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I have some difficulties in my project. I got the RGB values from a 256x256 bmp image. however, i don't know how to continue by using the huffman coding to compress those RGB value. Can anyone help me? Thanks for your help.

#include <stdio.h>
#include <stdlib.h>
#include <math.h>

/*-------PROTOTYPES-------*/
long getImageInfo(FILE*, long, int);
void copyImageInfo(FILE* inputFile, FILE* outputFile);
void copyColorTable(FILE* inputFile, FILE* outputFile, int nColors);
//void bmpsave (FILE*, unsigned char , int , int );

/*------STRUCTURES--------*/
typedef struct {int rows; int cols; unsigned char* data;} sImage;

int main(int argc, char* argv[])
{



  FILE   *bmpInput, *rasterOutput, *bmpOutput,*RedText,*GreenText,*BlueText,*ErrorRedText,*ErrorBlueText,*ErrorGreenText;
  FILE                 *entroGreen,*entroBlue,*entroRed;
  sImage  originalImage;
  unsigned char  someChar;
  unsigned char  *pChar;
  long   fileSize;
  int   vectorSize, nColors;
  int                   totalGCount=0, totalBCount=0,totalRCount=0;
  int   r, c, i,j,k=0;
  int   redValue, greenValue, blueValue;
  int                   dummyRed=0 ,dummyGreen=0, dummyBlue=0;
  int                   count[256] = {0},countRed[256]= {0},countBlue[256]= {0},countGreen[256]= {0};
  double                EntropyGreen, EntropyBlue, EntropyRed;
  //int                   error[414720];
  //int                   Red[400][720];
  //int                   Green[400][720];
  //int                   Blue[400][720];


  unsigned int   uint1;
  short          word1;
  unsigned char  byte1, byte2;
  FILE           *imdata;

  int **errorGreen;
  int **errorRed;
  int **errorBlue;
  int **Red;
  int **Blue;
  int **Green;
  int **b;


    b = malloc ( 256 * sizeof (int) );
    for ( i = 0; i < 256; ++i )
    b[i] = malloc ( 256 * sizeof (int) );

    errorGreen = malloc ( 256 * sizeof (int) );
    for ( i = 0; i < 256; ++i )
    errorGreen[i] = malloc ( 256 * sizeof (int) );

    errorRed = malloc ( 256 * sizeof (int) );
    for ( i = 0; i < 256; ++i )
    errorRed[i] = malloc ( 256 * sizeof (int) );

    errorBlue = malloc ( 256 * sizeof (int) );
    for ( i = 0; i < 256; ++i )
    errorBlue[i] = malloc ( 256 * sizeof (int) );
    //error = (int *) malloc ( 414720 * sizeof (int) ); //Dynamic Memmory Allocation of 1D Array
    Red = malloc ( 256 * sizeof (int) );
    for ( i = 0; i < 256; ++i )
    Red[i] = malloc ( 256 * sizeof (int) );

    Green = malloc ( 256 * sizeof (int) );
    for ( i = 0; i < 256; ++i )
    Green[i] = malloc ( 256 * sizeof (int) );

    Blue = malloc ( 256 * sizeof (int) );
    for ( i = 0; i < 256; ++i )
    Blue[i] = malloc ( 256 * sizeof (int) );






  /*--------INITIALIZE POINTER----------*/
  someChar = '0';
  pChar = &someChar;

  if(argc < 2)
  {
    printf("Usage: %s bmpInput.bmp\n", argv[0]);
    exit(0);
  }

  printf("Reading file %s\n", "Kirschen_256.bmp");

  /*----DECLARE INPUT AND OUTPUT FILES----*/
  bmpInput = fopen("Kirschen_256.bmp", "rb");
  /*RedText = fopen("Red.txt", "w");
  BlueText = fopen("Blue.txt", "w");
  GreenText = fopen("Green.txt", "w");*/
  entroGreen = fopen("entroGreen.txt", "w");
  entroRed = fopen("entroRed.txt", "w");
  entroBlue = fopen("entroBlue.txt", "w");
  ErrorRedText = fopen("ErrorRed.txt", "w");
  ErrorBlueText = fopen("ErrorBlue.txt", "w");
  ErrorGreenText = fopen("ErrorGreen.txt", "w");
  rasterOutput = fopen("Kirschen_256.txt", "w");
  bmpOutput = fopen("Kirschen_256().bmp", "wb");

