ilo-vm/source/ilo.kt

// -------------------------------------------------------------
// ilo.kt, (c) charles childers
//
// build:
//
//   kotlinc ilo.kt -include-runtime -d ilo.jar
//
// run:
//
//   kotlin ilo.jar
// -------------------------------------------------------------

import java.io.File

var blocks = IntArray(1024*1024*4)
var input = ""
var ip = 0
var m = IntArray(65536)
var d = Stack()
var a = Stack()

fun ino() {}
fun ili() { ip++; d.push(m[ip]) }
fun idu() { d.push(d.tos()) }
fun idr() { d.pop() }
fun isw() { var x = d.pop(); var y = d.pop(); d.push(x); d.push(y) }
fun ipu() { a.push(d.pop()) }
fun ipo() { d.push(a.pop()) }
fun iju() { ip = d.pop() - 1 }
fun ica() { a.push(ip); iju() }
fun icc() { val t = d.pop(); if (d.pop() != 0) { a.push(ip); ip = t - 1 } }
fun icj() { val t = d.pop(); if (d.pop() != 0) { ip = t - 1 } }
fun ire() { ip = a.pop() }
fun ieq() { val x = d.pop(); val y = d.pop(); if (y == x) { d.push(-1) } else { d.push(0) } }
fun ine() { val x = d.pop(); val y = d.pop(); if (y != x) { d.push(-1) } else { d.push(0) } }
fun ilt() { val x = d.pop(); val y = d.pop(); if (y < x) { d.push(-1) } else { d.push(0) } }
fun igt() { val x = d.pop(); val y = d.pop(); if (y > x) { d.push(-1) } else { d.push(0) } }
fun ife() { val t = d.pop(); d.push(m[t]) }
fun ist() { val t = d.pop(); m[t] = d.pop() }
fun iad() { val x = d.pop(); val y = d.pop(); d.push(y + x) }
fun isu() { val x = d.pop(); val y = d.pop(); d.push(y - x) }
fun imu() { val x = d.pop(); val y = d.pop(); d.push(y * x) }
fun idi() { val x = d.pop(); val y = d.pop(); d.push(y % x); d.push(y / x) }
fun ian() { val x = d.pop(); val y = d.pop(); d.push(y and x) }
fun ior() { val x = d.pop(); val y = d.pop(); d.push(y or x) }
fun ixo() { val x = d.pop(); val y = d.pop(); d.push(y xor x) }
fun isl() { val x = d.pop(); val y = d.pop(); d.push(y shl x) }
fun isr() { val x = d.pop(); val y = d.pop(); d.push(y shr x) }
fun icp() {
  var l = d.pop()
  var t = d.pop()
  var s = d.pop()
  d.push(-1)
  while (l > 0) {
    if (m[t] != m[s]) { d.pop(); d.push(0) }
    t++; s++; l--
  }
}
fun icy() {
  var l = d.pop()
  var t = d.pop()
  var s = d.pop()
  while (l > 0) {
    m[t] = m[s]
    t++; s++; l--
  }
}
fun iio() {
  when (d.pop()) {
    0 -> io_co()
    1 -> io_ci()
    2 -> io_rb()
    3 -> io_wb()
    4 -> io_si()
    5 -> io_pc()
    6 -> io_of()
    7 -> io_sd()
  }
}

fun io_co() { print(d.pop().toChar()) }
fun io_ci() {
  if (input.length > 0) {
    val c = input.first()
    val v = c.code
    d.push(v)
    input = input.drop(1)
  } else {
    d.push(32)
  }
}
fun io_rb() { read_block() }
fun io_wb() { write_block() }
fun io_si() { }
fun io_pc() { boot(); ip = -1 }
fun io_of() { ip = 65536 }
fun io_sd() { d.push(d.depth()); d.push(a.depth()) }

// -------------------------------------------------------------
// -------------------------------------------------------------

fun load_blocks() {
  val bs = File("./ilo.blocks")
  val bytes:ByteArray = bs.readBytes()
  var i = 0
  var o = 0
  while (i < (1024*1024)) {
    val x = (bytes[o++].toInt() and 0xff shl 24) or
            (bytes[o++].toInt() and 0xff shl 16) or
            (bytes[o++].toInt() and 0xff shl 8) or
            (bytes[o++].toInt() and 0xff)
    blocks[i] = fix(x.toLong())
    i++
  }
}

fun read_block() {
  load_blocks()
  val buffer = d.pop()
  val block = d.pop()
  var i = 0
  while (i < 1024) {
    m[buffer + i] = blocks[(block * 1024) + i]
    i++
  }
}

fun write_block() {
  val buffer = d.pop()
  val block = d.pop()

