = pipe(); regs.r[n] = pipe() << 8 | lo; } regs.reset(); }