  fseek(bmpInput , 0L , SEEK_END);
  //fseek is a C function belonging to the ANSI C standard library,
  //and included in the file stdio.h. Its purpose is to change the file position indicator for the specified stream.
  /*-----GET BMP DATA-----*/
  originalImage.cols = (int)getImageInfo(bmpInput, 18, 4);
  originalImage.rows = (int)getImageInfo(bmpInput, 22, 4);
  fileSize = getImageInfo(bmpInput, 2, 4);
  nColors = getImageInfo(bmpInput, 46, 4);
  //vectorSize = fileSize - (14 + 40 + 4*nColors);

  /*----PRINT DATA TO SCREEN-----*/
  printf("Width: %d\n", originalImage.cols);
  printf("Height: %d\n", originalImage.rows);
  printf("File size: %ld\n", fileSize);
  printf("Bits/pixel: %d\n", getImageInfo(bmpInput, 28, 4));
  printf("No. colors: %d\n", nColors);
  //printf("Vector size: %d\n", vectorSize);

  copyImageInfo(bmpInput, bmpOutput);
  //copyColorTable(bmpInput, bmpOutput, nColors);


  /*----FOR 24-BIT BMP, THERE IS NO COLOR TABLE-----*/
  fseek(bmpInput , 54 , SEEK_SET);
  fseek(bmpOutput , 54 , SEEK_SET);
  /*-----------READ RASTER DATA-----------*/

  for(r=0; r<=originalImage.rows-1; r++)
  {
    for(c=0; c<=originalImage.cols-1; c++)
    {
      /*----READ FIRST BYTE TO GET BLUE VALUE-----*/
     fread(pChar, sizeof(char), 1, bmpInput);
      blueValue = *pChar;
      Blue[r][c]=*pChar;
      if (r==0||c==0){
           errorBlue[r][c]=abs(dummyBlue-blueValue);
           countBlue[abs(dummyBlue-blueValue)]++;
           count[abs(dummyBlue-blueValue)]++;
           totalBCount++;
      }
      else{
           errorBlue[r][c]=abs(((dummyBlue+Blue[r-1][c]+Blue[r-1][c-1])/3)-blueValue);
           countBlue[abs(((dummyBlue+Blue[r-1][c]+Blue[r-1][c-1])/3)-blueValue)]++;
           count[abs(((dummyBlue+Blue[r-1][c]+Blue[r-1][c-1])/3)-blueValue)]++;
           totalBCount++;
    }
      //error[k]=abs(dummyBlue-blueValue);
      //k++;
      *pChar=dummyBlue;
      fwrite(pChar, sizeof(char), 1, bmpOutput);
      dummyBlue=blueValue;


      /*-----READ NEXT BYTE TO GET GREEN VALUE-----*/
    fread(pChar, sizeof(char), 1, bmpInput);
      greenValue = *pChar;
      Green[r][c]=*pChar;
      if (r==0||c==0){
           errorGreen[r][c]=abs(dummyGreen-greenValue);
           countGreen[abs(dummyGreen-greenValue)]++;
           count[abs(dummyGreen-greenValue)]++;
           totalGCount++;
      }
      else{
           errorGreen[r][c]=abs(((dummyGreen+Green[r-1][c]+Green[r-1][c-1])/3)-greenValue);
           countGreen[abs(((dummyGreen+Green[r-1][c]+Green[r-1][c-1])/3)-greenValue)]++;
           count[abs(((dummyGreen+Green[r-1][c]+Green[r-1][c-1])/3)-greenValue)]++;
           totalGCount++;
    }
      *pChar=dummyGreen;
      fwrite(pChar, sizeof(char), 1, bmpOutput);
      dummyGreen=greenValue;


