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fn ld_c_h(cpu: &mut Cpu) {
cpu.c = cpu.h;
}
fn ld_c_l(cpu: &mut Cpu) {
cpu.c = cpu.l;
}
fn ld_c_mhl(cpu: &mut Cpu) {
let byte = cpu.mmu.read(cpu.hl());
cpu.c = byte;
}
fn ld_c_a(cpu: &mut Cpu) {
cpu.c = cpu.a;
}
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fn ld_d_b(cpu: &mut Cpu) {
cpu.d = cpu.b;
}
fn ld_d_c(cpu: &mut Cpu) {
cpu.d = cpu.c;
}
fn ld_d_d(cpu: &mut Cpu) {
cpu.d = cpu.d;
}
fn ld_d_e(cpu: &mut Cpu) {
cpu.d = cpu.e;
}
fn ld_d_h(cpu: &mut Cpu) {
cpu.d = cpu.h;
}
fn ld_d_l(cpu: &mut Cpu) {
cpu.d = cpu.l;
}
fn ld_d_mhl(cpu: &mut Cpu) {
let byte = cpu.mmu.read(cpu.hl());
cpu.d = byte;
}
fn ld_d_a(cpu: &mut Cpu) {
cpu.d = cpu.a;
}
fn ld_e_b(cpu: &mut Cpu) {
cpu.e = cpu.b;
}
fn ld_e_c(cpu: &mut Cpu) {
cpu.e = cpu.c;
}
fn ld_e_d(cpu: &mut Cpu) {
cpu.e = cpu.d;
}
fn ld_e_e(cpu: &mut Cpu) {
cpu.e = cpu.e;
}
fn ld_e_h(cpu: &mut Cpu) {
cpu.e = cpu.h;
}
fn ld_e_l(cpu: &mut Cpu) {
cpu.e = cpu.l;
}
fn ld_e_mhl(cpu: &mut Cpu) {
let byte = cpu.mmu.read(cpu.hl());
cpu.e = byte;
}
fn ld_e_a(cpu: &mut Cpu) {
cpu.e = cpu.a;
}
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fn ld_h_b(cpu: &mut Cpu) {
cpu.h = cpu.b;
}
fn ld_h_c(cpu: &mut Cpu) {
cpu.h = cpu.c;
}
fn ld_h_d(cpu: &mut Cpu) {
cpu.h = cpu.d;
}
fn ld_h_e(cpu: &mut Cpu) {
cpu.h = cpu.e;
}
fn ld_h_h(cpu: &mut Cpu) {
cpu.h = cpu.h;
}
fn ld_h_l(cpu: &mut Cpu) {
cpu.h = cpu.l;
}
fn ld_h_mhl(cpu: &mut Cpu) {
let byte = cpu.mmu.read(cpu.hl());
cpu.h = byte;
}
fn ld_h_a(cpu: &mut Cpu) {
cpu.h = cpu.a;
}
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fn ld_l_b(cpu: &mut Cpu) {
cpu.l = cpu.b;
}
fn ld_l_c(cpu: &mut Cpu) {
cpu.l = cpu.c;
}
fn ld_l_d(cpu: &mut Cpu) {
cpu.l = cpu.d;
}
fn ld_l_e(cpu: &mut Cpu) {
cpu.l = cpu.e;
}
fn ld_l_h(cpu: &mut Cpu) {
cpu.l = cpu.h;
}
fn ld_l_l(cpu: &mut Cpu) {
cpu.l = cpu.l;
}
fn ld_l_mhl(cpu: &mut Cpu) {
let byte = cpu.mmu.read(cpu.hl());
cpu.l = byte;
}
fn ld_l_a(cpu: &mut Cpu) {
cpu.l = cpu.a;
}
fn ld_mhl_b(cpu: &mut Cpu) {
cpu.mmu.write(cpu.hl(), cpu.b);
}
fn ld_mhl_c(cpu: &mut Cpu) {
cpu.mmu.write(cpu.hl(), cpu.c);
}
fn ld_mhl_d(cpu: &mut Cpu) {
cpu.mmu.write(cpu.hl(), cpu.d);
}
fn ld_mhl_e(cpu: &mut Cpu) {
cpu.mmu.write(cpu.hl(), cpu.e);
}
fn ld_mhl_h(cpu: &mut Cpu) {
cpu.mmu.write(cpu.hl(), cpu.h);
}
fn ld_mhl_l(cpu: &mut Cpu) {
cpu.mmu.write(cpu.hl(), cpu.l);
}
fn halt(cpu: &mut Cpu) {
cpu.halt();
}
fn ld_mhl_a(cpu: &mut Cpu) {
cpu.mmu.write(cpu.hl(), cpu.a);
}
