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pre { line-height: 125%; }
td.linenos .normal { color: inherit; background-color: transparent; padding-left: 5px; padding-right: 5px; }
span.linenos { color: inherit; background-color: transparent; padding-left: 5px; padding-right: 5px; }
td.linenos .special { color: #000000; background-color: #ffffc0; padding-left: 5px; padding-right: 5px; }
span.linenos.special { color: #000000; background-color: #ffffc0; padding-left: 5px; padding-right: 5px; }
.highlight .hll { background-color: #ffffcc }
.highlight .c { color: #888888 } /* Comment */
.highlight .err { color: #a61717; background-color: #e3d2d2 } /* Error */
.highlight .k { color: #008800; font-weight: bold } /* Keyword */
.highlight .ch { color: #888888 } /* Comment.Hashbang */
.highlight .cm { color: #888888 } /* Comment.Multiline */
.highlight .cp { color: #cc0000; font-weight: bold } /* Comment.Preproc */
.highlight .cpf { color: #888888 } /* Comment.PreprocFile */
.highlight .c1 { color: #888888 } /* Comment.Single */
.highlight .cs { color: #cc0000; font-weight: bold; background-color: #fff0f0 } /* Comment.Special */
.highlight .gd { color: #000000; background-color: #ffdddd } /* Generic.Deleted */
.highlight .ge { font-style: italic } /* Generic.Emph */
.highlight .ges { font-weight: bold; font-style: italic } /* Generic.EmphStrong */
.highlight .gr { color: #aa0000 } /* Generic.Error */
.highlight .gh { color: #333333 } /* Generic.Heading */
.highlight .gi { color: #000000; background-color: #ddffdd } /* Generic.Inserted */
.highlight .go { color: #888888 } /* Generic.Output */
.highlight .gp { color: #555555 } /* Generic.Prompt */
.highlight .gs { font-weight: bold } /* Generic.Strong */
.highlight .gu { color: #666666 } /* Generic.Subheading */
.highlight .gt { color: #aa0000 } /* Generic.Traceback */
.highlight .kc { color: #008800; font-weight: bold } /* Keyword.Constant */
.highlight .kd { color: #008800; font-weight: bold } /* Keyword.Declaration */
.highlight .kn { color: #008800; font-weight: bold } /* Keyword.Namespace */
.highlight .kp { color: #008800 } /* Keyword.Pseudo */
.highlight .kr { color: #008800; font-weight: bold } /* Keyword.Reserved */
.highlight .kt { color: #888888; font-weight: bold } /* Keyword.Type */
.highlight .m { color: #0000DD; font-weight: bold } /* Literal.Number */
.highlight .s { color: #dd2200; background-color: #fff0f0 } /* Literal.String */
.highlight .na { color: #336699 } /* Name.Attribute */
.highlight .nb { color: #003388 } /* Name.Builtin */
.highlight .nc { color: #bb0066; font-weight: bold } /* Name.Class */
.highlight .no { color: #003366; font-weight: bold } /* Name.Constant */
.highlight .nd { color: #555555 } /* Name.Decorator */
.highlight .ne { color: #bb0066; font-weight: bold } /* Name.Exception */
.highlight .nf { color: #0066bb; font-weight: bold } /* Name.Function */
.highlight .nl { color: #336699; font-style: italic } /* Name.Label */
.highlight .nn { color: #bb0066; font-weight: bold } /* Name.Namespace */
.highlight .py { color: #336699; font-weight: bold } /* Name.Property */
.highlight .nt { color: #bb0066; font-weight: bold } /* Name.Tag */
.highlight .nv { color: #336699 } /* Name.Variable */
.highlight .ow { color: #008800 } /* Operator.Word */
.highlight .w { color: #bbbbbb } /* Text.Whitespace */
.highlight .mb { color: #0000DD; font-weight: bold } /* Literal.Number.Bin */
.highlight .mf { color: #0000DD; font-weight: bold } /* Literal.Number.Float */
.highlight .mh { color: #0000DD; font-weight: bold } /* Literal.Number.Hex */
.highlight .mi { color: #0000DD; font-weight: bold } /* Literal.Number.Integer */
.highlight .mo { color: #0000DD; font-weight: bold } /* Literal.Number.Oct */
.highlight .sa { color: #dd2200; background-color: #fff0f0 } /* Literal.String.Affix */
.highlight .sb { color: #dd2200; background-color: #fff0f0 } /* Literal.String.Backtick */
.highlight .sc { color: #dd2200; background-color: #fff0f0 } /* Literal.String.Char */
.highlight .dl { color: #dd2200; background-color: #fff0f0 } /* Literal.String.Delimiter */
.highlight .sd { color: #dd2200; background-color: #fff0f0 } /* Literal.String.Doc */
.highlight .s2 { color: #dd2200; background-color: #fff0f0 } /* Literal.String.Double */
.highlight .se { color: #0044dd; background-color: #fff0f0 } /* Literal.String.Escape */
.highlight .sh { color: #dd2200; background-color: #fff0f0 } /* Literal.String.Her
# Integer arithmetic using postfix notation
#
# Limitations:
#   Division not implemented yet.
#
# To build:
#   $ ./translate rpn.mu
#
# Example session:
#   $ qemu-system-i386 code.img
#   > 4
#   4
#   > 5 3 -
#   2
#
# Error handling is non-existent. This is just a prototype.

