#ifdef CPUCORE_CPP template void CPUcore::op_adjust_imm_b() { L op_io_irq(); regs.r[n].l += adjust; regs.p.n = (regs.r[n].l & 0x80); regs.p.z = (regs.r[n].l == 0); } template void CPUcore::op_adjust_imm_w() { L op_io_irq(); regs.r[n].w += adjust; regs.p.n = (regs.r[n].w & 0x8000); regs.p.z = (regs.r[n].w == 0); } void CPUcore::op_asl_imm_b() { L op_io_irq(); regs.p.c = (regs.a.l & 0x80); regs.a.l <<= 1; regs.p.n = (regs.a.l & 0x80); regs.p.z = (regs.a.l == 0); } void CPUcore::op_asl_imm_w() { L op_io_irq(); regs.p.c = (regs.a.w & 0x8000); regs.a.w <<= 1; regs.p.n = (regs.a.w & 0x8000); regs.p.z = (regs.a.w == 0); } void CPUcore::op_lsr_imm_b() { L op_io_irq(); regs.p.c = (regs.a.l & 0x01); regs.a.l >>= 1; regs.p.n = (regs.a.l & 0x80); regs.p.z = (regs.a.l == 0); } void CPUcore::op_lsr_imm_w() { L op_io_irq(); regs.p.c = (regs.a.w & 0x0001); regs.a.w >>= 1; regs.p.n = (regs.a.w & 0x8000); regs.p.z = (regs.a.w == 0); } void CPUcore::op_rol_imm_b() { L op_io_irq(); bool carry = regs.p.c; regs.p.c = (regs.a.l & 0x80); regs.a.l = (regs.a.l << 1) | carry; regs.p.n = (regs.a.l & 0x80); regs.p.z = (regs.a.l == 0); } void CPUcore::op_rol_imm_w() { L op_io_irq(); bool carry = regs.p.c; regs.p.c = (regs.a.w & 0x8000); regs.a.w = (regs.a.w << 1) | carry; regs.p.n = (regs.a.w & 0x8000); regs.p.z = (regs.a.w == 0); } void CPUcore::op_ror_imm_b() { L op_io_irq(); bool carry = regs.p.c; regs.p.c = (regs.a.l & 0x01); regs.a.l = (carry << 7) | (regs.a.l >> 1); regs.p.n = (regs.a.l & 0x80); regs.p.z = (regs.a.l == 0); } void CPUcore::op_ror_imm_w() { L op_io_irq(); bool carry = regs.p.c; regs.p.c = (regs.a.w & 0x0001); regs.a.w = (carry << 15) | (regs.a.w >> 1); regs.p.n = (regs.a.w & 0x8000); regs.p.z = (regs.a.w == 0); } template void CPUcore::op_adjust_addr_b() { aa.l = op_readpc(); aa.h = op_readpc(); rd.l = op_readdbr(aa.w); op_io(); call(op); L op_writedbr(aa.w, rd.l); } template void CPUcore::op_adjust_addr_w() { aa.l = op_readpc(); aa.h = op_readpc(); rd.l = op_readdbr(aa.w + 0); rd.h = op_readdbr(aa.w + 1); op_io(); call(op); op_writedbr(aa.w + 1, rd.h); L op_writedbr(aa.w + 0, rd.l); } template void CPUcore::op_adjust_addrx_b() { aa.l = op_readpc(); aa.h = op_readpc(); op_io(); rd.l = op_readdbr(aa.w + regs.x.w); op_io(); call(op); L op_writedbr(aa.w + regs.x.w, rd.l); } template void CPUcore::op_adjust_addrx_w() { aa.l = op_readpc(); aa.h = op_readpc(); op_io(); rd.l = op_readdbr(aa.w + regs.x.w + 0); rd.h = op_readdbr(aa.w + regs.x.w + 1); op_io(); call(op); op_writedbr(aa.w + regs.x.w + 1, rd.h); L op_writedbr(aa.w + regs.x.w + 0, rd.l); } template void CPUcore::op_adjust_dp_b() { dp = op_readpc(); op_io_cond2(); rd.l = op_readdp(dp); op_io(); call(op); L op_writedp(dp, rd.l); } template void CPUcore::op_adjust_dp_w() { dp = op_readpc(); op_io_cond2(); rd.l = op_readdp(dp + 0); rd.h = op_readdp(dp + 1); op_io(); call(op); op_writedp(dp + 1, rd.h); L op_writedp(dp + 0, rd.l); } template void CPUcore::op_adjust_dpx_b() { dp = op_readpc(); op_io_cond2(); op_io(); rd.l = op_readdp(dp + regs.x.w); op_io(); call(op); L op_writedp(dp + regs.x.w, rd.l); } template void CPUcore::op_adjust_dpx_w() { dp = op_readpc(); op_io_cond2(); op_io(); rd.l = op_readdp(dp + regs.x.w + 0); rd.h = op_readdp(dp + regs.x.w + 1); op_io(); call(op); op_writedp(dp + regs.x.w + 1, rd.h); L op_writedp(dp + regs.x.w + 0, rd.l); } #endif