vq/distribution.c - platform/external/libvorbis - Git at Google

 /********************************************************************
  *                                                                  *
  * THIS FILE IS PART OF THE OggVorbis SOFTWARE CODEC SOURCE CODE.   *
  * USE, DISTRIBUTION AND REPRODUCTION OF THIS LIBRARY SOURCE IS     *
  * GOVERNED BY A BSD-STYLE SOURCE LICENSE INCLUDED WITH THIS SOURCE *
  * IN 'COPYING'. PLEASE READ THESE TERMS BEFORE DISTRIBUTING.       *
  *                                                                  *
  * THE OggVorbis SOURCE CODE IS (C) COPYRIGHT 1994-2001             *
  * by the Xiph.Org Foundation http://www.xiph.org/                  *
  *                                                                  *
  ********************************************************************

  function: utility for finding the distribution in a data set
  last mod: $Id: distribution.c 16037 2009-05-26 21:10:58Z xiphmont $

  ********************************************************************/

 #include <stdlib.h>
 #include <stdio.h>
 #include <math.h>
 #include <string.h>
 #include <errno.h>
 #include "bookutil.h"

 /* command line:
    distribution file.vqd
 */

 int ascend(const void *a,const void *b){
   return(**((long **)a)-**((long **)b));
 }

 int main(int argc,char *argv[]){
   FILE *in;
   long lines=0;
   float min;
   float max;
   long bins=-1;
   int flag=0;
   long *countarray;
   long total=0;
   char *line;

   if(argv[1]==NULL){
     fprintf(stderr,"Usage: distribution {data.vqd [bins]| book.vqh} \n\n");
     exit(1);
   }
   if(argv[2]!=NULL)
     bins=atoi(argv[2])-1;

   in=fopen(argv[1],"r");
   if(!in){
     fprintf(stderr,"Could not open input file %s\n",argv[1]);
     exit(1);
   }

   if(strrchr(argv[1],'.') && strcmp(strrchr(argv[1],'.'),".vqh")==0){
     /* load/decode a book */

     codebook *b=codebook_load(argv[1]);
     static_codebook *c=(static_codebook *)(b->c);
     float delta;
     int i;
     fclose(in);

     switch(c->maptype){
     case 0:
       printf("entropy codebook only; no mappings\n");
       exit(0);
       break;
     case 1:
       bins=_book_maptype1_quantvals(c);
       break;
     case 2:
       bins=c->entries*c->dim;
       break;
     }

     max=min=_float32_unpack(c->q_min);
     delta=_float32_unpack(c->q_delta);

     for(i=0;i<bins;i++){
       float val=c->quantlist[i]*delta+min;
       if(val>max)max=val;
     }

     printf("Minimum scalar value: %f\n",min);
     printf("Maximum scalar value: %f\n",max);

     switch(c->maptype){
     case 1:
       {
         /* lattice codebook.  dump it. */
         int j,k;
         long maxcount=0;
         long **sort=calloc(bins,sizeof(long *));
         long base=c->lengthlist[0];
         countarray=calloc(bins,sizeof(long));

         for(i=0;i<bins;i++)sort[i]=c->quantlist+i;
         qsort(sort,bins,sizeof(long *),ascend);

         for(i=0;i<b->entries;i++)
           if(c->lengthlist[i]>base)base=c->lengthlist[i];

         /* dump a full, correlated count */
         for(j=0;j<b->entries;j++){
           if(c->lengthlist[j]){
             int indexdiv=1;
             printf("%4d: ",j);
             for(k=0;k<b->dim;k++){
               int index= (j/indexdiv)%bins;
               printf("%+3.1f,", c->quantlist[index]*_float32_unpack(c->q_delta)+
                      _float32_unpack(c->q_min));
               indexdiv*=bins;
             }
             printf("\t|");
             for(k=0;k<base-c->lengthlist[j];k++)printf("*");
             printf("\n");
           }
         }

         /* do a rough count */
         for(j=0;j<b->entries;j++){
           int indexdiv=1;
           for(k=0;k<b->dim;k++){
             if(c->lengthlist[j]){
               int index= (j/indexdiv)%bins;
               countarray[index]+=(1<<(base-c->lengthlist[j]));
               indexdiv*=bins;
             }
           }
         }

         /* dump the count */

         {
           long maxcount=0,i,j;
           for(i=0;i<bins;i++)
             if(countarray[i]>maxcount)maxcount=countarray[i];

           for(i=0;i<bins;i++){
             int ptr=sort[i]-c->quantlist;
             int stars=rint(50./maxcount*countarray[ptr]);
             printf("%+08f (%8ld) |",c->quantlist[ptr]*delta+min,countarray[ptr]);
             for(j=0;j<stars;j++)printf("*");
             printf("\n");
           }
         }
       }
       break;
     case 2:
       {
         /* trained, full mapping codebook. */
         printf("Can't do probability dump of a trained [type 2] codebook (yet)\n");
       }
       break;
     }
   }else{
     /* load/count a data file */

