294 lines
7.8 KiB
Kotlin
294 lines
7.8 KiB
Kotlin
package android.emu6502
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import android.emu6502.instructions.BaseInstruction
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import android.emu6502.instructions.Instruction
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import android.emu6502.instructions.InstructionTarget
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import android.emu6502.instructions.impl.*
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import android.util.Log
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import java.util.HashMap
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import kotlin.reflect.KMemberFunction0
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class CPU(val memory: Memory) {
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// Accumulator
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var A: Int = 0
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// Registers
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var X: Int = 0
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var Y: Int = 0
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// Program counter
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var PC: Int = 0x600
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// Stack pointer
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var SP: Int = 0xFF
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// Processor flags
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var P: Int = 0x30
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private var isRunning = false
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private var debug = false
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private var monitoring = false
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private var TAG = "CPU"
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val instructionList: HashMap<Int, InstructionTarget> = HashMap()
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private val operationList: HashMap<Instruction, BaseInstruction> = hashMapOf(
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Pair(Instruction.ADC, ADC(this)),
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Pair(Instruction.AND, AND(this)),
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Pair(Instruction.ASL, ASL(this)),
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Pair(Instruction.BIT, BIT(this)),
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Pair(Instruction.LDA, LDA(this)),
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Pair(Instruction.LDX, LDX(this)),
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Pair(Instruction.LDY, LDY(this)),
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Pair(Instruction.STA, STA(memory, this)),
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Pair(Instruction.STX, STX(this)),
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Pair(Instruction.TAX, TAX(this)),
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Pair(Instruction.INX, INX(this)),
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Pair(Instruction.DEX, DEX(this)),
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Pair(Instruction.ORA, ORA(this)),
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Pair(Instruction.CPX, CPX(this)),
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Pair(Instruction.BRK, BRK(this)),
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Pair(Instruction.BNE, BNE(this)),
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Pair(Instruction.JMP, JMP(this)),
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Pair(Instruction.JSR, JSR(this)),
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Pair(Instruction.RTS, RTS(this))
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// Pair(Instruction.BPL, BPL(this)),
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// Pair(Instruction.BMI, BMI(this)),
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// Pair(Instruction.BVC, BVC(this)),
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// Pair(Instruction.BVS, BVS(this)),
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// Pair(Instruction.BCC, BCC(this)),
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// Pair(Instruction.BCS, BCS(this)),
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// Pair(Instruction.BEQ, BEQ(this)),
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// Pair(Instruction.CMP, CMP(this)),
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// Pair(Instruction.CPY, CPY(this)),
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// Pair(Instruction.DEC, DEC(this)),
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// Pair(Instruction.EOR, EOR(this)),
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// Pair(Instruction.CLC, CLC(this)),
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// Pair(Instruction.SEC, SEC(this)),
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// Pair(Instruction.CLI, CLI(this)),
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// Pair(Instruction.SEI, SEI(this)),
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// Pair(Instruction.CLV, CLV(this)),
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// Pair(Instruction.CLD, CLD(this)),
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// Pair(Instruction.SED, SED(this)),
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// Pair(Instruction.INC, INC(this)),
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// Pair(Instruction.LSR, LSR(this)),
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// Pair(Instruction.NOP, NOP(this)),
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// Pair(Instruction.TXA, TXA(this)),
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// Pair(Instruction.TAY, TAY(this)),
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// Pair(Instruction.TYA, TYA(this)),
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// Pair(Instruction.DEY, DEY(this)),
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// Pair(Instruction.INY, INY(this)),
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// Pair(Instruction.ROR, ROR(this)),
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// Pair(Instruction.ROL, ROL(this)),
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// Pair(Instruction.RTI, RTI(this)),
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// Pair(Instruction.SBC, SBC(this)),
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// Pair(Instruction.TXS, TXS(this)),
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// Pair(Instruction.TSX, TSX(this)),
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// Pair(Instruction.PHA, PHA(this)),
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// Pair(Instruction.PLA, PLA(this)),
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// Pair(Instruction.PHP, PHP(this)),
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// Pair(Instruction.PLP, PLP(this)),
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// Pair(Instruction.STY, STY(this))
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)
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fun execute() {
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isRunning = true
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while (true) {
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setRandomByte()
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executeNextInstruction()
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if (PC == 0 || !isRunning) {
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break
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}
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}
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stop()
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Log.i(TAG, "Program end at PC=$" + (PC - 1).toHexString() + ", A=$" + A.toHexString() +
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", X=$" + X.toHexString() + ", Y=$" + Y.toHexString())
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}
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private fun executeNextInstruction() {
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val instruction = popByte()
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val target = instructionList.get(instruction)
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if (target != null) {
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val function = target.method
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target.operation.function()
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} else {
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Log.e(TAG, "Address $" + PC.toHexString() + " - unknown opcode " + instruction.toHexString())
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stop()
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}
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}
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fun stop() {
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isRunning = false
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}
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fun popByte(): Int {
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return memory.get(PC++).and(0xff)
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}
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private fun setRandomByte() {
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memory.set(0xfe, Math.floor(Math.random() * 256).toInt())
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}
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fun setSZFlagsForRegA() {
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setSVFlagsForValue(A)
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}
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fun setSZflagsForRegX() {
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setSVFlagsForValue(X)
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}
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private fun setSVFlagsForValue(value: Int) {
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if (value != 0) {
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P = P.and(0xfd)
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} else {
