report-853a46.html

<!doctype html>
<html>
<head>
<title>src/intern/rscodec.cpp</title>

<style type="text/css">
body { color:#000000; background-color:#ffffff }
body { font-family:Helvetica, sans-serif; font-size:10pt }
h1 { font-size:14pt }
.FileName { margin-top: 5px; margin-bottom: 5px; display: inline; }
.FileNav { margin-left: 5px; margin-right: 5px; display: inline; }
.FileNav a { text-decoration:none; font-size: larger; }
.divider { margin-top: 30px; margin-bottom: 30px; height: 15px; }
.divider { background-color: gray; }
.code { border-collapse:collapse; width:100%; }
.code { font-family: "Monospace", monospace; font-size:10pt }
.code { line-height: 1.2em }
.comment { color: green; font-style: oblique }
.keyword { color: blue }
.string_literal { color: red }
.directive { color: darkmagenta }

/* Macros and variables could have pop-up notes hidden by default.
  - Macro pop-up:    expansion of the macro
  - Variable pop-up: value (table) of the variable */
.macro_popup, .variable_popup { display: none; }

/* Pop-up appears on mouse-hover event. */
.macro:hover .macro_popup, .variable:hover .variable_popup {
  display: block;
  padding: 2px;
  -webkit-border-radius:5px;
  -webkit-box-shadow:1px 1px 7px #000;
  border-radius:5px;
  box-shadow:1px 1px 7px #000;
  position: absolute;
  top: -1em;
  left:10em;
  z-index: 1
}

.macro_popup {
  border: 2px solid red;
  background-color:#FFF0F0;
  font-weight: normal;
}

.variable_popup {
  border: 2px solid blue;
  background-color:#F0F0FF;
  font-weight: bold;
  font-family: Helvetica, sans-serif;
  font-size: 9pt;
}

/* Pop-up notes needs a relative position as a base where they pops up. */
.macro, .variable {
  background-color: PaleGoldenRod;
  position: relative;
}
.macro { color: DarkMagenta; }

#tooltiphint {
  position: fixed;
  width: 50em;
  margin-left: -25em;
  left: 50%;
  padding: 10px;
  border: 1px solid #b0b0b0;
  border-radius: 2px;
  box-shadow: 1px 1px 7px black;
  background-color: #c0c0c0;
  z-index: 2;
}

.num { width:2.5em; padding-right:2ex; background-color:#eeeeee }
.num { text-align:right; font-size:8pt }
.num { color:#444444 }
.line { padding-left: 1ex; border-left: 3px solid #ccc }
.line { white-space: pre }
.msg { -webkit-box-shadow:1px 1px 7px #000 }
.msg { box-shadow:1px 1px 7px #000 }
.msg { -webkit-border-radius:5px }
.msg { border-radius:5px }
.msg { font-family:Helvetica, sans-serif; font-size:8pt }
.msg { float:left }
.msg { position:relative }
.msg { padding:0.25em 1ex 0.25em 1ex }
.msg { margin-top:10px; margin-bottom:10px }
.msg { font-weight:bold }
.msg { max-width:60em; word-wrap: break-word; white-space: pre-wrap }
.msgT { padding:0x; spacing:0x }
.msgEvent { background-color:#fff8b4; color:#000000 }
.msgControl { background-color:#bbbbbb; color:#000000 }
.msgNote { background-color:#ddeeff; color:#000000 }
.mrange { background-color:#dfddf3 }
.mrange { border-bottom:1px solid #6F9DBE }
.PathIndex { font-weight: bold; padding:0px 5px; margin-right:5px; }
.PathIndex { -webkit-border-radius:8px }
.PathIndex { border-radius:8px }
.PathIndexEvent { background-color:#bfba87 }
.PathIndexControl { background-color:#8c8c8c }
.PathIndexPopUp { background-color: #879abc; }
.PathNav a { text-decoration:none; font-size: larger }
.CodeInsertionHint { font-weight: bold; background-color: #10dd10 }
.CodeRemovalHint { background-color:#de1010 }
.CodeRemovalHint { border-bottom:1px solid #6F9DBE }
.msg.selected{ background-color:orange !important; }

table.simpletable {
  padding: 5px;
  font-size:12pt;
  margin:20px;
  border-collapse: collapse; border-spacing: 0px;
}
td.rowname {
  text-align: right;
  vertical-align: top;
  font-weight: bold;
  color:#444444;
  padding-right:2ex;
}

/* Hidden text. */
input.spoilerhider + label {
  cursor: pointer;
  text-decoration: underline;
  display: block;
}
input.spoilerhider {
 display: none;
}
input.spoilerhider ~ .spoiler {
  overflow: hidden;
  margin: 10px auto 0;
  height: 0;
  opacity: 0;
}
input.spoilerhider:checked + label + .spoiler{
  height: auto;
  opacity: 1;
}
</style>
</head>
<body>
<!-- BUGDESC Assigned value is garbage or undefined -->

<!-- BUGTYPE Assigned value is garbage or undefined -->

<!-- BUGCATEGORY Logic error -->

<!-- BUGFILE /home/runner/work/LibreCAD/LibreCAD/libraries/libdxfrw/src/intern/rscodec.cpp -->

<!-- FILENAME rscodec.cpp -->

<!-- FUNCTIONNAME RSgen_poly -->

<!-- ISSUEHASHCONTENTOFLINEINCONTEXT 853a46965048612859b97a854e52ec48 -->

<!-- BUGLINE 111 -->

<!-- BUGCOLUMN 34 -->

<!-- BUGPATHLENGTH 10 -->

<!-- BUGMETAEND -->
<!-- REPORTHEADER -->
<h3>Bug Summary</h3>
<table class="simpletable">
<tr><td class="rowname">File:</td><td>rscodec.cpp</td></tr>
<tr><td class="rowname">Warning:</td><td><a href="#EndPath">line 111, column 34</a><br />Assigned value is garbage or undefined</td></tr>

</table>
<!-- REPORTSUMMARYEXTRA -->
<h3>Annotated Source Code</h3>
<p>Press <a href="#" onclick="toggleHelp(); return false;">'?'</a>
   to see keyboard shortcuts</p>
<input type="checkbox" class="spoilerhider" id="showinvocation" />
<label for="showinvocation" >Show analyzer invocation</label>
<div class="spoiler">clang -cc1 -cc1 -triple x86_64-pc-linux-gnu -analyze -disable-free -clear-ast-before-backend -disable-llvm-verifier -discard-value-names -main-file-name rscodec.cpp -analyzer-checker=core -analyzer-checker=apiModeling -analyzer-checker=unix -analyzer-checker=deadcode -analyzer-checker=cplusplus -analyzer-checker=security.insecureAPI.UncheckedReturn -analyzer-checker=security.insecureAPI.getpw -analyzer-checker=security.insecureAPI.gets -analyzer-checker=security.insecureAPI.mktemp -analyzer-checker=security.insecureAPI.mkstemp -analyzer-checker=security.insecureAPI.vfork -analyzer-checker=nullability.NullPassedToNonnull -analyzer-checker=nullability.NullReturnedFromNonnull -analyzer-output plist -w -setup-static-analyzer -mrelocation-model pic -pic-level 2 -fhalf-no-semantic-interposition -mframe-pointer=none -fmath-errno -ffp-contract=on -fno-rounding-math -mconstructor-aliases -funwind-tables=2 -target-cpu x86-64 -tune-cpu generic -debugger-tuning=gdb -fdebug-compilation-dir=/home/runner/work/LibreCAD/LibreCAD/libraries/libdxfrw -fcoverage-compilation-dir=/home/runner/work/LibreCAD/LibreCAD/libraries/libdxfrw -resource-dir /usr/lib/llvm-18/lib/clang/18 -D _REENTRANT -D MUPARSER_STATIC -D QT_NO_DEBUG -I . -I ../../../Qt/6.9.0/gcc_64/mkspecs/linux-g++ -internal-isystem /usr/bin/../lib/gcc/x86_64-linux-gnu/14/../../../../include/c++/14 -internal-isystem /usr/bin/../lib/gcc/x86_64-linux-gnu/14/../../../../include/x86_64-linux-gnu/c++/14 -internal-isystem /usr/bin/../lib/gcc/x86_64-linux-gnu/14/../../../../include/c++/14/backward -internal-isystem /usr/lib/llvm-18/lib/clang/18/include -internal-isystem /usr/local/include -internal-isystem /usr/bin/../lib/gcc/x86_64-linux-gnu/14/../../../../x86_64-linux-gnu/include -internal-externc-isystem /usr/include/x86_64-linux-gnu -internal-externc-isystem /include -internal-externc-isystem /usr/include -O2 -std=gnu++1z -fdeprecated-macro -ferror-limit 19 -fgnuc-version=4.2.1 -fskip-odr-check-in-gmf -fcxx-exceptions -fexceptions -vectorize-loops -vectorize-slp -analyzer-output=html -faddrsig -D__GCC_HAVE_DWARF2_CFI_ASM=1 -o /home/runner/work/LibreCAD/LibreCAD/out/2025-04-23-083705-6157-1 -x c++ src/intern/rscodec.cpp
</div>
<div id='tooltiphint' hidden="true">
  <p>Keyboard shortcuts: </p>
  <ul>
    <li>Use 'j/k' keys for keyboard navigation</li>
    <li>Use 'Shift+S' to show/hide relevant lines</li>
    <li>Use '?' to toggle this window</li>
  </ul>
  <a href="#" onclick="toggleHelp(); return false;">Close</a>
</div>
<script type='text/javascript'>
var relevant_lines = {"1": {"32": 1, "33": 1, "34": 1, "35": 1, "36": 1, "37": 1, "39": 1, "40": 1, "41": 1, "43": 1, "45": 1, "60": 1, "61": 1, "62": 1, "64": 1, "65": 1, "66": 1, "75": 1, "76": 1, "77": 1, "83": 1, "90": 1, "91": 1, "92": 1, "93": 1, "95": 1, "96": 1, "97": 1, "111": 1}};

var filterCounterexample = function (hide) {
  var tables = document.getElementsByClassName("code");
  for (var t=0; t<tables.length; t++) {
    var table = tables[t];
    var file_id = table.getAttribute("data-fileid");
    var lines_in_fid = relevant_lines[file_id];
    if (!lines_in_fid) {
      lines_in_fid = {};
    }
    var lines = table.getElementsByClassName("codeline");
    for (var i=0; i<lines.length; i++) {
        var el = lines[i];
        var lineNo = el.getAttribute("data-linenumber");
        if (!lines_in_fid[lineNo]) {
          if (hide) {
            el.setAttribute("hidden", "");
          } else {
            el.removeAttribute("hidden");
          }
        }
    }
  }
}

window.addEventListener("keydown", function (event) {
  if (event.defaultPrevented) {
    return;
  }
  // SHIFT + S
  if (event.shiftKey && event.keyCode == 83) {
    var checked = document.getElementsByName("showCounterexample")[0].checked;
    filterCounterexample(!checked);
    document.getElementsByName("showCounterexample")[0].click();
  } else {
    return;
  }
  event.preventDefault();
}, true);

document.addEventListener("DOMContentLoaded", function() {
    document.querySelector('input[name="showCounterexample"]').onchange=
        function (event) {
      filterCounterexample(this.checked);
    };
});
</script>

<form>
    <input type="checkbox" name="showCounterexample" id="showCounterexample" />
    <label for="showCounterexample">
       Show only relevant lines
    </label>
    <input type="checkbox" name="showArrows"
           id="showArrows" style="margin-left: 10px" />
    <label for="showArrows">
       Show control flow arrows
    </label>
</form>

