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use crate::cpu::Cpu;
pub const INSTRUCTIONS: [(fn(&mut Cpu), u8, &'static str); 256] = [
// 0x0 opcodes
(nop, 4, "NOP"),
(ld_bc_u16, 12, "LD BC, u16"),
(ld_mbc_a, 8, "LD [BC], A"),
(inc_bc, 8, "INC BC"),
(inc_b, 4, "INC B"),
(dec_b, 4, "DEC B"),
(ld_b_u8, 8, "LD B, u8"),
(rlca, 4, "RLCA"),
(ld_mu16_sp, 20, "LD [u16], SP"),
(add_hl_bc, 8, "ADD HL, BC"),
(dec_bc, 8, "DEC BC"),
(inc_c, 4, "INC C"),
(dec_c, 4, "DEC C"),
(ld_c_u8, 8, "LD C, u8"),
(dec_d, 4, "DEC D"),
(ld_d_u8, 8, "LD D, u8"),
(rla, 4, "RLA"),
(jr_i8, 12, "JR i8"),
(dec_e, 4, "DEC E"),
(ld_e_u8, 8, "LD E, u8"),
// 0x2 opcodes
(jr_nz_i8, 8, "JR NZ, i8"),
(ld_hl_u16, 12, "LD HL, u16"),
(ld_mhli_a, 8, "LD [HL+], A"),
(inc_hl, 8, "INC HL"),
(inc_h, 4, "INC H"),
(dec_h, 4, "DEC H"),
(ld_h_u8, 8, "LD H, u8"),
(ld_l_u8, 8, "LD L, u8"),
(cpl, 4, "CPL"),
// 0x3 opcodes
(jr_nc_i8, 8, "JR NC, i8"),
(ld_sp_u16, 12, "LD SP, u16"),
(ld_mhld_a, 8, "LD [HL-], A"),
(inc_sp, 8, "INC SP"),
(inc_mhl, 12, "INC [HL]"),
(ld_mhl_u8, 12, "LD [HL], u8 "),
(scf, 4, "SCF"),
(dec_a, 4, "DEC A"),
(ld_a_u8, 8, "LD A, u8"),
(ld_b_c, 4, "LD B, C"),
(ld_b_d, 4, "LD B, D"),
(ld_c_b, 4, "LD C, B"),
(ld_c_c, 4, "LD C, C"),
(ld_c_d, 4, "LD C, D"),
(ld_c_e, 4, "LD C, E"),
(ld_c_h, 4, "LD C, H"),
(ld_c_l, 4, "LD C, L"),
(ld_d_b, 4, "LD D, B"),
(ld_d_c, 4, "LD D, C"),
(ld_d_d, 4, "LD D, D"),
(ld_d_e, 4, "LD D, E"),
(ld_d_h, 4, "LD D, H"),
(ld_d_l, 4, "LD D, L"),
(ld_e_b, 4, "LD E, B"),
(ld_e_c, 4, "LD E, C"),
(ld_e_d, 4, "LD E, D"),
(ld_e_e, 4, "LD E, E"),
(ld_e_h, 4, "LD E, H"),
(ld_h_b, 4, "LD H, B"),
(ld_h_c, 4, "LD H, C"),
(ld_h_d, 4, "LD H, D"),
(ld_h_e, 4, "LD H, E"),
(ld_h_h, 4, "LD H, H"),
(ld_h_l, 4, "LD H, L"),
(ld_h_mhl, 8, "LD H, [HL]"),
(ld_l_b, 4, "LD L, B"),
(ld_l_c, 4, "LD L, C"),
(ld_l_d, 4, "LD L, D"),
(ld_l_e, 4, "LD L, E"),
(ld_l_h, 4, "LD L, H"),
(ld_l_l, 4, "LD L, L"),
(ld_mhl_b, 8, "LD [HL], B"),
(ld_mhl_c, 8, "LD [HL], C"),
(ld_mhl_d, 8, "LD [HL], D"),
(ld_mhl_h, 8, "LD [HL], H"),
(ld_mhl_l, 8, "LD [HL], L"),
(ld_mhl_a, 8, "LD [HL], A"),