  // update `blocks` cache
  var i = 0
  while (i < 1024) {
    blocks[(block * 1024) + i] = m[buffer + i]
    i++
  }

  // write `blocks` cache back to disk
  val bs = File("./ilo.blocks")
  var dump: ByteArray = ByteArray(1024*1024*4)

  i = 0
  var o = 0
  while (i < (1024*1024)) {
    val cell = fix(blocks[i].toLong())
    dump[o++] = ((cell shr 24) and 0xFF).toByte()
    dump[o++] = ((cell shr 16) and 0xFF).toByte()
    dump[o++] = ((cell shr 8) and 0xFF).toByte()
    dump[o++] = (cell and 0xFF).toByte()
    i++
  }
  bs.writeBytes(dump)
}

fun process_instruction(op: Int) {
  when (op) {
     0 -> ino()
     1 -> ili()
     2 -> idu()
     3 -> idr()
     4 -> isw()
     5 -> ipu()
     6 -> ipo()
     7 -> iju()
     8 -> ica()
     9 -> icc()
    10 -> icj()
    11 -> ire()
    12 -> ieq()
    13 -> ine()
    14 -> ilt()
    15 -> igt()
    16 -> ife()
    17 -> ist()
    18 -> iad()
    19 -> isu()
    20 -> imu()
    21 -> idi()
    22 -> ian()
    23 -> ior()
    24 -> ixo()
    25 -> isl()
    26 -> isr()
    27 -> icp()
    28 -> icy()
    29 -> iio()
    else -> {
      println("Invalid instruction!")
      print("IP:")
      print(ip)
      print(" OC:")
      println(op)
    }
  }
}

fun process() {
  while (input.length > 0 && ip < 65536) {
    val cur = ip
    process_instruction(m[cur] and 0xFF)
    process_instruction((m[cur] shr 8) and 0xFF)
    process_instruction((m[cur] shr 16) and 0xFF)
    process_instruction((m[cur] shr 24) and 0xFF)
    ip++
  }
}

fun boot() {
  load_image()
  load_blocks()
  ip = 0
  d.empty()
  a.empty()
  input = " "
  process()
}

fun load_image() {
  val bs = File("./ilo.rom")
  val bytes:ByteArray = bs.readBytes()
  var i = 0
  var o = 0
  while (i < 65536) {
    val x = (bytes[o++].toInt() and 0xff shl 24) or
            (bytes[o++].toInt() and 0xff shl 16) or
            (bytes[o++].toInt() and 0xff shl 8) or
            (bytes[o++].toInt() and 0xff)
    m[i] = fix(x.toLong())
    i++
  }
}

// The JVM is a big endian system. ilo stores data & rom in
// little endian. This routine converts the data between these
// when necessary.

fun fix(v: Long): Int {
  return (((v and 0x000000FF) shl 24) or
          ((v and 0x0000FF00) shl 8) or
          ((v and 0x00FF0000) shr 8) or
          ((v and 0xFF000000) shr 24)).toInt()
}

fun main(args: Array<String>) {
  boot()
  while (ip < 65536) {
    input = readln()
    input = " " + input + " \n"
    process()
  }
}


class Stack {
  var sp = 0
  var data = IntArray(256)

  fun push(v: Int) {
    sp++
    data[sp] = v
  }

  fun pop(): Int {
    sp--
    return data[sp + 1]
  }

  fun tos(): Int {
    return data[sp]
  }

  fun empty() {
    sp = 0
  }

  fun depth(): Int {
    return sp
  }
}
check in the source files, binaries, and update README & LICENSE 2024-05-23 15:32:54 +02:00			`// -------------------------------------------------------------`
			`// ilo.kt, (c) charles childers`
			`//`
			`// build:`
			`//`
			`// kotlinc ilo.kt -include-runtime -d ilo.jar`
			`//`
			`// run:`
			`//`
			`// kotlin ilo.jar`
			`// -------------------------------------------------------------`

			`import java.io.File`

			`var blocks = IntArray(102410244)`
			`var input = ""`
			`var ip = 0`
			`var m = IntArray(65536)`
			`var d = Stack()`
			`var a = Stack()`

