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tweaks
This commit is contained in:
parent
e39ae3c346
commit
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@ -1043,21 +1043,18 @@ class Petscii {
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)
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// encoding: from unicode to Petscii/Screencodes (0-255)
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private val encodingPetsciiLowercase = decodingPetsciiLowercase.mapIndexed { index, unicode -> Pair(unicode, index) }.toMap()
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private val encodingPetsciiUppercase = decodingPetsciiUppercase.mapIndexed { index, unicode -> Pair(unicode, index) }.toMap()
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private val encodingScreencodeLowercase = decodingScreencodeLowercase.mapIndexed { index, unicode -> Pair(unicode, index) }.toMap()
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private val encodingScreencodeUppercase = decodingScreencodeUppercase.mapIndexed { index, unicode -> Pair(unicode, index) }.toMap()
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private val encodingPetsciiLowercase = decodingPetsciiLowercase.withIndex().associate{it.value to it.index}
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private val encodingPetsciiUppercase = decodingPetsciiUppercase.withIndex().associate{it.value to it.index}
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private val encodingScreencodeLowercase = decodingScreencodeLowercase.withIndex().associate{it.value to it.index}
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private val encodingScreencodeUppercase = decodingScreencodeUppercase.withIndex().associate{it.value to it.index}
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fun encodePetscii(text: String, lowercase: Boolean = false): ShortArray {
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val result = ShortArray(text.length)
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fun encodePetscii(text: String, lowercase: Boolean = false): List<Short> {
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val lookup = if(lowercase) encodingPetsciiLowercase else encodingPetsciiUppercase
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text.forEachIndexed { index, c ->
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val petscii = lookup[c] ?: throw CompilerException("no Petscii character for '$c'")
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result[index] = petscii.toShort()
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return text.map {
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val petscii = lookup[it] ?: throw CompilerException("no Petscii character for '$it'")
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petscii.toShort()
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}
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return result
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}
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fun decodePetscii(petscii: Iterable<Short>, lowercase: Boolean = false): String {
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@ -1065,14 +1062,12 @@ class Petscii {
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return petscii.map { decodeTable[it.toInt()] }.joinToString("")
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}
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fun encodeScreencode(text: String, lowercase: Boolean = false): ShortArray {
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val result = ShortArray(text.length)
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fun encodeScreencode(text: String, lowercase: Boolean = false): List<Short> {
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val lookup = if(lowercase) encodingScreencodeLowercase else encodingScreencodeUppercase
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text.forEachIndexed { index, c ->
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val screencode = lookup[c] ?: throw CompilerException("no Screencode character for '$c'")
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result[index] = screencode.toShort()
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return text.map{
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val screencode = lookup[it] ?: throw CompilerException("no Screencode character for '$it'")
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screencode.toShort()
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}
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return result
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}
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fun decodeScreencode(screencode: Iterable<Short>, lowercase: Boolean = false): String {
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@ -3,7 +3,7 @@ package il65.stackvm
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import il65.ast.DataType
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import il65.compiler.Mflpt5
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import il65.compiler.Petscii
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import java.io.FileOutputStream
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import java.io.File
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import java.io.PrintWriter
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import java.util.*
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import kotlin.math.max
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@ -13,12 +13,13 @@ enum class Opcode {
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// pushing values on the (evaluation) stack
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PUSH, // push constant byte value
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PUSH_LOCAL, // push block-local variable
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PUSH_VAR, // push a variable
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DUP, // push topmost value once again
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// popping values off the (evaluation) stack, possibly storing them in another location
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DISCARD, // discard X bytes from the top of the stack
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POP_MEM, // pop value into destination memory address
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POP_LOCAL, // pop value into block-local variable
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POP_VAR, // pop value into variable
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// numeric and bitwise arithmetic
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ADD,
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@ -30,27 +31,27 @@ enum class Opcode {
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SHL,
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SHL_MEM,
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SHL_MEM_W,
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SHL_LOCAL,
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SHL_VAR,
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SHR,
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SHR_MEM,
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SHR_MEM_W,
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SHR_LOCAL,
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SHR_VAR,
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ROL,
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ROL_MEM,
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ROL_MEM_W,
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ROL_LOCAL,
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ROL_VAR,
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ROR,
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ROR_MEM,
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ROR_MEM_W,
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ROR_LOCAL,
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ROR_VAR,
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ROL2,
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ROL2_MEM,
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ROL2_MEM_W,
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ROL2_LOCAL,
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ROL2_VAR,
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ROR2,
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ROR2_MEM,
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ROR2_MEM_W,
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ROR2_LOCAL,
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ROR2_VAR,
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AND,
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OR,
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XOR,
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@ -62,16 +63,24 @@ enum class Opcode {
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INC,
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INC_MEM,
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INC_MEM_W,
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INC_LOCAL,
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INC_VAR,
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DEC,
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DEC_MEM,
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DEC_MEM_W,
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DEC_LOCAL,
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DEC_VAR,
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// comparisons (?)