(ld_a_b, 4, "LD A, B"),
(ld_a_c, 4, "LD A, C"),
(ld_a_e, 4, "LD A, E"),
(ld_a_h, 4, "LD A, H"),
(ld_a_l, 4, "LD A, L"),
(add_a_h, 4, "ADD A, H"),
(add_a_l, 4, "ADD A, L"),
(adc_a_b, 4, "ADC A, B"),
(adc_a_c, 4, "ADC A, C"),
(adc_a_d, 4, "ADC A, D"),
(adc_a_e, 4, "ADC A, E"),
(adc_a_h, 4, "ADC A, H"),
(adc_a_l, 4, "ADC A, L"),
(adc_a_mhl, 8, "ADC A, [HL]"),
(adc_a_a, 4, "ADC A, A"),
(sub_a_c, 4, "SUB A, C"),
(sub_a_d, 4, "SUB A, D"),
(sub_a_e, 4, "SUB A, E"),
(sub_a_h, 4, "SUB A, H"),
(sub_a_l, 4, "SUB A, L"),
(sub_a_mhl, 8, "SUB A, [HL]"),
(sbc_a_b, 4, "SBC A, B"),
(sbc_a_c, 4, "SBC A, C"),
(sbc_a_d, 4, "SBC A, D"),
(sbc_a_e, 4, "SBC A, E"),
(sbc_a_h, 4, "SBC A, H"),
(sbc_a_l, 4, "SBC A, L"),
(sbc_a_mhl, 8, "SBC A, [HL]"),
(sbc_a_a, 4, "SBC A, A"),
(and_a_d, 4, "AND A, D"),
(and_a_e, 4, "AND A, E"),
(and_a_h, 4, "AND A, H"),
(and_a_l, 4, "AND A, L"),
(and_a_mhl, 4, "AND A, [HL]"),
(and_a_a, 4, "AND A, A"),
(xor_a_d, 4, "XOR A, D"),
(xor_a_e, 4, "XOR A, E"),
(xor_a_h, 4, "XOR A, H"),
(xor_a_a, 4, "XOR A, A"),
// 0xb opcodes
(or_a_b, 4, "OR A, B"),
(or_a_c, 4, "OR A, C"),
(or_a_d, 4, "OR A, D"),
(or_a_e, 4, "OR A, E"),
(or_a_h, 4, "OR A, H"),
(or_a_l, 4, "OR A, L"),
(cp_a_b, 4, "CP A, B"),
(cp_a_c, 4, "CP A, C"),
(cp_a_d, 4, "CP A, D"),
(cp_a_e, 4, "CP A, E"),
(cp_a_h, 4, "CP A, H"),
(cp_a_l, 4, "CP A, L"),
// 0xc opcodes
(ret_nz, 8, "RET NZ"),
(pop_bc, 12, "POP BC"),
(jp_u16, 16, "JP u16"),
(call_nz_u16, 12, "CALL NZ, u16"),
(push_bc, 16, "PUSH BC"),
// 0xe opcodes
(ld_mff00u8_a, 12, "LD [FF00+u8], A"),
(illegal, 4, "ILLEGAL"),
(illegal, 4, "ILLEGAL"),
(illegal, 4, "ILLEGAL"),
(illegal, 4, "ILLEGAL"),
(illegal, 4, "ILLEGAL"),
// 0xf opcodes
(ld_a_mff00u8, 12, "LD A, [FF00+u8]"),
(illegal, 4, "ILLEGAL"),
(illegal, 4, "ILLEGAL"),
(cp_a_u8, 8, "CP A, u8"),
(rst_38h, 16, "RST 38h"),
];
pub const EXTENDED: [(fn(&mut Cpu), u8, &'static str); 256] = [
(rlc_b, 8, "RLC B"),
(rlc_c, 8, "RLC C"),
(rlc_d, 8, "RLC D"),
(rlc_e, 8, "RLC E"),
(rlc_h, 8, "RLC H"),
(rlc_l, 8, "RLC L"),
(rrc_b, 8, "RRC B"),
(rrc_c, 8, "RRC C"),
(rrc_d, 8, "RRC D"),
(rrc_e, 8, "RRC E"),
