unsafe static void Main(string[] args)
{
int version = 5;
int cellSize = 6;
byte[] data1 = Encoding.UTF8.GetBytes("BAKA");
var N = QRInfo.GetN(version);
var maxError = QRInfo.GetMaxErrorAllowBytes(version, ECCLevel.L);
var template = new Bitmap(@"Z:\2.png");
var pixels = QRCodeMagician.GetImagePixel(version, template, cellSize, cellSize / 3);
var qr = QRCodeMagician.ImageArt(DataMode.Alphanumeric, version, ECCLevel.L, MaskVersion.Version100, data1, pixels, 4);
var bitmap = new Bitmap((N + 2) * cellSize, (N + 2) * cellSize);
// var bitmapData = bitmap.LockBits(new Rectangle(0, 0, bitmap.Width, bitmap.Height), ImageLockMode.WriteOnly, PixelFormat.Format32bppRgb);
var fixedBlackBrush = Brushes.Black;
var fixedWhiteBrush = Brushes.White;
var blackBrush = Brushes.Black;
var whiteBrush = Brushes.White;
var halftone = cellSize / 3;
using (var g = Graphics.FromImage(bitmap)) {
g.Clear(Color.White);
g.DrawImage(new Bitmap(@"Z:\1.png"), new Rectangle(cellSize, cellSize, N * cellSize, N * cellSize));
for (int x = 0; x < N; x++)
{
for (int y = 0; y < N; y++)
{
var drawX = x + 1;
var drawY = y + 1;
if (qr[x, y].Type == QRValueType.TimingPatterns)
{
continue;
}
//if (qr[x, y].Type == QRValueType.Fixed || qr[x, y].Type == QRValueType.TimingPatterns || qr[x, y].Type == QRValueType.Format || qr[x, y].Type == QRValueType.Version) {
if (qr[x, y].Type == QRValueType.Fixed || qr[x, y].Type == QRValueType.TimingPatterns)
{
if (qr[x, y].Value)
{
g.FillRectangle(fixedBlackBrush, new Rectangle(drawX * cellSize, drawY * cellSize, cellSize, cellSize));
}
else
{
// g.FillRectangle(fixedWhiteBrush, new Rectangle(drawX * cellSize, drawY * cellSize, cellSize, cellSize));
}
//if (qr[x, y].Value) {
// g.FillRectangle(blackBrush, new Rectangle(drawX * cellSize + halftone, drawY * cellSize + halftone, halftone, halftone));
//} else {
// g.FillRectangle(whiteBrush, new Rectangle(drawX * cellSize + halftone, drawY * cellSize + halftone, halftone, halftone));
//}
}
else if (!pixels[x, y].HasFlag(ImagePixel.Stable) || qr[x, y].Value != pixels[x, y].HasFlag(ImagePixel.Black))
{
if (qr[x, y].Value)
{
g.FillRectangle(blackBrush, new Rectangle(drawX * cellSize + halftone, drawY * cellSize + halftone, halftone, halftone));
}
else
{
g.FillRectangle(whiteBrush, new Rectangle(drawX * cellSize + halftone, drawY * cellSize + halftone, halftone, halftone));
}
//if (qr[x, y].Value) {
// g.FillRectangle(fixedBlackBrush, new Rectangle(drawX * cellSize, drawY * cellSize, cellSize, cellSize));
//} else {
// g.FillRectangle(fixedWhiteBrush, new Rectangle(drawX * cellSize, drawY * cellSize, cellSize, cellSize));
//}
}
}
}
}
bitmap.Save(@"Z:\out.png");
}
static void Main(string[] args)
{
//var g = new GF.XPolynom(GF.FromExponent(0), GF.FromExponent(0));
//var eccNum = 2;
//for (int i = 1; i < eccNum; i++) {
// g *= new GF.XPolynom(GF.FromExponent(i), GF.FromExponent(0));
//}
//var r = new GF.XPolynom[8 * eccNum];
//for (int i = 0; i < 8 * eccNum; i++) {
// var msg = new GF.XPolynom(eccNum * 2 + 1);
// // msg[eccNum * 2] = GF.FromPolynom(0x55);
// msg[eccNum * 2 - 1 - i / 8] = GF.FromPolynom(1 << (7 - i % 8));
// r[i] = msg % g;
// System.Console.WriteLine(Convert.ToString(r[i][0].Polynom, 2).PadLeft(8, '0') + "," + Convert.ToString(r[i][1].Polynom, 2).PadLeft(8, '0'));
//}
//System.Console.WriteLine();
//{
// var msg = new GF.XPolynom(eccNum * 2 + 1);
// // msg[eccNum * 2] = GF.FromPolynom(0x55);
// // msg[eccNum * 2 - 1] = GF.FromPolynom(0b11000000);
// //var r0 = msg % g;
// //System.Console.WriteLine(Convert.ToString(r0[0].Polynom, 2).PadLeft(8, '0') + "," + Convert.ToString(r0[1].Polynom, 2).PadLeft(8, '0'));
// msg[eccNum * 2 - 1] = GF.FromPolynom(0b10000000);
// msg[eccNum * 2 - 2] = GF.FromPolynom(0b00000001);
// var r0 = msg % g;