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// branching
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JUMP,
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BCS,
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BCC,
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//BEQ, // @todo not implemented status flag Z
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//BNE, // @todo not implemented status flag Z
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//BVS, // @todo not implemented status flag V
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//BVC, // @todo not implemented status flag V
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//BMI, // @todo not implemented status flag N
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//BPL, // @todo not implemented status flag N
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// subroutine calling
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CALL,
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@ -79,16 +88,18 @@ enum class Opcode {
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SYSCALL,
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// misc
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SWAP,
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SEC,
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CLC,
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TERMINATE
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}
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enum class Syscall(val callNr: Short) {
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WRITECHR(10),
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WRITESTR(11),
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WRITE_NUM(12),
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WRITE_CHAR(13)
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WRITE_MEMCHR(10), // print a single char from the memory
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WRITE_MEMSTR(11), // print a 0-terminated petscii string from the memory
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WRITE_NUM(12), // pop from the evaluation stack and print it as a number
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WRITE_CHAR(13), // pop from the evaluation stack and print it as a single petscii character
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WRITE_VAR(14), // print the number or string from the given variable
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}
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class Memory {
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@ -148,27 +159,31 @@ class Memory {
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}
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data class Value(val type: DataType, private val value: Number)
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{
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data class Value(val type: DataType, private val numericvalue: Number?, val stringvalue: String?=null) {
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private var byteval: Short? = null
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private var wordval: Int? = null
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private var floatval: Double? = null
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init {
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when(type) {
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DataType.BYTE -> byteval = (value.toInt() and 255).toShort()
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DataType.WORD -> wordval = value.toInt() and 65535
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DataType.FLOAT -> floatval = value.toDouble()
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else -> throw VmExecutionException("invalid value datatype $type")
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DataType.BYTE -> byteval = (numericvalue!!.toInt() and 255).toShort()
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DataType.WORD -> wordval = numericvalue!!.toInt() and 65535
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DataType.FLOAT -> floatval = numericvalue!!.toDouble()
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DataType.STR -> if(stringvalue==null) throw VmExecutionException("expect stringvalue for STR type")
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else -> throw VmExecutionException("invalid datatype $type")
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}
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}
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override fun toString(): String {
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return "$type: $numericvalue $stringvalue"
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}
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fun numericValue(): Number {
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return when(type) {
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DataType.BYTE -> byteval!!
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DataType.WORD-> wordval!!
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DataType.FLOAT -> floatval!!
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else -> throw VmExecutionException("invalid datatype")
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else -> throw VmExecutionException("invalid datatype for numeric value: $type")
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}
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}
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@ -177,7 +192,7 @@ data class Value(val type: DataType, private val value: Number)
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DataType.BYTE -> byteval!!.toInt()
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DataType.WORD-> wordval!!