(rrc_h, 8, "RRC H"),
(rrc_l, 8, "RRC L"),
(rl_d, 8, "RL D"),
(rl_e, 8, "RL E"),
(rl_h, 8, "RL H"),
(rl_l, 8, "RL L"),
(rl_mhl, 16, "RL [HL]"),
(rl_a, 8, "RL A"),
(rr_b, 8, "RR B"),
(rr_c, 8, "RR C"),
(rr_d, 8, "RR D"),
(rr_h, 8, "RR H"),
(rr_l, 8, "RR L"),
(rr_mhl, 16, "RR [HL]"),
(rr_a, 8, "RR A"),
(sla_c, 8, "SLA C"),
(sla_d, 8, "SLA D"),
(sla_e, 8, "SLA E"),
(sla_h, 8, "SLA H"),
(sla_l, 8, "SLA L"),
(sla_mhl, 16, "SLA [HL]"),
(sra_b, 8, "SRA B"),
(sra_c, 8, "SRA C"),
(sra_d, 8, "SRA D"),
(sra_e, 8, "SRA E"),
(sra_h, 8, "SRA H"),
(sra_l, 8, "SRA L"),
(sra_mhl, 16, "SRA [HL]"),
(sra_a, 8, "SRA A"),
(swap_b, 8, "SWAP B"),
(swap_c, 8, "SWAP C"),
(swap_d, 8, "SWAP D"),
(swap_e, 8, "SWAP E"),
(swap_h, 8, "SWAP H"),
(swap_l, 8, "SWAP L"),
(swap_mhl, 16, "SWAP [HL]"),
(srl_c, 8, "SRL B"),
(srl_d, 8, "SRL D"),
(srl_e, 8, "SRL E"),
(srl_h, 8, "SRL H"),
(srl_l, 8, "SRL L"),
(srl_mhl, 16, "SRL [HL]"),
(srl_a, 8, "SRL A"),
(bit_0_b, 8, "BIT 0, B"),
(bit_0_c, 8, "BIT 0, C"),
(bit_0_e, 8, "BIT 0, E"),
(bit_0_h, 8, "BIT 0, H"),
(bit_0_l, 8, "BIT 0, L"),
(bit_0_mhl, 12, "BIT 0, [HL]"),
(bit_0_a, 8, "BIT 0, A"),
(bit_1_b, 8, "BIT 1, B"),
(bit_1_c, 8, "BIT 1, C"),
(bit_1_d, 8, "BIT 1, D"),
(bit_1_e, 8, "BIT 1, E"),
(bit_1_h, 8, "BIT 1, H"),
(bit_1_l, 8, "BIT 1, L"),
(bit_1_mhl, 12, "BIT 1, [HL]"),
(bit_1_a, 8, "BIT 1, A"),
(bit_2_b, 8, "BIT 2, B"),
(bit_2_c, 8, "BIT 2, C"),
(bit_2_d, 8, "BIT 2, D"),
(bit_2_e, 8, "BIT 2, E"),
(bit_2_h, 8, "BIT 2, H"),
(bit_2_l, 8, "BIT 2, L"),
(bit_2_mhl, 12, "BIT 2, [HL]"),
(bit_2_a, 8, "BIT 2, A"),
(bit_3_b, 8, "BIT 3, B"),
(bit_3_c, 8, "BIT 3, C"),
(bit_3_d, 8, "BIT 3, D"),
(bit_3_e, 8, "BIT 3, E"),
(bit_3_h, 8, "BIT 3, H"),
(bit_3_l, 8, "BIT 3, L"),
(bit_3_mhl, 12, "BIT 3, [HL]"),
(bit_3_a, 8, "BIT 3, A"),
(bit_4_b, 8, "BIT 4, B"),
(bit_4_c, 8, "BIT 4, C"),
(bit_4_d, 8, "BIT 4, D"),
(bit_4_e, 8, "BIT 4, E"),
(bit_4_h, 8, "BIT 4, H"),
(bit_4_l, 8, "BIT 4, L"),
(bit_4_mhl, 12, "BIT 4, [HL]"),
(bit_4_a, 8, "BIT 4, A"),
(bit_5_b, 8, "BIT 5, B"),
(bit_5_c, 8, "BIT 5, C"),
(bit_5_d, 8, "BIT 5, D"),
(bit_5_e, 8, "BIT 5, E"),
