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Residue0.java

/* JOrbis
 * Copyright (C) 2000 ymnk, JCraft,Inc.
 *  
 * Written by: 2000 ymnk<ymnk@jcraft.com>
 *   
 * Many thanks to 
 *   Monty <monty@xiph.org> and 
 *   The XIPHOPHORUS Company http://www.xiph.org/ .
 * JOrbis has been based on their awesome works, Vorbis codec.
 *   
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Library General Public License
 * as published by the Free Software Foundation; either version 2 of
 * the License, or (at your option) any later version.
   
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU Library General Public License for more details.
 * 
 * You should have received a copy of the GNU Library General Public
 * License along with this program; if not, write to the Free Software
 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
 */

package com.jcraft.jorbis;

import com.jcraft.jogg.*;

class Residue0 extends FuncResidue{
  void pack(Object vr, Buffer opb){
    InfoResidue0 info=(InfoResidue0)vr;
    int acc=0;
    opb.write(info.begin,24);
    opb.write(info.end,24);

    opb.write(info.grouping-1,24);  /* residue vectors to group and 
                             code with a partitioned book */
    opb.write(info.partitions-1,6); /* possible partition choices */
    opb.write(info.groupbook,8);  /* group huffman book */

    /* secondstages is a bitmask; as encoding progresses pass by pass, a
       bitmask of one indicates this partition class has bits to write
       this pass */
    for(int j=0;j<info.partitions;j++){
      if(ilog(info.secondstages[j])>3){
      /* yes, this is a minor hack due to not thinking ahead */
        opb.write(info.secondstages[j],3); 
        opb.write(1,1);
        opb.write(info.secondstages[j]>>>3,5); 
      }
      else{
        opb.write(info.secondstages[j],4); /* trailing zero */
      }
      acc+=icount(info.secondstages[j]);
   }
    for(int j=0;j<acc;j++){
      opb.write(info.booklist[j],8);
    }
  }

  Object unpack(Info vi, Buffer opb){
    int acc=0;
    InfoResidue0 info=new InfoResidue0();

    info.begin=opb.read(24);
    info.end=opb.read(24);
    info.grouping=opb.read(24)+1;
    info.partitions=opb.read(6)+1;
    info.groupbook=opb.read(8);

    for(int j=0;j<info.partitions;j++){
      int cascade=opb.read(3);
      if(opb.read(1)!=0){
        cascade|=(opb.read(5)<<3);
      }
      info.secondstages[j]=cascade;
      acc+=icount(cascade);
    }

    for(int j=0;j<acc;j++){
      info.booklist[j]=opb.read(8);
//    if(info.booklist[j]==255)info.booklist[j]=-1;
    }

    if(info.groupbook>=vi.books){
      free_info(info);
      return(null);
    }

    for(int j=0;j<acc;j++){
      if(info.booklist[j]>=vi.books){
      free_info(info);
      return(null);
      }
    }
    return(info);
//  errout:
//    free_info(info);
//    return(NULL);
  }

  Object look(DspState vd, InfoMode vm, Object vr){
    InfoResidue0 info=(InfoResidue0)vr;
    LookResidue0 look=new LookResidue0();
    int acc=0;
    int dim;
    int maxstage=0;
    look.info=info;
    look.map=vm.mapping;

    look.parts=info.partitions;
    look.fullbooks=vd.fullbooks;
    look.phrasebook=vd.fullbooks[info.groupbook];

    dim=look.phrasebook.dim;

    look.partbooks=new int[look.parts][];

    for(int j=0;j<look.parts;j++){
      int stages=ilog(info.secondstages[j]);
      if(stages!=0){
        if(stages>maxstage)maxstage=stages;
        look.partbooks[j]=new int[stages];
        for(int k=0; k<stages; k++){
          if((info.secondstages[j]&(1<<k))!=0){
            look.partbooks[j][k]=info.booklist[acc++];
        }
      }
      }
    }

    look.partvals=(int)Math.rint(Math.pow(look.parts,dim));
    look.stages=maxstage;
    look.decodemap=new int[look.partvals][];
    for(int j=0;j<look.partvals;j++){
      int val=j;
      int mult=look.partvals/look.parts;
      look.decodemap[j]=new int[dim];

