2019-02-28 22:54:38 +00:00
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package core6502
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func buildOpTransfer(regSrc int, regDst int) opFunc {
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return func(s *State, line []uint8, opcode opcode) {
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value := s.reg.getRegister(regSrc)
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s.reg.setRegister(regDst, value)
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if regDst != regSP {
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s.reg.updateFlagZN(value)
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}
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}
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}
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func buildOpIncDec(inc bool) opFunc {
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return func(s *State, line []uint8, opcode opcode) {
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2020-01-11 16:15:42 +00:00
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value := resolveValue(s, line, opcode)
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2019-02-28 22:54:38 +00:00
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if inc {
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value++
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} else {
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value--
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}
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s.reg.updateFlagZN(value)
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2020-01-11 16:15:42 +00:00
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resolveSetValue(s, line, opcode, value)
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2019-02-28 22:54:38 +00:00
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}
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}
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func buildOpShift(isLeft bool, isRotate bool) opFunc {
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return func(s *State, line []uint8, opcode opcode) {
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2020-01-11 16:15:42 +00:00
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value := resolveValue(s, line, opcode)
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2019-02-28 22:54:38 +00:00
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oldCarry := s.reg.getFlagBit(flagC)
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var carry bool
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if isLeft {
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carry = (value & 0x80) != 0
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value <<= 1
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if isRotate {
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value += oldCarry
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}
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} else {
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carry = (value & 0x01) != 0
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value >>= 1
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if isRotate {
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value += oldCarry << 7
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}
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}
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s.reg.updateFlag(flagC, carry)
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s.reg.updateFlagZN(value)
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2020-01-11 16:15:42 +00:00
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resolveSetValue(s, line, opcode, value)
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2019-02-28 22:54:38 +00:00
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}
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}
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func buildOpLoad(regDst int) opFunc {
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return func(s *State, line []uint8, opcode opcode) {
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value := resolveValue(s, line, opcode)
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s.reg.setRegister(regDst, value)
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s.reg.updateFlagZN(value)
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}
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}
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func buildOpStore(regSrc int) opFunc {
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return func(s *State, line []uint8, opcode opcode) {
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value := s.reg.getRegister(regSrc)
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2020-01-11 16:15:42 +00:00
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resolveSetValue(s, line, opcode, value)
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2019-02-28 22:54:38 +00:00
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}
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}
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func buildOpUpdateFlag(flag uint8, value bool) opFunc {
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return func(s *State, line []uint8, opcode opcode) {
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s.reg.updateFlag(flag, value)
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}
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}
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2019-10-10 22:06:42 +00:00
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func buildOpBranch(flag uint8, test bool) opFunc {
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2019-02-28 22:54:38 +00:00
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return func(s *State, line []uint8, opcode opcode) {
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2019-10-10 22:06:42 +00:00
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if s.reg.getFlag(flag) == test {
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address := resolveAddress(s, line, opcode)
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s.reg.setPC(address)
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}
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}
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}
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func buildOpBranchOnBit(bit uint8, test bool) opFunc {
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return func(s *State, line []uint8, opcode opcode) {
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// Note that those operations have two addressing modes:
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// one for the zero page value, another for the relative jump.
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// We will have to resolve the first one here.
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value := s.mem.Peek(uint16(line[1]))
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bitValue := ((value >> bit) & 1) == 1
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if bitValue == test {
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address := resolveAddress(s, line, opcode)
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s.reg.setPC(address)
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}
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}
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}
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func buildOpSetBit(bit uint8, set bool) opFunc {
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return func(s *State, line []uint8, opcode opcode) {
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2020-01-11 16:15:42 +00:00
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value := resolveValue(s, line, opcode)
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2019-10-10 22:06:42 +00:00
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if set {
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2020-01-11 16:15:42 +00:00
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value = value | (1 << bit)
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} else {
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value = value &^ (1 << bit)
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2019-02-28 22:54:38 +00:00
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}
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resolveSetValue(s, line, opcode, value)
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2019-02-28 22:54:38 +00:00
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}
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}
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func opBIT(s *State, line []uint8, opcode opcode) {
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value := resolveValue(s, line, opcode)
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acc := s.reg.getA()
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s.reg.updateFlag(flagZ, value&acc == 0)
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2019-10-10 22:06:42 +00:00
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// The immediate addressing mode (65C02 or 65816 only) does not affect N & V.