(bit_5_h, 8, "BIT 5, H"),
(bit_5_l, 8, "BIT 5, L"),
(bit_5_mhl, 12, "BIT 5, [HL]"),
(bit_5_a, 8, "BIT 5, A"),
(bit_6_b, 8, "BIT 6, B"),
(bit_6_c, 8, "BIT 6, C"),
(bit_6_d, 8, "BIT 6, D"),
(bit_6_e, 8, "BIT 6, E"),
(bit_6_h, 8, "BIT 6, H"),
(bit_6_l, 8, "BIT 6, L"),
(bit_6_mhl, 12, "BIT 6, [HL]"),
(bit_6_a, 8, "BIT 6, A"),
(bit_7_b, 8, "BIT 7, B"),
(bit_7_c, 8, "BIT 7, C"),
(bit_7_d, 8, "BIT 7, D"),
(bit_7_e, 8, "BIT 7, E"),
(res_0_b, 8, "RES 0, B"),
(res_0_c, 8, "RES 0, C"),
(res_0_d, 8, "RES 0, D"),
(res_0_e, 8, "RES 0, E"),
(res_0_h, 8, "RES 0, H"),
(res_0_l, 8, "RES 0, L"),
(res_0_mhl, 16, "RES 0, A"),
(res_1_b, 8, "RES 1, B"),
(res_1_c, 8, "RES 1, C"),
(res_1_d, 8, "RES 1, D"),
(res_1_e, 8, "RES 1, E"),
(res_1_h, 8, "RES 1, H"),
(res_1_l, 8, "RES 1, L"),
(res_1_mhl, 16, "RES 1, A"),
(res_1_a, 8, "RES 1, A"),
(res_2_b, 8, "RES 2, B"),
(res_2_c, 8, "RES 2, C"),
(res_2_d, 8, "RES 2, D"),
(res_2_e, 8, "RES 2, E"),
(res_2_h, 8, "RES 2, H"),
(res_2_l, 8, "RES 2, L"),
(res_2_mhl, 16, "RES 2, A"),
(res_2_a, 8, "RES 2, A"),
(res_3_b, 8, "RES 3, B"),
(res_3_c, 8, "RES 3, C"),
(res_3_d, 8, "RES 3, D"),
(res_3_e, 8, "RES 3, E"),
(res_3_h, 8, "RES 3, H"),
(res_3_l, 8, "RES 3, L"),
(res_3_mhl, 16, "RES 3, A"),
(res_3_a, 8, "RES 3, A"),
(res_4_b, 8, "RES 4, B"),
(res_4_c, 8, "RES 4, C"),
(res_4_d, 8, "RES 4, D"),
(res_4_e, 8, "RES 4, E"),
(res_4_h, 8, "RES 4, H"),
(res_4_l, 8, "RES 4, L"),
(res_4_mhl, 16, "RES 4, A"),
(res_4_a, 8, "RES 4, A"),
(res_5_b, 8, "RES 5, B"),
(res_5_c, 8, "RES 5, C"),
(res_5_d, 8, "RES 5, D"),
(res_5_e, 8, "RES 5, E"),
(res_5_h, 8, "RES 5, H"),
(res_5_l, 8, "RES 5, L"),
(res_5_mhl, 16, "RES 5, A"),
(res_5_a, 8, "RES 5, A"),
(res_6_b, 8, "RES 6, B"),
(res_6_c, 8, "RES 6, C"),
(res_6_d, 8, "RES 6, D"),
(res_6_e, 8, "RES 6, E"),
(res_6_h, 8, "RES 6, H"),
(res_6_l, 8, "RES 6, L"),
(res_6_mhl, 16, "RES 6, A"),
(res_6_a, 8, "RES 6, A"),
(res_7_b, 8, "RES 7, B"),
(res_7_c, 8, "RES 7, C"),
(res_7_d, 8, "RES 7, D"),
(res_7_e, 8, "RES 7, E"),
(res_7_h, 8, "RES 7, H"),
(res_7_l, 8, "RES 7, L"),
(res_7_mhl, 16, "RES 7, A"),
