void LR35902::op_xx() { } void LR35902::op_cb() { exec_cb(); } //8-bit load commands template void LR35902::op_ld_r_r() { r[x] = r[y]; } template void LR35902::op_ld_r_n() { r[x] = op_read(r[PC]++); } template void LR35902::op_ld_r_hl() { r[x] = op_read(r[HL]); } template void LR35902::op_ld_hl_r() { op_write(r[HL], r[x]); } void LR35902::op_ld_hl_n() { op_write(r[HL], op_read(r[PC]++)); } template void LR35902::op_ld_a_rr() { r[A] = op_read(r[x]); } void LR35902::op_ld_a_nn() { uint8 lo = op_read(r[PC]++); uint8 hi = op_read(r[PC]++); r[A] = op_read((hi << 8) | (lo << 0)); } template void LR35902::op_ld_rr_a() { op_write(r[x], r[A]); } void LR35902::op_ld_nn_a() { uint8 lo = op_read(r[PC]++); uint8 hi = op_read(r[PC]++); op_write((hi << 8) | (lo << 0), r[A]); } void LR35902::op_ld_a_ffn() { r[A] = op_read(0xff00 + op_read(r[PC]++)); } void LR35902::op_ld_ffn_a() { op_write(0xff00 + op_read(r[PC]++), r[A]); } void LR35902::op_ld_a_ffc() { r[A] = op_read(0xff00 + r[C]); } void LR35902::op_ld_ffc_a() { op_write(0xff00 + r[C], r[A]); } void LR35902::op_ldi_hl_a() { op_write(r[HL], r[A]); r[HL]++; } void LR35902::op_ldi_a_hl() { r[A] = op_read(r[HL]); r[HL]++; } void LR35902::op_ldd_hl_a() { op_write(r[HL], r[A]); r[HL]--; } void LR35902::op_ldd_a_hl() { r[A] = op_read(r[HL]); r[HL]--; } //16-bit load commands template void LR35902::op_ld_rr_nn() { r[x] = op_read(r[PC]++) << 0; r[x] |= op_read(r[PC]++) << 8; } void LR35902::op_ld_nn_sp() { uint16 addr = op_read(r[PC]++) << 0; addr |= op_read(r[PC]++) << 8; op_write(addr + 0, r[SP] >> 0); op_write(addr + 1, r[SP] >> 8); } void LR35902::op_ld_sp_hl() { r[SP] = r[HL]; op_io(); } template void LR35902::op_push_rr() { op_write(--r[SP], r[x] >> 8); op_write(--r[SP], r[x] >> 0); op_io(); } template void LR35902::op_pop_rr() { r[x] = op_read(r[SP]++) << 0; r[x] |= op_read(r[SP]++) << 8; } //8-bit arithmetic commands void LR35902::opi_add_a(uint8 x) { uint16 rh = r[A] + x; uint16 rl = (r[A] & 0x0f) + (x & 0x0f); r[A] = rh; r.f.z = (uint8)rh == 0; r.f.n = 0; r.f.h = rl > 0x0f; r.f.c = rh > 0xff; } template void LR35902::op_add_a_r() { opi_add_a(r[x]); } void LR35902::op_add_a_n() { opi_add_a(op_read(r[PC]++)); } void LR35902::op_add_a_hl() { opi_add_a(op_read(r[HL])); } void LR35902::opi_adc_a(uint8 x) { uint16 rh = r[A] + x + r.f.c; uint16 rl = (r[A] & 0x0f) + (x & 0x0f) + r.f.c; r[A] = rh; r.f.z = (uint8)rh == 0; r.f.n = 0; r.f.h = rl > 0x0f; r.f.c = rh > 0xff; } template void LR35902::op_adc_a_r() { opi_adc_a(r[x]); } void LR35902::op_adc_a_n() { opi_adc_a(op_read(r[PC]++)); } void LR35902::op_adc_a_hl() { opi_adc_a(op_read(r[HL])); } void LR35902::opi_sub_a(uint8 x) { uint16 rh = r[A] - x; uint16 rl = (r[A] & 0x0f) - (x & 0x0f); r[A] = rh; r.f.z = (uint8)rh == 0; r.f.n = 1; r.f.h = rl > 0x0f; r.f.c = rh > 0xff; } template void LR35902::op_sub_a_r() { opi_sub_a(r[x]); } void