fn ld_a_b(cpu: &mut Cpu) {
cpu.a = cpu.b;
}
fn ld_a_c(cpu: &mut Cpu) {
cpu.a = cpu.c;
}
fn ld_a_d(cpu: &mut Cpu) {
cpu.a = cpu.d;
}
fn ld_a_e(cpu: &mut Cpu) {
cpu.a = cpu.e;
}
fn ld_a_h(cpu: &mut Cpu) {
cpu.a = cpu.h;
}
fn ld_a_l(cpu: &mut Cpu) {
cpu.a = cpu.l;
}
fn ld_a_mhl(cpu: &mut Cpu) {
let byte = cpu.mmu.read(cpu.hl());
cpu.a = byte;
}
fn ld_a_a(cpu: &mut Cpu) {
cpu.a = cpu.a;
}
fn add_a_b(cpu: &mut Cpu) {
cpu.a = add_set_flags(cpu, cpu.a, cpu.b);
}
fn add_a_c(cpu: &mut Cpu) {
cpu.a = add_set_flags(cpu, cpu.a, cpu.c);
}
fn add_a_e(cpu: &mut Cpu) {
cpu.a = add_set_flags(cpu, cpu.a, cpu.e);
}
fn add_a_mhl(cpu: &mut Cpu) {
let byte = cpu.mmu.read(cpu.hl());
cpu.a = add_set_flags(cpu, cpu.a, byte);
}
fn sub_a_b(cpu: &mut Cpu) {
cpu.a = sub_set_flags(cpu, cpu.a, cpu.b);
}
fn sub_a_a(cpu: &mut Cpu) {
cpu.a = sub_set_flags(cpu, cpu.a, cpu.a);
}
fn and_a_c(cpu: &mut Cpu) {
cpu.a &= cpu.c;
cpu.set_sub(false);
cpu.set_zero(cpu.a == 0);
cpu.set_half_carry(true);
cpu.set_carry(false);
}
fn xor_a_c(cpu: &mut Cpu) {
cpu.a ^= cpu.c;
cpu.set_sub(false);
cpu.set_zero(cpu.a == 0);
cpu.set_half_carry(false);
cpu.set_carry(false);
}
fn xor_a_l(cpu: &mut Cpu) {
cpu.a ^= cpu.l;
cpu.set_sub(false);
cpu.set_zero(cpu.a == 0);
cpu.set_half_carry(false);
cpu.set_carry(false);
}
fn xor_a_mhl(cpu: &mut Cpu) {
let byte = cpu.mmu.read(cpu.hl());
cpu.a ^= byte;
cpu.set_sub(false);
cpu.set_zero(cpu.a == 0);
cpu.set_half_carry(false);
cpu.set_carry(false);
}
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fn xor_a_a(cpu: &mut Cpu) {
cpu.a ^= cpu.a;
cpu.set_sub(false);
cpu.set_zero(cpu.a == 0);
cpu.set_half_carry(false);
cpu.set_carry(false);
}
fn or_a_b(cpu: &mut Cpu) {
cpu.a |= cpu.b;
cpu.set_sub(false);
cpu.set_zero(cpu.a == 0);
cpu.set_half_carry(false);
cpu.set_carry(false);
}
fn or_a_c(cpu: &mut Cpu) {
cpu.a |= cpu.c;
cpu.set_sub(false);
cpu.set_zero(cpu.a == 0);
cpu.set_half_carry(false);
cpu.set_carry(false);
}
fn or_a_mhl(cpu: &mut Cpu) {
let byte = cpu.mmu.read(cpu.hl());
cpu.a |= byte;
cpu.set_sub(false);
cpu.set_zero(cpu.a == 0);
cpu.set_half_carry(false);
cpu.set_carry(false);
}
fn or_a_a(cpu: &mut Cpu) {
cpu.a |= cpu.a;
cpu.set_sub(false);
cpu.set_zero(cpu.a == 0);
cpu.set_half_carry(false);
cpu.set_carry(false);
}
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fn cp_a_b(cpu: &mut Cpu) {
sub_set_flags(cpu, cpu.a, cpu.b);
}
fn cp_a_c(cpu: &mut Cpu) {
sub_set_flags(cpu, cpu.a, cpu.c);
}
fn cp_a_d(cpu: &mut Cpu) {
sub_set_flags(cpu, cpu.a, cpu.d);