<script type='text/javascript'>
// Return range of numbers from a range [lower, upper).
function range(lower, upper) {
  var array = [];
  for (var i = lower; i <= upper; ++i) {
      array.push(i);
  }
  return array;
}

var getRelatedArrowIndices = function(pathId) {
  // HTML numeration of events is a bit different than it is in the path.
  // Everything is rotated one step to the right, so the last element
  // (error diagnostic) has index 0.
  if (pathId == 0) {
    // arrowIndices has at least 2 elements
    pathId = arrowIndices.length - 1;
  }

  return range(arrowIndices[pathId], arrowIndices[pathId - 1]);
}

var highlightArrowsForSelectedEvent = function() {
  const selectedNum = findNum();
  const arrowIndicesToHighlight = getRelatedArrowIndices(selectedNum);
  arrowIndicesToHighlight.forEach((index) => {
    var arrow = document.querySelector("#arrow" + index);
    if(arrow) {
      classListAdd(arrow, "selected")
    }
  });
}

var getAbsoluteBoundingRect = function(element) {
  const relative = element.getBoundingClientRect();
  return {
    left: relative.left + window.pageXOffset,
    right: relative.right + window.pageXOffset,
    top: relative.top + window.pageYOffset,
    bottom: relative.bottom + window.pageYOffset,
    height: relative.height,
    width: relative.width
  };
}

var drawArrow = function(index) {
  // This function is based on the great answer from SO:
  //   https://stackoverflow.com/a/39575674/11582326
  var start = document.querySelector("#start" + index);
  var end   = document.querySelector("#end" + index);
  var arrow = document.querySelector("#arrow" + index);

  var startRect = getAbsoluteBoundingRect(start);
  var endRect   = getAbsoluteBoundingRect(end);

  // It is an arrow from a token to itself, no need to visualize it.
  if (startRect.top == endRect.top &&
      startRect.left == endRect.left)
    return;

  // Each arrow is a very simple Bézier curve, with two nodes and
  // two handles.  So, we need to calculate four points in the window:
  //   * start node
  var posStart    = { x: 0, y: 0 };
  //   * end node
  var posEnd      = { x: 0, y: 0 };
  //   * handle for the start node
  var startHandle = { x: 0, y: 0 };
  //   * handle for the end node
  var endHandle   = { x: 0, y: 0 };
  // One can visualize it as follows:
  //
  //         start handle
  //        /
  //       X"""_.-""""X
  //         .'        \
  //        /           start node
  //       |
  //       |
  //       |      end node
  //        \    /
  //         `->X
  //        X-'
  //         \
  //          end handle
  //
  // NOTE: (0, 0) is the top left corner of the window.

  // We have 3 similar, but still different scenarios to cover:
  //
  //   1. Two tokens on different lines.
  //             -xxx
  //           /
  //           \
  //             -> xxx
  //      In this situation, we draw arrow on the left curving to the left.
  //   2. Two tokens on the same line, and the destination is on the right.
  //             ____
  //            /    \
  //           /      V
  //        xxx        xxx
  //      In this situation, we draw arrow above curving upwards.
  //   3. Two tokens on the same line, and the destination is on the left.
  //        xxx        xxx
  //           ^      /
  //            \____/
  //      In this situation, we draw arrow below curving downwards.
  const onDifferentLines = startRect.top <= endRect.top - 5 ||
    startRect.top >= endRect.top + 5;
  const leftToRight = startRect.left < endRect.left;

  // NOTE: various magic constants are chosen empirically for
  //       better positioning and look
  if (onDifferentLines) {
    // Case #1
    const topToBottom = startRect.top < endRect.top;
    posStart.x = startRect.left - 1;
    // We don't want to start it at the top left corner of the token,
    // it doesn't feel like this is where the arrow comes from.
    // For this reason, we start it in the middle of the left side
    // of the token.
    posStart.y = startRect.top + startRect.height / 2;

    // End node has arrow head and we give it a bit more space.
    posEnd.x = endRect.left - 4;
    posEnd.y = endRect.top;

    // Utility object with x and y offsets for handles.
    var curvature = {
      // We want bottom-to-top arrow to curve a bit more, so it doesn't
      // overlap much with top-to-bottom curves (much more frequent).
      x: topToBottom ? 15 : 25,
      y: Math.min((posEnd.y - posStart.y) / 3, 10)
    }

    // When destination is on the different line, we can make a
    // curvier arrow because we have space for it.
    // So, instead of using
    //
    //   startHandle.x = posStart.x - curvature.x
    //   endHandle.x   = posEnd.x - curvature.x
    //
    // We use the leftmost of these two values for both handles.
    startHandle.x = Math.min(posStart.x, posEnd.x) - curvature.x;
    endHandle.x = startHandle.x;

    // Curving downwards from the start node...
    startHandle.y = posStart.y + curvature.y;
    // ... and upwards from the end node.
    endHandle.y = posEnd.y - curvature.y;

  } else if (leftToRight) {
    // Case #2
    // Starting from the top right corner...
    posStart.x = startRect.right - 1;
    posStart.y = startRect.top;

    // ...and ending at the top left corner of the end token.
    posEnd.x = endRect.left + 1;
    posEnd.y = endRect.top - 1;

    // Utility object with x and y offsets for handles.
    var curvature = {
      x: Math.min((posEnd.x - posStart.x) / 3, 15),
      y: 5
    }

    // Curving to the right...
    startHandle.x = posStart.x + curvature.x;
    // ... and upwards from the start node.
    startHandle.y = posStart.y - curvature.y;

    // And to the left...
    endHandle.x = posEnd.x - curvature.x;
    // ... and upwards from the end node.
    endHandle.y = posEnd.y - curvature.y;

  } else {
    // Case #3
    // Starting from the bottom right corner...
    posStart.x = startRect.right;
    posStart.y = startRect.bottom;

    // ...and ending also at the bottom right corner, but of the end token.
    posEnd.x = endRect.right - 1;
    posEnd.y = endRect.bottom + 1;

    // Utility object with x and y offsets for handles.
    var curvature = {
      x: Math.min((posStart.x - posEnd.x) / 3, 15),
      y: 5
    }

    // Curving to the left...
    startHandle.x = posStart.x - curvature.x;
    // ... and downwards from the start node.
    startHandle.y = posStart.y + curvature.y;

    // And to the right...
    endHandle.x = posEnd.x + curvature.x;
    // ... and downwards from the end node.
    endHandle.y = posEnd.y + curvature.y;
  }

  // Put it all together into a path.
  // More information on the format:
  //   https://developer.mozilla.org/en-US/docs/Web/SVG/Tutorial/Paths
  var pathStr = "M" + posStart.x + "," + posStart.y + " " +
    "C" + startHandle.x + "," + startHandle.y + " " +
    endHandle.x + "," + endHandle.y + " " +
    posEnd.x + "," + posEnd.y;

  arrow.setAttribute("d", pathStr);
};

var drawArrows = function() {
  const numOfArrows = document.querySelectorAll("path[id^=arrow]").length;
  for (var i = 0; i < numOfArrows; ++i) {
    drawArrow(i);
  }
}

var toggleArrows = function(event) {
  const arrows = document.querySelector("#arrows");
  if (event.target.checked) {
    arrows.setAttribute("visibility", "visible");
  } else {
    arrows.setAttribute("visibility", "hidden");
  }
}

window.addEventListener("resize", drawArrows);
document.addEventListener("DOMContentLoaded", function() {
  // Whenever we show invocation, locations change, i.e. we
  // need to redraw arrows.
  document
    .querySelector('input[id="showinvocation"]')
    .addEventListener("click", drawArrows);
  // Hiding irrelevant lines also should cause arrow rerender.
  document
    .querySelector('input[name="showCounterexample"]')
    .addEventListener("change", drawArrows);
  document
    .querySelector('input[name="showArrows"]')
    .addEventListener("change", toggleArrows);
  drawArrows();
  // Default highlighting for the last event.
  highlightArrowsForSelectedEvent();
});
</script>
  
<script type='text/javascript'>
var digitMatcher = new RegExp("[0-9]+");

var querySelectorAllArray = function(selector) {
  return Array.prototype.slice.call(
    document.querySelectorAll(selector));
}

document.addEventListener("DOMContentLoaded", function() {
    querySelectorAllArray(".PathNav > a").forEach(
        function(currentValue, currentIndex) {
            var hrefValue = currentValue.getAttribute("href");
            currentValue.onclick = function() {
                scrollTo(document.querySelector(hrefValue));
                return false;
            };
        });
});

var findNum = function() {
    var s = document.querySelector(".msg.selected");
    if (!s || s.id == "EndPath") {
        return 0;
    }
    var out = parseInt(digitMatcher.exec(s.id)[0]);
    return out;
};

var classListAdd = function(el, theClass) {
  if(!el.className.baseVal)
    el.className += " " + theClass;
  else
    el.className.baseVal += " " + theClass;
};

var classListRemove = function(el, theClass) {
  var className = (!el.className.baseVal) ?
      el.className : el.className.baseVal;
    className = className.replace(" " + theClass, "");
  if(!el.className.baseVal)
    el.className = className;
  else
    el.className.baseVal = className;
};

var scrollTo = function(el) {
    querySelectorAllArray(".selected").forEach(function(s) {
      classListRemove(s, "selected");
    });
    classListAdd(el, "selected");
    window.scrollBy(0, el.getBoundingClientRect().top -
        (window.innerHeight / 2));
    highlightArrowsForSelectedEvent();
};

var move = function(num, up, numItems) {
  if (num == 1 && up || num == numItems - 1 && !up) {
    return 0;
  } else if (num == 0 && up) {
    return numItems - 1;
  } else if (num == 0 && !up) {
    return 1 % numItems;
  }
  return up ? num - 1 : num + 1;
}

var numToId = function(num) {
  if (num == 0) {
    return document.getElementById("EndPath")
  }
  return document.getElementById("Path" + num);
};

var navigateTo = function(up) {
  var numItems = document.querySelectorAll(
      ".line > .msgEvent, .line > .msgControl").length;
  var currentSelected = findNum();
  var newSelected = move(currentSelected, up, numItems);
  var newEl = numToId(newSelected, numItems);

  // Scroll element into center.
  scrollTo(newEl);
};

window.addEventListener("keydown", function (event) {
  if (event.defaultPrevented) {
    return;
  }
  // key 'j'
  if (event.keyCode == 74) {
    navigateTo(/*up=*/false);
  // key 'k'
  } else if (event.keyCode == 75) {
    navigateTo(/*up=*/true);
  } else {
    return;
  }
  event.preventDefault();
}, true);
</script>
  
<script type='text/javascript'>

var toggleHelp = function() {
    var hint = document.querySelector("#tooltiphint");
    var attributeName = "hidden";
    if (hint.hasAttribute(attributeName)) {
      hint.removeAttribute(attributeName);
    } else {
      hint.setAttribute("hidden", "true");
    }
};
window.addEventListener("keydown", function (event) {
  if (event.defaultPrevented) {
    return;
  }
  if (event.key == "?") {
    toggleHelp();
  } else {
    return;
  }
  event.preventDefault();
});
</script>

<style type="text/css">
  svg {
      position:absolute;
      top:0;
      left:0;
      height:100%;
      width:100%;
      pointer-events: none;
      overflow: visible
  }
  .arrow {
      stroke-opacity: 0.2;
      stroke-width: 1;
      marker-end: url(#arrowhead);
  }

  .arrow.selected {
      stroke-opacity: 0.6;
      stroke-width: 2;
      marker-end: url(#arrowheadSelected);
  }

  .arrowhead {
      orient: auto;
      stroke: none;
      opacity: 0.6;
      fill: blue;
  }
</style>
<svg xmlns="http://www.w3.org/2000/svg">
  <defs>
    <marker id="arrowheadSelected" class="arrowhead" opacity="0.6"
            viewBox="0 0 10 10" refX="3" refY="5"
            markerWidth="4" markerHeight="4">
      <path d="M 0 0 L 10 5 L 0 10 z" />
    </marker>
    <marker id="arrowhead" class="arrowhead" opacity="0.2"
            viewBox="0 0 10 10" refX="3" refY="5"
            markerWidth="4" markerHeight="4">
      <path d="M 0 0 L 10 5 L 0 10 z" />
    </marker>
  </defs>
  <g id="arrows" fill="none" stroke="blue" visibility="hidden">
    <path class="arrow" id="arrow0"/>
    <path class="arrow" id="arrow1"/>
    <path class="arrow" id="arrow2"/>
    <path class="arrow" id="arrow3"/>
    <path class="arrow" id="arrow4"/>
    <path class="arrow" id="arrow5"/>
    <path class="arrow" id="arrow6"/>
    <path class="arrow" id="arrow7"/>
    <path class="arrow" id="arrow8"/>
    <path class="arrow" id="arrow9"/>
    <path class="arrow" id="arrow10"/>
    <path class="arrow" id="arrow11"/>
    <path class="arrow" id="arrow12"/>
    <path class="arrow" id="arrow13"/>

