:quality(85)/https://cdn.frvr.ai/6873a01ed36b31e59c1b7ead.png)
:quality(85)/https://cdn.frvr.ai/68739e81d36b31e59c1b7ea3.png)
Creation History
Code edit (2 edits merged)
Please save this source code
User prompt
Draw the format bits after drawDataCodewords, error correction level 'L', mask pattern 2
User prompt
Draw the format bits after drawDataCodewords, error correction level 'L', mask pattern 111
Code edit (2 edits merged)
Please save this source code
User prompt
Draw the format bits after drawDataCodewords, error correction level 'L', mask pattern 0b111
User prompt
Draw the format bits after drawDataCodewords
Code edit (11 edits merged)
Please save this source code
User prompt
Draw the data and ecc codeWord in a zigzag pattern in the QR code, If there is already a module in place, skip until that isn't a module in place.
Code edit (3 edits merged)
Please save this source code
User prompt
make the `placePixel` function return if the x or y coordinates are out of bounds
Code edit (1 edits merged)
Please save this source code
User prompt
Draw the white pixel for the patterns
Code edit (4 edits merged)
Please save this source code
User prompt
Rewrite the pattern drawing function for the new parameters in `placePixel`
User prompt
Rewrite the pattern drawing function for the new parameters.
Code edit (3 edits merged)
Please save this source code
User prompt
Remove the position patterns and redraw them, also write all the pixel into a array before for printing it to the screen
Code edit (9 edits merged)
Please save this source code
User prompt
Remove the position patterns and redraw them
Code edit (1 edits merged)
Please save this source code
User prompt
Draw `dataCodeWord` and `eccCodeWord` in a zigzag pattern, avoiding the position pattern, timing pattern and format bits.
User prompt
Draw `dataCodeWord` and `eccCodeWord` in a zigzag pattern, avoiding the position pattern.
Code edit (1 edits merged)
Please save this source code
Code edit (10 edits merged)
Please save this source code
User prompt
In the `QRcode.encodeECC` method, compute the error correction code from `self.dataCodeWord`, and put the ECC into `self.eccCodeWord`
/****
* Classes
****/
var QRCode = Container.expand(function (string) {
var self = Container.call(this);
// Initialize QR code properties
self.pixelSize = 32;
self.modules = [];
self.string = string;
self.countBitLength = 10;
self.dataCodeWord = "";
self.eccCodeWord = "";
self.size = 21;
// Block = 8 bits
self.maxDataBlock = 19;
self.maxErrorBlock = 7;
self.placePixel = function (x, y) {
var pixel = self.attachAsset('QRCodePixel', {
x: x * self.pixelSize,
y: y * self.pixelSize,
scaleX: self.pixelSize,
scaleY: self.pixelSize,
tint: 0
});
self.modules[y] = [];
self.modules[y][x] = 1;
};
self.createPattern = function () {
var size = 21; // Standard QR code size
self.attachAsset('QRCodePositionL', {
x: 0,
y: 0
});
self.attachAsset('QRCodePositionR', {
x: self.pixelSize * 21,
y: 0,
anchorX: 1
});
self.attachAsset('QRCodePositionB', {
x: 0,
y: self.pixelSize * 21,
anchorY: 1
});
self.placePixel(8, self.size - 8);
// timing pattern
for (var i = 8; i <= self.size - 8; i += 2) {
self.placePixel(i, 6);
self.placePixel(6, i);
}
for (var i = 0; i < self.dataCodeWord.length; i++) {
//TODO: draw the data to the qr code
}
};
// Convert to hexadecimal and split into bytes
self.binToHex = function (bin) {
var hexBytes = "";
for (var i = 0; i < bin.length; i += 8) {
var _byte = bin.substr(i, 8);
var hexValue = parseInt(_byte, 2).toString(16).toUpperCase();
if (hexValue.length === 1) {
hexValue = "0" + hexValue;
}
hexBytes += hexValue + " ";
}
return hexBytes;
};
self.encodeECC = function () {
var LOG_TABLE = new Array(256);
var EXP_TABLE = new Array(256);
var p = 1;
for (var i = 0; i < 255; i++) {
EXP_TABLE[i] = p;
LOG_TABLE[p] = i;
p = p << 1;
if (p > 255) {
p = p ^ 285;
}
}
EXP_TABLE[255] = 1;
var gf_multiply = function gf_multiply(a, b) {
if (a === 0 || b === 0) {
return 0;
}
return EXP_TABLE[(LOG_TABLE[a] + LOG_TABLE[b]) % 255];
};
var getGeneratorPolynomial = function getGeneratorPolynomial(numEccBytes) {
var g = [1];
for (var i = 0; i < numEccBytes; i++) {
var next_g = new Array(g.length + 1);
for (var k = 0; k < next_g.length; k++) {
next_g[k] = 0;