      /*-----READ NEXT BYTE TO GET RED VALUE-----*/
      fread(pChar, sizeof(char), 1, bmpInput);
      redValue = *pChar;
      Red[r][c]=*pChar;
       if (r==0||c==0){
           errorRed[r][c]=abs(dummyRed-redValue);
           countRed[abs(dummyRed-redValue)]++;
           count[abs(dummyRed-redValue)]++;
           totalRCount++;
      }
      else{
           errorRed[r][c]=abs(((dummyRed+Red[r-1][c]+Red[r-1][c-1])/3)-redValue);
           countRed[abs(((dummyRed+Red[r-1][c]+Red[r-1][c-1])/3)-redValue)]++;
           count[abs(((dummyRed+Red[r-1][c]+Red[r-1][c-1])/3)-redValue)]++;
           totalRCount++;
    }
      *pChar=dummyRed;
      fwrite(pChar, sizeof(char), 1, bmpOutput);
      dummyRed=redValue;


      /*---------PRINT TO TEXT FILE---------*/
      fprintf(rasterOutput, "(%d %d) = \tRed \t%d", r, c, redValue);
      fprintf(rasterOutput, "\tGreen \t%d \tBlue \t%d\n", greenValue, blueValue);

      /*-----read data, reflect and write to output file----*/

      //fseek(bmpOutput, 54 , SEEK_SET);
      //fwrite(pChar, sizeof(char), 1, bmpOutput);
    }
  }
  for (j=0; j<256; j++) {
            for (i=255; i>=0; i--) {
                    if(i>=256-(count[j]/16))
                    b[i][j] = 0x00;
                    else
                    b[i][j] = 0xFF;
            }
    }


  imdata = fopen("Kirschen_256after4", "wb");
 /* if (imdata == NULL) {
    printf("%s open error.\n", imname);  exit(0);
  }
*/
  byte1 = 'B';  byte2 = 'M';
  fwrite(&byte1, 1, 1, imdata);  fwrite(&byte2, 1, 1, imdata);
  uint1 = 54 + 4*256 + originalImage.cols*originalImage.rows;  fwrite(&uint1, 4, 1, imdata);
  word1 = 0;   fwrite(&word1, 2, 1, imdata);  fwrite(&word1, 2, 1, imdata);
  uint1 = 54 + 4*256;  fwrite(&uint1, 4, 1, imdata);
  uint1 = 40;  fwrite(&uint1, 4, 1, imdata);
  fwrite(&originalImage.cols, 4, 1, imdata);  fwrite(&originalImage.rows, 4, 1, imdata);
  word1 = 1;  fwrite(&word1, 2, 1, imdata);
  word1 = 8;  fwrite(&word1, 2, 1, imdata);
  uint1 = 0;  fwrite(&uint1, 4, 1, imdata);
  uint1 = originalImage.cols*originalImage.rows;  fwrite(&uint1, 4, 1, imdata);
  j = 11811;  fwrite(&j, 4, 1, imdata);  fwrite(&j, 4, 1, imdata);
  uint1 = 256;   fwrite(&uint1, 4, 1, imdata);
  uint1 = 0;     fwrite(&uint1, 4, 1, imdata);

  for (i=0; i<256; i++) {
    byte1 = i;
    fwrite(&byte1, 1, 1, imdata);  fwrite(&byte1, 1, 1, imdata);
    fwrite(&byte1, 1, 1, imdata);  fwrite(&byte1, 1, 1, imdata);
  }

  for (i=originalImage.rows-1; i>=0; i--) {
    for (j=0; j<originalImage.cols; j++) {
      fwrite(&b[i][j], 1, 1, imdata);
    }
  }

  fclose(imdata);

  for (i=0; i<256; i++) {
      if (countGreen[i]==0)
          EntropyGreen += 0;
      else
          EntropyGreen += ((double)countGreen[i]/(double)totalGCount) * (log2 ((double)1/((double)countGreen[i]/(double)totalGCount)));

      if (countRed[i]==0)
          EntropyRed += 0;
      else
          EntropyRed += ((double)countRed[i]/(double)totalRCount) * (log2 ((double)1/((double)countRed[i]/(double)totalRCount)));

      if (countBlue[i]==0)
          EntropyBlue +=0;
      else
          EntropyBlue += ((double)countBlue[i]/(double)totalBCount) * (log2 ((double)1/((double)countBlue[i]/(double)totalBCount)));