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DataType.FLOAT -> floatval!!.toInt()
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else -> throw VmExecutionException("invalid datatype")
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else -> throw VmExecutionException("invalid datatype for integer value: $type")
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}
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}
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@ -360,9 +375,25 @@ data class Value(val type: DataType, private val value: Number)
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}
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data class Instruction(val opcode: Opcode, val args: List<Value>) {
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data class Instruction(val opcode: Opcode,
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val args: List<Value> = emptyList(),
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val subArgAllocations: List<String> = emptyList(),
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val callLabel: String? = null) {
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lateinit var next: Instruction
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var nextAlt: Instruction? = null
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init {
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if(callLabel!=null) {
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if(args.size!=subArgAllocations.size)
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throw VmExecutionException("for $opcode the subArgAllocations size is not the same as the arg list size")
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}
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}
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override fun toString(): String {
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return if(callLabel==null)
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"$opcode $args"
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else
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"$opcode $callLabel $args $subArgAllocations"
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}
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}
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@ -377,72 +408,92 @@ private class MyStack<T> : Stack<T>() {
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fun pop2() : Pair<T, T> = Pair(pop(), pop())
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fun printTop(amount: Int) {
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peek(amount).reversed().forEach { println(" $it") }
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fun printTop(amount: Int, output: PrintWriter) {
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peek(amount).reversed().forEach { output.println(" $it") }
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}
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}
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class Program {
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var prog: List<Instruction> = listOf()
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class Program (prog: List<Instruction>, labels: Map<String, Instruction>, val variables: Map<String, Value>) {
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fun load(prog: List<Instruction>) {
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this.prog = prog.plus(listOf(
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Instruction(Opcode.TERMINATE, listOf()),
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Instruction(Opcode.TERMINATE, listOf())
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))
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connectPointers()
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val program: List<Instruction> = prog.plus(listOf(
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Instruction(Opcode.TERMINATE, listOf()),
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Instruction(Opcode.TERMINATE, listOf())
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))
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init {
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connect(labels)
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}
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fun connectPointers() {
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val it1 = prog.iterator()
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val it2 = prog.iterator()
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private fun connect(labels: Map<String, Instruction>) {
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val it1 = program.iterator()
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val it2 = program.iterator()
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it2.next()
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while(it1.hasNext() && it2.hasNext()) {
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val instr = it1.next()
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val nextInstr = it2.next()
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when(instr.opcode) {
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Opcode.TERMINATE -> instr.next = instr
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Opcode.CALL -> TODO()
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Opcode.JUMP -> TODO()
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Opcode.RETURN -> TODO()
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Opcode.TERMINATE -> instr.next = instr // won't ever execute a next instruction
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Opcode.RETURN -> instr.next = instr // kinda a special one, in actuality the return instruction is dynamic
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Opcode.JUMP -> labels[instr.callLabel]?.let {instr.next=it}
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Opcode.BCC -> labels[instr.callLabel]?.let {instr.next=it}
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Opcode.BCS -> labels[instr.callLabel]?.let {instr.next=it}
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Opcode.CALL -> {
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val jumpInstr = labels[instr.callLabel] ?: throw VmExecutionException("undefined label: ${instr.callLabel}")
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instr.next=jumpInstr
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instr.nextAlt = nextInstr // instruction to return to
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}
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else -> instr.next = nextInstr
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}
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}
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}
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}
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class StackVm(val vmOutputFile: String) {
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class StackVm(val traceOutputFile: String?) {
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val mem = Memory()
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private val es = MyStack<Value>()
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private val evalstack = MyStack<Value>() // evaluation stack
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private val callstack = MyStack<Instruction>() // subroutine call stack (@todo maybe use evalstack as well for this?)
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private var variables = mutableMapOf<String, Value>() // all variables (set of all vars used by all blocks/subroutines) key = their fully scoped name
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private var carry: Boolean = false
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private var program = listOf<Instruction>()
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private var output = PrintWriter(FileOutputStream(vmOutputFile, true))
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private var traceOutput = if(traceOutputFile!=null) File(traceOutputFile).printWriter() else null
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fun run(program: Program) {
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this.program = program.prog
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this.program = program.program
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this.variables = program.variables.toMutableMap()
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var ins = this.program[0]
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output.println("---- new session at ${Date()} ----")
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try {
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while (true) {
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ins = dispatch(ins)
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if(evalstack.size > 128)
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throw VmExecutionException("too many values on evaluation stack")
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if(callstack.size > 128)
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throw VmExecutionException("too many nested/recursive calls")
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}
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} catch (x: VmTerminationException) {
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output.println("---- session ended ----")
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output.flush()
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output.close()
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println("Execution terminated.")
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println("\n\nExecution terminated.")