}
fn cp_a_e(cpu: &mut Cpu) {
sub_set_flags(cpu, cpu.a, cpu.e);
}
fn cp_a_h(cpu: &mut Cpu) {
sub_set_flags(cpu, cpu.a, cpu.h);
}
fn cp_a_l(cpu: &mut Cpu) {
sub_set_flags(cpu, cpu.a, cpu.l);
}
fn cp_a_mhl(cpu: &mut Cpu) {
let byte = cpu.mmu.read(cpu.hl());
sub_set_flags(cpu, cpu.a, byte);
}
fn cp_a_a(cpu: &mut Cpu) {
sub_set_flags(cpu, cpu.a, cpu.a);
}
fn ret_nz(cpu: &mut Cpu) {
if cpu.get_zero() {
return;
}
cpu.pc = cpu.pop_word();
cpu.ticks = cpu.ticks.wrapping_add(12);
}
fn pop_bc(cpu: &mut Cpu) {
let word = cpu.pop_word();
cpu.set_bc(word);
}
fn jp_nz_u16(cpu: &mut Cpu) {
let word = cpu.read_u16();
if cpu.get_zero() {
return;
}
cpu.pc = word;
cpu.ticks = cpu.ticks.wrapping_add(4);
}
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fn jp_u16(cpu: &mut Cpu) {
let word = cpu.read_u16();
cpu.pc = word;
}
fn call_nz_u16(cpu: &mut Cpu) {
let word = cpu.read_u16();
if cpu.get_zero() {
return;
}
cpu.push_word(cpu.pc);
cpu.pc = word;
cpu.ticks = cpu.ticks.wrapping_add(12);
}
fn push_bc(cpu: &mut Cpu) {
cpu.push_word(cpu.bc());
}
fn add_a_u8(cpu: &mut Cpu) {
let byte = cpu.read_u8();
cpu.a = add_set_flags(cpu, cpu.a, byte);
}
fn ret_z(cpu: &mut Cpu) {
if !cpu.get_zero() {
return;
}
cpu.pc = cpu.pop_word();
cpu.ticks = cpu.ticks.wrapping_add(12);
}
fn ret(cpu: &mut Cpu) {
cpu.pc = cpu.pop_word();
}
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fn jp_z_u16(cpu: &mut Cpu) {
let word = cpu.read_u16();
if !cpu.get_zero() {
return;
}
cpu.pc = word;
cpu.ticks = cpu.ticks.wrapping_add(4);
}
fn call_z_u16(cpu: &mut Cpu) {
let word = cpu.read_u16();
if !cpu.get_zero() {
return;
}
cpu.push_word(cpu.pc);
cpu.pc = word;
cpu.ticks = cpu.ticks.wrapping_add(12);
}
fn call_u16(cpu: &mut Cpu) {
let word = cpu.read_u16();
cpu.push_word(cpu.pc);
cpu.pc = word;
}
fn adc_a_u8(cpu: &mut Cpu) {
let byte = cpu.read_u8();
cpu.a = add_carry_set_flags(cpu, cpu.a, byte);
}
fn rst_08h(cpu: &mut Cpu) {
rst(cpu, 0x0008);
}
fn ret_nc(cpu: &mut Cpu) {
if cpu.get_carry() {
return;
}
cpu.pc = cpu.pop_word();
cpu.ticks = cpu.ticks.wrapping_add(12);
}
fn pop_de(cpu: &mut Cpu) {
let word = cpu.pop_word();
cpu.set_de(word);
}
fn push_de(cpu: &mut Cpu) {
cpu.push_word(cpu.de());
}
fn sub_a_u8(cpu: &mut Cpu) {
let byte = cpu.read_u8();
cpu.a = sub_set_flags(cpu, cpu.a, byte);
}
fn ret_c(cpu: &mut Cpu) {
if !cpu.get_carry() {
return;
}
cpu.pc = cpu.pop_word();
cpu.ticks = cpu.ticks.wrapping_add(12);
}
fn reti(cpu: &mut Cpu) {
cpu.pc = cpu.pop_word();