  </g>
</svg>
<script type='text/javascript'>
const arrowIndices = [ 14,13,12,11,9,7,5,5,4,2,0 ]
</script>
<table class="code" data-fileid="1">
<tr class="codeline" data-linenumber="1"><td class="num" id="LN1">1</td><td class="line"><span class='comment'>/******************************************************************************</span></td></tr>
<tr class="codeline" data-linenumber="2"><td class="num" id="LN2">2</td><td class="line"><span class='comment'>**  libDXFrw - Library to read/write DXF files (ascii &amp; binary)              **</span></td></tr>
<tr class="codeline" data-linenumber="3"><td class="num" id="LN3">3</td><td class="line"><span class='comment'>**                                                                           **</span></td></tr>
<tr class="codeline" data-linenumber="4"><td class="num" id="LN4">4</td><td class="line"><span class='comment'>**  Copyright (C) 2011-2014 J.F. Soriano (Rallaz), rallazz@gmail.com         **</span></td></tr>
<tr class="codeline" data-linenumber="5"><td class="num" id="LN5">5</td><td class="line"><span class='comment'>**                                                                           **</span></td></tr>
<tr class="codeline" data-linenumber="6"><td class="num" id="LN6">6</td><td class="line"><span class='comment'>**  This library is free software, licensed under the terms of the GNU       **</span></td></tr>
<tr class="codeline" data-linenumber="7"><td class="num" id="LN7">7</td><td class="line"><span class='comment'>**  General Public License as published by the Free Software Foundation,     **</span></td></tr>
<tr class="codeline" data-linenumber="8"><td class="num" id="LN8">8</td><td class="line"><span class='comment'>**  either version 2 of the License, or (at your option) any later version.  **</span></td></tr>
<tr class="codeline" data-linenumber="9"><td class="num" id="LN9">9</td><td class="line"><span class='comment'>**  You should have received a copy of the GNU General Public License        **</span></td></tr>
<tr class="codeline" data-linenumber="10"><td class="num" id="LN10">10</td><td class="line"><span class='comment'>**  along with this program.  If not, see &lt;http://www.gnu.org/licenses/&gt;.    **</span></td></tr>
<tr class="codeline" data-linenumber="11"><td class="num" id="LN11">11</td><td class="line"><span class='comment'>******************************************************************************/</span></td></tr>
<tr class="codeline" data-linenumber="12"><td class="num" id="LN12">12</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="13"><td class="num" id="LN13">13</td><td class="line"><span class='comment'>/**</span></td></tr>
<tr class="codeline" data-linenumber="14"><td class="num" id="LN14">14</td><td class="line"> <span class='comment'>* Reed-Solomon codec</span></td></tr>
<tr class="codeline" data-linenumber="15"><td class="num" id="LN15">15</td><td class="line"> <span class='comment'>* Reed Solomon code lifted from encoder/decoder for Reed-Solomon written by Simon Rockliff</span></td></tr>
<tr class="codeline" data-linenumber="16"><td class="num" id="LN16">16</td><td class="line"> <span class='comment'>*</span></td></tr>
<tr class="codeline" data-linenumber="17"><td class="num" id="LN17">17</td><td class="line"> <span class='comment'>* Original code:</span></td></tr>
<tr class="codeline" data-linenumber="18"><td class="num" id="LN18">18</td><td class="line"> <span class='comment'>* This program may be freely modified and/or given to whoever wants it.</span></td></tr>
<tr class="codeline" data-linenumber="19"><td class="num" id="LN19">19</td><td class="line"> <span class='comment'>*  A condition of such distribution is that the author's contribution be</span></td></tr>
<tr class="codeline" data-linenumber="20"><td class="num" id="LN20">20</td><td class="line"> <span class='comment'>*  acknowledged by his name being left in the comments heading the program,</span></td></tr>
<tr class="codeline" data-linenumber="21"><td class="num" id="LN21">21</td><td class="line"> <span class='comment'>*  however no responsibility is accepted for any financial or other loss which</span></td></tr>
<tr class="codeline" data-linenumber="22"><td class="num" id="LN22">22</td><td class="line"> <span class='comment'>*  may result from some unforseen errors or malfunctioning of the program</span></td></tr>
<tr class="codeline" data-linenumber="23"><td class="num" id="LN23">23</td><td class="line"> <span class='comment'>*  during use.</span></td></tr>
<tr class="codeline" data-linenumber="24"><td class="num" id="LN24">24</td><td class="line"> <span class='comment'>*                                Simon Rockliff, 26th June 1991</span></td></tr>
<tr class="codeline" data-linenumber="25"><td class="num" id="LN25">25</td><td class="line"> <span class='comment'>*/</span></td></tr>
<tr class="codeline" data-linenumber="26"><td class="num" id="LN26">26</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="27"><td class="num" id="LN27">27</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="28"><td class="num" id="LN28">28</td><td class="line"><span class='directive'>#include "rscodec.h"</span></td></tr>
<tr class="codeline" data-linenumber="29"><td class="num" id="LN29">29</td><td class="line"><span class='directive'>#include &lt;new&gt;          // std::nothrow</span></td></tr>
<tr class="codeline" data-linenumber="30"><td class="num" id="LN30">30</td><td class="line"><span class='directive'>#include &lt;fstream&gt;</span></td></tr>
<tr class="codeline" data-linenumber="31"><td class="num" id="LN31">31</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="32"><td class="num" id="LN32">32</td><td class="line">RScodec::RScodec(<span class='keyword'>unsigned</span> <span class='keyword'>int</span> pp, <span class='keyword'>int</span> mm, <span class='keyword'>int</span> tt) {</td></tr>
<tr class="codeline" data-linenumber="33"><td class="num" id="LN33">33</td><td class="line">    <span id="start13"><span class='keyword'>this</span></span>-&gt;mm = mm;</td></tr>
<tr class="codeline" data-linenumber="34"><td class="num" id="LN34">34</td><td class="line">    <span class='keyword'>this</span>-&gt;tt = tt;</td></tr>
<tr class="codeline" data-linenumber="35"><td class="num" id="LN35">35</td><td class="line">    <span id="start12"><span id="end13">nn</span></span> = (<span class="mrange">1&lt;&lt;mm</span>) -1; <span class='comment'>//mm==8 nn=255</span></td></tr>
<tr><td class="num"></td><td class="line"><div id="Path1" class="msg msgEvent" style="margin-left:11ex"><table class="msgT"><tr><td valign="top"><div class="PathIndex PathIndexEvent">1</div></td><td>Assuming right operand of bit shift is non-negative but less than 32</td><td><div class="PathNav"><a href="#Path2" title="Next event (2)">&#x2192;</a></div></td></tr></table></div></td></tr>
<tr class="codeline" data-linenumber="36"><td class="num" id="LN36">36</td><td class="line">    kk = nn -(tt*2);</td></tr>
<tr class="codeline" data-linenumber="37"><td class="num" id="LN37">37</td><td class="line">    isOk = <span class='keyword'>true</span>;</td></tr>
<tr class="codeline" data-linenumber="38"><td class="num" id="LN38">38</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="39"><td class="num" id="LN39">39</td><td class="line">    alpha_to = <span class='keyword'>new</span> (std::nothrow) <span class='keyword'>int</span>[nn+1];</td></tr>
<tr class="codeline" data-linenumber="40"><td class="num" id="LN40">40</td><td class="line">    <span id="start11"><span id="end12">index_of</span></span> = <span class="mrange"><span class='keyword'>new</span> (std::nothrow) <span class='keyword'>unsigned</span> <span class='keyword'>int</span>[nn+1]</span>;</td></tr>
<tr><td class="num"></td><td class="line"><div id="Path2" class="msg msgEvent" style="margin-left:16ex"><table class="msgT"><tr><td valign="top"><div class="PathIndex PathIndexEvent">2</div></td><td><div class="PathNav"><a href="#Path1" title="Previous event (1)">&#x2190;</a></div></td><td>Storing uninitialized value</td><td><div class="PathNav"><a href="#Path3" title="Next event (3)">&#x2192;</a></div></td></tr></table></div></td></tr>
<tr class="codeline" data-linenumber="41"><td class="num" id="LN41">41</td><td class="line">    gg = <span class='keyword'>new</span> (std::nothrow) <span class='keyword'>int</span>[nn-kk+1];</td></tr>
<tr class="codeline" data-linenumber="42"><td class="num" id="LN42">42</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="43"><td class="num" id="LN43">43</td><td class="line">    RSgenerate_gf(pp) ;</td></tr>
<tr class="codeline" data-linenumber="44"><td class="num" id="LN44">44</td><td class="line">    <span class='comment'>/* compute the generator polynomial for this RS code */</span></td></tr>
<tr class="codeline" data-linenumber="45"><td class="num" id="LN45">45</td><td class="line">    <span class="mrange"><span id="end11">RSgen_poly</span>()</span> ;</td></tr>
<tr><td class="num"></td><td class="line"><div id="Path3" class="msg msgEvent" style="margin-left:5ex"><table class="msgT"><tr><td valign="top"><div class="PathIndex PathIndexEvent">3</div></td><td><div class="PathNav"><a href="#Path2" title="Previous event (2)">&#x2190;</a></div></td><td>Calling 'RScodec::RSgen_poly'</td><td><div class="PathNav"><a href="#Path4" title="Next event (4)">&#x2192;</a></div></td></tr></table></div></td></tr>
<tr class="codeline" data-linenumber="46"><td class="num" id="LN46">46</td><td class="line">}</td></tr>
<tr class="codeline" data-linenumber="47"><td class="num" id="LN47">47</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="48"><td class="num" id="LN48">48</td><td class="line">RScodec::~RScodec() {</td></tr>
<tr class="codeline" data-linenumber="49"><td class="num" id="LN49">49</td><td class="line">    <span class='keyword'>delete</span>[] alpha_to;</td></tr>
<tr class="codeline" data-linenumber="50"><td class="num" id="LN50">50</td><td class="line">    <span class='keyword'>delete</span>[] index_of;</td></tr>
<tr class="codeline" data-linenumber="51"><td class="num" id="LN51">51</td><td class="line">    <span class='keyword'>delete</span>[] gg;</td></tr>
<tr class="codeline" data-linenumber="52"><td class="num" id="LN52">52</td><td class="line">}</td></tr>
<tr class="codeline" data-linenumber="53"><td class="num" id="LN53">53</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="54"><td class="num" id="LN54">54</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="55"><td class="num" id="LN55">55</td><td class="line"><span class='comment'>/* generate GF(2^mm) from the irreducible polynomial p(X) in pp[0]..pp[mm]</span></td></tr>
<tr class="codeline" data-linenumber="56"><td class="num" id="LN56">56</td><td class="line">   <span class='comment'>lookup tables:  index-&gt;polynomial form   alpha_to[] contains j=alpha**i;</span></td></tr>
<tr class="codeline" data-linenumber="57"><td class="num" id="LN57">57</td><td class="line">                   <span class='comment'>polynomial form -&gt; index form  index_of[j=alpha**i] = i</span></td></tr>
<tr class="codeline" data-linenumber="58"><td class="num" id="LN58">58</td><td class="line">   <span class='comment'>alpha=2 is the primitive element of GF(2^mm)</span></td></tr>
<tr class="codeline" data-linenumber="59"><td class="num" id="LN59">59</td><td class="line"><span class='comment'>*/</span></td></tr>
<tr class="codeline" data-linenumber="60"><td class="num" id="LN60">60</td><td class="line"><span class='keyword'>void</span> RScodec::RSgenerate_gf(<span class='keyword'>unsigned</span> <span class='keyword'>int</span> pp) {</td></tr>
<tr class="codeline" data-linenumber="61"><td class="num" id="LN61">61</td><td class="line">    <span class='keyword'>int</span> i, mask ;</td></tr>