(res_7_a, 8, "RES 7, A"),
(set_0_b, 8, "SET 0, B"),
(set_0_c, 8, "SET 0, C"),
(set_0_d, 8, "SET 0, D"),
(set_0_e, 8, "SET 0, E"),
(set_0_h, 8, "SET 0, H"),
(set_0_l, 8, "SET 0, L"),
(set_0_mhl, 16, "SET 0, [HL]"),
(set_0_a, 8, "SET 0, A"),
(set_1_b, 8, "SET 1, B"),
(set_1_c, 8, "SET 1, C"),
(set_1_d, 8, "SET 1, D"),
(set_1_e, 8, "SET 1, E"),
(set_1_h, 8, "SET 1, H"),
(set_1_l, 8, "SET 1, L"),
(set_1_mhl, 16, "SET 1, [HL]"),
(set_1_a, 8, "SET 1, A"),
(set_2_b, 8, "SET 2, B"),
(set_2_c, 8, "SET 2, C"),
(set_2_d, 8, "SET 2, D"),
(set_2_e, 8, "SET 2, E"),
(set_2_h, 8, "SET 2, H"),
(set_2_l, 8, "SET 2, L"),
(set_2_mhl, 16, "SET 2, [HL]"),
(set_2_a, 8, "SET 2, A"),
(set_3_b, 8, "SET 3, B"),
(set_3_c, 8, "SET 3, C"),
(set_3_d, 8, "SET 3, D"),
(set_3_e, 8, "SET 3, E"),
(set_3_h, 8, "SET 3, H"),
(set_3_l, 8, "SET 3, L"),
(set_4_b, 8, "SET 4, B"),
(set_4_c, 8, "SET 4, C"),
(set_4_d, 8, "SET 4, D"),
(set_4_e, 8, "SET 4, E"),
(set_4_h, 8, "SET 4, H"),
(set_4_l, 8, "SET 4, L"),
(set_4_mhl, 16, "SET 4, [HL]"),
(set_5_b, 8, "SET 5, B"),
(set_5_c, 8, "SET 5, C"),
(set_5_d, 8, "SET 5, D"),
(set_5_e, 8, "SET 5, E"),
(set_5_h, 8, "SET 5, H"),
(set_5_l, 8, "SET 5, L"),
(set_5_mhl, 16, "SET 5, [HL]"),
(set_5_a, 8, "SET 5, A"),
(set_6_b, 8, "SET 6, B"),
(set_6_c, 8, "SET 6, C"),
(set_6_d, 8, "SET 6, D"),
(set_6_e, 8, "SET 6, E"),
(set_6_h, 8, "SET 6, H"),
(set_6_l, 8, "SET 6, L"),
(set_6_mhl, 16, "SET 6, [HL]"),
(set_6_a, 8, "SET 6, A"),
(set_7_b, 8, "SET 7, B"),
(set_7_c, 8, "SET 7, C"),
(set_7_d, 8, "SET 7, D"),
(set_7_e, 8, "SET 7, E"),
(set_7_h, 8, "SET 7, H"),
(set_7_l, 8, "SET 7, L"),
(set_7_mhl, 16, "SET 7, [HL]"),
(set_7_a, 8, "SET 7, A"),
fn illegal(_cpu: &mut Cpu) {
panic!("Illegal instruction");
}
fn ld_bc_u16(cpu: &mut Cpu) {
let word = cpu.read_u16();
cpu.set_bc(word);
}
fn ld_mbc_a(cpu: &mut Cpu) {
cpu.mmu.write(cpu.bc(), cpu.a);
}
fn inc_bc(cpu: &mut Cpu) {
cpu.set_bc(cpu.bc().wrapping_add(1));
}
fn inc_b(cpu: &mut Cpu) {
let b = cpu.b;
let value = b.wrapping_add(1);
cpu.set_sub(false);
cpu.set_zero(value == 0);
cpu.b = value;
}
fn dec_b(cpu: &mut Cpu) {
