public bool conversionTest() { byte[] testvect = { 255, 200, 0 }; var temp = testmath.RGBToYUV(testvect); var temp2 = testmath.YUVToRGB(temp); return(false); }
public void PPMtoJpg(string imageSrc, string imagedest) { Bitstream bs = new Bitstream(); PlainFormatReader pfr = new PlainFormatReader(imageSrc); Mathloc ml = new Mathloc(); Picture pic = pfr.ReadPicture(); int height = pic.Head.pixelMaxY; int width = pic.Head.pixelMaxX; Color3[,] col3 = new Color3[height, width]; byte[] colors = new byte[3]; //convert RGB to YUV for each pixel for (int y = 0; y < height; y++) { for (int x = 0; x < width; x++) { col3[y, x] = pic.Data.PictureYX[y, x]; colors[0] = col3[y, x].a; // R colors[1] = col3[y, x].b; // G colors[2] = col3[y, x].c; // B colors = ml.RGBToYUV(colors); col3[y, x].a = colors[0]; // Y col3[y, x].b = colors[1]; // U col3[y, x].c = colors[2]; // V } } //convert float array to byte array float[,] yArray = new float[width, height]; // width and height vertauscht float[,] uArray = new float[width, height]; float[,] vArray = new float[width, height]; for (int j = 0; j < height; j++) { for (int i = 0; i < width; i++) { yArray[i, j] = (float)col3[j, i].a; uArray[i, j] = (float)col3[j, i].b; vArray[i, j] = (float)col3[j, i].c; } } byte[,] yArrayEnde = new byte[width, height]; byte[,] uArrayEnde = new byte[width, height]; byte[,] vArrayEnde = new byte[width, height]; //get float [number of 8x8][8x8] var yarry = aufteilen(yArray); var uarry = aufteilen(uArray); var varry = aufteilen(vArray); //geht beim 40x40 bild 25 for (int y = 0; y < height / 8; y++) { for (int x = 0; x < width / 8; x++) { //DCTDirect for (int i = 0; i < ((height * width) / 64); i++) { yArray = DCT.DCTdirect(yarry[i]); uArray = DCT.DCTdirect(uarry[i]); vArray = DCT.DCTdirect(varry[i]); } //convert float array to byte array byte[,] yArrayB = new byte[width, height]; byte[,] uArrayB = new byte[width, height]; byte[,] vArrayB = new byte[width, height]; for (int i = 0; i < width / 8; i++) { for (int j = 0; j < height / 8; j++) { yArrayB[i, j] = (byte)yArray[i, j]; uArrayB[i, j] = (byte)uArray[i, j]; vArrayB[i, j] = (byte)vArray[i, j]; } } for (int i = 0; i < 8; i++) { for (int j = 0; j < 8; j++) { yArrayEnde[i * x, j *y] = yArrayB[i, j]; uArrayEnde[i * x, j *y] = uArrayB[i, j]; vArrayEnde[i * x, j *y] = vArrayB[i, j]; } } byte[] yArrayB2 = new byte[64]; byte[] uArrayB2 = new byte[64]; byte[] vArrayB2 = new byte[64]; for (int i = 0; i < 8; i++) { for (int j = 0; j < 8; j++) { yArrayB2[ZigZagTable2[i * j]] = yArrayB[i, j]; uArrayB2[ZigZagTable2[i * j]] = uArrayB[i, j]; vArrayB2[ZigZagTable2[i * j]] = vArrayB[i, j]; } } // Create Huffmantables //yArrayEnde = HuffmanCalc(YDCNodes, YDCValues, yArrayB2); //yArrayEnde = HuffmanCalc(YDCNodes, YACValues, yArrayB2); //uArrayEnde = HuffmanCalc(CbDCNodes, CbDCValues, uArrayB2); //uArrayEnde = HuffmanCalc(CbACNodes, CbACValues, uArrayB2); //vArrayEnde = HuffmanCalc(CbDCNodes, CbDCValues, vArrayB2); //vArrayEnde = HuffmanCalc(CbACNodes, CbACValues, vArrayB2); } } //create JPG head PictureHead.CreateJPGHead(bs, (ushort)height, (ushort)width); //TODO: DCT for (int y = 0; y < height; y++) { for (int x = 0; x < width; x++) { bs.AddByte((byte)yArrayEnde[x, y]); bs.AddByte((byte)uArrayEnde[x, y]); bs.AddByte((byte)vArrayEnde[x, y]); } } bs.AddShort(0xffd9); //End of Picture Marker bs.WriteToFile(imagedest); }