<tr class="codeline" data-linenumber="62"><td class="num" id="LN62">62</td><td class="line">    <span class='keyword'>int</span> pb;</td></tr>
<tr class="codeline" data-linenumber="63"><td class="num" id="LN63">63</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="64"><td class="num" id="LN64">64</td><td class="line">    mask = 1 ;</td></tr>
<tr class="codeline" data-linenumber="65"><td class="num" id="LN65">65</td><td class="line">    alpha_to[mm] = 0 ;</td></tr>
<tr class="codeline" data-linenumber="66"><td class="num" id="LN66">66</td><td class="line">    <span class='keyword'>for</span> (i=0; i&lt;mm; i++) {</td></tr>
<tr class="codeline" data-linenumber="67"><td class="num" id="LN67">67</td><td class="line">        alpha_to[i] = mask ;</td></tr>
<tr class="codeline" data-linenumber="68"><td class="num" id="LN68">68</td><td class="line">        index_of[alpha_to[i]] = i ;</td></tr>
<tr class="codeline" data-linenumber="69"><td class="num" id="LN69">69</td><td class="line">        pb = (pp &gt;&gt;(mm-1-i)) &amp; 1;</td></tr>
<tr class="codeline" data-linenumber="70"><td class="num" id="LN70">70</td><td class="line">        <span class='keyword'>if</span> (pb!=0) {</td></tr>
<tr class="codeline" data-linenumber="71"><td class="num" id="LN71">71</td><td class="line">            alpha_to[mm] ^= mask;</td></tr>
<tr class="codeline" data-linenumber="72"><td class="num" id="LN72">72</td><td class="line">        }</td></tr>
<tr class="codeline" data-linenumber="73"><td class="num" id="LN73">73</td><td class="line">        mask &lt;&lt;= 1 ;</td></tr>
<tr class="codeline" data-linenumber="74"><td class="num" id="LN74">74</td><td class="line">    }</td></tr>
<tr class="codeline" data-linenumber="75"><td class="num" id="LN75">75</td><td class="line">    index_of[alpha_to[mm]] = mm ;</td></tr>
<tr class="codeline" data-linenumber="76"><td class="num" id="LN76">76</td><td class="line">    mask &gt;&gt;= 1 ;</td></tr>
<tr class="codeline" data-linenumber="77"><td class="num" id="LN77">77</td><td class="line">    <span class='keyword'>for</span> (i=mm+1; i&lt;nn; i++) {</td></tr>
<tr class="codeline" data-linenumber="78"><td class="num" id="LN78">78</td><td class="line">        <span class='keyword'>if</span> (alpha_to[i-1] &gt;= mask) {</td></tr>
<tr class="codeline" data-linenumber="79"><td class="num" id="LN79">79</td><td class="line">            alpha_to[i] = alpha_to[mm] ^ ((alpha_to[i-1]^mask)&lt;&lt;1) ;</td></tr>
<tr class="codeline" data-linenumber="80"><td class="num" id="LN80">80</td><td class="line">        } <span class='keyword'>else</span> alpha_to[i] = alpha_to[i-1]&lt;&lt;1 ;</td></tr>
<tr class="codeline" data-linenumber="81"><td class="num" id="LN81">81</td><td class="line">        index_of[alpha_to[i]] = i ;</td></tr>
<tr class="codeline" data-linenumber="82"><td class="num" id="LN82">82</td><td class="line">    }</td></tr>
<tr class="codeline" data-linenumber="83"><td class="num" id="LN83">83</td><td class="line">    index_of[0] = -1 ;</td></tr>
<tr class="codeline" data-linenumber="84"><td class="num" id="LN84">84</td><td class="line">}</td></tr>
<tr class="codeline" data-linenumber="85"><td class="num" id="LN85">85</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="86"><td class="num" id="LN86">86</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="87"><td class="num" id="LN87">87</td><td class="line"><span class='comment'>/* Obtain the generator polynomial of the tt-error correcting, length</span></td></tr>
<tr class="codeline" data-linenumber="88"><td class="num" id="LN88">88</td><td class="line">  <span class='comment'>nn=(2^mm -1) Reed Solomon code  from the product of (X+alpha**i), i=1..2*tt</span></td></tr>
<tr class="codeline" data-linenumber="89"><td class="num" id="LN89">89</td><td class="line"><span class='comment'>*/</span></td></tr>
<tr class="codeline" data-linenumber="90"><td class="num" id="LN90">90</td><td class="line"><span id="start10"><span class='keyword'>void</span></span> RScodec::RSgen_poly() {</td></tr>
<tr class="codeline" data-linenumber="91"><td class="num" id="LN91">91</td><td class="line">    <span class='keyword'>int</span> <span id="start9"><span id="end10">i</span></span>,j ;</td></tr>
<tr class="codeline" data-linenumber="92"><td class="num" id="LN92">92</td><td class="line">    <span class='keyword'>int</span> tmp;</td></tr>
<tr class="codeline" data-linenumber="93"><td class="num" id="LN93">93</td><td class="line">    <span class='keyword'>int</span> bb = nn-kk;; <span class='comment'>//nn-kk length of parity data</span></td></tr>
<tr class="codeline" data-linenumber="94"><td class="num" id="LN94">94</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="95"><td class="num" id="LN95">95</td><td class="line">    <span id="start8"><span class="mrange"><span id="end9">gg</span></span>[0] = 2</span> ;    <span class='comment'>/* primitive element alpha = 2  for GF(2**mm)  */</span></td></tr>
<tr><td class="num"></td><td class="line"><div id="Path4" class="msg msgEvent" style="margin-left:5ex"><table class="msgT"><tr><td valign="top"><div class="PathIndex PathIndexEvent">4</div></td><td><div class="PathNav"><a href="#Path3" title="Previous event (3)">&#x2190;</a></div></td><td>Assigning 2</td><td><div class="PathNav"><a href="#Path5" title="Next event (5)">&#x2192;</a></div></td></tr></table></div></td></tr>
<tr class="codeline" data-linenumber="96"><td class="num" id="LN96">96</td><td class="line">    gg[1] = 1 ;    <span class='comment'>/* g(x) = (X+alpha) initially */</span></td></tr>
<tr class="codeline" data-linenumber="97"><td class="num" id="LN97">97</td><td class="line">    <span id="start7"><span id="end8"><span class='keyword'>for</span></span></span> (i=2; <span id="start6"><span class="mrange"><span id="end7">i</span></span>&lt;=bb</span>; i++) {</td></tr>
<tr><td class="num"></td><td class="line"><div id="Path5" class="msg msgEvent" style="margin-left:15ex"><table class="msgT"><tr><td valign="top"><div class="PathIndex PathIndexEvent">5</div></td><td><div class="PathNav"><a href="#Path4" title="Previous event (4)">&#x2190;</a></div></td><td>Assuming 'i' is &gt; 'bb'</td><td><div class="PathNav"><a href="#Path6" title="Next event (6)">&#x2192;</a></div></td></tr></table></div></td></tr>
<tr><td class="num"></td><td class="line"><div id="Path6" class="msg msgControl" style="margin-left:5ex"><table class="msgT"><tr><td valign="top"><div class="PathIndex PathIndexControl">6</div></td><td><div class="PathNav"><a href="#Path5" title="Previous event (5)">&#x2190;</a></div></td><td>Loop condition is false. Execution continues on line 111</td><td><div class="PathNav"><a href="#Path7" title="Next event (7)">&#x2192;</a></div></td></tr></table></div></td></tr>
<tr class="codeline" data-linenumber="98"><td class="num" id="LN98">98</td><td class="line">        gg[i] = 1 ;</td></tr>
<tr class="codeline" data-linenumber="99"><td class="num" id="LN99">99</td><td class="line">        <span class='keyword'>for</span> (j=i-1; j&gt;0; j--)</td></tr>
<tr class="codeline" data-linenumber="100"><td class="num" id="LN100">100</td><td class="line">            <span class='keyword'>if</span> (gg[j] != 0) {</td></tr>
<tr class="codeline" data-linenumber="101"><td class="num" id="LN101">101</td><td class="line">                <span class='keyword'>if</span> (gg[j]&lt;0) { isOk=<span class='keyword'>false</span>; <span class='keyword'>return</span>; }</td></tr>
<tr class="codeline" data-linenumber="102"><td class="num" id="LN102">102</td><td class="line">                tmp = (index_of[gg[j]]+i)%nn;</td></tr>
<tr class="codeline" data-linenumber="103"><td class="num" id="LN103">103</td><td class="line">                <span class='keyword'>if</span> (tmp&lt;0) { isOk=<span class='keyword'>false</span>; <span class='keyword'>return</span>; }</td></tr>
<tr class="codeline" data-linenumber="104"><td class="num" id="LN104">104</td><td class="line">                gg[j] = gg[j-1]^ alpha_to[tmp] ;</td></tr>
<tr class="codeline" data-linenumber="105"><td class="num" id="LN105">105</td><td class="line">            } <span class='keyword'>else</span> {</td></tr>
<tr class="codeline" data-linenumber="106"><td class="num" id="LN106">106</td><td class="line">                gg[j] = gg[j-1] ;</td></tr>
<tr class="codeline" data-linenumber="107"><td class="num" id="LN107">107</td><td class="line">            }</td></tr>
<tr class="codeline" data-linenumber="108"><td class="num" id="LN108">108</td><td class="line">        gg[0] = alpha_to[(index_of[gg[0]]+i)%nn] ;     <span class='comment'>/* gg[0] can never be zero */</span></td></tr>
<tr class="codeline" data-linenumber="109"><td class="num" id="LN109">109</td><td class="line">    }</td></tr>
<tr class="codeline" data-linenumber="110"><td class="num" id="LN110">110</td><td class="line">    <span class='comment'>/* convert gg[] to index form for quicker encoding */</span></td></tr>
<tr class="codeline" data-linenumber="111"><td class="num" id="LN111">111</td><td class="line">    <span id="start5"><span id="end6"><span class='keyword'>for</span></span></span> (<span id="start4"><span class="mrange"><span id="end5">i</span></span>=0</span>; <span id="start3"><span class="mrange"><span id="end4">i</span></span>&lt;=bb</span>; i++)  <span id="start0"><span id="end1"><span id="start2"><span id="end3">gg</span></span></span></span>[i] <span id="end0">=</span> <span class="mrange"><span id="start1"><span id="end2">index_of</span></span>[gg[i]]</span> ;</td></tr>
<tr><td class="num"></td><td class="line"><div id="Path7" class="msg msgEvent" style="margin-left:10ex"><table class="msgT"><tr><td valign="top"><div class="PathIndex PathIndexEvent">7</div></td><td><div class="PathNav"><a href="#Path6" title="Previous event (6)">&#x2190;</a></div></td><td>The value 0 is assigned to 'i'</td><td><div class="PathNav"><a href="#Path8" title="Next event (8)">&#x2192;</a></div></td></tr></table></div></td></tr>
<tr><td class="num"></td><td class="line"><div id="Path8" class="msg msgEvent" style="margin-left:15ex"><table class="msgT"><tr><td valign="top"><div class="PathIndex PathIndexEvent">8</div></td><td><div class="PathNav"><a href="#Path7" title="Previous event (7)">&#x2190;</a></div></td><td>Assuming 'i' is &lt;= 'bb'</td><td><div class="PathNav"><a href="#Path9" title="Next event (9)">&#x2192;</a></div></td></tr></table></div></td></tr>
<tr><td class="num"></td><td class="line"><div id="Path9" class="msg msgControl" style="margin-left:5ex"><table class="msgT"><tr><td valign="top"><div class="PathIndex PathIndexControl">9</div></td><td><div class="PathNav"><a href="#Path8" title="Previous event (8)">&#x2190;</a></div></td><td>Loop condition is true.  Entering loop body</td><td><div class="PathNav"><a href="#EndPath" title="Next event (10)">&#x2192;</a></div></td></tr></table></div></td></tr>
<tr><td class="num"></td><td class="line"><div id="EndPath" class="msg msgEvent" style="margin-left:34ex"><table class="msgT"><tr><td valign="top"><div class="PathIndex PathIndexEvent">10</div></td><td><div class="PathNav"><a href="#Path9" title="Previous event (9)">&#x2190;</a></div></td><td>Assigned value is garbage or undefined</td></tr></table></div></td></tr>
<tr class="codeline" data-linenumber="112"><td class="num" id="LN112">112</td><td class="line">}</td></tr>
<tr class="codeline" data-linenumber="113"><td class="num" id="LN113">113</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="114"><td class="num" id="LN114">114</td><td class="line"><span class='keyword'>int</span> RScodec::calcDecode(<span class='keyword'>unsigned</span> <span class='keyword'>char</span>* data, <span class='keyword'>int</span>* recd, <span class='keyword'>int</span>** elp, <span class='keyword'>int</span>* d, <span class='keyword'>int</span>* l, <span class='keyword'>int</span>* u_lu, <span class='keyword'>int</span>* s, <span class='keyword'>int</span>* root, <span class='keyword'>int</span>* loc, <span class='keyword'>int</span>* z, <span class='keyword'>int</span>* err, <span class='keyword'>int</span>* reg, <span class='keyword'>int</span> bb)</td></tr>