let b = cpu.b;
let value = b.wrapping_sub(1);
cpu.set_sub(true);
cpu.set_zero(value == 0);
cpu.set_half_carry((b & 0xf) == 0x0);
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cpu.b = value;
}
fn ld_b_u8(cpu: &mut Cpu) {
let byte = cpu.read_u8();
cpu.b = byte;
}
fn rlca(cpu: &mut Cpu) {
let carry = cpu.a >> 7;
cpu.a = cpu.a << 1 | carry;
cpu.set_sub(false);
cpu.set_zero(false);
cpu.set_half_carry(false);
cpu.set_carry(carry == 1);
}
fn ld_mu16_sp(cpu: &mut Cpu) {
let word = cpu.read_u16();
cpu.mmu.write(word, cpu.sp as u8);
cpu.mmu.write(word + 1, (cpu.sp >> 8) as u8);
}
fn add_hl_bc(cpu: &mut Cpu) {
let value = add_u16_u16(cpu, cpu.hl(), cpu.bc());
cpu.set_hl(value);
}
fn ld_a_mbc(cpu: &mut Cpu) {
let byte = cpu.mmu.read(cpu.bc());
cpu.a = byte;
}
fn dec_bc(cpu: &mut Cpu) {
cpu.set_bc(cpu.bc().wrapping_sub(1));
}
fn inc_c(cpu: &mut Cpu) {
let value = cpu.c.wrapping_add(1);
cpu.set_sub(false);
cpu.set_zero(value == 0);
cpu.c = value;
}
fn dec_c(cpu: &mut Cpu) {
let c = cpu.c;
let value = c.wrapping_sub(1);
cpu.set_sub(true);
cpu.set_zero(value == 0);
cpu.set_half_carry((c & 0xf) == 0x0);
cpu.c = value;
}
fn ld_c_u8(cpu: &mut Cpu) {
let byte = cpu.read_u8();
cpu.c = byte;
}
fn rrca(cpu: &mut Cpu) {
let carry = cpu.a & 0x1;
cpu.a = (cpu.a >> 1) | (carry << 7);
cpu.set_sub(false);
cpu.set_zero(false);
cpu.set_half_carry(false);
cpu.set_carry(carry != 0x0);
}
fn stop(cpu: &mut Cpu) {
cpu.stop();
}
fn ld_de_u16(cpu: &mut Cpu) {
let word = cpu.read_u16();
cpu.set_de(word);
}
fn ld_mde_a(cpu: &mut Cpu) {
cpu.mmu.write(cpu.de(), cpu.a);
}
fn inc_de(cpu: &mut Cpu) {
cpu.set_de(cpu.de().wrapping_add(1));
}
let d = cpu.d;
let value = d.wrapping_add(1);
cpu.set_sub(false);
cpu.set_zero(value == 0);
fn dec_d(cpu: &mut Cpu) {
let d = cpu.d;
let value = d.wrapping_sub(1);
cpu.set_sub(true);
cpu.set_zero(value == 0);
cpu.set_half_carry((d & 0xf) == 0x0);
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cpu.d = value;
}
fn ld_d_u8(cpu: &mut Cpu) {
let byte = cpu.read_u8();
cpu.d = byte;
}
fn rla(cpu: &mut Cpu) {
let carry = cpu.get_carry();