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} finally {
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traceOutput?.close()
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}
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}
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fun dispatch(ins: Instruction) : Instruction {
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println("dispatching: $ins")
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traceOutput?.println("\n$ins")
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when (ins.opcode) {
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Opcode.PUSH -> es.push(ins.args[0])
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Opcode.DISCARD -> es.pop()
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Opcode.PUSH -> evalstack.push(ins.args[0])
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Opcode.DUP -> evalstack.push(evalstack.peek())
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Opcode.DISCARD -> evalstack.pop()
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Opcode.SWAP -> {
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val (top, second) = evalstack.pop2()
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evalstack.push(top)
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evalstack.push(second)
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}
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Opcode.POP_MEM -> {
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val value = es.pop()
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val value = evalstack.pop()
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val address = ins.args[0].integerValue()
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when (value.type) {
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DataType.BYTE -> mem.setByte(address, value.integerValue().toShort())
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@ -452,89 +503,98 @@ class StackVm(val vmOutputFile: String) {
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}
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}
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Opcode.ADD -> {
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val (top, second) = es.pop2()
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es.push(second.add(top))
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val (top, second) = evalstack.pop2()
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evalstack.push(second.add(top))
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}
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Opcode.SUB -> {
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val (top, second) = es.pop2()
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es.push(second.sub(top))
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val (top, second) = evalstack.pop2()
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evalstack.push(second.sub(top))
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}
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Opcode.MUL -> {
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val (top, second) = es.pop2()
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es.push(second.mul(top))
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val (top, second) = evalstack.pop2()
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evalstack.push(second.mul(top))
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}
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Opcode.DIV -> {
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val (top, second) = es.pop2()
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es.push(second.div(top))
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val (top, second) = evalstack.pop2()
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evalstack.push(second.div(top))
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}
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Opcode.POW -> {
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val (top, second) = es.pop2()
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es.push(second.pow(top))
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val (top, second) = evalstack.pop2()
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evalstack.push(second.pow(top))
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}
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Opcode.NEG -> {
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val v = es.pop()
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es.push(v.neg())
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val v = evalstack.pop()