      for(int k=0;k<dim;k++){
        int deco=val/mult;
        val-=deco*mult;
        mult/=look.parts;
        look.decodemap[j][k]=deco;
      }
    }
    return(look);
  }
  void free_info(Object i){}
  void free_look(Object i){}
  int forward(Block vb,Object vl, float[][] in, int ch){
    System.err.println("Residue0.forward: not implemented");
    return 0;
  }

  static int[][][] partword=new int[2][][]; // _01inverse is synchronized for
                                            // re-using partword
  synchronized static int _01inverse(Block vb, Object vl, 
                             float[][] in,int ch,int decodepart){
    int i,j,k,l,s;
    LookResidue0 look=(LookResidue0 )vl;
    InfoResidue0 info=look.info;

    // move all this setup out later
    int samples_per_partition=info.grouping;
    int partitions_per_word=look.phrasebook.dim;
    int n=info.end-info.begin;
  
    int partvals=n/samples_per_partition;
    int partwords=(partvals+partitions_per_word-1)/partitions_per_word;

    if(partword.length<ch){
      partword=new int[ch][][];
      for(j=0;j<ch;j++){
        partword[j]=new int[partwords][];
      }
    }
    else{
      for(j=0;j<ch;j++){
        if(partword[j]==null || partword[j].length<partwords)
        partword[j]=new int[partwords][];
      }
    }

    for(s=0;s<look.stages;s++){
      // each loop decodes on partition codeword containing 
      // partitions_pre_word partitions
      for(i=0,l=0;i<partvals;l++){
        if(s==0){
        // fetch the partition word for each channel
        for(j=0;j<ch;j++){
          int temp=look.phrasebook.decode(vb.opb);
          if(temp==-1){
            //goto eopbreak;
            return(0);
          }
          partword[j][l]=look.decodemap[temp];
          if(partword[j][l]==null){
//          goto errout;
            return(0);
          }
        } 
        }
      
        // now we decode residual values for the partitions
        for(k=0;k<partitions_per_word && i<partvals;k++,i++)
        for(j=0;j<ch;j++){
          int offset=info.begin+i*samples_per_partition;
          if((info.secondstages[partword[j][l][k]]&(1<<s))!=0){
            CodeBook stagebook=look.fullbooks[look.partbooks[partword[j][l][k]][s]];
//          CodeBook stagebook=look.partbooks[partword[j][l][k]][s];
            if(stagebook!=null){
              if(decodepart==0){
                if(stagebook.decodevs_add(in[j],offset,vb.opb,samples_per_partition)==-1){
                  // goto errout;
                  return(0);
                }
              }
                  else if(decodepart==1){
                if(stagebook.decodev_add(in[j], offset, vb.opb,samples_per_partition)==-1){
                  // goto errout;
                  return(0);
                }
              }
            }
          }
        }
      } 
    }
//  errout:
//  eopbreak:
  return(0);
  }

  static int _2inverse(Block vb, Object vl, float[][] in, int ch){
    int i,j,k,l,s;
    LookResidue0 look=(LookResidue0 )vl;
    InfoResidue0 info=look.info;

    // move all this setup out later
    int samples_per_partition=info.grouping;
    int partitions_per_word=look.phrasebook.dim;
    int n=info.end-info.begin;
  
    int partvals=n/samples_per_partition;
    int partwords=(partvals+partitions_per_word-1)/partitions_per_word;

    int[][] partword=new int[partwords][];
    for(s=0;s<look.stages;s++){
      for(i=0,l=0;i<partvals;l++){
        if(s==0){
          // fetch the partition word for each channel
        int temp=look.phrasebook.decode(vb.opb);
        if(temp==-1){
            // goto eopbreak;
          return(0);
        }
        partword[l]=look.decodemap[temp];
        if(partword[l]==null){
          // goto errout;
          return(0);
        }
      }

