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I'm trying to calculate DCT and IDCT of an input image, and display the IDCT output as resultant image. But my IDCT values are going above 300. My input image is a '.rgb' image. I am also considering the height and width of the input image as constant i.e., 352*288

I am representing my input red, green and blue integers of each pixels as rgb[3][64][1583] where [3] -> index of red/green/blue and [64] -> index of pixel in each block and the [1583]-> index of the 8*8 block i.e., one of the block in 1583 blocks.

And lastly im keeping my quantization table as which has uniform value -> 2^N where N is passed as parameter.In this code the quantLevel is the N above.

Following is my Code:

import java.awt.BorderLayout;
import java.awt.Color;
import java.awt.FlowLayout;
import java.awt.image.BufferedImage;
import java.io.File;
import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.io.IOException;
import java.io.InputStream;
import java.util.Arrays;
import javax.swing.ImageIcon;
import javax.swing.JFrame;
import javax.swing.JLabel;
import javax.swing.JPanel;

public class Jpeg {    
   double rgb[][][]=new double[3][64][1584];
   double rgbfinal[][][]=new double[3][64][1584];
   double R[][]=new double[64][1584];
   double G[][]=new double[64][1584];
   double B[][]=new double[64][1584];

   public void go(String fname, int quantLevel){       
     int numBlocks=(352*288)/64;           

    String fileName = fname;
    int width=352,height=288;   
    BufferedImage img = new BufferedImage(width, height, BufferedImage.TYPE_INT_RGB);

    try {
            File file = new File(fname);
        InputStream is = new FileInputStream(file);

        long len = file.length();
        byte[] bytes = new byte[(int)len];

        int offset = 0;
            int numRead = 0;
            while (offset < bytes.length && (numRead=is.read(bytes, offset, bytes.length-offset)) >= 0) {
                offset += numRead;
        }               
        int ind = 0;
        for(int y = 0; y < height; y++){    
            for(int x = 0; x < width; x++){                     
                byte r = bytes[ind];
                byte g = bytes[ind+height*width];
                byte b = bytes[ind+height*width*2];                 
                int pix = 0xff000000 | ((r & 0xff) << 16) | ((g & 0xff) << 8) | (b & 0xff);             
                img.setRGB(x,y,pix);
                ind++;
            }
        }           
    } catch (FileNotFoundException e) {
      e.printStackTrace();
    } catch (IOException e) {
      e.printStackTrace();
    }

   int indexRow=0,indexCol=0,indexBlock=0,indexBits=0,indexPixelBlock=0,indexPixel=0;
   long  count=0L;
   String binary="";

       indexPixel=0;
       indexBlock=0;   
       int i=0;
           while(count!=(long)(numBlocks*64)){                                                                                                         
               int pix = img.getRGB(indexCol, indexRow);
               int red = (pix >> 16) & 0x000000FF;
               int green = (pix >>8 ) & 0x000000FF;
               int blue = (pix) & 0x000000FF;

               rgb[0][indexPixel][indexBlock]=red;               
               rgb[1][indexPixel][indexBlock]=green;               
               rgb[2][indexPixel][indexBlock]=blue;

              count++;         
              indexPixel++;

              if(indexCol==width-1 && indexRow==height-1)               
                  break;                

              if(indexCol%7==0 && indexCol!=0 && indexPixel%8==0)
                  {                                                 
                      indexPixel=indexPixelBlock;
                      indexBlock++;                                                                                                   
                  }

              if(indexPixel%8==0 && indexCol%7!=0 && indexBlock!=1583)
                  {
                     indexPixel=indexPixelBlock;
                     indexBlock++;
                  }

              if(indexCol==width-1)
                  {                       
                      indexCol=0;                   
                      indexRow++;
                  } 
              else
                  indexCol++;                                                                                                                  

              if((indexPixel)%8==0 && indexBlock==numBlocks-1 && indexCol%7==0)            
                 {                        
                      indexBlock=0;
                      indexPixelBlock=indexPixel;                                              
                 }                                                 
           }
    calcQuantizedDCT(quantLevel);                    
    calcInverseDCT(quantLevel);

    JFrame frame = new JFrame();
    frame.setLocation(0,0);
    frame.setSize(1024, 720);                
    frame.getContentPane().setBackground(Color.WHITE);
    frame.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);       

    JPanel p=new JPanel();   
    p.setLayout(new FlowLayout(FlowLayout.LEFT));
    p.setLocation(100,100);    