     /* do it the simple way; two pass. */
     line=setup_line(in);
     while(line){
       float code;
       char buf[80];
       lines++;

       sprintf(buf,"getting min/max (%.2f::%.2f). lines...",min,max);
       if(!(lines&0xff))spinnit(buf,lines);

       while(!flag && sscanf(line,"%f",&code)==1){
         line=strchr(line,',');
         min=max=code;
         flag=1;
       }

       while(line && sscanf(line,"%f",&code)==1){
         line=strchr(line,',');
         if(line)line++;
         if(code<min)min=code;
         if(code>max)max=code;
       }

       line=setup_line(in);
     }

     if(bins<1){
       if((int)(max-min)==min-max){
         bins=max-min;
       }else{
         bins=25;
       }
     }

     printf("\r                                                     \r");
     printf("Minimum scalar value: %f\n",min);
     printf("Maximum scalar value: %f\n",max);

     if(argv[2]){

       printf("\n counting hits into %ld bins...\n",bins+1);
       countarray=calloc(bins+1,sizeof(long));

       rewind(in);
       line=setup_line(in);
       while(line){
         float code;
         lines--;
         if(!(lines&0xff))spinnit("counting distribution. lines so far...",lines);

         while(line && sscanf(line,"%f",&code)==1){
           line=strchr(line,',');
           if(line)line++;

           code-=min;
           code/=(max-min);
           code*=bins;
           countarray[(int)rint(code)]++;
           total++;
         }

         line=setup_line(in);
       }

       /* make a pretty graph */
       {
         long maxcount=0,i,j;
         for(i=0;i<bins+1;i++)
           if(countarray[i]>maxcount)maxcount=countarray[i];

         printf("\r                                                     \r");
         printf("Total scalars: %ld\n",total);
         for(i=0;i<bins+1;i++){
           int stars=rint(50./maxcount*countarray[i]);
           printf("%08f (%8ld) |",(max-min)/bins*i+min,countarray[i]);
           for(j=0;j<stars;j++)printf("*");
           printf("\n");
         }
       }
     }

     fclose(in);

   }
   printf("\nDone.\n");
   exit(0);
 }
	/********************************************************************
	* *
	* THIS FILE IS PART OF THE OggVorbis SOFTWARE CODEC SOURCE CODE. *
	* USE, DISTRIBUTION AND REPRODUCTION OF THIS LIBRARY SOURCE IS *
	* GOVERNED BY A BSD-STYLE SOURCE LICENSE INCLUDED WITH THIS SOURCE *
	* IN 'COPYING'. PLEASE READ THESE TERMS BEFORE DISTRIBUTING. *
	* *
	* THE OggVorbis SOURCE CODE IS (C) COPYRIGHT 1994-2001 *
	* by the Xiph.Org Foundation http://www.xiph.org/ *
	* *
	********************************************************************

	function: utility for finding the distribution in a data set
	last mod: $Id: distribution.c 16037 2009-05-26 21:10:58Z xiphmont $

	********************************************************************/

	#include <stdlib.h>
	#include <stdio.h>
	#include <math.h>
	#include <string.h>
	#include <errno.h>
	#include "bookutil.h"

	/* command line:
	distribution file.vqd
	*/

	int ascend(const void a,const void b){
	return(((long )a)-((long )b));
	}

	int main(int argc,char *argv[]){
	FILE *in;
	long lines=0;
	float min;
	float max;
	long bins=-1;
	int flag=0;
	long *countarray;
	long total=0;
	char *line;

	if(argv[1]==NULL){
	fprintf(stderr,"Usage: distribution {data.vqd [bins]\| book.vqh} \n\n");
	exit(1);
	}
	if(argv[2]!=NULL)
	bins=atoi(argv[2])-1;

	in=fopen(argv[1],"r");
	if(!in){
	fprintf(stderr,"Could not open input file %s\n",argv[1]);
	exit(1);
	}

	if(strrchr(argv[1],'.') && strcmp(strrchr(argv[1],'.'),".vqh")==0){
	/* load/decode a book */

	codebook *b=codebook_load(argv[1]);
	static_codebook c=(static_codebook )(b->c);
	float delta;
	int i;
	fclose(in);

	switch(c->maptype){
	case 0:
	printf("entropy codebook only; no mappings\n");
	exit(0);
	break;
	case 1:
	bins=_book_maptype1_quantvals(c);
	break;
	case 2:
	bins=c->entries*c->dim;
	break;
	}

