* dice 6 [1-6]
* decimal [0-9]
* hexadecimal [0-9A-F]
+ * card [A2-9TJQK][CDHS]
*
* Automatically uses lowest entropy to avoid issues such as interpretting 0101
* as hexadecimal which would be 16 bits when really it's only 4 bits of binary
window.Entropy = new (function() {
+ let eventBits = {
+
+ "binary": {
+ "0": "0",
+ "1": "1",
+ },
+
+ // log2(6) = 2.58496 bits per roll, with bias
+ // 4 rolls give 2 bits each
+ // 2 rolls give 1 bit each
+ // Average (4*2 + 2*1) / 6 = 1.66 bits per roll without bias
+ "base 6": {
+ "0": "00",
+ "1": "01",
+ "2": "10",
+ "3": "11",
+ "4": "0",
+ "5": "1",
+ },
+
+ // log2(6) = 2.58496 bits per roll, with bias
+ // 4 rolls give 2 bits each
+ // 2 rolls give 1 bit each
+ // Average (4*2 + 2*1) / 6 = 1.66 bits per roll without bias
+ "base 6 (dice)": {
+ "0": "00", // equivalent to 0 in base 6
+ "1": "01",
+ "2": "10",
+ "3": "11",
+ "4": "0",
+ "5": "1",
+ },
+
+ // log2(10) = 3.321928 bits per digit, with bias
+ // 8 digits give 3 bits each
+ // 2 digits give 1 bit each
+ // Average (8*3 + 2*1) / 10 = 2.6 bits per digit without bias
+ "base 10": {
+ "0": "000",
+ "1": "001",
+ "2": "010",
+ "3": "011",
+ "4": "100",
+ "5": "101",
+ "6": "110",
+ "7": "111",
+ "8": "0",
+ "9": "1",
+ },
+
+ "hexadecimal": {
+ "0": "0000",
+ "1": "0001",
+ "2": "0010",
+ "3": "0011",
+ "4": "0100",
+ "5": "0101",
+ "6": "0110",
+ "7": "0111",
+ "8": "1000",
+ "9": "1001",
+ "a": "1010",
+ "b": "1011",
+ "c": "1100",
+ "d": "1101",
+ "e": "1110",
+ "f": "1111",
+ },
+
+ // log2(52) = 5.7004 bits per card, with bias
+ // 32 cards give 5 bits each
+ // 16 cards give 4 bits each
+ // 4 cards give 2 bits each
+ // Average (32*5 + 16*4 + 4*2) / 52 = 4.46 bits per card without bias
+ "card": {
+ "ac": "00000",
+ "2c": "00001",
+ "3c": "00010",
+ "4c": "00011",
+ "5c": "00100",
+ "6c": "00101",
+ "7c": "00110",
+ "8c": "00111",
+ "9c": "01000",
+ "tc": "01001",
+ "jc": "01010",
+ "qc": "01011",
+ "kc": "01100",
+ "ad": "01101",
+ "2d": "01110",
+ "3d": "01111",
+ "4d": "10000",
+ "5d": "10001",
+ "6d": "10010",
+ "7d": "10011",
+ "8d": "10100",
+ "9d": "10101",
+ "td": "10110",
+ "jd": "10111",
+ "qd": "11000",
+ "kd": "11001",
+ "ah": "11010",
+ "2h": "11011",
+ "3h": "11100",
+ "4h": "11101",
+ "5h": "11110",
+ "6h": "11111",
+ "7h": "0000",
+ "8h": "0001",
+ "9h": "0010",
+ "th": "0011",
+ "jh": "0100",
+ "qh": "0101",
+ "kh": "0110",
+ "as": "0111",
+ "2s": "1000",
+ "3s": "1001",
+ "4s": "1010",
+ "5s": "1011",
+ "6s": "1100",
+ "7s": "1101",
+ "8s": "1110",
+ "9s": "1111",
+ "ts": "00",
+ "js": "01",
+ "qs": "10",
+ "ks": "11",
+ },
+
+ }
+
// matchers returns an array of the matched events for each type of entropy.