    JLabel label = new JLabel(new ImageIcon(img));    
    label.setLocation(0,0);
    label.setSize(352,288);

    p.add(label);
    frame.add(p);        
    frame.setVisible(true);

    return;
   }

   void calcQuantizedDCT(int quantLevel)
   {      
       String binary="";
       int indexBlock=0,indexPixel=0,indexBits=0,red=0,green=0,blue=0,x=0,y=0,indexPixelTemp=0,u=0,v=0;

       double sumRed=0,sumGreen=0,sumBlue=0;
       String substr="";
        int i=0;
       for(indexBlock=0;indexBlock<1584;indexBlock++)       
       {                               
           indexPixel=0;           
           //
           while(indexPixel!=64 && u<8)
           {                              
               while(indexPixelTemp<64 && x<8)
               {                                                                                               
                   red=(int)rgb[0][indexPixelTemp][indexBlock];
                   green=(int)rgb[1][indexPixelTemp][indexBlock];
                   blue=(int)rgb[2][indexPixelTemp][indexBlock];
                  // System.out.println(red);                           
                   sumRed+=red*Math.cos((Math.PI*(2*y+1)*u)/(2*8))*Math.cos((Math.PI*(2*x+1)*v)/(2*8));                                          
                   sumGreen+=green*Math.cos((Math.PI*(2*x+1)*u)/(2*8))*Math.cos((Math.PI*(2*y+1)*v)/(2*8));                                                                
                   sumBlue+=blue*Math.cos((Math.PI*(2*x+1)*u)/(16))*Math.cos((Math.PI*(2*y+1)*v)/(16));

                   indexPixelTemp++;
                   y++;
                   if(y==8)
                   {
                       x++;
                       y=0;                       
                   }       

               }              
               //System.out.println("SumRed :"+sumRed);

               if(u==0 && v==0)                   
               {                                      
                   //System.out.println("U & V & Pixel & Block "+u+" "+v+" "+indexPixel+" "+indexBlock);
                   R[indexPixel][indexBlock]=(Math.sqrt(1.0/64.0)*sumRed)/Math.pow(2,quantLevel);
                   G[indexPixel][indexBlock]=(Math.sqrt(1.0/64.0)*sumGreen)/Math.pow(2,quantLevel);
                   B[indexPixel][indexBlock]=(Math.sqrt(1.0/64.0)*sumBlue)/Math.pow(2,quantLevel);                   
               }
               else
               {
                   //System.out.println("U & V & Pixel & Block "+u+" "+v+" "+indexPixel+" "+indexBlock);                   
                   R[indexPixel][indexBlock]=(Math.sqrt(2.0/32.0)*sumRed)/Math.pow(2,quantLevel);  
                   G[indexPixel][indexBlock]=(Math.sqrt(2.0/32.0)*sumGreen)/Math.pow(2,quantLevel);  
                   B[indexPixel][indexBlock]=(Math.sqrt(2.0/32.0)*sumBlue)/Math.pow(2,quantLevel);                    
               }                   

               indexPixel++;     

               if(indexPixel==64)
                   break;
               indexPixelTemp=0;
               v++;

               if(v==8)
               {
                   v=0;
                   u++;
               }
               x=0;y=0;sumGreen=0;sumRed=0;sumBlue=0;               
           }                      

           u=0;v=0;                   
       }       

         /*  for(int j=0;j<64;j++)       
           {
               System.out.print(R[j][0]+" ");
               if(j%7==0 && j!=0)
                   System.out.println();
           }   
           */   
   }   

   void calcInverseDCT(int quantLevel)
   {       
       String binary="";
       int indexBlock=0,indexPixel=0,indexBits=0,u=0,v=0,x=0,y=0,indexPixelTemp=0,sumRed=0,sumGreen=0,sumBlue=0,red=0,green=0,blue=0;

       for(indexBlock=0;indexBlock<1584;indexBlock++)
       {            
           for(indexPixel=0;indexPixel<64;indexPixel++)
           {           
               R[indexPixel][indexBlock]=R[indexPixel][indexBlock]*Math.pow(2,quantLevel);
               G[indexPixel][indexBlock]=G[indexPixel][indexBlock]*Math.pow(2,quantLevel);
               B[indexPixel][indexBlock]=B[indexPixel][indexBlock]*Math.pow(2,quantLevel);