<tr class="codeline" data-linenumber="115"><td class="num" id="LN115">115</td><td class="line">{</td></tr>
<tr class="codeline" data-linenumber="116"><td class="num" id="LN116">116</td><td class="line">    <span class='keyword'>if</span> (!isOk) <span class='keyword'>return</span> -1;</td></tr>
<tr class="codeline" data-linenumber="117"><td class="num" id="LN117">117</td><td class="line">    <span class='keyword'>int</span> count = 0;</td></tr>
<tr class="codeline" data-linenumber="118"><td class="num" id="LN118">118</td><td class="line">    <span class='keyword'>int</span> syn_error = 0;</td></tr>
<tr class="codeline" data-linenumber="119"><td class="num" id="LN119">119</td><td class="line">    <span class='keyword'>int</span> i, j, u, q;</td></tr>
<tr class="codeline" data-linenumber="120"><td class="num" id="LN120">120</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="121"><td class="num" id="LN121">121</td><td class="line">    <span class='comment'>//    for (int i=0; i&lt;nn; i++)</span></td></tr>
<tr class="codeline" data-linenumber="122"><td class="num" id="LN122">122</td><td class="line">    <span class='comment'>//       recd[i] = index_of[recd[i]] ;          /* put recd[i] into index form */</span></td></tr>
<tr class="codeline" data-linenumber="123"><td class="num" id="LN123">123</td><td class="line">    <span class='keyword'>for</span> (<span class='keyword'>int</span> i = 0, j = bb; i&lt;kk; i++, j++)</td></tr>
<tr class="codeline" data-linenumber="124"><td class="num" id="LN124">124</td><td class="line">        recd[j] = index_of[data[j]];          <span class='comment'>/* put data in recd[i] into index form */</span></td></tr>
<tr class="codeline" data-linenumber="125"><td class="num" id="LN125">125</td><td class="line">    <span class='keyword'>for</span> (<span class='keyword'>int</span> i = kk, j = 0; i&lt;nn; i++, j++)</td></tr>
<tr class="codeline" data-linenumber="126"><td class="num" id="LN126">126</td><td class="line">        recd[j] = index_of[data[j]];          <span class='comment'>/* put data in recd[i] into index form */</span></td></tr>
<tr class="codeline" data-linenumber="127"><td class="num" id="LN127">127</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="128"><td class="num" id="LN128">128</td><td class="line">    <span class='comment'>/* first form the syndromes */</span></td></tr>
<tr class="codeline" data-linenumber="129"><td class="num" id="LN129">129</td><td class="line">    <span class='keyword'>for</span> (i = 1; i &lt;= bb; i++) {</td></tr>
<tr class="codeline" data-linenumber="130"><td class="num" id="LN130">130</td><td class="line">        s[i] = 0;</td></tr>
<tr class="codeline" data-linenumber="131"><td class="num" id="LN131">131</td><td class="line">        <span class='keyword'>for</span> (j = 0; j&lt;nn; j++) {</td></tr>
<tr class="codeline" data-linenumber="132"><td class="num" id="LN132">132</td><td class="line">            <span class='keyword'>if</span> (recd[j] != -1) {</td></tr>
<tr class="codeline" data-linenumber="133"><td class="num" id="LN133">133</td><td class="line">                s[i] ^= alpha_to[(recd[j] + i*j) % nn];      <span class='comment'>/* recd[j] in index form */</span></td></tr>
<tr class="codeline" data-linenumber="134"><td class="num" id="LN134">134</td><td class="line">            }</td></tr>
<tr class="codeline" data-linenumber="135"><td class="num" id="LN135">135</td><td class="line">        }</td></tr>
<tr class="codeline" data-linenumber="136"><td class="num" id="LN136">136</td><td class="line">        <span class='comment'>/* convert syndrome from polynomial form to index form  */</span></td></tr>
<tr class="codeline" data-linenumber="137"><td class="num" id="LN137">137</td><td class="line">        <span class='keyword'>if</span> (s[i] != 0)  syn_error = 1;        <span class='comment'>/* set flag if non-zero syndrome =&gt; error */</span></td></tr>
<tr class="codeline" data-linenumber="138"><td class="num" id="LN138">138</td><td class="line">        s[i] = index_of[s[i]];</td></tr>
<tr class="codeline" data-linenumber="139"><td class="num" id="LN139">139</td><td class="line">    }</td></tr>
<tr class="codeline" data-linenumber="140"><td class="num" id="LN140">140</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="141"><td class="num" id="LN141">141</td><td class="line">    <span class='keyword'>if</span> (!syn_error) {      <span class='comment'>/* if no errors, ends */</span></td></tr>
<tr class="codeline" data-linenumber="142"><td class="num" id="LN142">142</td><td class="line">        <span class='comment'>/* no non-zero syndromes =&gt; no errors: output is received codeword */</span></td></tr>
<tr class="codeline" data-linenumber="143"><td class="num" id="LN143">143</td><td class="line">        <span class='keyword'>return</span> 0;</td></tr>
<tr class="codeline" data-linenumber="144"><td class="num" id="LN144">144</td><td class="line">    }</td></tr>
<tr class="codeline" data-linenumber="145"><td class="num" id="LN145">145</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="146"><td class="num" id="LN146">146</td><td class="line">    <span class='comment'>/* errors are present, try and correct */</span></td></tr>
<tr class="codeline" data-linenumber="147"><td class="num" id="LN147">147</td><td class="line">    <span class='comment'>/* compute the error location polynomial via the Berlekamp iterative algorithm,</span></td></tr>
<tr class="codeline" data-linenumber="148"><td class="num" id="LN148">148</td><td class="line">    <span class='comment'>following the terminology of Lin and Costello :   d[u] is the 'mu'th</span></td></tr>
<tr class="codeline" data-linenumber="149"><td class="num" id="LN149">149</td><td class="line">    <span class='comment'>discrepancy, where u='mu'+1 and 'mu' (the Greek letter!) is the step number</span></td></tr>
<tr class="codeline" data-linenumber="150"><td class="num" id="LN150">150</td><td class="line">    <span class='comment'>ranging from -1 to 2*tt (see L&amp;C),  l[u] is the</span></td></tr>
<tr class="codeline" data-linenumber="151"><td class="num" id="LN151">151</td><td class="line">    <span class='comment'>degree of the elp at that step, and u_l[u] is the difference between the</span></td></tr>
<tr class="codeline" data-linenumber="152"><td class="num" id="LN152">152</td><td class="line">    <span class='comment'>step number and the degree of the elp.</span></td></tr>
<tr class="codeline" data-linenumber="153"><td class="num" id="LN153">153</td><td class="line">    <span class='comment'>*/</span></td></tr>
<tr class="codeline" data-linenumber="154"><td class="num" id="LN154">154</td><td class="line">    <span class='comment'>/* initialise table entries */</span></td></tr>
<tr class="codeline" data-linenumber="155"><td class="num" id="LN155">155</td><td class="line">    d[0] = 0;           <span class='comment'>/* index form */</span></td></tr>
<tr class="codeline" data-linenumber="156"><td class="num" id="LN156">156</td><td class="line">    d[1] = s[1];        <span class='comment'>/* index form */</span></td></tr>
<tr class="codeline" data-linenumber="157"><td class="num" id="LN157">157</td><td class="line">    elp[0][0] = 0;      <span class='comment'>/* index form */</span></td></tr>
<tr class="codeline" data-linenumber="158"><td class="num" id="LN158">158</td><td class="line">    elp[1][0] = 1;      <span class='comment'>/* polynomial form */</span></td></tr>
<tr class="codeline" data-linenumber="159"><td class="num" id="LN159">159</td><td class="line">    <span class='keyword'>for</span> (i = 1; i&lt;bb; i++) {</td></tr>
<tr class="codeline" data-linenumber="160"><td class="num" id="LN160">160</td><td class="line">        elp[0][i] = -1;   <span class='comment'>/* index form */</span></td></tr>
<tr class="codeline" data-linenumber="161"><td class="num" id="LN161">161</td><td class="line">        elp[1][i] = 0;   <span class='comment'>/* polynomial form */</span></td></tr>
<tr class="codeline" data-linenumber="162"><td class="num" id="LN162">162</td><td class="line">    }</td></tr>
<tr class="codeline" data-linenumber="163"><td class="num" id="LN163">163</td><td class="line">    l[0] = 0;</td></tr>
<tr class="codeline" data-linenumber="164"><td class="num" id="LN164">164</td><td class="line">    l[1] = 0;</td></tr>
<tr class="codeline" data-linenumber="165"><td class="num" id="LN165">165</td><td class="line">    u_lu[0] = -1;</td></tr>
<tr class="codeline" data-linenumber="166"><td class="num" id="LN166">166</td><td class="line">    u_lu[1] = 0;</td></tr>
<tr class="codeline" data-linenumber="167"><td class="num" id="LN167">167</td><td class="line">    u = 0;</td></tr>
<tr class="codeline" data-linenumber="168"><td class="num" id="LN168">168</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="169"><td class="num" id="LN169">169</td><td class="line">    <span class='keyword'>do</span> {</td></tr>
<tr class="codeline" data-linenumber="170"><td class="num" id="LN170">170</td><td class="line">        u++;</td></tr>
<tr class="codeline" data-linenumber="171"><td class="num" id="LN171">171</td><td class="line">        <span class='keyword'>if</span> (d[u] == -1) {</td></tr>
<tr class="codeline" data-linenumber="172"><td class="num" id="LN172">172</td><td class="line">            l[u + 1] = l[u];</td></tr>
<tr class="codeline" data-linenumber="173"><td class="num" id="LN173">173</td><td class="line">            <span class='keyword'>for</span> (i = 0; i &lt;= l[u]; i++) {</td></tr>
<tr class="codeline" data-linenumber="174"><td class="num" id="LN174">174</td><td class="line">                elp[u + 1][i] = elp[u][i];</td></tr>
<tr class="codeline" data-linenumber="175"><td class="num" id="LN175">175</td><td class="line">                elp[u][i] = index_of[elp[u][i]];</td></tr>
<tr class="codeline" data-linenumber="176"><td class="num" id="LN176">176</td><td class="line">            }</td></tr>
<tr class="codeline" data-linenumber="177"><td class="num" id="LN177">177</td><td class="line">        }</td></tr>
<tr class="codeline" data-linenumber="178"><td class="num" id="LN178">178</td><td class="line">        <span class='keyword'>else</span> {</td></tr>
<tr class="codeline" data-linenumber="179"><td class="num" id="LN179">179</td><td class="line">            <span class='comment'>/* search for words with greatest u_lu[q] for which d[q]!=0 */</span></td></tr>
<tr class="codeline" data-linenumber="180"><td class="num" id="LN180">180</td><td class="line">            q = u - 1;</td></tr>
<tr class="codeline" data-linenumber="181"><td class="num" id="LN181">181</td><td class="line">            <span class='keyword'>while</span> ((d[q] == -1) &amp;&amp; (q&gt;0)) q--;</td></tr>
<tr class="codeline" data-linenumber="182"><td class="num" id="LN182">182</td><td class="line">            <span class='comment'>/* have found first non-zero d[q]  */</span></td></tr>
<tr class="codeline" data-linenumber="183"><td class="num" id="LN183">183</td><td class="line">            <span class='keyword'>if</span> (q&gt;0) {</td></tr>
<tr class="codeline" data-linenumber="184"><td class="num" id="LN184">184</td><td class="line">                j = q;</td></tr>
<tr class="codeline" data-linenumber="185"><td class="num" id="LN185">185</td><td class="line">                <span class='keyword'>do</span> {</td></tr>
<tr class="codeline" data-linenumber="186"><td class="num" id="LN186">186</td><td class="line">                    j--;</td></tr>