  }


      fprintf(entroGreen, "Entropy= %f", EntropyGreen);
      fprintf(entroRed, "Entropy= %f", EntropyRed);
      fprintf(entroBlue, "Entropy= %f", EntropyBlue);

  for (i = 0; i < 256; i++) {
    for (j = 0; j < 256; j++) {
      fprintf(ErrorRedText, "[%d][%d] = %2d\n", i, j, errorRed[i][j]);
      fprintf(ErrorGreenText, "[%d][%d] = %2d\n", i, j, errorGreen[i][j]);
      fprintf(ErrorBlueText, "[%d][%d] = %2d\n", i, j, errorBlue[i][j]);

    fprintf (ErrorRedText,"\n");
    fprintf (ErrorBlueText,"\n");
    fprintf (ErrorGreenText,"\n");
  }
  }
  /*for (i = 0; i < 768; i++) {
    for (j = 0; j < 1024; j++) {
      fprintf(RedText, "a[%d][%d] = %2d\n", i, j, Red[i][j]);
      fprintf(GreenText, "a[%d][%d] = %2d\n", i, j, Green[i][j]);
      fprintf(BlueText, "a[%d][%d] = %2d\n", i, j, Blue[i][j]);
    }
    fprintf (RedText,"\n");
    fprintf (BlueText,"\n");
    fprintf (GreenText,"\n");
  }*/
  /*for (i = 0; i < 414720; i++){
      fprintf(ErrorText, "error[%d] = %d\n",i,error[i]);
      fprintf (ErrorText,"\n");
  }*/
 // PrintHistogram(freq_array, NUM_RANGE);


  fclose(bmpInput);
  /*fclose(RedText);
  fclose(GreenText);
  fclose(BlueText);*/
  fclose(ErrorRedText);
  fclose(ErrorGreenText);
  fclose(ErrorBlueText);
  fclose(rasterOutput);
  fclose(bmpOutput);
  fclose(entroGreen);
  fclose(entroRed);
  fclose(entroBlue);


  return 0;



}

/*----GET IMAGE INFO SUBPROGRAM------*/

long getImageInfo(FILE* inputFile, long offset, int numberOfChars)
{
  unsigned char  *ptrC;
  long   value=0L;
  int   i;
  unsigned char  dummy;


  dummy = '0';
  ptrC = &dummy;

  fseek(inputFile, offset, SEEK_SET);

  for(i=1; i<=numberOfChars; i++)
  {
    fread(ptrC, sizeof(char), 1, inputFile);
    /* calculate value based on adding bytes */
    value = (long)(value + (*ptrC)*(pow(256, (i-1))));
  }

  return(value);
}

/*-------------COPIES HEADER AND INFO HEADER----------------*/
void copyImageInfo(FILE* inputFile, FILE* outputFile)
{
  unsigned char  *ptrC;
  unsigned char  dummy;
  int    i;

  dummy = '0';
  ptrC = &dummy;

  fseek(inputFile, 0L, SEEK_SET);
  fseek(outputFile, 0L, SEEK_SET);

  for(i=0; i<=50; i++)
  {
    fread(ptrC, sizeof(char), 1, inputFile);
    fwrite(ptrC, sizeof(char), 1, outputFile);
  }

}

/*----------------COPIES COLOR TABLE-----------------------------*/
void copyColorTable(FILE* inputFile, FILE* outputFile, int nColors)
{
  unsigned char  *ptrC;
  unsigned char  dummy;
  int    i;

  dummy = '0';
  ptrC = &dummy;

  fseek(inputFile, 54L, SEEK_SET);
  fseek(outputFile, 54L, SEEK_SET);

  for(i=0; i<=(4*nColors); i++)  /* there are (4*nColors) bytesin color table */
  {
    fread(ptrC, sizeof(char), 1, inputFile);
    fwrite(ptrC, sizeof(char), 1, outputFile);
  }

}
share|improve this question
    
Which bit are you stuck on? Your code doesn't seem to show you've even started to write anything related to huffman. If you're confused about the concepts, ask a specific question about the concept you don't understand, and don't post irrelevant code. If you're confused about how to get huffman to work with your code, post a minimal compilable example which demonstrates your problem. –  Philip Potter Feb 26 '10 at 9:54
    
Is this homework? If so, please add the 'homework' label. –  bta Feb 26 '10 at 23:23

1 Answer 1

up vote 1 down vote accepted

I highly recommend using a search engine such as Google before asking on StackOverflow. This is a prime example. My Google Search yield examples in both C and C++.

When you have difficulties with your program, show the relevant code here.

share|improve this answer

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