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evalstack.push(v.neg())
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}
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Opcode.SHL -> {
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val v = es.pop()
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es.push(v.shl())
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val v = evalstack.pop()
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evalstack.push(v.shl())
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}
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Opcode.SHR -> {
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val v = es.pop()
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es.push(v.shr())
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val v = evalstack.pop()
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evalstack.push(v.shr())
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}
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Opcode.ROL -> {
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val v = es.pop()
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val v = evalstack.pop()
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val (result, newCarry) = v.rol(carry)
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this.carry = newCarry
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es.push(result)
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evalstack.push(result)
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}
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Opcode.ROL2 -> {
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val v = es.pop()
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es.push(v.rol2())
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val v = evalstack.pop()
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evalstack.push(v.rol2())
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}
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Opcode.ROR -> {
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val v = es.pop()
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val v = evalstack.pop()
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val (result, newCarry) = v.ror(carry)
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this.carry = newCarry
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es.push(result)
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evalstack.push(result)
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}
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Opcode.ROR2 -> {
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val v = es.pop()
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es.push(v.ror2())
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val v = evalstack.pop()
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evalstack.push(v.ror2())
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}
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Opcode.AND -> {
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val (top, second) = es.pop2()
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es.push(second.and(top))
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val (top, second) = evalstack.pop2()
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evalstack.push(second.and(top))
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}
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Opcode.OR -> {
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val (top, second) = es.pop2()
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es.push(second.or(top))
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val (top, second) = evalstack.pop2()
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evalstack.push(second.or(top))
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}
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Opcode.XOR -> {
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val (top, second) = es.pop2()
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es.push(second.xor(top))
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val (top, second) = evalstack.pop2()
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evalstack.push(second.xor(top))
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}
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Opcode.INV -> {
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val v = es.pop()
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es.push(v.inv())
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val v = evalstack.pop()
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evalstack.push(v.inv())
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}