<tr class="codeline" data-linenumber="187"><td class="num" id="LN187">187</td><td class="line">                    <span class='keyword'>if</span> ((d[j] != -1) &amp;&amp; (u_lu[q]&lt;u_lu[j]))</td></tr>
<tr class="codeline" data-linenumber="188"><td class="num" id="LN188">188</td><td class="line">                        q = j;</td></tr>
<tr class="codeline" data-linenumber="189"><td class="num" id="LN189">189</td><td class="line">                } <span class='keyword'>while</span> (j&gt;0);</td></tr>
<tr class="codeline" data-linenumber="190"><td class="num" id="LN190">190</td><td class="line">            }</td></tr>
<tr class="codeline" data-linenumber="191"><td class="num" id="LN191">191</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="192"><td class="num" id="LN192">192</td><td class="line">            <span class='comment'>/* have now found q such that d[u]!=0 and u_lu[q] is maximum */</span></td></tr>
<tr class="codeline" data-linenumber="193"><td class="num" id="LN193">193</td><td class="line">            <span class='comment'>/* store degree of new elp polynomial */</span></td></tr>
<tr class="codeline" data-linenumber="194"><td class="num" id="LN194">194</td><td class="line">            <span class='keyword'>if</span> (l[u]&gt;l[q] + u - q) {</td></tr>
<tr class="codeline" data-linenumber="195"><td class="num" id="LN195">195</td><td class="line">                l[u + 1] = l[u];</td></tr>
<tr class="codeline" data-linenumber="196"><td class="num" id="LN196">196</td><td class="line">            }</td></tr>
<tr class="codeline" data-linenumber="197"><td class="num" id="LN197">197</td><td class="line">            <span class='keyword'>else</span> {</td></tr>
<tr class="codeline" data-linenumber="198"><td class="num" id="LN198">198</td><td class="line">                l[u + 1] = l[q] + u - q;</td></tr>
<tr class="codeline" data-linenumber="199"><td class="num" id="LN199">199</td><td class="line">            }</td></tr>
<tr class="codeline" data-linenumber="200"><td class="num" id="LN200">200</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="201"><td class="num" id="LN201">201</td><td class="line">            <span class='comment'>/* form new elp(x) */</span></td></tr>
<tr class="codeline" data-linenumber="202"><td class="num" id="LN202">202</td><td class="line">            <span class='keyword'>for</span> (i = 0; i&lt;bb; i++)    elp[u + 1][i] = 0;</td></tr>
<tr class="codeline" data-linenumber="203"><td class="num" id="LN203">203</td><td class="line">            <span class='keyword'>for</span> (i = 0; i &lt;= l[q]; i++){</td></tr>
<tr class="codeline" data-linenumber="204"><td class="num" id="LN204">204</td><td class="line">                <span class='keyword'>if</span> (elp[q][i] != -1) {</td></tr>
<tr class="codeline" data-linenumber="205"><td class="num" id="LN205">205</td><td class="line">                    elp[u + 1][i + u - q] = alpha_to[(d[u] + nn - d[q] + elp[q][i]) % nn];</td></tr>
<tr class="codeline" data-linenumber="206"><td class="num" id="LN206">206</td><td class="line">                }</td></tr>
<tr class="codeline" data-linenumber="207"><td class="num" id="LN207">207</td><td class="line">            }</td></tr>
<tr class="codeline" data-linenumber="208"><td class="num" id="LN208">208</td><td class="line">            <span class='keyword'>for</span> (i = 0; i &lt;= l[u]; i++) {</td></tr>
<tr class="codeline" data-linenumber="209"><td class="num" id="LN209">209</td><td class="line">                elp[u + 1][i] ^= elp[u][i];</td></tr>
<tr class="codeline" data-linenumber="210"><td class="num" id="LN210">210</td><td class="line">                elp[u][i] = index_of[elp[u][i]];  <span class='comment'>/*convert old elp value to index*/</span></td></tr>
<tr class="codeline" data-linenumber="211"><td class="num" id="LN211">211</td><td class="line">            }</td></tr>
<tr class="codeline" data-linenumber="212"><td class="num" id="LN212">212</td><td class="line">        }</td></tr>
<tr class="codeline" data-linenumber="213"><td class="num" id="LN213">213</td><td class="line">        u_lu[u + 1] = u - l[u + 1];</td></tr>
<tr class="codeline" data-linenumber="214"><td class="num" id="LN214">214</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="215"><td class="num" id="LN215">215</td><td class="line">        <span class='comment'>/* form (u+1)th discrepancy */</span></td></tr>
<tr class="codeline" data-linenumber="216"><td class="num" id="LN216">216</td><td class="line">        <span class='keyword'>if</span> (u&lt;bb){    <span class='comment'>/* no discrepancy computed on last iteration */</span></td></tr>
<tr class="codeline" data-linenumber="217"><td class="num" id="LN217">217</td><td class="line">            <span class='keyword'>if</span> (s[u + 1] != -1) {</td></tr>
<tr class="codeline" data-linenumber="218"><td class="num" id="LN218">218</td><td class="line">                d[u + 1] = alpha_to[s[u + 1]];</td></tr>
<tr class="codeline" data-linenumber="219"><td class="num" id="LN219">219</td><td class="line">            }</td></tr>
<tr class="codeline" data-linenumber="220"><td class="num" id="LN220">220</td><td class="line">            <span class='keyword'>else</span> {</td></tr>
<tr class="codeline" data-linenumber="221"><td class="num" id="LN221">221</td><td class="line">                d[u + 1] = 0;</td></tr>
<tr class="codeline" data-linenumber="222"><td class="num" id="LN222">222</td><td class="line">            }</td></tr>
<tr class="codeline" data-linenumber="223"><td class="num" id="LN223">223</td><td class="line">            <span class='keyword'>for</span> (i = 1; i &lt;= l[u + 1]; i++){</td></tr>
<tr class="codeline" data-linenumber="224"><td class="num" id="LN224">224</td><td class="line">                <span class='keyword'>if</span> ((s[u + 1 - i] != -1) &amp;&amp; (elp[u + 1][i] != 0)) {</td></tr>
<tr class="codeline" data-linenumber="225"><td class="num" id="LN225">225</td><td class="line">                    d[u + 1] ^= alpha_to[(s[u + 1 - i] + index_of[elp[u + 1][i]]) % nn];</td></tr>
<tr class="codeline" data-linenumber="226"><td class="num" id="LN226">226</td><td class="line">                }</td></tr>
<tr class="codeline" data-linenumber="227"><td class="num" id="LN227">227</td><td class="line">            }</td></tr>
<tr class="codeline" data-linenumber="228"><td class="num" id="LN228">228</td><td class="line">            d[u + 1] = index_of[d[u + 1]];    <span class='comment'>/* put d[u+1] into index form */</span></td></tr>
<tr class="codeline" data-linenumber="229"><td class="num" id="LN229">229</td><td class="line">        }</td></tr>
<tr class="codeline" data-linenumber="230"><td class="num" id="LN230">230</td><td class="line">    } <span class='keyword'>while</span> ((u&lt;bb) &amp;&amp; (l[u + 1] &lt;= tt));</td></tr>
<tr class="codeline" data-linenumber="231"><td class="num" id="LN231">231</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="232"><td class="num" id="LN232">232</td><td class="line">    u++;</td></tr>
<tr class="codeline" data-linenumber="233"><td class="num" id="LN233">233</td><td class="line">    <span class='keyword'>if</span> (l[u]&gt;tt) {              <span class='comment'>/* elp has degree has degree &gt;tt hence cannot solve */</span></td></tr>
<tr class="codeline" data-linenumber="234"><td class="num" id="LN234">234</td><td class="line">        <span class='keyword'>return</span> -1;              <span class='comment'>/* just output is received codeword as is */</span></td></tr>
<tr class="codeline" data-linenumber="235"><td class="num" id="LN235">235</td><td class="line">    }</td></tr>
<tr class="codeline" data-linenumber="236"><td class="num" id="LN236">236</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="237"><td class="num" id="LN237">237</td><td class="line">    <span class='comment'>/* can correct error */</span></td></tr>
<tr class="codeline" data-linenumber="238"><td class="num" id="LN238">238</td><td class="line">    <span class='comment'>/* put elp into index form */</span></td></tr>
<tr class="codeline" data-linenumber="239"><td class="num" id="LN239">239</td><td class="line">    <span class='keyword'>for</span> (i = 0; i &lt;= l[u]; i++)   elp[u][i] = index_of[elp[u][i]];</td></tr>
<tr class="codeline" data-linenumber="240"><td class="num" id="LN240">240</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="241"><td class="num" id="LN241">241</td><td class="line">    <span class='comment'>/* find roots of the error location polynomial */</span></td></tr>
<tr class="codeline" data-linenumber="242"><td class="num" id="LN242">242</td><td class="line">    <span class='keyword'>for</span> (i = 1; i &lt;= l[u]; i++) {</td></tr>
<tr class="codeline" data-linenumber="243"><td class="num" id="LN243">243</td><td class="line">        reg[i] = elp[u][i];</td></tr>
<tr class="codeline" data-linenumber="244"><td class="num" id="LN244">244</td><td class="line">    }</td></tr>
<tr class="codeline" data-linenumber="245"><td class="num" id="LN245">245</td><td class="line">    count = 0;</td></tr>
<tr class="codeline" data-linenumber="246"><td class="num" id="LN246">246</td><td class="line">    <span class='keyword'>for</span> (i = 1; i &lt;= nn; i++) {</td></tr>
<tr class="codeline" data-linenumber="247"><td class="num" id="LN247">247</td><td class="line">        q = 1;</td></tr>
<tr class="codeline" data-linenumber="248"><td class="num" id="LN248">248</td><td class="line">        <span class='keyword'>for</span> (j = 1; j &lt;= l[u]; j++) {</td></tr>
<tr class="codeline" data-linenumber="249"><td class="num" id="LN249">249</td><td class="line">            <span class='keyword'>if</span> (reg[j] != -1) {</td></tr>
<tr class="codeline" data-linenumber="250"><td class="num" id="LN250">250</td><td class="line">                reg[j] = (reg[j] + j) % nn;</td></tr>
<tr class="codeline" data-linenumber="251"><td class="num" id="LN251">251</td><td class="line">                q ^= alpha_to[reg[j]];</td></tr>
<tr class="codeline" data-linenumber="252"><td class="num" id="LN252">252</td><td class="line">            }</td></tr>
<tr class="codeline" data-linenumber="253"><td class="num" id="LN253">253</td><td class="line">        }</td></tr>
<tr class="codeline" data-linenumber="254"><td class="num" id="LN254">254</td><td class="line">        <span class='keyword'>if</span> (!q) {       <span class='comment'>/* store root and error location number indices */</span></td></tr>
<tr class="codeline" data-linenumber="255"><td class="num" id="LN255">255</td><td class="line">            root[count] = i;</td></tr>
<tr class="codeline" data-linenumber="256"><td class="num" id="LN256">256</td><td class="line">            loc[count] = nn - i;</td></tr>
<tr class="codeline" data-linenumber="257"><td class="num" id="LN257">257</td><td class="line">            count++;</td></tr>
<tr class="codeline" data-linenumber="258"><td class="num" id="LN258">258</td><td class="line">        }</td></tr>
<tr class="codeline" data-linenumber="259"><td class="num" id="LN259">259</td><td class="line">    }</td></tr>
<tr class="codeline" data-linenumber="260"><td class="num" id="LN260">260</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="261"><td class="num" id="LN261">261</td><td class="line">    <span class='keyword'>if</span> (count != l[u]) {   <span class='comment'>/* no. roots != degree of elp =&gt; &gt;tt errors and cannot solve */</span></td></tr>
<tr class="codeline" data-linenumber="262"><td class="num" id="LN262">262</td><td class="line">        <span class='keyword'>return</span> -1;        <span class='comment'>/* just output is received codeword as is */</span></td></tr>
<tr class="codeline" data-linenumber="263"><td class="num" id="LN263">263</td><td class="line">    }</td></tr>