cpu.enable_int();
}
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fn jp_c_u16(cpu: &mut Cpu) {
let word = cpu.read_u16();
if !cpu.get_carry() {
return;
}
cpu.pc = word;
cpu.ticks = cpu.ticks.wrapping_add(4);
}
fn call_c_u16(cpu: &mut Cpu) {
let word = cpu.read_u16();
if !cpu.get_carry() {
return;
}
cpu.push_word(cpu.pc);
cpu.pc = word;
cpu.ticks = cpu.ticks.wrapping_add(12);
}
fn ld_mff00u8_a(cpu: &mut Cpu) {
let byte = cpu.read_u8();
cpu.mmu.write(0xff00 + byte as u16, cpu.a);
}
fn pop_hl(cpu: &mut Cpu) {
let word = cpu.pop_word();
cpu.set_hl(word);
}
fn ld_mff00c_a(cpu: &mut Cpu) {
cpu.mmu.write(0xff00 + cpu.c as u16, cpu.a);
}
fn push_hl(cpu: &mut Cpu) {
cpu.push_word(cpu.hl());
}
fn and_a_u8(cpu: &mut Cpu) {
let byte = cpu.read_u8();
cpu.a &= byte;
cpu.set_sub(false);
cpu.set_zero(cpu.a == 0);
cpu.set_half_carry(true);
cpu.set_carry(false);
}
fn jp_hl(cpu: &mut Cpu) {
cpu.pc = cpu.hl();
}
fn ld_mu16_a(cpu: &mut Cpu) {
let word = cpu.read_u16();
cpu.mmu.write(word, cpu.a);
}
fn xor_a_u8(cpu: &mut Cpu) {
let byte = cpu.read_u8();
cpu.a ^= byte;
cpu.set_sub(false);
cpu.set_zero(cpu.a == 0);
cpu.set_half_carry(false);
cpu.set_carry(false);
}
fn rst_18h(cpu: &mut Cpu) {
rst(cpu, 0x0018);
}
fn ld_a_mff00u8(cpu: &mut Cpu) {
let byte = cpu.read_u8();
cpu.a = cpu.mmu.read(0xff00 + byte as u16);
}
fn pop_af(cpu: &mut Cpu) {
let word = cpu.pop_word();
cpu.set_af(word);
}
fn di(cpu: &mut Cpu) {
cpu.disable_int();
}
fn push_af(cpu: &mut Cpu) {
cpu.push_word(cpu.af());
}
fn ld_a_mu16(cpu: &mut Cpu) {
let word = cpu.read_u16();
let byte = cpu.mmu.read(word);
cpu.a = byte;
}
fn ei(cpu: &mut Cpu) {
cpu.enable_int();
}
fn cp_a_u8(cpu: &mut Cpu) {
let byte = cpu.read_u8();
sub_set_flags(cpu, cpu.a, byte);
}
fn rst_38h(cpu: &mut Cpu) {
rst(cpu, 0x0038);
}
fn rl_c(cpu: &mut Cpu) {
cpu.c = rl(cpu, cpu.c);
}
fn rr_c(cpu: &mut Cpu) {
cpu.c = rr(cpu, cpu.c);
}
fn rr_d(cpu: &mut Cpu) {
cpu.d = rr(cpu, cpu.d);
}
fn rr_e(cpu: &mut Cpu) {
cpu.e = rr(cpu, cpu.e);
}
fn sla_b(cpu: &mut Cpu) {
cpu.b = sla(cpu, cpu.b);
}
fn swap_a(cpu: &mut Cpu) {
cpu.a = swap(cpu, cpu.a)
}
fn srl_b(cpu: &mut Cpu) {
cpu.b = srl(cpu, cpu.b);
}
fn bit_0_d(cpu: &mut Cpu) {
bit_d(cpu, 0);
}
fn bit_7_h(cpu: &mut Cpu) {
bit_h(cpu, 7);
}
fn res_7_mhl(cpu: &mut Cpu) {
let hl = cpu.hl();
let byte = cpu.mmu.read(hl);
let value = res(byte, 7);
cpu.mmu.write(hl, value);
}
fn set_4_a(cpu: &mut Cpu) {
cpu.a = set(cpu.a, 4);
}
/// Helper function to set one bit in a u8.