LR35902::op_sub_a_n() { opi_sub_a(op_read(r[PC]++)); } void LR35902::op_sub_a_hl() { opi_sub_a(op_read(r[HL])); } void LR35902::opi_sbc_a(uint8 x) { uint16 rh = r[A] - x - r.f.c; uint16 rl = (r[A] & 0x0f) - (x & 0x0f) - r.f.c; r[A] = rh; r.f.z = (uint8)rh == 0; r.f.n = 1; r.f.h = rl > 0x0f; r.f.c = rh > 0xff; } template void LR35902::op_sbc_a_r() { opi_sbc_a(r[x]); } void LR35902::op_sbc_a_n() { opi_sbc_a(op_read(r[PC]++)); } void LR35902::op_sbc_a_hl() { opi_sbc_a(op_read(r[HL])); } void LR35902::opi_and_a(uint8 x) { r[A] &= x; r.f.z = r[A] == 0; r.f.n = 0; r.f.h = 1; r.f.c = 0; } template void LR35902::op_and_a_r() { opi_and_a(r[x]); } void LR35902::op_and_a_n() { opi_and_a(op_read(r[PC]++)); } void LR35902::op_and_a_hl() { opi_and_a(op_read(r[HL])); } void LR35902::opi_xor_a(uint8 x) { r[A] ^= x; r.f.z = r[A] == 0; r.f.n = 0; r.f.h = 0; r.f.c = 0; } template void LR35902::op_xor_a_r() { opi_xor_a(r[x]); } void LR35902::op_xor_a_n() { opi_xor_a(op_read(r[PC]++)); } void LR35902::op_xor_a_hl() { opi_xor_a(op_read(r[HL])); } void LR35902::opi_or_a(uint8 x) { r[A] |= x; r.f.z = r[A] == 0; r.f.n = 0; r.f.h = 0; r.f.c = 0; } template void LR35902::op_or_a_r() { opi_or_a(r[x]); } void LR35902::op_or_a_n() { opi_or_a(op_read(r[PC]++)); } void LR35902::op_or_a_hl() { opi_or_a(op_read(r[HL])); } void LR35902::opi_cp_a(uint8 x) { uint16 rh = r[A] - x; uint16 rl = (r[A] & 0x0f) - (x & 0x0f); r.f.z = (uint8)rh == 0; r.f.n = 1; r.f.h = rl > 0x0f; r.f.c = rh > 0xff; } template void LR35902::op_cp_a_r() { opi_cp_a(r[x]); } void LR35902::op_cp_a_n() { opi_cp_a(op_read(r[PC]++)); } void LR35902::op_cp_a_hl() { opi_cp_a(op_read(r[HL])); } template void LR35902::op_inc_r() { r[x]++; r.f.z = r[x] == 0; r.f.n = 0; r.f.h = (r[x] & 0x0f) == 0x00; } void LR35902::op_inc_hl() { uint8 n = op_read(r[HL]); op_write(r[HL], ++n); r.f.z = n == 0; r.f.n = 0; r.f.h = (n & 0x0f) == 0x00; } template void LR35902::op_dec_r() { r[x]--; r.f.z = r[x] == 0; r.f.n = 1; r.f.h = (r[x] & 0x0f) == 0x0f; } void LR35902::op_dec_hl() { uint8 n = op_read(r[HL]); op_write(r[HL], --n); r.f.z = n == 0; r.f.n = 1; r.f.h = (n & 0x0f) == 0x0f; } void LR35902::op_daa() { uint16 a = r[A]; if(r.f.n == 0) { if(r.f.h || (a & 0x0f) > 0x09) a += 0x06; if(r.f.c || (a ) > 0x9f) a += 0x60; } else { if(r.f.h) { a -= 0x06; if(r.f.c == 0) a &= 0xff; } if(r.f.c) a -= 0x60; } r[A] = a; r.f.z = r[A] == 0; r.f.h = 0; r.f.c |= a & 0x100; } void LR35902::op_cpl() { r[A] ^= 0xff; r.f.n = 1; r.f.h = 1; } //16-bit arithmetic commands template void LR35902::op_add_hl_rr() { op_io(); uint32 rb = (r[HL] + r[x]); uint32 rn = (r[HL] & 0xfff) + (r[x] & 0xfff); r[HL] = rb; r.f.n = 0; r.f.h = rn > 0x0fff; r.f.c = rb > 0xffff; } template void LR35902::op_inc_rr() { op_io(); r[x]++; } template void LR35902::op_dec_rr() { op_io(); r[x]--; } void LR35902::op_add_sp_n() { op_io(); op_io(); signed