// eg
// matchers.binary("010") returns ["0", "1", "0"]
}
}
- // Convert array of cards from ["ac", "4d", "ks"]
- // to numbers between 0 and 51 [0, 16, 51]
- function convertCardsToInts(cards) {
- var ints = [];
- var values = "a23456789tjqk";
- var suits = "cdhs";
- for (var i=0; i<cards.length; i++) {
- var card = cards[i].toLowerCase();
- var value = card[0];
- var suit = card[1];
- var asInt = 13 * suits.indexOf(suit) + values.indexOf(value);
- ints.push(asInt);
- }
- return ints;
- }
-
- this.fromString = function(rawEntropyStr) {
+ this.fromString = function(rawEntropyStr, baseStr) {
// Find type of entropy being used (binary, hex, dice etc)
- var base = getBase(rawEntropyStr);
+ var base = getBase(rawEntropyStr, baseStr);
// Convert dice to base6 entropy (ie 1-6 to 0-5)
// This is done by changing all 6s to 0s
if (base.str == "dice") {
- var newParts = [];
- var newInts = [];
- for (var i=0; i<base.parts.length; i++) {
- var c = base.parts[i];
+ var newEvents = [];
+ for (var i=0; i<base.events.length; i++) {
+ var c = base.events[i];
if ("12345".indexOf(c) > -1) {
- newParts[i] = base.parts[i];
- newInts[i] = base.ints[i];
+ newEvents[i] = base.events[i];
}
else {
- newParts[i] = "0";
- newInts[i] = 0;
+ newEvents[i] = "0";
}
}
base.str = "base 6 (dice)";
- base.ints = newInts;
- base.parts = newParts;
+ base.events = newEvents;
base.matcher = matchers.base6;
}
// Detect empty entropy
- if (base.parts.length == 0) {
+ if (base.events.length == 0) {
return {
binaryStr: "",
cleanStr: "",
base: base,
};
}
- // Convert base.ints to BigInteger.
- // Due to using unusual bases, eg cards of base52, this is not as simple as
- // using BigInteger.parse()
- var entropyInt = BigInteger.ZERO;
- for (var i=base.ints.length-1; i>=0; i--) {
- var thisInt = BigInteger.parse(base.ints[i]);
- var power = (base.ints.length - 1) - i;
- var additionalEntropy = BigInteger.parse(base.asInt).pow(power).multiply(thisInt);
- entropyInt = entropyInt.add(additionalEntropy);
- }
- // Convert entropy to binary
- var entropyBin = entropyInt.toString(2);
- // If the first integer is small, it must be padded with zeros.
- // Otherwise the chance of the first bit being 1 is 100%, which is
- // obviously incorrect.
- // This is not perfect for non-2^n bases.
- var expectedBits = Math.floor(base.parts.length * Math.log2(base.asInt));
- while (entropyBin.length < expectedBits) {
- entropyBin = "0" + entropyBin;
- }
+ // Convert entropy events to binary
+ var entropyBin = base.events.map(function(e) {
+ return eventBits[base.str][e.toLowerCase()];
+ }).join("");
+ // Get average bits per event
+ // which may be adjusted for bias if log2(base) is fractional
+ var bitsPerEvent = base.bitsPerEvent;
// Supply a 'filtered' entropy string for display purposes
- var entropyClean = base.parts.join("");
- var entropyHtml = base.parts.join("");
+ var entropyClean = base.events.join("");
+ var entropyHtml = base.events.join("");
if (base.asInt == 52) {
- entropyClean = base.parts.join(" ").toUpperCase();
+ entropyClean = base.events.join(" ").toUpperCase();
entropyClean = entropyClean.replace(/C/g, "\u2663");
entropyClean = entropyClean.replace(/D/g, "\u2666");
entropyClean = entropyClean.replace(/H/g, "\u2665");
entropyClean = entropyClean.replace(/S/g, "\u2660");
- entropyHtml = base.parts.join(" ").toUpperCase();
+ entropyHtml = base.events.join(" ").toUpperCase();
entropyHtml = entropyHtml.replace(/C/g, "<span class='card-suit club'>\u2663</span>");
entropyHtml = entropyHtml.replace(/D/g, "<span class='card-suit diamond'>\u2666</span>");
entropyHtml = entropyHtml.replace(/H/g, "<span class='card-suit heart'>\u2665</span>");
entropyHtml = entropyHtml.replace(/S/g, "<span class='card-suit spade'>\u2660</span>");
}
+ // Return the result
var e = {
binaryStr: entropyBin,
cleanStr: entropyClean,
cleanHtml: entropyHtml,
+ bitsPerEvent: bitsPerEvent,
base: base,
}
return e;
}
- function getBase(str) {
+ function getBase(str, baseStr) {
// Need to get the lowest base for the supplied entropy.