fn set(value: u8, bit: u8) -> u8 {
value | (1u8 << (bit as usize))
}
/// Helper function to clear one bit in a u8
fn res(value: u8, bit: u8) -> u8 {
value & !(1u8 << (bit as usize))
}
/// Helper function that rotates (shifts) left the given
/// byte (probably from a register) and updates the
/// proper flag registers.
fn rl(cpu: &mut Cpu, value: u8) -> u8 {
let result = (value << 1) | carry as u8;
cpu.set_sub(false);
cpu.set_zero(result == 0);
cpu.set_half_carry(false);
result
}
/// Helper function that rotates (shifts) right the given
/// byte (probably from a register) and updates the
/// proper flag registers.
fn rr(cpu: &mut Cpu, value: u8) -> u8 {
let carry = cpu.get_carry();
cpu.set_carry(value & 0x01 == 0x01);
let result = (value >> 1) | ((carry as u8) << 7);
cpu.set_sub(false);
cpu.set_zero(result == 0);
cpu.set_half_carry(false);
result
}
/// Helper function to test one bit in a u8.
/// Returns true if bit is 0.
fn bit_zero(val: u8, bit: u8) -> bool {
(val & (1u8 << (bit as usize))) == 0
}
fn bit_d(cpu: &mut Cpu, bit: u8) {
cpu.set_sub(false);
cpu.set_zero(bit_zero(cpu.d, bit));
cpu.set_half_carry(true);
}
fn bit_h(cpu: &mut Cpu, bit: u8) {
cpu.set_sub(false);
cpu.set_zero(bit_zero(cpu.h, bit));
cpu.set_half_carry(true);
}
fn add_set_flags(cpu: &mut Cpu, first: u8, second: u8) -> u8 {
let first = first as u32;
let second = second as u32;
let result = first.wrapping_add(second);
let result_b = result as u8;
cpu.set_zero(result_b == 0);
cpu.set_half_carry((first ^ second ^ result) & 0x10 == 0x10);
cpu.set_carry(result & 0x100 == 0x100);
fn add_carry_set_flags(cpu: &mut Cpu, first: u8, second: u8) -> u8 {
let first = first as u32;
let second = second as u32;
let carry = cpu.get_carry() as u32;
let result = first.wrapping_add(second).wrapping_add(carry);
let result_b = result as u8;
cpu.set_sub(false);
cpu.set_zero(result_b == 0);
cpu.set_half_carry((first ^ second ^ result) & 0x10 == 0x10);
cpu.set_carry(result & 0x100 == 0x100);
result_b
}
fn sub_set_flags(cpu: &mut Cpu, first: u8, second: u8) -> u8 {
let first = first as u32;
let second = second as u32;
let result = first.wrapping_sub(second);
let result_b = result as u8;
cpu.set_zero(result_b == 0);
cpu.set_half_carry((first ^ second ^ result) & 0x10 == 0x10);
cpu.set_carry(result & 0x100 == 0x100);
}
fn add_u16_u16(cpu: &mut Cpu, first: u16, second: u16) -> u16 {
let first = first as u32;
let second = second as u32;
cpu.set_half_carry((first ^ second ^ result) & 0x1000 == 0x1000);
cpu.set_carry(result & 0x10000 == 0x10000);
}
fn swap(cpu: &mut Cpu, value: u8) -> u8 {
cpu.set_sub(false);
cpu.set_zero(value == 0);
cpu.set_half_carry(false);
cpu.set_carry(false);
(value << 4) | (value >> 4)
}
/// Helper function to shift an `u8` to the left and update CPU
/// flags.
fn sla(cpu: &mut Cpu, value: u8) -> u8 {
let result = value << 1;
cpu.set_sub(false);
cpu.set_zero(result == 0);
cpu.set_half_carry(false);
cpu.set_carry(value & 0x80 != 0);
result
}
fn srl(cpu: &mut Cpu, value: u8) -> u8 {
let result = value >> 1;
cpu.set_sub(false);
cpu.set_zero(result == 0);
cpu.set_half_carry(false);
cpu.set_carry(value & 0x01 == 0x01);
result
}
/// Helper function for RST instructions, pushes the
/// current PC to the stack and jumps to the provided
/// address.
fn rst(cpu: &mut Cpu, addr: u16) {
cpu.push_word(cpu.pc);
cpu.pc = addr;
}