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Opcode.INC -> {
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val v = es.pop()
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es.push(v.inc())
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val v = evalstack.pop()
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evalstack.push(v.inc())
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}
|
||||
Opcode.DEC -> {
|
||||
val v = es.pop()
|
||||
es.push(v.dec())
|
||||
val v = evalstack.pop()
|
||||
evalstack.push(v.dec())
|
||||
}
|
||||
Opcode.SYSCALL -> {
|
||||
val callId = ins.args[0].integerValue().toShort()
|
||||
val syscall = Syscall.values().first { it.callNr == callId }
|
||||
when (syscall) {
|
||||
Syscall.WRITECHR -> output.print(Petscii.decodePetscii(listOf(mem.getByte(ins.args[1].integerValue())), true))
|
||||
Syscall.WRITESTR -> output.print(mem.getString(ins.args[1].integerValue()))
|
||||
Syscall.WRITE_NUM -> output.print(es.pop().numericValue())
|
||||
Syscall.WRITE_CHAR -> output.print(Petscii.decodePetscii(listOf(es.pop().integerValue().toShort()), true))
|
||||
Syscall.WRITE_MEMCHR -> print(Petscii.decodePetscii(listOf(mem.getByte(ins.args[1].integerValue())), true))
|
||||
Syscall.WRITE_MEMSTR -> print(mem.getString(ins.args[1].integerValue()))
|
||||
Syscall.WRITE_NUM -> print(evalstack.pop().numericValue())
|
||||
Syscall.WRITE_CHAR -> print(Petscii.decodePetscii(listOf(evalstack.pop().integerValue().toShort()), true))
|
||||
Syscall.WRITE_VAR -> {
|
||||
val varname = ins.args[1].stringvalue ?: throw VmExecutionException("$syscall expects string argument (the variable name)")
|
||||
val variable = variables[varname] ?: throw VmExecutionException("unknown variable: $varname")
|
||||
when(variable.type) {
|
||||
DataType.BYTE, DataType.WORD, DataType.FLOAT -> print(variable.numericValue())
|
||||
DataType.STR -> print(variable.stringvalue)
|
||||
else -> throw VmExecutionException("invalid datatype")
|
||||
}
|
||||
}
|
||||
else -> throw VmExecutionException("unimplemented syscall $syscall")
|
||||
}
|
||||
}
|
||||
@ -640,22 +700,73 @@ class StackVm(val vmOutputFile: String) {
|
||||
mem.setWord(addr, newValue.integerValue())
|
||||
}
|
||||
|
||||
Opcode.JUMP -> {} // do nothing; the next instruction is wired up already
|
||||
Opcode.CALL -> TODO()
|
||||
Opcode.RETURN -> TODO()
|
||||
Opcode.PUSH_LOCAL -> TODO()
|
||||
Opcode.POP_LOCAL -> TODO()
|
||||
Opcode.INC_LOCAL -> TODO()
|
||||
Opcode.DEC_LOCAL -> TODO()
|
||||
Opcode.SHL_LOCAL -> TODO()
|
||||
Opcode.SHR_LOCAL -> TODO()
|
||||
Opcode.ROL_LOCAL -> TODO()
|
||||
Opcode.ROR_LOCAL -> TODO()
|
||||
Opcode.ROL2_LOCAL -> TODO()
|
||||
Opcode.ROR2_LOCAL -> TODO()
|
||||
Opcode.JUMP -> {} // do nothing; the next instruction is wired up already to the jump target
|
||||
Opcode.BCS -> return if(carry) ins.next else ins.nextAlt!!
|
||||
Opcode.BCC -> return if(carry) ins.nextAlt!! else ins.next
|
||||
Opcode.CALL -> callstack.push(ins.nextAlt)
|
||||
Opcode.RETURN -> return callstack.pop()
|
||||
Opcode.PUSH_VAR -> {
|
||||
val varname = ins.args[0].stringvalue ?: throw VmExecutionException("${ins.opcode} expects string argument (the variable name)")
|
||||
val variable = variables[varname] ?: throw VmExecutionException("unknown variable: $varname")
|
||||
evalstack.push(variable)
|
||||
}
|
||||
Opcode.POP_VAR -> {
|
||||
val value = evalstack.pop()
|
||||
val varname = ins.args[0].stringvalue ?: throw VmExecutionException("${ins.opcode} expects string argument (the variable name)")
|
||||
val variable = variables[varname] ?: throw VmExecutionException("unknown variable: $varname")
|
||||
if(variable.type!=value.type) throw VmExecutionException("value datatype ${value.type} is not the same as variable datatype ${variable.type}")
|
||||
variables[varname] = value
|
||||
}
|
||||
Opcode.SHL_VAR -> {
|
||||
val varname = ins.args[0].stringvalue ?: throw VmExecutionException("${ins.opcode} expects string argument (the variable name)")
|
||||
val variable = variables[varname] ?: throw VmExecutionException("unknown variable: $varname")
|
||||
variables[varname] = variable.shl()
|
||||
}
|
||||
Opcode.SHR_VAR -> {
|
||||
val varname = ins.args[0].stringvalue ?: throw VmExecutionException("${ins.opcode} expects string argument (the variable name)")
|
||||
val variable = variables[varname] ?: throw VmExecutionException("unknown variable: $varname")
|
||||
variables[varname] = variable.shr()
|
||||
}
|
||||
Opcode.ROL_VAR -> {
|
||||
val varname = ins.args[0].stringvalue ?: throw VmExecutionException("${ins.opcode} expects string argument (the variable name)")
|
||||
val variable = variables[varname] ?: throw VmExecutionException("unknown variable: $varname")
|
||||