	max=min=_float32_unpack(c->q_min);
	delta=_float32_unpack(c->q_delta);

	for(i=0;i<bins;i++){
	float val=c->quantlist[i]*delta+min;
	if(val>max)max=val;
	}

	printf("Minimum scalar value: %f\n",min);
	printf("Maximum scalar value: %f\n",max);

	switch(c->maptype){
	case 1:
	{
	/* lattice codebook. dump it. */
	int j,k;
	long maxcount=0;
	long *sort=calloc(bins,sizeof(long ));
	long base=c->lengthlist[0];
	countarray=calloc(bins,sizeof(long));

	for(i=0;i<bins;i++)sort[i]=c->quantlist+i;
	qsort(sort,bins,sizeof(long *),ascend);

	for(i=0;i<b->entries;i++)
	if(c->lengthlist[i]>base)base=c->lengthlist[i];

	/* dump a full, correlated count */
	for(j=0;j<b->entries;j++){
	if(c->lengthlist[j]){
	int indexdiv=1;
	printf("%4d: ",j);
	for(k=0;k<b->dim;k++){
	int index= (j/indexdiv)%bins;
	printf("%+3.1f,", c->quantlist[index]*_float32_unpack(c->q_delta)+
	_float32_unpack(c->q_min));
	indexdiv*=bins;
	}
	printf("\t\|");
	for(k=0;k<base-c->lengthlist[j];k++)printf("*");
	printf("\n");
	}
	}

	/* do a rough count */
	for(j=0;j<b->entries;j++){
	int indexdiv=1;
	for(k=0;k<b->dim;k++){
	if(c->lengthlist[j]){
	int index= (j/indexdiv)%bins;
	countarray[index]+=(1<<(base-c->lengthlist[j]));
	indexdiv*=bins;
	}
	}
	}

	/* dump the count */

	{
	long maxcount=0,i,j;
	for(i=0;i<bins;i++)
	if(countarray[i]>maxcount)maxcount=countarray[i];

	for(i=0;i<bins;i++){
	int ptr=sort[i]-c->quantlist;
	int stars=rint(50./maxcount*countarray[ptr]);
	printf("%+08f (%8ld) \|",c->quantlist[ptr]*delta+min,countarray[ptr]);
	for(j=0;j<stars;j++)printf("*");
	printf("\n");
	}
	}
	}
	break;
	case 2:
	{
	/* trained, full mapping codebook. */
	printf("Can't do probability dump of a trained [type 2] codebook (yet)\n");
	}
	break;
	}
	}else{
	/* load/count a data file */

	/* do it the simple way; two pass. */
	line=setup_line(in);
	while(line){
	float code;
	char buf[80];
	lines++;

	sprintf(buf,"getting min/max (%.2f::%.2f). lines...",min,max);
	if(!(lines&0xff))spinnit(buf,lines);

	while(!flag && sscanf(line,"%f",&code)==1){
	line=strchr(line,',');
	min=max=code;
	flag=1;
	}

	while(line && sscanf(line,"%f",&code)==1){
	line=strchr(line,',');
	if(line)line++;
	if(code<min)min=code;
	if(code>max)max=code;
	}

	line=setup_line(in);
	}

	if(bins<1){
	if((int)(max-min)==min-max){
	bins=max-min;
	}else{
	bins=25;
	}
	}

	printf("\r \r");
	printf("Minimum scalar value: %f\n",min);
	printf("Maximum scalar value: %f\n",max);

	if(argv[2]){

	printf("\n counting hits into %ld bins...\n",bins+1);
	countarray=calloc(bins+1,sizeof(long));

	rewind(in);
	line=setup_line(in);
	while(line){
	float code;
	lines--;
	if(!(lines&0xff))spinnit("counting distribution. lines so far...",lines);

	while(line && sscanf(line,"%f",&code)==1){
	line=strchr(line,',');
	if(line)line++;

	code-=min;
	code/=(max-min);
	code*=bins;
	countarray[(int)rint(code)]++;
	total++;
	}

	line=setup_line(in);
	}

	/* make a pretty graph */
	{
	long maxcount=0,i,j;
	for(i=0;i<bins+1;i++)
	if(countarray[i]>maxcount)maxcount=countarray[i];

	printf("\r \r");
	printf("Total scalars: %ld\n",total);
	for(i=0;i<bins+1;i++){
	int stars=rint(50./maxcount*countarray[i]);
	printf("%08f (%8ld) \|",(max-min)/bins*i+min,countarray[i]);
	for(j=0;j<stars;j++)printf("*");
	printf("\n");
	}
	}
	}

	fclose(in);

	}
	printf("\nDone.\n");
	exit(0);
	}