           } 
       }
       int i=0;
       indexPixelTemp=0;
       indexPixel=0;
       for(indexBlock=0;indexBlock<1584;indexBlock++)
       {                      
           indexPixel=0;            
           while(indexPixel<64 && x<8)
           {
               indexPixelTemp=0;
               while(indexPixelTemp<64 && u<8)
               { 
                   red=(int)R[indexPixelTemp][indexBlock];                 
                   if(u==0 && v==0)                   
                       sumRed+=Math.sqrt(1.0/2.0)*red*Math.cos((Math.PI*(2*x+1)*u)/(2*8))*Math.cos((Math.PI*(2*y+1)*v)/(2*8));                   
                   else
                       sumRed+=red*Math.cos((Math.PI*(2*x+1)*u)/(2*8))*Math.cos((Math.PI*(2*y+1)*v)/(2*8));                                                              

                   green=(int)G[indexPixelTemp][indexBlock];
                   if(u==0 && v==0)                   
                       sumGreen+=Math.sqrt(1.0/2.0)*green*Math.cos((Math.PI*(2*x+1)*u)/(2*8))*Math.cos((Math.PI*(2*y+1)*v)/(2*8));
                   else
                       sumGreen+=green*Math.cos((Math.PI*(2*x+1)*u)/(2*8))*Math.cos((Math.PI*(2*y+1)*v)/(2*8));

                   blue=(int)B[indexPixelTemp][indexBlock];
                   if(u==0 && v==0)                   
                       sumBlue+=Math.sqrt(1.0/2.0)*blue*Math.cos((Math.PI*(2*x+1)*u)/(2*8))*Math.cos((Math.PI*(2*y+1)*v)/(2*8));
                   else
                       sumBlue+=blue*Math.cos((Math.PI*(2*x+1)*u)/(2*8))*Math.cos((Math.PI*(2*y+1)*v)/(2*8)); 

                   indexPixelTemp++;
                   v++;
                   if(v==8)
                   {
                       u++;
                       v=0;
                   }                                  
               }

               rgbfinal[0][indexPixel][indexBlock]=sumRed;
               rgbfinal[1][indexPixel][indexBlock]=sumGreen;
               rgbfinal[2][indexPixel][indexBlock]=sumBlue;                  

               indexPixel++;                                   
               indexPixelTemp=0;
               y++;

               if(y==8)
               {
                   y=0;
                   x++;
               }               
               u=0;v=0;sumGreen=0;sumRed=0;sumBlue=0;               
           }             
           if(i==3)
               break;
           x=0;y=0;                   
       }

       System.out.println();       
       /*for(i=0;i<64;i++)
       {
           System.out.print(rgbfinal[0][i][0]+" ");
           if(i%7==0 && i!=0)
               System.out.println();
       }*/
   }

   public static void main(String args[]){
        Jpeg a = new Jpeg();
        a.go("src/image2.rgb",0);         
    }    
}

I am not trying to display the output image as the ouput of IDCT for Red which i checked goes above 255.

Please help.

share|improve this question

1 Answer 1

First, are you hoping the create a JPEG-compatible codec? Or are you just toying with multimedia coding concepts? If the latter, then more power to you. If the former, you have a lot of work ahead.

To directly answer your question: It's normal to transform an 8x8 block using a 2D forward DCT and get numbers that go above 255. Low-level implementations of the forward DCT usually take an 8x8 vector of unsigned 8-bit samples as input and output an 8x8 vector of signed 16-bit samples.

If you actually are hoping to create a JPEG-compatible codec, you still have a few topics to study. For starters, JPEG does not compress RGB. RGB data is converted to YUV and those blocks get transformed (then quantized, zigzagged, and entropy coded).

share|improve this answer
    
I am definitely learning .I completely agree with what you have said above and i also know that we also need to do entropy encoding to be done. But for now i am taking an .rgb image to just eliminate alpha component and applying DCT and IDCT, thus getting the final image. And i would like to perform progressive encoding and stuff also. This I am doing on my own. –  Vizzard Mar 5 '13 at 9:59
    
Awesome. I once wrote an article advising people to write a JPEG decoder from scratch in the language of their choice if they were interested in learning multimedia hacking: multimedia.cx/eggs/learn-multimedia-with-jpeg ; you'll learn a bunch about many underpinnings of compression theory. To that end, you may wish to focus on writing a decoder first, and then an encoder. You might understand the pieces of JPEG better if you start with the decoder. –  Multimedia Mike Mar 5 '13 at 16:56
    
Thanks a lot, i'll definitely follow the link. –  Vizzard Mar 6 '13 at 0:54

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