n = (int8)op_read(r[PC]++); r.f.z = 0; r.f.n = 0; r.f.h = ((r[SP] & 0x0f) + (n & 0x0f)) > 0x0f; r.f.c = ((r[SP] & 0xff) + (n & 0xff)) > 0xff; r[SP] += n; } void LR35902::op_ld_hl_sp_n() { op_io(); signed n = (int8)op_read(r[PC]++); r.f.z = 0; r.f.n = 0; r.f.h = ((r[SP] & 0x0f) + (n & 0x0f)) > 0x0f; r.f.c = ((r[SP] & 0xff) + (n & 0xff)) > 0xff; r[HL] = r[SP] + n; } //rotate/shift commands void LR35902::op_rlca() { r[A] = (r[A] << 1) | (r[A] >> 7); r.f.z = 0; r.f.n = 0; r.f.h = 0; r.f.c = r[A] & 0x01; } void LR35902::op_rla() { bool c = r[A] & 0x80; r[A] = (r[A] << 1) | (r.f.c << 0); r.f.z = 0; r.f.n = 0; r.f.h = 0; r.f.c = c; } void LR35902::op_rrca() { r[A] = (r[A] >> 1) | (r[A] << 7); r.f.z = 0; r.f.n = 0; r.f.h = 0; r.f.c = r[A] & 0x80; } void LR35902::op_rra() { bool c = r[A] & 0x01; r[A] = (r[A] >> 1) | (r.f.c << 7); r.f.z = 0; r.f.n = 0; r.f.h = 0; r.f.c = c; } template void LR35902::op_rlc_r() { r[x] = (r[x] << 1) | (r[x] >> 7); r.f.z = r[x] == 0; r.f.n = 0; r.f.h = 0; r.f.c = r[x] & 0x01; } void LR35902::op_rlc_hl() { uint8 n = op_read(r[HL]); n = (n << 1) | (n >> 7); op_write(r[HL], n); r.f.z = n == 0; r.f.n = 0; r.f.h = 0; r.f.c = n & 0x01; } template void LR35902::op_rl_r() { bool c = r[x] & 0x80; r[x] = (r[x] << 1) | (r.f.c << 0); r.f.z = r[x] == 0; r.f.n = 0; r.f.h = 0; r.f.c = c; } void LR35902::op_rl_hl() { uint8 n = op_read(r[HL]); bool c = n & 0x80; n = (n << 1) | (r.f.c << 0); op_write(r[HL], n); r.f.z = n == 0; r.f.n = 0; r.f.h = 0; r.f.c = c; } template void LR35902::op_rrc_r() { r[x] = (r[x] >> 1) | (r[x] << 7); r.f.z = r[x] == 0; r.f.n = 0; r.f.h = 0; r.f.c = r[x] & 0x80; } void LR35902::op_rrc_hl() { uint8 n = op_read(r[HL]); n = (n >> 1) | (n << 7); op_write(r[HL], n); r.f.z = n == 0; r.f.n = 0; r.f.h = 0; r.f.c = n & 0x80; } template void LR35902::op_rr_r() { bool c = r[x] & 0x01; r[x] = (r[x] >> 1) | (r.f.c << 7); r.f.z = r[x] == 0; r.f.n = 0; r.f.h = 0; r.f.c = c; } void LR35902::op_rr_hl() { uint8 n = op_read(r[HL]); bool c = n & 0x01; n = (n >> 1) | (r.f.c << 7); op_write(r[HL], n); r.f.z = n == 0; r.f.n = 0; r.f.h = 0; r.f.c = c; } template void LR35902::op_sla_r() { bool c = r[x] & 0x80; r[x] <<= 1; r.f.z = r[x] == 0; r.f.n = 0; r.f.h = 0; r.f.c = c; } void LR35902::op_sla_hl() { uint8 n = op_read(r[HL]); bool c = n & 0x80; n <<= 1; op_write(r[HL], n); r.f.z = n == 0; r.f.n = 0; r.f.h = 0; r.f.c = c; } template void LR35902::op_swap_r() { r[x] = (r[x] << 4) | (r[x] >> 4); r.f.z = r[x] == 0; r.f.n = 0; r.f.h = 0; r.f.c = 0; } void LR35902::op_swap_hl() { uint8 n = op_read(r[HL]); n = (n << 4) | (n >> 4); op_write(r[HL], n); r.f.z = n == 0; r.f.n = 0; r.f.h = 0; r.f.c = 0; } template void LR35902::op_sra_r() { bool c = r[x] & 0x01; r[x] = (int8)r[x] >> 1; r.f.z = r[x] == 0; r.f.n = 0; r.f.h = 0; r.f.c = c; } void LR35902::op_sra_hl() { uint8 n = op_read(r[HL]); bool