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if opcode.addressMode != modeImmediate {
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s.reg.updateFlag(flagN, value&(1<<7) != 0)
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s.reg.updateFlag(flagV, value&(1<<6) != 0)
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}
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}
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func opTRB(s *State, line []uint8, opcode opcode) {
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2020-01-11 16:15:42 +00:00
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value := resolveValue(s, line, opcode)
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2019-10-10 22:06:42 +00:00
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a := s.reg.getA()
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s.reg.updateFlag(flagZ, (value&a) == 0)
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2020-01-11 16:15:42 +00:00
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resolveSetValue(s, line, opcode, value&^a)
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2019-10-10 22:06:42 +00:00
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}
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func opTSB(s *State, line []uint8, opcode opcode) {
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value := resolveValue(s, line, opcode)
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2019-10-10 22:06:42 +00:00
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a := s.reg.getA()
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s.reg.updateFlag(flagZ, (value&a) == 0)
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2020-01-11 16:15:42 +00:00
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resolveSetValue(s, line, opcode, value|a)
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2019-02-28 22:54:38 +00:00
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}
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func buildOpCompare(reg int) opFunc {
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return func(s *State, line []uint8, opcode opcode) {
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value := resolveValue(s, line, opcode)
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reference := s.reg.getRegister(reg)
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s.reg.updateFlagZN(reference - value)
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s.reg.updateFlag(flagC, reference >= value)
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}
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}
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func operationAnd(a uint8, b uint8) uint8 { return a & b }
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func operationOr(a uint8, b uint8) uint8 { return a | b }
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func operationXor(a uint8, b uint8) uint8 { return a ^ b }
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func buildOpLogic(operation func(uint8, uint8) uint8) opFunc {
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return func(s *State, line []uint8, opcode opcode) {
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value := resolveValue(s, line, opcode)
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result := operation(value, s.reg.getA())
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s.reg.setA(result)
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s.reg.updateFlagZN(result)
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}
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}
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func opADC(s *State, line []uint8, opcode opcode) {
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value := resolveValue(s, line, opcode)
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aValue := s.reg.getA()
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carry := s.reg.getFlagBit(flagC)
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total := uint16(aValue) + uint16(value) + uint16(carry)
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signedTotal := int16(int8(aValue)) + int16(int8(value)) + int16(carry)
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truncated := uint8(total)
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if s.reg.getFlag(flagD) {
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totalBcdLo := int(aValue&0x0f) + int(value&0x0f) + int(carry)
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totalBcdHi := int(aValue>>4) + int(value>>4)
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if totalBcdLo >= 10 {
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totalBcdHi++
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}
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totalBcd := (totalBcdHi%10)<<4 + (totalBcdLo % 10)
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s.reg.setA(uint8(totalBcd))
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s.reg.updateFlag(flagC, totalBcdHi > 9)
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} else {
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s.reg.setA(truncated)
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s.reg.updateFlag(flagC, total > 0xFF)
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}
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// ZNV flags behave for BCD as if the operation was binary?
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s.reg.updateFlagZN(truncated)
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s.reg.updateFlag(flagV, signedTotal < -128 || signedTotal > 127)
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}
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2019-10-10 22:06:42 +00:00
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func opADCAlt(s *State, line []uint8, opcode opcode) {
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opADC(s, line, opcode)
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// The Z and N flags on BCD are fixed in 65c02.
