#ifdef CPUCORE_CPP inline void CPUcore::op_adc_b() { int result; if(!regs.p.d) { result = regs.a.l + rd.l + regs.p.c; } else { result = (regs.a.l & 0x0f) + (rd.l & 0x0f) + (regs.p.c << 0); if(result > 0x09) result += 0x06; regs.p.c = result > 0x0f; result = (regs.a.l & 0xf0) + (rd.l & 0xf0) + (regs.p.c << 4) + (result & 0x0f); } regs.p.v = ~(regs.a.l ^ rd.l) & (regs.a.l ^ result) & 0x80; if(regs.p.d && result > 0x9f) result += 0x60; regs.p.c = result > 0xff; regs.p.n = result & 0x80; regs.p.z = (uint8_t)result == 0; regs.a.l = result; } inline void CPUcore::op_adc_w() { int result; if(!regs.p.d) { result = regs.a.w + rd.w + regs.p.c; } else { result = (regs.a.w & 0x000f) + (rd.w & 0x000f) + (regs.p.c << 0); if(result > 0x0009) result += 0x0006; regs.p.c = result > 0x000f; result = (regs.a.w & 0x00f0) + (rd.w & 0x00f0) + (regs.p.c << 4) + (result & 0x000f); if(result > 0x009f) result += 0x0060; regs.p.c = result > 0x00ff; result = (regs.a.w & 0x0f00) + (rd.w & 0x0f00) + (regs.p.c << 8) + (result & 0x00ff); if(result > 0x09ff) result += 0x0600; regs.p.c = result > 0x0fff; result = (regs.a.w & 0xf000) + (rd.w & 0xf000) + (regs.p.c << 12) + (result & 0x0fff); } regs.p.v = ~(regs.a.w ^ rd.w) & (regs.a.w ^ result) & 0x8000; if(regs.p.d && result > 0x9fff) result += 0x6000; regs.p.c = result > 0xffff; regs.p.n = result & 0x8000; regs.p.z = (uint16_t)result == 0; regs.a.w = result; } inline void CPUcore::op_and_b() { regs.a.l &= rd.l; regs.p.n = regs.a.l & 0x80; regs.p.z = regs.a.l == 0; } inline void CPUcore::op_and_w() { regs.a.w &= rd.w; regs.p.n = regs.a.w & 0x8000; regs.p.z = regs.a.w == 0; } inline void CPUcore::op_bit_b() { regs.p.n = rd.l & 0x80; regs.p.v = rd.l & 0x40; regs.p.z = (rd.l & regs.a.l) == 0; } inline void CPUcore::op_bit_w() { regs.p.n = rd.w & 0x8000; regs.p.v = rd.w & 0x4000; regs.p.z = (rd.w & regs.a.w) == 0; } inline void CPUcore::op_cmp_b() { int r = regs.a.l - rd.l; regs.p.n = r & 0x80; regs.p.z = (uint8)r == 0; regs.p.c = r >= 0; } inline void CPUcore::op_cmp_w() { int r = regs.a.w - rd.w; regs.p.n = r & 0x8000; regs.p.z = (uint16)r == 0; regs.p.c = r >= 0; } inline void CPUcore::op_cpx_b() { int r = regs.x.l - rd.l; regs.p.n = r & 0x80; regs.p.z = (uint8)r == 0; regs.p.c = r >= 0; } inline void CPUcore::op_cpx_w() { int r = regs.x.w - rd.w; regs.p.n = r & 0x8000; regs.p.z = (uint16)r == 0; regs.p.c = r >= 0; } inline void CPUcore::op_cpy_b() { int r = regs.y.l - rd.l; regs.p.n = r & 0x80; regs.p.z = (uint8)r == 0; regs.p.c = r >= 0; } inline void CPUcore::op_cpy_w() { int r = regs.y.w - rd.w; regs.p.n = r & 0x8000; regs.p.z = (uint16)r == 0; regs.p.c = r >= 0; } inline void CPUcore::op_eor_b() { regs.a.l ^= rd.l; regs.p.n = regs.a.l & 0x80; regs.p.z = regs.a.l == 0; } inline void CPUcore::op_eor_w() { regs.a.w ^= rd.w; regs.p.n = regs.a.w & 0x8000; regs.p.z = regs.a.w == 0; } inline void CPUcore::op_lda_b() { regs.a.l = rd.l; regs.p.n = regs.a.l & 0x80; regs.p.z = regs.a.l == 0; } inline void CPUcore::op_lda_w() { regs.a.w = rd.w; regs.p.n = regs.a.w & 0x8000; regs.p.z = regs.a.w == 0; } inline void CPUcore::op_ldx_b() { regs.x.l = rd.l; regs.p.n = regs.x.l & 0x80; regs.p.z = regs.x.l == 0; } inline void CPUcore::op_ldx_w() { regs.x.w = rd.w; regs.p.n = regs.x.w & 0x8000; regs.p.z = regs.x.w == 0; } inline void CPUcore::op_ldy_b() { regs.y.l = rd.l; regs.p.n = regs.y.l & 0x80; regs.p.z = regs.y.l == 0; } inline void CPUcore::op_ldy_w() { regs.y.w = rd.w; regs.p.n = regs.y.w & 0x8000; regs.p.z = regs.y.w == 0; } inline void