c = n & 0x01; n = (int8)n >> 1; op_write(r[HL], n); r.f.z = n == 0; r.f.n = 0; r.f.h = 0; r.f.c = c; } template void LR35902::op_srl_r() { bool c = r[x] & 0x01; r[x] >>= 1; r.f.z = r[x] == 0; r.f.n = 0; r.f.h = 0; r.f.c = c; } void LR35902::op_srl_hl() { uint8 n = op_read(r[HL]); bool c = n & 0x01; n >>= 1; op_write(r[HL], n); r.f.z = n == 0; r.f.n = 0; r.f.h = 0; r.f.c = c; } //single-bit commands template void LR35902::op_bit_n_r() { r.f.z = (r[x] & (1 << b)) == 0; r.f.n = 0; r.f.h = 1; } template void LR35902::op_bit_n_hl() { uint8 n = op_read(r[HL]); r.f.z = (n & (1 << b)) == 0; r.f.n = 0; r.f.h = 1; } template void LR35902::op_set_n_r() { r[x] |= 1 << b; } template void LR35902::op_set_n_hl() { uint8 n = op_read(r[HL]); n |= 1 << b; op_write(r[HL], n); } template void LR35902::op_res_n_r() { r[x] &= ~(1 << b); } template void LR35902::op_res_n_hl() { uint8 n = op_read(r[HL]); n &= ~(1 << b); op_write(r[HL], n); } //control commands void LR35902::op_ccf() { r.f.n = 0; r.f.h = 0; r.f.c = !r.f.c; } void LR35902::op_scf() { r.f.n = 0; r.f.h = 0; r.f.c = 1; } void LR35902::op_nop() { } void LR35902::op_halt() { r.halt = true; while(r.halt == true) op_io(); } void LR35902::op_stop() { if(stop()) return; r.stop = true; while(r.stop == true) op_io(); } void LR35902::op_di() { r.ime = 0; } void LR35902::op_ei() { r.ei = true; //r.ime = 1; } //jump commands void LR35902::op_jp_nn() { uint8 lo = op_read(r[PC]++); uint8 hi = op_read(r[PC]++); r[PC] = (hi << 8) | (lo << 0); op_io(); } void LR35902::op_jp_hl() { r[PC] = r[HL]; } template void LR35902::op_jp_f_nn() { uint8 lo = op_read(r[PC]++); uint8 hi = op_read(r[PC]++); if(r.f[x] == y) { r[PC] = (hi << 8) | (lo << 0); op_io(); } } void LR35902::op_jr_n() { int8 n = op_read(r[PC]++); r[PC] += n; op_io(); } template void LR35902::op_jr_f_n() { int8 n = op_read(r[PC]++); if(r.f[x] == y) { r[PC] += n; op_io(); } } void LR35902::op_call_nn() { uint8 lo = op_read(r[PC]++); uint8 hi = op_read(r[PC]++); op_write(--r[SP], r[PC] >> 8); op_write(--r[SP], r[PC] >> 0); r[PC] = (hi << 8) | (lo << 0); op_io(); } template void LR35902::op_call_f_nn() { uint8 lo = op_read(r[PC]++); uint8 hi = op_read(r[PC]++); if(r.f[x] == y) { op_write(--r[SP], r[PC] >> 8); op_write(--r[SP], r[PC] >> 0); r[PC] = (hi << 8) | (lo << 0); op_io(); } } void LR35902::op_ret() { uint8 lo = op_read(r[SP]++); uint8 hi = op_read(r[SP]++); r[PC] = (hi << 8) | (lo << 0); op_io(); } template void LR35902::op_ret_f() { op_io(); if(r.f[x] == y) { uint8 lo = op_read(r[SP]++); uint8 hi = op_read(r[SP]++); r[PC] = (hi << 8) | (lo << 0); op_io(); } } void LR35902::op_reti() { uint8 lo = op_read(r[SP]++); uint8 hi = op_read(r[SP]++); r[PC] = (hi << 8) | (lo << 0); op_io(); r.ime = 1; } template void LR35902::op_rst_n() { op_write(--r[SP], r[PC] >> 8); op_write(--r[SP], r[PC] >> 0); r[PC] = n; op_io(); }