<tr class="codeline" data-linenumber="264"><td class="num" id="LN264">264</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="265"><td class="num" id="LN265">265</td><td class="line">    <span class='comment'>/* no. roots = degree of elp hence &lt;= tt errors */</span></td></tr>
<tr class="codeline" data-linenumber="266"><td class="num" id="LN266">266</td><td class="line">    <span class='comment'>/* form polynomial z(x) */</span></td></tr>
<tr class="codeline" data-linenumber="267"><td class="num" id="LN267">267</td><td class="line">    <span class='keyword'>for</span> (i = 1; i &lt;= l[u]; i++) {       <span class='comment'>/* Z[0] = 1 always - do not need */</span></td></tr>
<tr class="codeline" data-linenumber="268"><td class="num" id="LN268">268</td><td class="line">        <span class='keyword'>if</span> ((s[i] != -1) &amp;&amp; (elp[u][i] != -1)) {</td></tr>
<tr class="codeline" data-linenumber="269"><td class="num" id="LN269">269</td><td class="line">            z[i] = alpha_to[s[i]] ^ alpha_to[elp[u][i]];</td></tr>
<tr class="codeline" data-linenumber="270"><td class="num" id="LN270">270</td><td class="line">        }</td></tr>
<tr class="codeline" data-linenumber="271"><td class="num" id="LN271">271</td><td class="line">        <span class='keyword'>else</span> <span class='keyword'>if</span> ((s[i] != -1) &amp;&amp; (elp[u][i] == -1)) {</td></tr>
<tr class="codeline" data-linenumber="272"><td class="num" id="LN272">272</td><td class="line">            z[i] = alpha_to[s[i]];</td></tr>
<tr class="codeline" data-linenumber="273"><td class="num" id="LN273">273</td><td class="line">        }</td></tr>
<tr class="codeline" data-linenumber="274"><td class="num" id="LN274">274</td><td class="line">        <span class='keyword'>else</span> <span class='keyword'>if</span> ((s[i] == -1) &amp;&amp; (elp[u][i] != -1)) {</td></tr>
<tr class="codeline" data-linenumber="275"><td class="num" id="LN275">275</td><td class="line">            z[i] = alpha_to[elp[u][i]];</td></tr>
<tr class="codeline" data-linenumber="276"><td class="num" id="LN276">276</td><td class="line">        }</td></tr>
<tr class="codeline" data-linenumber="277"><td class="num" id="LN277">277</td><td class="line">        <span class='keyword'>else</span> {</td></tr>
<tr class="codeline" data-linenumber="278"><td class="num" id="LN278">278</td><td class="line">            z[i] = 0;</td></tr>
<tr class="codeline" data-linenumber="279"><td class="num" id="LN279">279</td><td class="line">        }</td></tr>
<tr class="codeline" data-linenumber="280"><td class="num" id="LN280">280</td><td class="line">        <span class='keyword'>for</span> (j = 1; j&lt;i; j++) {</td></tr>
<tr class="codeline" data-linenumber="281"><td class="num" id="LN281">281</td><td class="line">            <span class='keyword'>if</span> ((s[j] != -1) &amp;&amp; (elp[u][i - j] != -1)) {</td></tr>
<tr class="codeline" data-linenumber="282"><td class="num" id="LN282">282</td><td class="line">                z[i] ^= alpha_to[(elp[u][i - j] + s[j]) % nn];</td></tr>
<tr class="codeline" data-linenumber="283"><td class="num" id="LN283">283</td><td class="line">            }</td></tr>
<tr class="codeline" data-linenumber="284"><td class="num" id="LN284">284</td><td class="line">        }</td></tr>
<tr class="codeline" data-linenumber="285"><td class="num" id="LN285">285</td><td class="line">        z[i] = index_of[z[i]];         <span class='comment'>/* put into index form */</span></td></tr>
<tr class="codeline" data-linenumber="286"><td class="num" id="LN286">286</td><td class="line">    }</td></tr>
<tr class="codeline" data-linenumber="287"><td class="num" id="LN287">287</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="288"><td class="num" id="LN288">288</td><td class="line">    <span class='comment'>/* evaluate errors at locations given by error location numbers loc[i] */</span></td></tr>
<tr class="codeline" data-linenumber="289"><td class="num" id="LN289">289</td><td class="line">    <span class='keyword'>for</span> (i = 0; i&lt;nn; i++) err[i] = 0;</td></tr>
<tr class="codeline" data-linenumber="290"><td class="num" id="LN290">290</td><td class="line">    <span class='keyword'>for</span> (i = 0; i&lt;l[u]; i++) {   <span class='comment'>/* compute numerator of error term first */</span></td></tr>
<tr class="codeline" data-linenumber="291"><td class="num" id="LN291">291</td><td class="line">        err[loc[i]] = 1;       <span class='comment'>/* accounts for z[0] */</span></td></tr>
<tr class="codeline" data-linenumber="292"><td class="num" id="LN292">292</td><td class="line">        <span class='keyword'>for</span> (j = 1; j &lt;= l[u]; j++) {</td></tr>
<tr class="codeline" data-linenumber="293"><td class="num" id="LN293">293</td><td class="line">            <span class='keyword'>if</span> (z[j] != -1) {</td></tr>
<tr class="codeline" data-linenumber="294"><td class="num" id="LN294">294</td><td class="line">                err[loc[i]] ^= alpha_to[(z[j] + j*root[i]) % nn];</td></tr>
<tr class="codeline" data-linenumber="295"><td class="num" id="LN295">295</td><td class="line">            }</td></tr>
<tr class="codeline" data-linenumber="296"><td class="num" id="LN296">296</td><td class="line">        }</td></tr>
<tr class="codeline" data-linenumber="297"><td class="num" id="LN297">297</td><td class="line">        <span class='keyword'>if</span> (err[loc[i]] != 0) {</td></tr>
<tr class="codeline" data-linenumber="298"><td class="num" id="LN298">298</td><td class="line">            err[loc[i]] = index_of[err[loc[i]]];</td></tr>
<tr class="codeline" data-linenumber="299"><td class="num" id="LN299">299</td><td class="line">            q = 0;     <span class='comment'>/* form denominator of error term */</span></td></tr>
<tr class="codeline" data-linenumber="300"><td class="num" id="LN300">300</td><td class="line">            <span class='keyword'>for</span> (j = 0; j&lt;l[u]; j++) {</td></tr>
<tr class="codeline" data-linenumber="301"><td class="num" id="LN301">301</td><td class="line">                <span class='keyword'>if</span> (j != i) {</td></tr>
<tr class="codeline" data-linenumber="302"><td class="num" id="LN302">302</td><td class="line">                    q += index_of[1 ^ alpha_to[(loc[j] + root[i]) % nn]];</td></tr>
<tr class="codeline" data-linenumber="303"><td class="num" id="LN303">303</td><td class="line">                }</td></tr>
<tr class="codeline" data-linenumber="304"><td class="num" id="LN304">304</td><td class="line">            }</td></tr>
<tr class="codeline" data-linenumber="305"><td class="num" id="LN305">305</td><td class="line">            q = q % nn;</td></tr>
<tr class="codeline" data-linenumber="306"><td class="num" id="LN306">306</td><td class="line">            err[loc[i]] = alpha_to[(err[loc[i]] - q + nn) % nn];</td></tr>
<tr class="codeline" data-linenumber="307"><td class="num" id="LN307">307</td><td class="line">            data[loc[i]] ^= err[loc[i]];  <span class='comment'>/*change errors by correct data, in polynomial form */</span></td></tr>
<tr class="codeline" data-linenumber="308"><td class="num" id="LN308">308</td><td class="line">        }</td></tr>
<tr class="codeline" data-linenumber="309"><td class="num" id="LN309">309</td><td class="line">    }</td></tr>
<tr class="codeline" data-linenumber="310"><td class="num" id="LN310">310</td><td class="line">    <span class='keyword'>return</span> count;</td></tr>
<tr class="codeline" data-linenumber="311"><td class="num" id="LN311">311</td><td class="line">}</td></tr>
<tr class="codeline" data-linenumber="312"><td class="num" id="LN312">312</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="313"><td class="num" id="LN313">313</td><td class="line"><span class='comment'>/** take the string of symbols in data[i], i=0..(k-1) and encode systematically</span></td></tr>
<tr class="codeline" data-linenumber="314"><td class="num" id="LN314">314</td><td class="line">   <span class='comment'>to produce 2*tt parity symbols in bd[0]..bd[2*tt-1]</span></td></tr>
<tr class="codeline" data-linenumber="315"><td class="num" id="LN315">315</td><td class="line">   <span class='comment'>data[] is input and bd[] is output in polynomial form.</span></td></tr>
<tr class="codeline" data-linenumber="316"><td class="num" id="LN316">316</td><td class="line">   <span class='comment'>Encoding is done by using a feedback shift register with appropriate</span></td></tr>
<tr class="codeline" data-linenumber="317"><td class="num" id="LN317">317</td><td class="line">   <span class='comment'>connections specified by the elements of gg[], which was generated above.</span></td></tr>
<tr class="codeline" data-linenumber="318"><td class="num" id="LN318">318</td><td class="line">   <span class='comment'>Codeword is   c(X) = data(X)*X**(nn-kk)+ b(X)         */</span></td></tr>
<tr class="codeline" data-linenumber="319"><td class="num" id="LN319">319</td><td class="line"><span class='keyword'>bool</span> RScodec::encode(<span class='keyword'>unsigned</span> <span class='keyword'>char</span> *data, <span class='keyword'>unsigned</span> <span class='keyword'>char</span> *parity) {</td></tr>
<tr class="codeline" data-linenumber="320"><td class="num" id="LN320">320</td><td class="line">    <span class='keyword'>if</span> (!isOk) <span class='keyword'>return</span> <span class='keyword'>false</span>;</td></tr>
<tr class="codeline" data-linenumber="321"><td class="num" id="LN321">321</td><td class="line">    <span class='keyword'>int</span> i,j ;</td></tr>
<tr class="codeline" data-linenumber="322"><td class="num" id="LN322">322</td><td class="line">    <span class='keyword'>int</span> feedback ;</td></tr>
<tr class="codeline" data-linenumber="323"><td class="num" id="LN323">323</td><td class="line">    <span class='keyword'>unsigned</span> <span class='keyword'>char</span> *idata = data;</td></tr>
<tr class="codeline" data-linenumber="324"><td class="num" id="LN324">324</td><td class="line">    <span class='keyword'>unsigned</span> <span class='keyword'>char</span> *bd = parity;</td></tr>
<tr class="codeline" data-linenumber="325"><td class="num" id="LN325">325</td><td class="line">    <span class='keyword'>int</span> bb = nn-kk;; <span class='comment'>//nn-kk length of parity data</span></td></tr>
<tr class="codeline" data-linenumber="326"><td class="num" id="LN326">326</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="327"><td class="num" id="LN327">327</td><td class="line">    <span class='keyword'>for</span> (i=0; i&lt;bb; i++)   bd[i] = 0 ;</td></tr>
<tr class="codeline" data-linenumber="328"><td class="num" id="LN328">328</td><td class="line">    <span class='keyword'>for</span> (i=kk-1; i&gt;=0; i--) {</td></tr>
<tr class="codeline" data-linenumber="329"><td class="num" id="LN329">329</td><td class="line">        feedback = index_of[idata[i]^bd[bb-1]] ;</td></tr>
<tr class="codeline" data-linenumber="330"><td class="num" id="LN330">330</td><td class="line">        <span class='keyword'>if</span> (feedback != -1) {</td></tr>
<tr class="codeline" data-linenumber="331"><td class="num" id="LN331">331</td><td class="line">            <span class='keyword'>for</span> (j=bb-1; j&gt;0; j--)</td></tr>
<tr class="codeline" data-linenumber="332"><td class="num" id="LN332">332</td><td class="line">                <span class='keyword'>if</span> (gg[j] != -1)</td></tr>
<tr class="codeline" data-linenumber="333"><td class="num" id="LN333">333</td><td class="line">                    bd[j] = bd[j-1]^alpha_to[(gg[j]+feedback)%nn] ;</td></tr>
<tr class="codeline" data-linenumber="334"><td class="num" id="LN334">334</td><td class="line">                <span class='keyword'>else</span></td></tr>
<tr class="codeline" data-linenumber="335"><td class="num" id="LN335">335</td><td class="line">                    bd[j] = bd[j-1] ;</td></tr>