// This prevents interpreting, say, dice rolls as hexadecimal.
var binaryMatches = matchers.binary(str);
var hexMatches = matchers.hex(str);
+ var autodetect = baseStr === undefined;
// Find the lowest base that can be used, whilst ignoring any irrelevant chars
- if (binaryMatches.length == hexMatches.length && hexMatches.length > 0) {
+ if ((binaryMatches.length == hexMatches.length && hexMatches.length > 0 && autodetect) || baseStr === "binary") {
var ints = binaryMatches.map(function(i) { return parseInt(i, 2) });
return {
ints: ints,
- parts: binaryMatches,
+ events: binaryMatches,
matcher: matchers.binary,
asInt: 2,
+ bitsPerEvent: 1,
str: "binary",
}
}
var cardMatches = matchers.card(str);
- if (cardMatches.length >= hexMatches.length / 2) {
- var ints = convertCardsToInts(cardMatches);
+ if ((cardMatches.length >= hexMatches.length / 2 && autodetect) || baseStr === "card") {
return {
ints: ints,
- parts: cardMatches,
+ events: cardMatches,
matcher: matchers.card,
asInt: 52,
+ bitsPerEvent: (32*5 + 16*4 + 4*2) / 52, // see cardBits
str: "card",
}
}
var diceMatches = matchers.dice(str);
- if (diceMatches.length == hexMatches.length && hexMatches.length > 0) {
+ if ((diceMatches.length == hexMatches.length && hexMatches.length > 0 && autodetect) || baseStr === "dice") {
var ints = diceMatches.map(function(i) { return parseInt(i) });
return {
ints: ints,
- parts: diceMatches,
+ events: diceMatches,
matcher: matchers.dice,
asInt: 6,
+ bitsPerEvent: (4*2 + 2*1) / 6, // see diceBits
str: "dice",
}
}
var base6Matches = matchers.base6(str);
- if (base6Matches.length == hexMatches.length && hexMatches.length > 0) {
+ if ((base6Matches.length == hexMatches.length && hexMatches.length > 0 && autodetect) || baseStr === "base 6") {
var ints = base6Matches.map(function(i) { return parseInt(i) });
return {
ints: ints,
- parts: base6Matches,
+ events: base6Matches,
matcher: matchers.base6,
asInt: 6,
+ bitsPerEvent: (4*2 + 2*1) / 6, // see diceBits
str: "base 6",
}
}
var base10Matches = matchers.base10(str);
- if (base10Matches.length == hexMatches.length && hexMatches.length > 0) {
+ if ((base10Matches.length == hexMatches.length && hexMatches.length > 0 && autodetect) || baseStr === "base 10") {
var ints = base10Matches.map(function(i) { return parseInt(i) });
return {
ints: ints,
- parts: base10Matches,
+ events: base10Matches,
matcher: matchers.base10,
asInt: 10,
+ bitsPerEvent: (8*3 + 2*1) / 10, // see b10Bits
str: "base 10",
}
}
var ints = hexMatches.map(function(i) { return parseInt(i, 16) });
return {
ints: ints,
- parts: hexMatches,
+ events: hexMatches,
matcher: matchers.hex,
asInt: 16,
+ bitsPerEvent: 4,
str: "hexadecimal",
}
}
- // Polyfill for Math.log2
- // See https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Math/log2#Polyfill
- Math.log2 = Math.log2 || function(x) {
- // The polyfill isn't good enough because of the poor accuracy of
- // Math.LOG2E
- // log2(8) gave 2.9999999999999996 which when floored causes issues.
- // So instead use the BigInteger library to get it right.
- return BigInteger.log(x) / BigInteger.log(2);
- };
-
})();