public void PPMtoJpg(string imageSrc, string imagedest) { Bitstream bs = new Bitstream(); PlainFormatReader pfr = new PlainFormatReader(imageSrc); Mathloc ml = new Mathloc(); Picture pic = pfr.ReadPicture(); int height = pic.Head.pixelMaxY; int width = pic.Head.pixelMaxX; Color3[,] col3 = new Color3[height,width]; byte[] colors = new byte[3]; //convert RGB to YUV for each pixel for (int y = 0; y < height; y++) { for (int x = 0; x < width; x++) { col3[y, x] = pic.Data.PictureYX[y, x]; colors[0] = col3[y, x].a; // R colors[1] = col3[y, x].b; // G colors[2] = col3[y, x].c; // B colors = ml.RGBToYUV(colors); col3[y, x].a = colors[0]; // Y col3[y, x].b = colors[1]; // U col3[y, x].c = colors[2]; // V } } //convert float array to byte array float[,] yArray = new float[width, height]; // width and height vertauscht float[,] uArray = new float[width, height]; float[,] vArray = new float[width, height]; for (int j = 0; j < height; j++) { for (int i = 0; i < width; i++) { yArray[i, j] = (float)col3[j, i].a; uArray[i, j] = (float)col3[j, i].b; vArray[i, j] = (float)col3[j, i].c; } } byte[,] yArrayEnde = new byte[width, height]; byte[,] uArrayEnde = new byte[width, height]; byte[,] vArrayEnde = new byte[width, height]; //get float [number of 8x8][8x8] var yarry = aufteilen(yArray); var uarry = aufteilen(uArray); var varry = aufteilen(vArray); //geht beim 40x40 bild 25 for (int y = 0; y < height/8; y ++) { for (int x = 0; x < width/8; x ++) { //DCTDirect for (int i = 0; i < ((height * width) / 64); i++) { yArray = DCT.DCTdirect(yarry[i]); uArray = DCT.DCTdirect(uarry[i]); vArray = DCT.DCTdirect(varry[i]); } //convert float array to byte array byte[,] yArrayB = new byte[width, height]; byte[,] uArrayB = new byte[width, height]; byte[,] vArrayB = new byte[width, height]; for (int i = 0; i < width/8; i++) { for (int j = 0; j < height/8; j++) { yArrayB[i, j] = (byte)yArray[i, j]; uArrayB[i, j] = (byte)uArray[i, j]; vArrayB[i, j] = (byte)vArray[i, j]; } } for (int i = 0; i < 8; i++) { for (int j = 0; j < 8; j++) { yArrayEnde[i * x, j * y] = yArrayB[i, j]; uArrayEnde[i * x, j * y] = uArrayB[i, j]; vArrayEnde[i * x, j *y] = vArrayB[i, j]; } } byte[] yArrayB2 = new byte[64]; byte[] uArrayB2 = new byte[64]; byte[] vArrayB2 = new byte[64]; for (int i = 0; i < 8; i++) { for (int j = 0; j < 8; j++) { yArrayB2[ZigZagTable2[i*j]] = yArrayB[i, j]; uArrayB2[ZigZagTable2[i*j]] = uArrayB[i, j]; vArrayB2[ZigZagTable2[i*j]] = vArrayB[i, j]; } } // Create Huffmantables //yArrayEnde = HuffmanCalc(YDCNodes, YDCValues, yArrayB2); //yArrayEnde = HuffmanCalc(YDCNodes, YACValues, yArrayB2); //uArrayEnde = HuffmanCalc(CbDCNodes, CbDCValues, uArrayB2); //uArrayEnde = HuffmanCalc(CbACNodes, CbACValues, uArrayB2); //vArrayEnde = HuffmanCalc(CbDCNodes, CbDCValues, vArrayB2); //vArrayEnde = HuffmanCalc(CbACNodes, CbACValues, vArrayB2); } } //create JPG head PictureHead.CreateJPGHead(bs, (ushort)height, (ushort)width); //TODO: DCT for (int y = 0; y < height; y++) { for (int x = 0; x < width; x++) { bs.AddByte((byte)yArrayEnde[x, y]); bs.AddByte((byte)uArrayEnde[x, y]); bs.AddByte((byte)vArrayEnde[x, y]); } } bs.AddShort(0xffd9); //End of Picture Marker bs.WriteToFile(imagedest); }