<tr class="codeline" data-linenumber="336"><td class="num" id="LN336">336</td><td class="line">            bd[0] = alpha_to[(gg[0]+feedback)%nn] ;</td></tr>
<tr class="codeline" data-linenumber="337"><td class="num" id="LN337">337</td><td class="line">        } <span class='keyword'>else</span> {</td></tr>
<tr class="codeline" data-linenumber="338"><td class="num" id="LN338">338</td><td class="line">            <span class='keyword'>for</span> (j=bb-1; j&gt;0; j--)</td></tr>
<tr class="codeline" data-linenumber="339"><td class="num" id="LN339">339</td><td class="line">                bd[j] = bd[j-1] ;</td></tr>
<tr class="codeline" data-linenumber="340"><td class="num" id="LN340">340</td><td class="line">            bd[0] = 0 ;</td></tr>
<tr class="codeline" data-linenumber="341"><td class="num" id="LN341">341</td><td class="line">        }</td></tr>
<tr class="codeline" data-linenumber="342"><td class="num" id="LN342">342</td><td class="line">    }</td></tr>
<tr class="codeline" data-linenumber="343"><td class="num" id="LN343">343</td><td class="line">    <span class='keyword'>return</span> <span class='keyword'>true</span>;</td></tr>
<tr class="codeline" data-linenumber="344"><td class="num" id="LN344">344</td><td class="line">}</td></tr>
<tr class="codeline" data-linenumber="345"><td class="num" id="LN345">345</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="346"><td class="num" id="LN346">346</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="347"><td class="num" id="LN347">347</td><td class="line"><span class='comment'>/* assume we have received bits grouped into mm-bit symbols in recd[i],</span></td></tr>
<tr class="codeline" data-linenumber="348"><td class="num" id="LN348">348</td><td class="line">   <span class='comment'>i=0..(nn-1),  and recd[i] is index form (ie as powers of alpha).</span></td></tr>
<tr class="codeline" data-linenumber="349"><td class="num" id="LN349">349</td><td class="line">   <span class='comment'>We first compute the 2*tt syndromes by substituting alpha**i into rec(X) and</span></td></tr>
<tr class="codeline" data-linenumber="350"><td class="num" id="LN350">350</td><td class="line">   <span class='comment'>evaluating, storing the syndromes in s[i], i=1..2tt (leave s[0] zero) .</span></td></tr>
<tr class="codeline" data-linenumber="351"><td class="num" id="LN351">351</td><td class="line">   <span class='comment'>Then we use the Berlekamp iteration to find the error location polynomial</span></td></tr>
<tr class="codeline" data-linenumber="352"><td class="num" id="LN352">352</td><td class="line">   <span class='comment'>elp[i].   If the degree of the elp is &gt;tt, we cannot correct all the errors</span></td></tr>
<tr class="codeline" data-linenumber="353"><td class="num" id="LN353">353</td><td class="line">   <span class='comment'>and hence just put out the information symbols uncorrected. If the degree of</span></td></tr>
<tr class="codeline" data-linenumber="354"><td class="num" id="LN354">354</td><td class="line">   <span class='comment'>elp is &lt;=tt, we substitute alpha**i , i=1..n into the elp to get the roots,</span></td></tr>
<tr class="codeline" data-linenumber="355"><td class="num" id="LN355">355</td><td class="line">   <span class='comment'>hence the inverse roots, the error location numbers. If the number of errors</span></td></tr>
<tr class="codeline" data-linenumber="356"><td class="num" id="LN356">356</td><td class="line">   <span class='comment'>located does not equal the degree of the elp, we have more than tt errors</span></td></tr>
<tr class="codeline" data-linenumber="357"><td class="num" id="LN357">357</td><td class="line">   <span class='comment'>and cannot correct them.  Otherwise, we then solve for the error value at</span></td></tr>
<tr class="codeline" data-linenumber="358"><td class="num" id="LN358">358</td><td class="line">   <span class='comment'>the error location and correct the error.  The procedure is that found in</span></td></tr>
<tr class="codeline" data-linenumber="359"><td class="num" id="LN359">359</td><td class="line">   <span class='comment'>Lin and Costello. For the cases where the number of errors is known to be too</span></td></tr>
<tr class="codeline" data-linenumber="360"><td class="num" id="LN360">360</td><td class="line">   <span class='comment'>large to correct, the information symbols as received are output (the</span></td></tr>
<tr class="codeline" data-linenumber="361"><td class="num" id="LN361">361</td><td class="line">   <span class='comment'>advantage of systematic encoding is that hopefully some of the information</span></td></tr>
<tr class="codeline" data-linenumber="362"><td class="num" id="LN362">362</td><td class="line">   <span class='comment'>symbols will be okay and that if we are in luck, the errors are in the</span></td></tr>
<tr class="codeline" data-linenumber="363"><td class="num" id="LN363">363</td><td class="line">   <span class='comment'>parity part of the transmitted codeword).  Of course, these insoluble cases</span></td></tr>
<tr class="codeline" data-linenumber="364"><td class="num" id="LN364">364</td><td class="line">   <span class='comment'>can be returned as error flags to the calling routine if desired.   */</span></td></tr>
<tr class="codeline" data-linenumber="365"><td class="num" id="LN365">365</td><td class="line"><span class='comment'>/** return value: number of corrected errors or -1 if can't correct it */</span></td></tr>
<tr class="codeline" data-linenumber="366"><td class="num" id="LN366">366</td><td class="line"><span class='keyword'>int</span> RScodec::decode(<span class='keyword'>unsigned</span> <span class='keyword'>char</span> *data) {</td></tr>
<tr class="codeline" data-linenumber="367"><td class="num" id="LN367">367</td><td class="line">    <span class='keyword'>if</span> (!isOk) <span class='keyword'>return</span> -1;</td></tr>
<tr class="codeline" data-linenumber="368"><td class="num" id="LN368">368</td><td class="line">    <span class='keyword'>int</span> bb = nn-kk;; <span class='comment'>//nn-kk length of parity data</span></td></tr>
<tr class="codeline" data-linenumber="369"><td class="num" id="LN369">369</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="370"><td class="num" id="LN370">370</td><td class="line">    <span class='keyword'>int</span> *recd = <span class='keyword'>new</span> (std::nothrow) <span class='keyword'>int</span>[nn];</td></tr>
<tr class="codeline" data-linenumber="371"><td class="num" id="LN371">371</td><td class="line">    <span class='keyword'>int</span> **elp = <span class='keyword'>new</span> <span class='keyword'>int</span>*[bb + 2];</td></tr>
<tr class="codeline" data-linenumber="372"><td class="num" id="LN372">372</td><td class="line">    <span class='keyword'>for</span> (<span class='keyword'>int</span> i = 0; i &lt; bb + 2; ++i)</td></tr>
<tr class="codeline" data-linenumber="373"><td class="num" id="LN373">373</td><td class="line">        elp[i] = <span class='keyword'>new</span> <span class='keyword'>int</span>[bb];</td></tr>
<tr class="codeline" data-linenumber="374"><td class="num" id="LN374">374</td><td class="line">    <span class='keyword'>int</span> *d = <span class='keyword'>new</span> <span class='keyword'>int</span>[bb + 2];</td></tr>
<tr class="codeline" data-linenumber="375"><td class="num" id="LN375">375</td><td class="line">    <span class='keyword'>int</span> *l = <span class='keyword'>new</span> <span class='keyword'>int</span>[bb + 2];</td></tr>
<tr class="codeline" data-linenumber="376"><td class="num" id="LN376">376</td><td class="line">    <span class='keyword'>int</span> *u_lu = <span class='keyword'>new</span> <span class='keyword'>int</span>[bb + 2];</td></tr>
<tr class="codeline" data-linenumber="377"><td class="num" id="LN377">377</td><td class="line">    <span class='keyword'>int</span> *s = <span class='keyword'>new</span> <span class='keyword'>int</span>[bb + 1];</td></tr>
<tr class="codeline" data-linenumber="378"><td class="num" id="LN378">378</td><td class="line">    <span class='keyword'>int</span> *root = <span class='keyword'>new</span> <span class='keyword'>int</span>[tt];</td></tr>
<tr class="codeline" data-linenumber="379"><td class="num" id="LN379">379</td><td class="line">    <span class='keyword'>int</span> *loc = <span class='keyword'>new</span> <span class='keyword'>int</span>[tt];</td></tr>
<tr class="codeline" data-linenumber="380"><td class="num" id="LN380">380</td><td class="line">    <span class='keyword'>int</span> *z = <span class='keyword'>new</span> <span class='keyword'>int</span>[tt+1];</td></tr>
<tr class="codeline" data-linenumber="381"><td class="num" id="LN381">381</td><td class="line">    <span class='keyword'>int</span> *err = <span class='keyword'>new</span> <span class='keyword'>int</span>[nn];</td></tr>
<tr class="codeline" data-linenumber="382"><td class="num" id="LN382">382</td><td class="line">    <span class='keyword'>int</span> *reg = <span class='keyword'>new</span> <span class='keyword'>int</span>[tt + 1];</td></tr>
<tr class="codeline" data-linenumber="383"><td class="num" id="LN383">383</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="384"><td class="num" id="LN384">384</td><td class="line">    <span class='keyword'>int</span> res = calcDecode(data, recd, elp ,d ,l, u_lu, s, root, loc ,z, err, reg, bb);</td></tr>
<tr class="codeline" data-linenumber="385"><td class="num" id="LN385">385</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="386"><td class="num" id="LN386">386</td><td class="line">    <span class='keyword'>delete</span>[] recd;</td></tr>
<tr class="codeline" data-linenumber="387"><td class="num" id="LN387">387</td><td class="line">    <span class='keyword'>for</span> (<span class='keyword'>int</span> i = 0; i &lt; bb + 2; ++i)</td></tr>
<tr class="codeline" data-linenumber="388"><td class="num" id="LN388">388</td><td class="line">        <span class='keyword'>delete</span>[] elp[i];</td></tr>
<tr class="codeline" data-linenumber="389"><td class="num" id="LN389">389</td><td class="line">    <span class='keyword'>delete</span>[] elp;</td></tr>
<tr class="codeline" data-linenumber="390"><td class="num" id="LN390">390</td><td class="line">    <span class='keyword'>delete</span>[] d;</td></tr>
<tr class="codeline" data-linenumber="391"><td class="num" id="LN391">391</td><td class="line">    <span class='keyword'>delete</span>[] l;</td></tr>
<tr class="codeline" data-linenumber="392"><td class="num" id="LN392">392</td><td class="line">    <span class='keyword'>delete</span>[] u_lu;</td></tr>
<tr class="codeline" data-linenumber="393"><td class="num" id="LN393">393</td><td class="line">    <span class='keyword'>delete</span>[] s;</td></tr>
<tr class="codeline" data-linenumber="394"><td class="num" id="LN394">394</td><td class="line">    <span class='keyword'>delete</span>[] root;</td></tr>
<tr class="codeline" data-linenumber="395"><td class="num" id="LN395">395</td><td class="line">    <span class='keyword'>delete</span>[] loc;</td></tr>
<tr class="codeline" data-linenumber="396"><td class="num" id="LN396">396</td><td class="line">    <span class='keyword'>delete</span>[] z;</td></tr>
<tr class="codeline" data-linenumber="397"><td class="num" id="LN397">397</td><td class="line">    <span class='keyword'>delete</span>[] err;</td></tr>
<tr class="codeline" data-linenumber="398"><td class="num" id="LN398">398</td><td class="line">    <span class='keyword'>delete</span>[] reg;</td></tr>
<tr class="codeline" data-linenumber="399"><td class="num" id="LN399">399</td><td class="line"> </td></tr>
<tr class="codeline" data-linenumber="400"><td class="num" id="LN400">400</td><td class="line">    <span class='keyword'>return</span> res;</td></tr>
<tr class="codeline" data-linenumber="401"><td class="num" id="LN401">401</td><td class="line">}</td></tr>
</table></body></html>