			`fun ino() {}`
			`fun ili() { ip++; d.push(m[ip]) }`
			`fun idu() { d.push(d.tos()) }`
			`fun idr() { d.pop() }`
			`fun isw() { var x = d.pop(); var y = d.pop(); d.push(x); d.push(y) }`
			`fun ipu() { a.push(d.pop()) }`
			`fun ipo() { d.push(a.pop()) }`
			`fun iju() { ip = d.pop() - 1 }`
			`fun ica() { a.push(ip); iju() }`
			`fun icc() { val t = d.pop(); if (d.pop() != 0) { a.push(ip); ip = t - 1 } }`
			`fun icj() { val t = d.pop(); if (d.pop() != 0) { ip = t - 1 } }`
			`fun ire() { ip = a.pop() }`
			`fun ieq() { val x = d.pop(); val y = d.pop(); if (y == x) { d.push(-1) } else { d.push(0) } }`
			`fun ine() { val x = d.pop(); val y = d.pop(); if (y != x) { d.push(-1) } else { d.push(0) } }`
			`fun ilt() { val x = d.pop(); val y = d.pop(); if (y < x) { d.push(-1) } else { d.push(0) } }`
			`fun igt() { val x = d.pop(); val y = d.pop(); if (y > x) { d.push(-1) } else { d.push(0) } }`
			`fun ife() { val t = d.pop(); d.push(m[t]) }`
			`fun ist() { val t = d.pop(); m[t] = d.pop() }`
			`fun iad() { val x = d.pop(); val y = d.pop(); d.push(y + x) }`
			`fun isu() { val x = d.pop(); val y = d.pop(); d.push(y - x) }`
			`fun imu() { val x = d.pop(); val y = d.pop(); d.push(y * x) }`
			`fun idi() { val x = d.pop(); val y = d.pop(); d.push(y % x); d.push(y / x) }`
			`fun ian() { val x = d.pop(); val y = d.pop(); d.push(y and x) }`
			`fun ior() { val x = d.pop(); val y = d.pop(); d.push(y or x) }`
			`fun ixo() { val x = d.pop(); val y = d.pop(); d.push(y xor x) }`
			`fun isl() { val x = d.pop(); val y = d.pop(); d.push(y shl x) }`
			`fun isr() { val x = d.pop(); val y = d.pop(); d.push(y shr x) }`
			`fun icp() {`
			`var l = d.pop()`
			`var t = d.pop()`
			`var s = d.pop()`
			`d.push(-1)`
			`while (l > 0) {`
			`if (m[t] != m[s]) { d.pop(); d.push(0) }`
			`t++; s++; l--`
			`}`
			`}`
			`fun icy() {`
			`var l = d.pop()`
			`var t = d.pop()`
			`var s = d.pop()`
			`while (l > 0) {`
			`m[t] = m[s]`
			`t++; s++; l--`
			`}`
			`}`
			`fun iio() {`
			`when (d.pop()) {`
			`0 -> io_co()`
			`1 -> io_ci()`
			`2 -> io_rb()`
			`3 -> io_wb()`
			`4 -> io_si()`
			`5 -> io_pc()`
			`6 -> io_of()`
			`7 -> io_sd()`
			`}`
			`}`

			`fun io_co() { print(d.pop().toChar()) }`
			`fun io_ci() {`
			`if (input.length > 0) {`
			`val c = input.first()`
			`val v = c.code`
			`d.push(v)`
			`input = input.drop(1)`
			`} else {`
			`d.push(32)`
			`}`
			`}`
			`fun io_rb() { read_block() }`
			`fun io_wb() { write_block() }`
			`fun io_si() { }`
			`fun io_pc() { boot(); ip = -1 }`
			`fun io_of() { ip = 65536 }`
			`fun io_sd() { d.push(d.depth()); d.push(a.depth()) }`

			`// -------------------------------------------------------------`
			`// -------------------------------------------------------------`

			`fun load_blocks() {`
			`val bs = File("./ilo.blocks")`
			`val bytes:ByteArray = bs.readBytes()`
			`var i = 0`
			`var o = 0`
			`while (i < (1024*1024)) {`
			`val x = (bytes[o++].toInt() and 0xff shl 24) or`
			`(bytes[o++].toInt() and 0xff shl 16) or`
			`(bytes[o++].toInt() and 0xff shl 8) or`
			`(bytes[o++].toInt() and 0xff)`
			`blocks[i] = fix(x.toLong())`
			`i++`
			`}`
			`}`