// System.Console.WriteLine(Convert.ToString(r0[0].Polynom, 2).PadLeft(8, '0') + "," + Convert.ToString(r0[1].Polynom, 2).PadLeft(8, '0'));
//}
//byte[] data1 = Encoding.UTF8.GetBytes("17689480023");
//byte[] data2 = Encoding.UTF8.GetBytes("15059723108");
//var (qr1, qr2, swap) = QRCodeMagician.CreateObfuscatedQRCode(data1, data2);
//if (qr1 == null) { System.Console.WriteLine("失败"); return; }
//Save(@"Z:\qr1.png", qr1, null, 5);
//Save(@"Z:\qr2.png", qr2, null, 5);
//Save(@"Z:\qr12.png", qr1, qr2, 5);
//Save(@"Z:\qr21.png", qr2, qr1, 5);
//SaveObfuscated(@"Z:\qr.png", qr1, qr2, 5);
//System.Console.WriteLine("成功");
//var qr = new QRCode(data1);
//Save(@"Z:\qr.png", qr, null, 5);
//var r1 = QRDataEncoder.CalculateECCWords(new byte[] { 1,3,2 }, 2);
//var r2 = QRDataEncoder.CalculateECCWords(new byte[] { 2 }, 2);
//var r3 = QRDataEncoder.CalculateECCWords(new byte[] { 1, 2 }, 4);
// System.IO.File.WriteAllBytes(@"D:\MyDocuments\Desktop\1.bin", new byte[] { 1 });
//const int N = 5;
//const int M = 5;
//var left = new byte[N][];
//var right = new byte[N][];
//for (int i = 0; i < N; i++) {
// left[i] = new byte[N];
// left[i][i] = 1;
// right[i] = new byte[M];
//}
//Random random = new Random();
//for (int i = 0; i < N; i++) {
// for (int j = 0; j < M; j++) {
// right[i][j] = (byte) (random.Next(10) < 2 ? 1 : 0);
// }
//}
//Print(left, right);
//System.Console.WriteLine();
//List<int> indexes;
//(indexes, right) = BitBlock.GaussianElimination(left, right);
//Print(left, right);
//for (int i = 0; i < indexes.Count; i++) {
// System.Console.Write(indexes[i] + " ");
//}
//System.Console.WriteLine();
int version = 20;
byte[] data1 = Encoding.UTF8.GetBytes("0.0");
var N = QRInfo.GetN(version);
int padding = 6;
// byte[] data1 = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF };
var pixels = new ImagePixel[N, N];
for (int x = 0; x < pixels.GetLength(0); x++)
{
for (int y = 0; y < pixels.GetLength(1); y++)
{
//if (x > 15) {
// pixels[x, y] = ImagePixel.White;
//} else if (x <= 4) {
// pixels[x, y] = ImagePixel.White;
//} else {
// pixels[x, y] = ImagePixel.Any;
//}
//if (x >= 11 || y <= 8) {
// pixels[x, y] = ImagePixel.White;
//} else {
// pixels[x, y] = ImagePixel.Any;
//}
if (y >= padding && y < N - padding && x >= padding && x < N - padding)
{
pixels[x, y] = y % 2 == 0 ? ImagePixel.White : ImagePixel.Black;
}
else
{
pixels[x, y] = ImagePixel.Any | ImagePixel.White;
}
}
}
//pixels[0, 9] = ImagePixel.Black;
//pixels[0, 10] = ImagePixel.Black;
//pixels[0, 11] = ImagePixel.Black;
//pixels[0, 12] = ImagePixel.Black;
//pixels[1, 9] = ImagePixel.Black;
//pixels[1, 10] = ImagePixel.Black;
//pixels[1, 11] = ImagePixel.Black;
//pixels[1, 12] = ImagePixel.Black;
//pixels[9, 0] = ImagePixel.Any;
//pixels[10, 0] = ImagePixel.Any;
//pixels[11, 0] = ImagePixel.Any;
//pixels[12, 0] = ImagePixel.Any;
////pixels[9, 1 ]= ImagePixel.Any;
//pixels[10, 1] = ImagePixel.Any;
//pixels[11, 1] = ImagePixel.Any;
//pixels[12, 1] = ImagePixel.Any;
int cellSize = 5;
pixels = QRCodeMagician.GetImagePixel(version, new Bitmap(@"Z:\1.png"), cellSize);
var qr = QRCodeMagician.ImageArt(DataMode.Byte, version, ECCLevel.L, MaskVersion.Version100, data1, pixels, QRInfo.GetMaxErrorAllowBytes(version, ECCLevel.L) / 2);
Save(@"Z:\art.png", qr, null, cellSize);
var qr2 = QRCodeMagician.ImageArt(DataMode.Byte, version, ECCLevel.L, MaskVersion.Version100, data1, pixels);
Save(@"Z:\art2.png", qr2, null, cellSize);
//var bits = new BitSet(1000);
//bits[3] = true;
//var r1 = GF.XPolynom.RSEncode(bits.ByteArray, 0, bits.ByteArray.Length, 100);
//bits[3] = false;
//bits[300] = true;
//var r2 = GF.XPolynom.RSEncode(bits.ByteArray, 0, bits.ByteArray.Length, 100);
//bits[3] = true;
//var r3 = GF.XPolynom.RSEncode(bits.ByteArray, 0, bits.ByteArray.Length, 100);
}