fn main screen: (addr screen), keyboard: (addr keyboard), data-disk: (addr disk) {
  var in-storage: (stream byte 0x80)
  var in/esi: (addr stream byte) <- address in-storage
  var y/ecx: int <- copy 0
  var space/edx: grapheme <- copy 0x20
  # read-eval-print loop
  {
    # print prompt
    var x/eax: int <- draw-text-rightward screen, "> ", 0/x, 0x80/xmax, y, 3/fg/cyan, 0/bg
    set-cursor-position screen, x, y
    # read line from keyboard
    clear-stream in
    {
      draw-cursor screen, space
      var key/eax: byte <- read-key keyboard
      compare key, 0xa/newline
      break-if-=
      compare key, 0
      loop-if-=
      var key2/eax: int <- copy key
      append-byte in, key2
      var g/eax: grapheme <- copy key2
      draw-grapheme-at-cursor screen, g, 0xf/fg, 0/bg
      move-cursor-right 0
      loop
    }
    # clear cursor
    draw-grapheme-at-cursor screen, space, 3/fg/never-used, 0/bg
    # parse and eval
    var out/eax: int <- simplify in
    # print
    y <- increment
    out, y <- draw-int32-decimal-wrapping-right-then-down screen, out, 0/xmin, y, 0x80/xmax, 0x30/ymax, 0/x, y, 7/fg, 0/bg
    # newline
    y <- increment
    #
    loop
  }
}

type int-stack {
  data: (handle array int)
  top: int
}

fn simplify in: (addr stream byte) -> _/eax: int {
  var word-storage: slice
  var word/ecx: (addr slice) <- address word-storage
  var stack-storage: int-stack
  var stack/esi: (addr int-stack) <- address stack-storage
  initialize-int-stack stack, 0x10
  $simplify:word-loop: {
    next-word in, word
    var done?/eax: boolean <- slice-empty? word
    compare done?, 0
    break-if-!=
    # if word is an operator, perform it
    {
      var is-add?/eax: boolean <- slice-equal? word, "+"
      compare is-add?, 0
      break-if-=
      var _b/eax: int <- pop-int-stack stack
      var b/edx: int <- copy _b
      var a/eax: int <- pop-int-stack stack
      a <- add b
      push-int-stack stack, a
      loop $simplify:word-loop
    }
    {
      var is-sub?/eax: boolean <- slice-equal? word, "-"
      compare is-sub?, 0
      break-if-=
      var _b/eax: int <- pop-int-stack stack
      var b/edx: int <- copy _b
      var a/eax: int <- pop-int-stack stack
      a <- subtract b
      push-int-stack stack, a
      loop $simplify:word-loop
    }
    {
      var is-mul?/eax: boolean <- slice-equal? word, "*"
      compare is-mul?, 0
      break-if-=
      var _b/eax: int <- pop-int-stack stack
      var b/edx: int <- copy _b
      var a/eax: int <- pop-int-stack stack
      a <- multiply b
      push-int-stack stack, a
      loop $simplify:word-loop
    }
    # otherwise it's an int
    var n/eax: int <- parse-decimal-int-from-slice word
    push-int-stack stack, n
    loop
  }
  var result/eax: int <- pop-int-stack stack
  return result
}

fn initialize-int-stack _self: (addr int-stack), n: int {
  var self/esi: (addr int-stack) <- copy _self
  var d/edi: (addr handle array int) <- get self, data
  populate d, n
  var top/eax: (addr int) <- get self, top
  copy-to *top, 0
}

fn push-int-stack _self: (addr int-stack), _val: int {
  var self/esi: (addr int-stack) <- copy _self
  var top-addr/ecx: (addr int) <- get self, top
  var data-ah/edx: (addr handle array int) <- get self, data
  var data/eax: (addr array int) <- lookup *data-ah
  var top/edx: int <- copy *top-addr
  var dest-addr/edx: (addr int) <- index data, top
  var val/eax: int <- copy _val
  copy-to *dest-addr, val
  add-to *top-addr, 1
}

fn pop-int-stack _self: (addr int-stack) -> _/eax: int {
  var self/esi: (addr int-stack) <- copy _self
  var top-addr/ecx: (addr int) <- get self, top
  {
    compare *top-addr, 0
    break-if->
    return 0
  }
  subtract-from *top-addr, 1
  var data-ah/edx: (addr handle array int) <- get self, data
  var data/eax: (addr array int) <- lookup *data-ah
  var top/edx: int <- copy *top-addr
  var result-addr/eax: (addr int) <- index data, top
  var val/eax: int <- copy *result-addr
  return val
}