cpu.set_carry(cpu.a & 0x80 == 0x80);
cpu.a = cpu.a << 1 | carry as u8;
cpu.set_sub(false);
cpu.set_zero(false);
cpu.set_half_carry(false);
}
fn jr_i8(cpu: &mut Cpu) {
let byte = cpu.read_u8() as i8;
cpu.pc = (cpu.pc as i16).wrapping_add(byte as i16) as u16;
}
fn add_hl_de(cpu: &mut Cpu) {
let value = add_u16_u16(cpu, cpu.hl(), cpu.de());
cpu.set_hl(value);
}
fn ld_a_mde(cpu: &mut Cpu) {
let byte = cpu.mmu.read(cpu.de());
cpu.a = byte;
}
fn dec_de(cpu: &mut Cpu) {
cpu.set_de(cpu.de().wrapping_sub(1));
}
let value = cpu.e.wrapping_add(1);
cpu.set_sub(false);
cpu.set_zero(value == 0);
fn dec_e(cpu: &mut Cpu) {
let e = cpu.e;
let value = e.wrapping_sub(1);
cpu.set_sub(true);
cpu.set_zero(value == 0);
cpu.set_half_carry((e & 0xf) == 0x0);
cpu.e = value;
}
fn ld_e_u8(cpu: &mut Cpu) {
let byte = cpu.read_u8();
cpu.e = byte;
}
fn rra(cpu: &mut Cpu) {
let carry = cpu.get_carry();
cpu.set_carry(cpu.a & 0x01 == 0x01);
cpu.a = cpu.a >> 1 | ((carry as u8) << 7);
cpu.set_sub(false);
cpu.set_zero(false);
cpu.set_half_carry(false);
}
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fn jr_nz_i8(cpu: &mut Cpu) {
let byte = cpu.read_u8() as i8;
if cpu.get_zero() {
return;
}
cpu.pc = (cpu.pc as i16).wrapping_add(byte as i16) as u16;
cpu.ticks = cpu.ticks.wrapping_add(4);
}
fn ld_hl_u16(cpu: &mut Cpu) {
let word = cpu.read_u16();
cpu.set_hl(word);
}
fn ld_mhli_a(cpu: &mut Cpu) {
cpu.mmu.write(cpu.hl(), cpu.a);
cpu.set_hl(cpu.hl().wrapping_add(1));
}
fn inc_hl(cpu: &mut Cpu) {
cpu.set_hl(cpu.hl().wrapping_add(1));
}
fn inc_h(cpu: &mut Cpu) {
let value = cpu.h.wrapping_add(1);
cpu.set_sub(false);
cpu.set_zero(value == 0);
fn dec_h(cpu: &mut Cpu) {
let h = cpu.h;
let value = h.wrapping_sub(1);
cpu.set_sub(true);
cpu.set_zero(value == 0);
cpu.set_half_carry((h & 0xf) == 0x0);
cpu.h = value;
}
fn ld_h_u8(cpu: &mut Cpu) {
let byte = cpu.read_u8();
cpu.h = byte;
}
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fn daa(cpu: &mut Cpu) {
let a = cpu.a;
let mut adjust = 0;
if cpu.get_half_carry() {
adjust |= 0x06;
}
if cpu.get_carry() {
// Yes, we have to adjust it.