}
var alpha_pow_i = EXP_TABLE[i];
for (var j = 0; j < g.length; j++) {
next_g[j] = g[j];
}
for (var j = 0; j < g.length; j++) {
next_g[j + 1] ^= gf_multiply(g[j], alpha_pow_i);
}
g = next_g;
}
return g;
};
// 1. Convert dataCodeWord to bytes
var dataBytes = [];
for (var i = 0; i < self.dataCodeWord.length; i += 8) {
var byteString = self.dataCodeWord.substr(i, 8);
dataBytes.push(parseInt(byteString, 2));
}
// 2. Get generator polynomial
var generator = getGeneratorPolynomial(self.maxErrorBlock);
// 3. Perform polynomial division to get ECC
var dataLen = dataBytes.length;
var eccLen = self.maxErrorBlock;
var msg_out = new Array(dataLen + eccLen);
for (var i = 0; i < msg_out.length; i++) {
msg_out[i] = 0;
}
for (var i = 0; i < dataLen; i++) {
msg_out[i] = dataBytes[i];
}
for (var i = 0; i < dataLen; i++) {
var coef = msg_out[i];
if (coef !== 0) {
for (var j = 0; j < generator.length; j++) {
msg_out[i + j] ^= gf_multiply(generator[j], coef);
}
}
}
var eccBytes = [];
for (var i = 0; i < eccLen; i++) {
eccBytes.push(msg_out[dataLen + i]);
}
// 4. Convert ECC bytes to binary string
var eccBinaryString = "";
for (var i = 0; i < eccBytes.length; i++) {
var binary = eccBytes[i].toString(2);
while (binary.length < 8) {
binary = "0" + binary;
}
eccBinaryString += binary;
}
self.eccCodeWord = eccBinaryString;
console.log("eccCodeWord: " + self.binToHex(self.eccCodeWord));
};
// Encode numeric data method
self.encodeNumeric = function () {
// Split into groups of 3 digits
var groups = [];
for (var i = 0; i < self.string.length; i += 3) {
var group = self.string.substr(i, Math.min(3, self.string.length - i));
groups.push(group);
}
console.log("Groups of 3: " + groups.join(", "));
// Convert each group to binary
var binaryGroups = [];
for (var j = 0; j < groups.length; j++) {
var num = parseInt(groups[j], 10);
var bitLength;
// Determine bit length based on group size
if (groups[j].length === 3) {
bitLength = 10; // 3 digits need 10 bits (0-999)
} else if (groups[j].length === 2) {
bitLength = 7; // 2 digits need 7 bits (0-99)
} else {
bitLength = 4; // 1 digit needs 4 bits (0-9)
}
// Convert to binary with proper padding
var binary = num.toString(2);
while (binary.length < bitLength) {
binary = "0" + binary;
}
binaryGroups.push(binary);
console.log("Group " + num + " -> " + binary + " (" + bitLength + " bits)");
}
console.log("Message Binary: " + binaryGroups.join(" ") + " (" + binaryGroups.join("").length + " bits)");
self.dataCodeWord += "0001";
var binary = string.length.toString(2);
// Convert to binary with proper padding
while (binary.length < self.countBitLength) {
binary = "0" + binary;
}
self.dataCodeWord += binary;
self.dataCodeWord += binaryGroups.join("");
self.dataCodeWord += "0000"; // Terminator
// Add byte padding
var currentBytes = self.dataCodeWord.length / 8;
var bytesNeeded = self.maxDataBlock - currentBytes;
// Pad to byte boundary first
var bitsToNextByte = self.dataCodeWord.length % 8;
if (bitsToNextByte > 0) {
var padBits = 8 - bitsToNextByte;
for (var p = 0; p < padBits; p++) {
self.dataCodeWord += "0";
}
}
console.log("dataCodeWord: " + self.dataCodeWord + " (" + self.dataCodeWord.length / 8 + " bytes)");
// Add alternating padding bytes (11101100 and 00010001)
var paddingBytes = ["11101100", "00010001"];
var paddingIndex = 0;
while (self.dataCodeWord.length / 8 < self.maxDataBlock) {
self.dataCodeWord += paddingBytes[paddingIndex];
paddingIndex = (paddingIndex + 1) % 2;
}
console.log("dataCodeWord with padding: " + self.binToHex(self.dataCodeWord));
};
self.encodeNumeric();
self.encodeECC();
self.createPattern();
return self;
});
/****
* Initialize Game
****/
var game = new LK.Game({
backgroundColor: 0xFFFFFF
});
/****
* Game Code
****/
// Create QR code container
var qrCode = new QRCode("8675309");
qrCode.x = (2048 - qrCode.width) / 2;
qrCode.y = (2732 - qrCode.height) / 2;
game.addChild(qrCode); ===================================================================
--- original.js
+++ change.js
@@ -140,8 +140,9 @@
}
eccBinaryString += binary;
}
self.eccCodeWord = eccBinaryString;
+ console.log("eccCodeWord: " + self.binToHex(self.eccCodeWord));
};
// Encode numeric data method
self.encodeNumeric = function () {
// Split into groups of 3 digits