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P = P.or(0x02)
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}
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if (value.and(0x80) != 0) {
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P = P.or(0x80)
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} else {
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P = P.and(0x7f)
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}
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}
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fun popWord(): Int {
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return popByte() + popByte().shl(8)
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}
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fun testADC(value: Int) {
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var tmp: Int
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if (A.xor(value).and(0x80) != 0) {
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CLV()
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} else {
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setOverflow()
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}
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if (decimalMode()) {
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tmp = A.and(0xf) + value.and(0xf) + P.and(1)
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if (tmp >= 10) {
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tmp = 0x10.or((tmp + 6).and(0xf))
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}
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tmp += A.and(0xf0) + value.and(0xf0)
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if (tmp >= 160) {
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SEC()
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if (overflow() && tmp >= 0x180) {
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CLV()
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}
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tmp += 0x60
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} else {
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CLC()
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if (overflow() && tmp < 0x80) {
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CLV()
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}
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}
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} else {
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tmp = A + value + P.and(1)
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if (tmp >= 0x100) {
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SEC()
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if (overflow() && tmp >= 0x180) {
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CLV()
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}
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} else {
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CLC()
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if (overflow() && tmp < 0x80) {
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CLV()
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}
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}
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}
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A = tmp.and(0xff)
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setSZFlagsForRegA()
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}
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private fun overflow(): Boolean {
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return P.and(0x40) != 0
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}
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private fun decimalMode(): Boolean {
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return P.and(8) != 0
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}
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private fun carry(): Boolean {
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return P.and(1) != 0
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}
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private fun negative(): Boolean {
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return P.and(0x80) != 0
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}
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fun zero(): Boolean {
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return P.and(0x02) != 0
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}
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fun jumpBranch(offset: Int) {
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if (offset > 0x7f) {
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PC -= (0x100 - offset)
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} else {
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PC += offset
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}
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}
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fun doCompare(reg: Int, value: Int) {
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if (reg >= value) {
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SEC()
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} else {
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CLC()
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}
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setSVFlagsForValue(reg - value)
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}
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/** CLear Carry */
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private fun CLC() {
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P = P.and(0xfe)
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}
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/** SEt Carry */
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private fun SEC() {
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P = P.or(1)
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}
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/** CLear oVerflow */
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private fun CLV() {
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P = P.and(0xbf)
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}
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private fun setOverflow() {
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P = P.or(0x40)
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}
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fun stackPush(value: Int) {
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memory.set(SP.and(0xff) + 0x100, value.and(0xff))
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SP--
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if (SP < 0) {
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SP = SP.and(0xff)
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Log.i(TAG, "6502 Stack filled! Wrapping...")
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}
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}
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fun stackPop(): Int {
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SP++;
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if (SP >= 0x100) {
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SP = SP.and(0xff)
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Log.i(TAG, "6502 Stack emptied! Wrapping...")
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}
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return memory.get(SP + 0x100)
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}
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/**
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* http://nesdev.com/6502.txt
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* Returns the processor flags in the format SV-BDIZC
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* Sign - this is set if the result of an operation is negative, cleared if positive.
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* Overflow - when an arithmetic operation produces a result too large to be represented in a byte
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* Unused - Supposed to be logical 1 at all times.
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* Break - this is set when a software interrupt (BRK instruction) is executed.
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* Decimal Mode - When set, and an Add with Carry or Subtract with Carry instruction is executed,
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* the source values are treated as valid BCD (Binary Coded Decimal, eg. 0x00-0x99 = 0-99) numbers.
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* The result generated is also a BCD number.
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* Interrupt - If it is set, interrupts are disabled. If it is cleared, interrupts are enabled.
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* Zero - this is set to 1 when any arithmetic or logical operation produces a zero result, and is
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* set to 0 if the result is non-zero.
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* Carry - this holds the carry out of the most significant bit in any arithmetic operation.
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* In subtraction operations however, this flag is cleared - set to 0 - if a borrow is required,
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* set to 1 - if no borrow is required. The carry flag is also used in shift and rotate logical
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* operations.
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* */
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fun flags(): String {
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val flags = StringBuilder()
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for (i in 7 downTo 0) {
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flags.append(P.shr(i).and(1))
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}
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return flags.toString()
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}
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} |