CPUcore::op_ora_b() { regs.a.l |= rd.l; regs.p.n = regs.a.l & 0x80; regs.p.z = regs.a.l == 0; } inline void CPUcore::op_ora_w() { regs.a.w |= rd.w; regs.p.n = regs.a.w & 0x8000; regs.p.z = regs.a.w == 0; } inline void CPUcore::op_sbc_b() { int result; rd.l ^= 0xff; if(!regs.p.d) { result = regs.a.l + rd.l + regs.p.c; } else { result = (regs.a.l & 0x0f) + (rd.l & 0x0f) + (regs.p.c << 0); if(result <= 0x0f) result -= 0x06; regs.p.c = result > 0x0f; result = (regs.a.l & 0xf0) + (rd.l & 0xf0) + (regs.p.c << 4) + (result & 0x0f); } regs.p.v = ~(regs.a.l ^ rd.l) & (regs.a.l ^ result) & 0x80; if(regs.p.d && result <= 0xff) result -= 0x60; regs.p.c = result > 0xff; regs.p.n = result & 0x80; regs.p.z = (uint8_t)result == 0; regs.a.l = result; } inline void CPUcore::op_sbc_w() { int result; rd.w ^= 0xffff; if(!regs.p.d) { result = regs.a.w + rd.w + regs.p.c; } else { result = (regs.a.w & 0x000f) + (rd.w & 0x000f) + (regs.p.c << 0); if(result <= 0x000f) result -= 0x0006; regs.p.c = result > 0x000f; result = (regs.a.w & 0x00f0) + (rd.w & 0x00f0) + (regs.p.c << 4) + (result & 0x000f); if(result <= 0x00ff) result -= 0x0060; regs.p.c = result > 0x00ff; result = (regs.a.w & 0x0f00) + (rd.w & 0x0f00) + (regs.p.c << 8) + (result & 0x00ff); if(result <= 0x0fff) result -= 0x0600; regs.p.c = result > 0x0fff; result = (regs.a.w & 0xf000) + (rd.w & 0xf000) + (regs.p.c << 12) + (result & 0x0fff); } regs.p.v = ~(regs.a.w ^ rd.w) & (regs.a.w ^ result) & 0x8000; if(regs.p.d && result <= 0xffff) result -= 0x6000; regs.p.c = result > 0xffff; regs.p.n = result & 0x8000; regs.p.z = (uint16_t)result == 0; regs.a.w = result; } inline void CPUcore::op_inc_b() { rd.l++; regs.p.n = rd.l & 0x80; regs.p.z = rd.l == 0; } inline void CPUcore::op_inc_w() { rd.w++; regs.p.n = rd.w & 0x8000; regs.p.z = rd.w == 0; } inline void CPUcore::op_dec_b() { rd.l--; regs.p.n = rd.l & 0x80; regs.p.z = rd.l == 0; } inline void CPUcore::op_dec_w() { rd.w--; regs.p.n = rd.w & 0x8000; regs.p.z = rd.w == 0; } inline void CPUcore::op_asl_b() { regs.p.c = rd.l & 0x80; rd.l <<= 1; regs.p.n = rd.l & 0x80; regs.p.z = rd.l == 0; } inline void CPUcore::op_asl_w() { regs.p.c = rd.w & 0x8000; rd.w <<= 1; regs.p.n = rd.w & 0x8000; regs.p.z = rd.w == 0; } inline void CPUcore::op_lsr_b() { regs.p.c = rd.l & 1; rd.l >>= 1; regs.p.n = rd.l & 0x80; regs.p.z = rd.l == 0; } inline void CPUcore::op_lsr_w() { regs.p.c = rd.w & 1; rd.w >>= 1; regs.p.n = rd.w & 0x8000; regs.p.z = rd.w == 0; } inline void CPUcore::op_rol_b() { unsigned carry = (unsigned)regs.p.c; regs.p.c = rd.l & 0x80; rd.l = (rd.l << 1) | carry; regs.p.n = rd.l & 0x80; regs.p.z = rd.l == 0; } inline void CPUcore::op_rol_w() { unsigned carry = (unsigned)regs.p.c; regs.p.c = rd.w & 0x8000; rd.w = (rd.w << 1) | carry; regs.p.n = rd.w & 0x8000; regs.p.z = rd.w == 0; } inline void CPUcore::op_ror_b() { unsigned carry = (unsigned)regs.p.c << 7; regs.p.c = rd.l & 1; rd.l = carry | (rd.l >> 1); regs.p.n = rd.l & 0x80; regs.p.z = rd.l == 0; } inline void CPUcore::op_ror_w() { unsigned carry = (unsigned)regs.p.c << 15; regs.p.c = rd.w & 1; rd.w = carry | (rd.w >> 1); regs.p.n = rd.w & 0x8000; regs.p.z = rd.w == 0; } inline void CPUcore::op_trb_b() { regs.p.z = (rd.l & regs.a.l) == 0; rd.l &= ~regs.a.l; } inline void CPUcore::op_trb_w() { regs.p.z = (rd.w & regs.a.w) == 0; rd.w &= ~regs.a.w; } inline void CPUcore::op_tsb_b() { regs.p.z = (rd.l & regs.a.l) == 0; rd.l |= regs.a.l; } inline void CPUcore::op_tsb_w() { regs.p.z = (rd.w & regs.a.w) == 0; rd.w |= regs.a.w; } #endif