adjust |= 0x60;
}
let res = if cpu.get_sub() {
a.wrapping_sub(adjust)
} else {
if a & 0x0F > 0x09 {
adjust |= 0x06;
}
if a > 0x99 {
adjust |= 0x60;
}
a.wrapping_add(adjust)
};
cpu.a = res;
cpu.set_zero(res == 0);
cpu.set_half_carry(false);
cpu.set_carry(adjust & 0x60 == 0x60);
}
fn jr_z_i8(cpu: &mut Cpu) {
let byte = cpu.read_u8() as i8;
if !cpu.get_zero() {
return;
}
cpu.pc = (cpu.pc as i16).wrapping_add(byte as i16) as u16;
cpu.ticks = cpu.ticks.wrapping_add(4);
}
fn add_hl_hl(cpu: &mut Cpu) {
let value = add_u16_u16(cpu, cpu.hl(), cpu.hl());
cpu.set_hl(value);
}
fn ld_a_mhli(cpu: &mut Cpu) {
let byte = cpu.mmu.read(cpu.hl());
cpu.a = byte;
cpu.set_hl(cpu.hl().wrapping_add(1));
}
fn dec_hl(cpu: &mut Cpu) {
cpu.set_hl(cpu.hl().wrapping_sub(1));
}
let l = cpu.l;
let value = l.wrapping_add(1);
cpu.set_sub(false);
cpu.set_zero(value == 0);
fn dec_l(cpu: &mut Cpu) {
let l = cpu.l;
let value = l.wrapping_sub(1);
cpu.set_sub(true);
cpu.set_zero(value == 0);
fn ld_l_u8(cpu: &mut Cpu) {
let byte = cpu.read_u8();
cpu.l = byte;
}
fn cpl(cpu: &mut Cpu) {
cpu.a = !cpu.a;
cpu.set_sub(true);
cpu.set_half_carry(true);
}
fn ld_sp_u16(cpu: &mut Cpu) {
cpu.sp = cpu.read_u16();
}
fn jr_nc_i8(cpu: &mut Cpu) {
if cpu.get_carry() {
return;
}
cpu.pc = (cpu.pc as i16).wrapping_add(byte as i16) as u16;
cpu.ticks = cpu.ticks.wrapping_add(4);
}
fn ld_mhld_a(cpu: &mut Cpu) {
cpu.mmu.write(cpu.hl(), cpu.a);
cpu.set_hl(cpu.hl().wrapping_sub(1));
}
fn inc_sp(cpu: &mut Cpu) {
cpu.sp = cpu.sp.wrapping_add(1);
}
fn inc_mhl(cpu: &mut Cpu) {
let byte = cpu.mmu.read(cpu.hl());
let value = byte.wrapping_add(1);
cpu.set_sub(false);
cpu.set_zero(value == 0);
cpu.set_half_carry((byte & 0xf) == 0xf);
cpu.mmu.write(cpu.hl(), value);
}
fn dec_mhl(cpu: &mut Cpu) {
let byte = cpu.mmu.read(cpu.hl());
let value = byte.wrapping_sub(1);
cpu.set_sub(true);
cpu.set_zero(value == 0);
cpu.set_half_carry((byte & 0xf) == 0x0);
fn ld_mhl_u8(cpu: &mut Cpu) {
let byte = cpu.read_u8();
cpu.mmu.write(cpu.hl(), byte);
}
fn scf(cpu: &mut Cpu) {
cpu.set_sub(false);
cpu.set_half_carry(false);
cpu.set_carry(true);
}
if !cpu.get_carry() {
return;
}
cpu.pc = (cpu.pc as i16).wrapping_add(byte as i16) as u16;
cpu.ticks = cpu.ticks.wrapping_add(4);
}
fn add_hl_sp(cpu: &mut Cpu) {
let value = add_u16_u16(cpu, cpu.hl(), cpu.sp());
cpu.set_hl(value);
}