			`fun read_block() {`
			`load_blocks()`
			`val buffer = d.pop()`
			`val block = d.pop()`
			`var i = 0`
			`while (i < 1024) {`
			`m[buffer + i] = blocks[(block * 1024) + i]`
			`i++`
			`}`
			`}`

			`fun write_block() {`
			`val buffer = d.pop()`
			`val block = d.pop()`

			// update `blocks` cache
			`var i = 0`
			`while (i < 1024) {`
			`blocks[(block * 1024) + i] = m[buffer + i]`
			`i++`
			`}`

			// write `blocks` cache back to disk
			`val bs = File("./ilo.blocks")`
			`var dump: ByteArray = ByteArray(102410244)`

			`i = 0`
			`var o = 0`
			`while (i < (1024*1024)) {`
			`val cell = fix(blocks[i].toLong())`
			`dump[o++] = ((cell shr 24) and 0xFF).toByte()`
			`dump[o++] = ((cell shr 16) and 0xFF).toByte()`
			`dump[o++] = ((cell shr 8) and 0xFF).toByte()`
			`dump[o++] = (cell and 0xFF).toByte()`
			`i++`
			`}`
			`bs.writeBytes(dump)`
			`}`

			`fun process_instruction(op: Int) {`
			`when (op) {`
			`0 -> ino()`
			`1 -> ili()`
			`2 -> idu()`
			`3 -> idr()`
			`4 -> isw()`
			`5 -> ipu()`
			`6 -> ipo()`
			`7 -> iju()`
			`8 -> ica()`
			`9 -> icc()`
			`10 -> icj()`
			`11 -> ire()`
			`12 -> ieq()`
			`13 -> ine()`
			`14 -> ilt()`
			`15 -> igt()`
			`16 -> ife()`
			`17 -> ist()`
			`18 -> iad()`
			`19 -> isu()`
			`20 -> imu()`
			`21 -> idi()`
			`22 -> ian()`
			`23 -> ior()`
			`24 -> ixo()`
			`25 -> isl()`
			`26 -> isr()`
			`27 -> icp()`
			`28 -> icy()`
			`29 -> iio()`
			`else -> {`
			`println("Invalid instruction!")`
			`print("IP:")`
			`print(ip)`
			`print(" OC:")`
			`println(op)`
			`}`
			`}`
			`}`

			`fun process() {`
			`while (input.length > 0 && ip < 65536) {`
			`val cur = ip`
			`process_instruction(m[cur] and 0xFF)`
			`process_instruction((m[cur] shr 8) and 0xFF)`
			`process_instruction((m[cur] shr 16) and 0xFF)`
			`process_instruction((m[cur] shr 24) and 0xFF)`
			`ip++`
			`}`
			`}`

			`fun boot() {`
			`load_image()`
			`load_blocks()`
			`ip = 0`
			`d.empty()`
			`a.empty()`
			`input = " "`
			`process()`
			`}`

			`fun load_image() {`
			`val bs = File("./ilo.rom")`
			`val bytes:ByteArray = bs.readBytes()`
			`var i = 0`
			`var o = 0`
			`while (i < 65536) {`
			`val x = (bytes[o++].toInt() and 0xff shl 24) or`
			`(bytes[o++].toInt() and 0xff shl 16) or`
			`(bytes[o++].toInt() and 0xff shl 8) or`
			`(bytes[o++].toInt() and 0xff)`
			`m[i] = fix(x.toLong())`
			`i++`
			`}`
			`}`

			`// The JVM is a big endian system. ilo stores data & rom in`
			`// little endian. This routine converts the data between these`
			`// when necessary.`

			`fun fix(v: Long): Int {`
			`return (((v and 0x000000FF) shl 24) or`
			`((v and 0x0000FF00) shl 8) or`
			`((v and 0x00FF0000) shr 8) or`
			`((v and 0xFF000000) shr 24)).toInt()`
			`}`

			`fun main(args: Array<String>) {`
			`boot()`
			`while (ip < 65536) {`
			`input = readln()`
			`input = " " + input + " \n"`
			`process()`
			`}`
			`}`


			`class Stack {`
			`var sp = 0`
			`var data = IntArray(256)`

			`fun push(v: Int) {`
			`sp++`
			`data[sp] = v`
			`}`

			`fun pop(): Int {`
			`sp--`
			`return data[sp + 1]`
			`}`

			`fun tos(): Int {`
			`return data[sp]`
			`}`

			`fun empty() {`
			`sp = 0`
			`}`

			`fun depth(): Int {`
			`return sp`
			`}`
			`}`