def cp(cpu, opcode, logger): regInd = opcode & 7 value = cpu.A - cpu.regs[regInd] cpu.ZFlag = Bits.isZero(value) cpu.CFlag = Bits.carryFlag(value) cpu.NFlag = Bits.set() cpu.HFlag = Bits.halfCarrySub(cpu.A, value) cpu.SFlag = Bits.signFlag(value) cpu.PVFlag = Bits.overflow(value, cpu.A) cpu.m_cycles, cpu.t_states = 1, 4 logger.info("CP {}".format(IndexToReg.translate8Bit(regInd)))
def cp_hl(cpu, opcode, logger): value = cpu.A - cpu.ram[cpu.HL] cpu.ZFlag = Bits.isZero(value) cpu.CFlag = Bits.carryFlag(value) cpu.NFlag = Bits.set() cpu.HFlag = Bits.halfCarrySub(cpu.A, value) cpu.SFlag = Bits.signFlag(value) cpu.PVFlag = Bits.overflow(value, cpu.A) cpu.m_cycles, cpu.t_states = 1, 7 logger.info("CP (HL)")
def sub_n(cpu, opcode, logger): n = cpu.ram[cpu.PC] value = cpu.A - n cpu.NFlag = Bits.set() cpu.ZFlag = Bits.isZero(value) cpu.HFlag = Bits.halfCarrySub(cpu.A, value) cpu.PVFlag = Bits.overflow(cpu.A, value) cpu.CFlag = Bits.carryFlag(value) cpu.A = value logger.info("SUB {:02X}".format(n))
def cp(cpu, opcode, logger): regInd = opcode & 7 logger.info(regInd) value = cpu.A - cpu.regs[regInd] """Flags""" cpu.flags[ZF] = Bits.isZero(value) cpu.flags[CF] = Bits.carryFlag(value) cpu.flags[NF] = True cpu.flags[HF] = Bits.halfCarrySub(cpu.A, value) cpu.flags[SF] = Bits.signFlag(value) cpu.flags[PVF] = Bits.overflow(cpu.A, value) logger.info("CP r")
def sbc_hl(cpu, opcode, logger): old_val = cpu.A cpu.A = old_val - cpu.ram[cpu.HL] - (1 if cpu.CFlag else 0) cpu.SFlag = Bits.isNegative(cpu.A) cpu.ZFlag = Bits.isZero(cpu.A) cpu.NFlag = Bits.set() cpu.HFlag = Bits.halfCarrySub(old_val, cpu.A) cpu.PVFlag = Bits.overflow(old_val, cpu.A) cpu.CFlag = Bits.carryFlag(cpu.A) cpu.m_cycles, cpu.t_states = 2, 7 logger.info("SDC A, (HL)")
def cp_n(cpu, opcode, logger): n = cpu.ram[cpu.PC] old = cpu.A new = old - n cpu.SFlag = Bits.isNegative(new) cpu.ZFlag = Bits.isZero(new) cpu.HFlag = Bits.halfCarrySub(old, new) cpu.PVFlag = Bits.overflow(old, new) cpu.NFlag = Bits.set() cpu.CFlag = Bits.carryFlag(new) cpu.m_cycles, cpu.t_states = 2, 7 logger.info("CP {:02X}".format(n))
def add_r(cpu, opcode, logger): index = (opcode & 7) old = cpu.A cpu.A = old + cpu.regs[index] cpu.SFlag = Bits.isNegative(cpu.A) cpu.ZFlag = Bits.isZero(cpu.A) cpu.HFlag = Bits.halfCarrySub(old, cpu.A) cpu.PVFlag = Bits.overflow(old, cpu.A) cpu.NFlag = Bits.reset() cpu.CFlag = Bits.carryFlag(cpu.A) cpu.m_cycles, cpu.t_states = 1, 4 logger.info("ADD A, {}".format(IndexToReg.translate8Bit(index)))
def add_iy(cpu, opcode, logger): d = cpu.ram[cpu.PC] value = cpu.A + cpu.ram[cpu.IY+d] cpu.NFlag = Bits.reset() cpu.ZFlag = Bits.isZero(cpu.A) cpu.CFlag = Bits.carryFlag(value) cpu.SFlag = Bits.isNegative(cpu.A) cpu.PVFlag = Bits.overflow(cpu.A, value) cpu.HFlag = Bits.halfCarrySub(cpu.A, value) cpu.A = value cpu.m_cycles, cpu.t_states = 4, 15 logger.info("ADD A, (IY+{:02X})".format(d))