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s.reg.updateFlagZN(s.reg.getA())
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}
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2019-02-28 22:54:38 +00:00
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func opSBC(s *State, line []uint8, opcode opcode) {
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value := resolveValue(s, line, opcode)
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aValue := s.reg.getA()
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carry := s.reg.getFlagBit(flagC)
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total := 0x100 + uint16(aValue) - uint16(value) + uint16(carry) - 1
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signedTotal := int16(int8(aValue)) - int16(int8(value)) + int16(carry) - 1
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truncated := uint8(total)
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if s.reg.getFlag(flagD) {
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totalBcdLo := 10 + int(aValue&0x0f) - int(value&0x0f) + int(carry) - 1
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totalBcdHi := 10 + int(aValue>>4) - int(value>>4)
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if totalBcdLo < 10 {
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totalBcdHi--
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}
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totalBcd := (totalBcdHi%10)<<4 + (totalBcdLo % 10)
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s.reg.setA(uint8(totalBcd))
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s.reg.updateFlag(flagC, totalBcdHi >= 10)
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} else {
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s.reg.setA(truncated)
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s.reg.updateFlag(flagC, total > 0xFF)
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}
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// ZNV flags behave for SBC as if the operation was binary
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s.reg.updateFlagZN(truncated)
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s.reg.updateFlag(flagV, signedTotal < -128 || signedTotal > 127)
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}
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2019-10-10 22:06:42 +00:00
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func opSBCAlt(s *State, line []uint8, opcode opcode) {
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opSBC(s, line, opcode)
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// The Z and N flags on BCD are fixed in 65c02.
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s.reg.updateFlagZN(s.reg.getA())
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}
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2019-02-28 22:54:38 +00:00
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const stackAddress uint16 = 0x0100
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func pushByte(s *State, value uint8) {
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adresss := stackAddress + uint16(s.reg.getSP())
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s.mem.Poke(adresss, value)
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s.reg.setSP(s.reg.getSP() - 1)
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}
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func pullByte(s *State) uint8 {
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s.reg.setSP(s.reg.getSP() + 1)
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adresss := stackAddress + uint16(s.reg.getSP())
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return s.mem.Peek(adresss)
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}
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func pushWord(s *State, value uint16) {
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pushByte(s, uint8(value>>8))
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pushByte(s, uint8(value))
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}
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func pullWord(s *State) uint16 {
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return uint16(pullByte(s)) +
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(uint16(pullByte(s)) << 8)
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}
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2019-10-10 22:06:42 +00:00
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func buildOpPull(regDst int) opFunc {
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return func(s *State, line []uint8, opcode opcode) {
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value := pullByte(s)
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s.reg.setRegister(regDst, value)
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if regDst != regP {
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s.reg.updateFlagZN(value)
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}
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}
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2019-02-28 22:54:38 +00:00
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}
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2019-10-10 22:06:42 +00:00
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func buildOpPush(regSrc int) opFunc {
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return func(s *State, line []uint8, opcode opcode) {
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value := s.reg.getRegister(regSrc)
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if regSrc == regP {
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value |= flagB + flag5
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}
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pushByte(s, value)
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}
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2019-02-28 22:54:38 +00:00
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}
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func opJMP(s *State, line []uint8, opcode opcode) {
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address := resolveAddress(s, line, opcode)
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s.reg.setPC(address)
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}
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func opNOP(s *State, line []uint8, opcode opcode) {}
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func opJSR(s *State, line []uint8, opcode opcode) {
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pushWord(s, s.reg.getPC()-1)
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address := resolveAddress(s, line, opcode)
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s.reg.setPC(address)
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}
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func opRTI(s *State, line []uint8, opcode opcode) {
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s.reg.setP(pullByte(s))
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s.reg.setPC(pullWord(s))
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}
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func opRTS(s *State, line []uint8, opcode opcode) {
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s.reg.setPC(pullWord(s) + 1)
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}
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func opBRK(s *State, line []uint8, opcode opcode) {
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pushWord(s, s.reg.getPC()+1)
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pushByte(s, s.reg.getP()|(flagB+flag5))
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s.reg.setFlag(flagI)
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s.reg.setPC(getWord(s.mem, vectorBreak))
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}
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2019-10-10 22:06:42 +00:00
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func opBRKAlt(s *State, line []uint8, opcode opcode) {
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opBRK(s, line, opcode)
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/*
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The only difference in the BRK instruction on the 65C02 and the 6502
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is that the 65C02 clears the D (decimal) flag on the 65C02, whereas
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the D flag is not affected on the 6502.
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*/
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s.reg.clearFlag(flagD)
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}
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func opSTZ(s *State, line []uint8, opcode opcode) {
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resolveSetValue(s, line, opcode, 0)
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2019-10-10 22:06:42 +00:00
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}
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