val (newValue, newCarry) = variable.rol(carry)
|
||||
variables[varname] = newValue
|
||||
carry = newCarry
|
||||
}
|
||||
Opcode.ROR_VAR -> {
|
||||
val varname = ins.args[0].stringvalue ?: throw VmExecutionException("${ins.opcode} expects string argument (the variable name)")
|
||||
val variable = variables[varname] ?: throw VmExecutionException("unknown variable: $varname")
|
||||
val (newValue, newCarry) = variable.ror(carry)
|
||||
variables[varname] = newValue
|
||||
carry = newCarry
|
||||
}
|
||||
Opcode.ROL2_VAR -> {
|
||||
val varname = ins.args[0].stringvalue ?: throw VmExecutionException("${ins.opcode} expects string argument (the variable name)")
|
||||
val variable = variables[varname] ?: throw VmExecutionException("unknown variable: $varname")
|
||||
variables[varname] = variable.rol2()
|
||||
}
|
||||
Opcode.ROR2_VAR -> {
|
||||
val varname = ins.args[0].stringvalue ?: throw VmExecutionException("${ins.opcode} expects string argument (the variable name)")
|
||||
val variable = variables[varname] ?: throw VmExecutionException("unknown variable: $varname")
|
||||
variables[varname] = variable.ror2()
|
||||
}
|
||||
Opcode.INC_VAR -> {
|
||||
val varname = ins.args[0].stringvalue ?: throw VmExecutionException("${ins.opcode} expects string argument (the variable name)")
|
||||
val variable = variables[varname] ?: throw VmExecutionException("unknown variable: $varname")
|
||||
variables[varname] = variable.inc()
|
||||
}
|
||||
Opcode.DEC_VAR -> {
|
||||
val varname = ins.args[0].stringvalue ?: throw VmExecutionException("${ins.opcode} expects string argument (the variable name)")
|
||||
val variable = variables[varname] ?: throw VmExecutionException("unknown variable: $varname")
|
||||
variables[varname] = variable.dec()
|
||||
}
|
||||
}
|
||||
|
||||
if(traceOutput!=null) {
|
||||
traceOutput?.println(" evalstack (size=${evalstack.size}):")
|
||||
evalstack.printTop(4, traceOutput!!)
|
||||
}
|
||||
println(" es:")
|
||||
es.printTop(5)
|
||||
|
||||
return ins.next
|
||||
}
|
||||
@ -663,47 +774,29 @@ class StackVm(val vmOutputFile: String) {
|
||||
|
||||
|
||||
fun main(args: Array<String>) {
|
||||
val vm = StackVm(vmOutputFile = "vmout.txt")
|
||||
val program = Program()
|
||||
program.load(listOf(
|
||||
Instruction(Opcode.PUSH, listOf(Value(DataType.BYTE, 100))),
|
||||
Instruction(Opcode.PUSH, listOf(Value(DataType.BYTE, 133))),
|
||||
Instruction(Opcode.ADD, emptyList()),
|
||||
Instruction(Opcode.PUSH, listOf(Value(DataType.BYTE, 3))),
|
||||
Instruction(Opcode.DIV, emptyList()),
|
||||
Instruction(Opcode.INC, emptyList()),
|
||||
Instruction(Opcode.PUSH, listOf(Value(DataType.BYTE, 2))),
|
||||
Instruction(Opcode.SHR, emptyList()),
|
||||
Instruction(Opcode.SYSCALL, listOf(Value(DataType.BYTE, Syscall.WRITESTR.callNr), Value(DataType.WORD, 0x1000))),
|
||||
Instruction(Opcode.SYSCALL, listOf(Value(DataType.BYTE, Syscall.WRITE_NUM.callNr))),
|
||||
Instruction(Opcode.PUSH, listOf(Value(DataType.BYTE, Petscii.encodePetscii("@", true)[0]))),
|
||||
Instruction(Opcode.SYSCALL, listOf(Value(DataType.BYTE, Syscall.WRITE_CHAR.callNr))),
|
||||
|
||||
Instruction(Opcode.CLC, emptyList()),
|
||||
Instruction(Opcode.PUSH, listOf(Value(DataType.WORD, 2))),
|
||||
Instruction(Opcode.ROR2, emptyList()),
|
||||
Instruction(Opcode.ROR2, emptyList()),
|
||||
Instruction(Opcode.ROR2, emptyList()),
|
||||
Instruction(Opcode.ROR2, emptyList()),
|
||||
Instruction(Opcode.ROR2, emptyList()),
|
||||
Instruction(Opcode.ROR2, emptyList()),
|
||||
Instruction(Opcode.ROR2, emptyList()),
|
||||
Instruction(Opcode.ROR2, emptyList()),
|
||||
Instruction(Opcode.ROR2, emptyList()),
|
||||
Instruction(Opcode.ROR2, emptyList()),
|
||||
Instruction(Opcode.CLC, emptyList()),
|
||||
Instruction(Opcode.PUSH, listOf(Value(DataType.WORD, 16384))),
|
||||
Instruction(Opcode.ROL2, emptyList()),
|
||||
Instruction(Opcode.ROL2, emptyList()),
|
||||
Instruction(Opcode.ROL2, emptyList()),
|
||||
Instruction(Opcode.ROL2, emptyList()),
|
||||
Instruction(Opcode.ROL2, emptyList()),
|
||||
Instruction(Opcode.ROL2, emptyList()),
|
||||
Instruction(Opcode.ROL2, emptyList()),
|
||||
Instruction(Opcode.ROL2, emptyList()),
|
||||
Instruction(Opcode.ROL2, emptyList()),
|
||||
Instruction(Opcode.ROL2, emptyList())
|
||||
))
|
||||
val vm = StackVm(traceOutputFile = "vmtrace.txt")
|
||||
vm.mem.setString(0x1000, "Hallo!\n")
|
||||
|
||||
val instructions = listOf(
|
||||
Instruction(Opcode.SYSCALL, listOf(Value(DataType.BYTE, Syscall.WRITE_VAR.callNr), Value(DataType.STR, null, stringvalue = "main.var1"))),
|
||||
Instruction(Opcode.SYSCALL, listOf(Value(DataType.BYTE, Syscall.WRITE_MEMSTR.callNr), Value(DataType.WORD, 0x1000))),
|
||||
Instruction(Opcode.SYSCALL, listOf(Value(DataType.BYTE, Syscall.WRITE_VAR.callNr), Value(DataType.STR, null, "main.var2"))),
