/** * A function for converting hex <-> dec w/o loss of precision. * * The problem is that parseInt("0x12345...") isn't precise enough to convert * 64-bit integers correctly. * * Internally, this uses arrays to encode decimal digits starting with the least * significant: * 8 = [8] * 16 = [6, 1] * 1024 = [4, 2, 0, 1] */ // Adds two arrays for the given base (10 or 16), returning the result. // This turns out to be the only "primitive" operation we need. function add(x, y, base) { var z = []; var n = Math.max(x.length, y.length); var carry = 0; var i = 0; while (i < n || carry) { var xi = i < x.length ? x[i] : 0; var yi = i < y.length ? y[i] : 0; var zi = carry + xi + yi; z.push(zi % base); carry = Math.floor(zi / base); i++; } return z; } // Returns a*x, where x is an array of decimal digits and a is an ordinary // JavaScript number. base is the number base of the array x. function multiplyByNumber(num, x, base) { if (num < 0) return null; if (num == 0) return []; var result = []; var power = x; while (true) { if (num & 1) { result = add(result, power, base); } num = num >> 1; if (num === 0) break; power = add(power, power, base); } return result; } function parseToDigitsArray(str, base) { var digits = str.split(''); var ary = []; for (var i = digits.length - 1; i >= 0; i--) { var n = parseInt(digits[i], base); if (isNaN(n)) return null; ary.push(n); } return ary; } function convertBase(str, fromBase, toBase) { var digits = parseToDigitsArray(str, fromBase); if (digits === null) return null; var outArray = []; var power = [1]; for (var i = 0; i < digits.length; i++) { // invariant: at this point, fromBase^i = power if (digits[i]) { outArray = add(outArray, multiplyByNumber(digits[i], power, toBase), toBase); } power = multiplyByNumber(fromBase, power, toBase); } var out = ''; for (var i = outArray.length - 1; i >= 0; i--) { out += outArray[i].toString(toBase); } return out; } function decToHex(decStr) { var hex = convertBase(decStr, 10, 16); return hex ? '0x' + hex : null; } function hexToDec(hexStr) { if (hexStr.substring(0, 2) === '0x') hexStr = hexStr.substring(2); hexStr = hexStr.toLowerCase(); return convertBase(hexStr, 16, 10); } function str_or_null(x) { return x === null ? 'null' : x; } // "1.234e+5" -> "12340" function expandExponential(x) { var pos = x.indexOf("e"); if (pos === -1) pos = x.indexOf("E"); if (pos === -1) return x; var base = x.substring(0, pos); var pow = parseInt(x.substring(pos + 1), 10); if (pow < 0) return x; // not supported. var dotPos = base.indexOf('.'); if (dotPos === -1) dotPos = base.length; var ret = base.replace('.', ''); while (ret.length < dotPos + pow) ret += '0'; return ret; } function boldDifference(correct, actual) { for (var i = 0, j = 0; i < correct.length && j < actual.length; i++, j++) { if (correct[i] !== actual[j]) { break; } } if (j < actual.length) { return actual.substring(0, j) + '' + actual.substring(j) + ''; } else { return actual; } } function convert() { var input = document.getElementById("in").value; if (input) { var aHex = str_or_null(decToHex(input)); var aDec = str_or_null(hexToDec(input)); var bHex = '0x' + (parseInt(input, 10)).toString(16); var bDec = "" + expandExponential("" +parseInt(input, 16)); var html = '
To Decimal(' + input + ') = ' + aDec + '
'; html += 'To Hex(' + input + ') = ' + aHex + '
'; document.getElementById('result').innerHTML = html; } } convert();Type in a hex or decimal string:
EOT; return $o; }