def adc_n(cpu, opcode, logger): n = cpu.ram[cpu.PC] old_val = cpu.A new_val = cpu.A + n + (1 if cpu.CFlag else 0) cpu.A = new_val cpu.SFlag = Bits.isNegative(cpu.A) cpu.ZFlag = Bits.isZero(cpu.A) cpu.HFlag = Bits.halfCarrySub(old_val, cpu.A) cpu.PVFlag = Bits.overflow(old_val, cpu.A) cpu.NFlag = Bits.reset() cpu.CFlag = Bits.carryFlag(new_val) logger.info("ADC A, {:02X}".format(n))
def sbc_r(cpu, opcode, logger): reg_idx = (opcode & 7) old_val = cpu.A cpu.A = old_val - cpu.regs[reg_idx] - (1 if cpu.CFlag else 0) cpu.SFlag = Bits.isNegative(cpu.A) cpu.ZFlag = Bits.isZero(cpu.A) cpu.NFlag = Bits.set() cpu.HFlag = Bits.halfCarrySub(old_val, cpu.A) cpu.PVFlag = Bits.overflow(old_val, cpu.A) cpu.CFlag = Bits.carryFlag(cpu.A) cpu.m_cycles, cpu.t_states = 1, 4 logger.info("SDC A, {}".format(IndexToReg.translate8Bit(reg_idx)))
def sub_a_hl(cpu, opcode, logger): v = cpu.ram[cpu.HL] old_A = cpu.AFPrim cpu.A -= v cpu.NFlag = Bits.set() cpu.SFlag = Bits.isNegative(cpu.A) cpu.ZFlag = Bits.isZero(cpu.A) cpu.HFlag = Bits.halfCarrySub(old_A, cpu.A) cpu.PVFlag = Bits.overflow(old_A, cpu.A) cpu.CFlag = Bits.carryFlag(cpu.A) cpu.m_cycles, cpu.t_states = 1, 7 logger.info("SUB A, (HL)")
def adc_a_hl(cpu, opcode, logger): v = cpu.ram[cpu.HL] old = cpu.A cpu.A += v cpu.SFlag = Bits.isNegative(cpu.A) cpu.ZFlag = Bits.isZero(cpu.A) cpu.NFlag = Bits.reset() cpu.PVFlag = Bits.overflow(old, cpu.A) cpu.HFlag = Bits.halfCarrySub(cpu.A, old) cpu.CFlag = Bits.carryFlag(old + v) cpu.m_cycles, cpu.t_states = 2, 7 logger.info("ADC A, (HL)")
def add_a_hl(cpu, opcode, logger): oldA = cpu.A value = cpu.A + cpu.ram[cpu.HL] cpu.A = value cpu.SFlag = Bits.isNegative(cpu.A) cpu.ZFlag = Bits.isZero(cpu.A) cpu.NFlag = Bits.reset() cpu.CFlag = Bits.carryFlag(value) cpu.PVFlag = Bits.overflow(oldA, cpu.A) cpu.HFlag = Bits.halfCarrySub(cpu.A, oldA) cpu.m_cycles, cpu.t_states = 2, 7 logger.info("ADD A, (HL)")
def sub_r(cpu, opcode, logger): index = opcode & 7 old_A = cpu.A cpu.A = cpu.A - cpu.regs[index] cpu.NFlag = Bits.set() cpu.SFlag = Bits.isNegative(cpu.A) cpu.ZFlag = Bits.isZero(cpu.A) cpu.HFlag = Bits.halfCarrySub(old_A, cpu.A) cpu.PVFlag = Bits.overflow(cpu.A, old_A) cpu.CFlag = Bits.carryFlag(cpu.A) cpu.m_cycles, cpu.t_states = 1, 4 logger.info("SUB {}".format(IndexToReg.translate8Bit(index)))
def add_r_n(cpu, opcode, logger): n = cpu.ram[cpu.PC] old = cpu.A value = cpu.A + n cpu.A = value cpu.SFlag = Bits.isNegative(value) cpu.ZFlag = Bits.isZero(cpu.A) cpu.HFlag = Bits.halfCarrySub(old, cpu.A) cpu.PVFlag = Bits.overflow(old, cpu.A) cpu.NFlag = Bits.reset() cpu.CFlag = Bits.carryFlag(value) cpu.m_cycles, cpu.t_states = 2, 7 logger.info("ADD A, {:02X}".format(n))