|
||||
Instruction(Opcode.PUSH, listOf(Value(DataType.WORD, 12345))),
|
||||
Instruction(Opcode.POP_VAR, listOf(Value(DataType.STR, null, "main.var2"))),
|
||||
Instruction(Opcode.SYSCALL, listOf(Value(DataType.BYTE, Syscall.WRITE_VAR.callNr), Value(DataType.STR, null, "main.var2"))),
|
||||
Instruction(Opcode.DEC_VAR, listOf(Value(DataType.STR, null, "main.var2"))),
|
||||
Instruction(Opcode.SYSCALL, listOf(Value(DataType.BYTE, Syscall.WRITE_VAR.callNr), Value(DataType.STR, null, "main.var2"))),
|
||||
Instruction(Opcode.SHR_VAR, listOf(Value(DataType.STR, null, "main.var2"))),
|
||||
Instruction(Opcode.SYSCALL, listOf(Value(DataType.BYTE, Syscall.WRITE_VAR.callNr), Value(DataType.STR, null, "main.var2"))),
|
||||
Instruction(Opcode.TERMINATE)
|
||||
)
|
||||
|
||||
val labels = listOf(Pair("derp", instructions[0])).toMap()
|
||||
val variables = mapOf(
|
||||
"main.var1" to Value(DataType.STR, null, "Dit is variabele main.var1!\n"),
|
||||
"main.var2" to Value(DataType.WORD, 9999)
|
||||
)
|
||||
|
||||
val program = Program(instructions, labels, variables)
|
||||
vm.run(program)
|
||||
}
|
@ -210,9 +210,9 @@ class TestPetscii {
|
||||
@Test
|
||||
fun testLowercase() {
|
||||
assertThat(Petscii.encodePetscii("hello WORLD 123 @!£", true), equalTo(
|
||||
shortArrayOf(72, 69, 76, 76, 79, 32, 0xd7, 0xcf, 0xd2, 0xcc, 0xc4, 32, 49, 50, 51, 32, 64, 33, 0x5c)))
|
||||
assertThat(Petscii.encodePetscii("\uf11a", true), equalTo(shortArrayOf(0x12))) // reverse vid
|
||||
assertThat(Petscii.encodePetscii("✓", true), equalTo(shortArrayOf(0xfa)))
|
||||
listOf<Short>(72, 69, 76, 76, 79, 32, 0xd7, 0xcf, 0xd2, 0xcc, 0xc4, 32, 49, 50, 51, 32, 64, 33, 0x5c)))
|
||||
assertThat(Petscii.encodePetscii("\uf11a", true), equalTo(listOf<Short>(0x12))) // reverse vid
|
||||
assertThat(Petscii.encodePetscii("✓", true), equalTo(listOf<Short>(0xfa)))
|
||||
assertFailsWith<CompilerException> { Petscii.encodePetscii("π", true) }
|
||||
assertFailsWith<CompilerException> { Petscii.encodePetscii("♥", true) }
|
||||
|
||||
@ -224,10 +224,10 @@ class TestPetscii {
|
||||
@Test
|
||||
fun testUppercase() {
|
||||
assertThat(Petscii.encodePetscii("HELLO 123 @!£"), equalTo(
|
||||
shortArrayOf(72, 69, 76, 76, 79, 32, 49, 50, 51, 32, 64, 33, 0x5c)))
|
||||
assertThat(Petscii.encodePetscii("\uf11a"), equalTo(shortArrayOf(0x12))) // reverse vid
|
||||
assertThat(Petscii.encodePetscii("♥"), equalTo(shortArrayOf(0xd3)))
|
||||
assertThat(Petscii.encodePetscii("π"), equalTo(shortArrayOf(0xff)))
|
||||
listOf<Short>(72, 69, 76, 76, 79, 32, 49, 50, 51, 32, 64, 33, 0x5c)))
|
||||
assertThat(Petscii.encodePetscii("\uf11a"), equalTo(listOf<Short>(0x12))) // reverse vid
|
||||
assertThat(Petscii.encodePetscii("♥"), equalTo(listOf<Short>(0xd3)))
|
||||
assertThat(Petscii.encodePetscii("π"), equalTo(listOf<Short>(0xff)))
|
||||
assertFailsWith<CompilerException> { Petscii.encodePetscii("✓") }
|
||||
|
||||
assertThat(Petscii.decodePetscii(listOf(72, 0x5c, 0xd3, 0xff)), equalTo("H£♥π"))
|
||||
@ -238,9 +238,9 @@ class TestPetscii {
|
||||
@Test
|
||||
fun testScreencodeLowercase() {
|
||||
assertThat(Petscii.encodeScreencode("hello WORLD 123 @!£", true), equalTo(
|
||||
shortArrayOf(0x08, 0x05, 0x0c, 0x0c, 0x0f, 0x20, 0x57, 0x4f, 0x52, 0x4c, 0x44, 0x20, 0x31, 0x32, 0x33, 0x20, 0x00, 0x21, 0x1c)
|
||||
listOf<Short>(0x08, 0x05, 0x0c, 0x0c, 0x0f, 0x20, 0x57, 0x4f, 0x52, 0x4c, 0x44, 0x20, 0x31, 0x32, 0x33, 0x20, 0x00, 0x21, 0x1c)
|
||||
))
|
||||
assertThat(Petscii.encodeScreencode("✓", true), equalTo(shortArrayOf(0x7a)))
|
||||
assertThat(Petscii.encodeScreencode("✓", true), equalTo(listOf<Short>(0x7a)))
|
||||
assertFailsWith<CompilerException> { Petscii.encodeScreencode("♥", true) }
|
||||
assertFailsWith<CompilerException> { Petscii.encodeScreencode("π", true) }
|
||||
|
||||
@ -252,9 +252,9 @@ class TestPetscii {
|
||||
@Test
|
||||
fun testScreencodeUppercase() {
|
||||
assertThat(Petscii.encodeScreencode("WORLD 123 @!£"), equalTo(
|
||||
shortArrayOf(0x17, 0x0f, 0x12, 0x0c, 0x04, 0x20, 0x31, 0x32, 0x33, 0x20, 0x00, 0x21, 0x1c)))
|
||||
assertThat(Petscii.encodeScreencode("♥"), equalTo(shortArrayOf(0x53)))
|
||||
assertThat(Petscii.encodeScreencode("π"), equalTo(shortArrayOf(0x5e)))
|
||||
listOf<Short>(0x17, 0x0f, 0x12, 0x0c, 0x04, 0x20, 0x31, 0x32, 0x33, 0x20, 0x00, 0x21, 0x1c)))
|
||||
assertThat(Petscii.encodeScreencode("♥"), equalTo(listOf<Short>(0x53)))
|
||||
assertThat(Petscii.encodeScreencode("π"), equalTo(listOf<Short>(0x5e)))
|
||||
assertFailsWith<CompilerException> { Petscii.encodeScreencode("✓") }
|
||||
assertFailsWith<CompilerException> { Petscii.encodeScreencode("hello") }
|
||||
|
||||
|
Loading…
Reference in New Issue
Block a user