        // now we decode residual values for the partitions
        for(k=0;k<partitions_per_word && i<partvals;k++,i++){
          int offset=info.begin+i*samples_per_partition;
        if((info.secondstages[partword[l][k]]&(1<<s))!=0){
            CodeBook stagebook=look.fullbooks[look.partbooks[partword[l][k]][s]];
          if(stagebook!=null){
              if(stagebook.decodevv_add(in, offset, ch, vb.opb,samples_per_partition)==-1){
                // goto errout;
            return(0);
            }
          }
        } 
      }
      }
    }
//  errout:
//  eopbreak:
    return(0);
  }

  int inverse(Block vb, Object vl, float[][] in, int[] nonzero, int ch){
    //System.err.println("Residue0.inverse");
    int used=0;
    for(int i=0;i<ch;i++){
      if(nonzero[i]!=0){
        in[used++]=in[i];
      }
    }
    if(used!=0)
      return(_01inverse(vb,vl,in,used,0));
    else
      return(0);
  }

/*
  int inverse(Block vb, Object vl, float[][] in, int ch){
//System.err.println("Residue0.inverse");
    int i,j,k,l,transend=vb.pcmend/2;
    LookResidue0 look=(LookResidue0 )vl;
    InfoResidue0 info=look.info;

    // move all this setup out later
    int samples_per_partition=info.grouping;
    int partitions_per_word=look.phrasebook.dim;
    int n=info.end-info.begin;

    int partvals=n/samples_per_partition;
    int partwords=(partvals+partitions_per_word-1)/partitions_per_word;
    int[][] partword=new int[ch][];
    float[] work=new float[samples_per_partition];
    partvals=partwords*partitions_per_word;

    // make sure we're zeroed up to the start
    for(j=0;j<ch;j++){
      for(k=0; k<info.begin; k++)in[j][k]=0.0f;
    }

    for(i=info.begin,l=0;i<info.end;){
      // fetch the partition word for each channel
      for(j=0;j<ch;j++){
        int temp=look.phrasebook.decode(vb.opb);
        if(temp==-1){
          //goto eopbreak;
          if(i<transend){
            for(j=0;j<ch;j++){
            for(k=0;k<transend-i;k++)in[j][i+k]=0.0f;
            }
        }
        return(0);
      }
        partword[j]=look.decodemap[temp];
        if(partword[j]==null){
          //goto errout;
          for(j=0;j<ch;j++){
            for(k=0;k<transend;k++)in[j][k]=0.0f;
        }
        return(0);
      }
      }
    
      // now we decode interleaved residual values for the partitions
      for(k=0;k<partitions_per_word;k++,l++,i+=samples_per_partition){
      for(j=0;j<ch;j++){
        int part=partword[j][k];
        if(decodepart(vb.opb,work, in[j], i,samples_per_partition,
                  info.secondstages[part],
                  look.partbooks[part])==-1){
          //goto eopbreak;
          if(i<transend){
            for(j=0;j<ch;j++){
            for(k=0;k<transend-i;k++)in[j][i+k]=0.0f;
            }
          }
          return(0);
        }
      }
      }
    }

// eopbreak:
    if(i<transend){
      for(j=0;j<ch;j++){
        for(k=0;k<transend-i;k++)in[j][i+k]=0.0f;
      }
    }
    return(0);

// errout:
//  for(j=0;j<ch;j++)
//    for(k=0;k<transend;k++)in[j][k]=0.0f;
//  return(0);
  }
  int decodepart(Buffer opb, float[] work, float[] vec, int veci,
             int n, int stages, CodeBook[] books){
    int i,j;
    for(i=0;i<n;i++)work[i]=0.0f;

    for(j=0;j<stages;j++){
      int dim=books[j].dim;
      int step=n/dim;
      for(i=0;i<step;i++){
        if(books[j].decodevs(work, i, opb, step, 0)==-1){
        return(-1);
      }
      }
    }
    for(i=0;i<n;i++){
      vec[veci+i]*=work[i];
    }
    return(0);
  }
*/

  private static int ilog(int v){
    int ret=0;
    while(v!=0){
      ret++;
      v>>>=1;
    }
    return(ret);
  }
  private static int icount(int v){
    int ret=0;
   while(v!=0){
      ret+=(v&1);
      v>>>=1;
    }
    return(ret);
  }
}

class LookResidue0 {
  InfoResidue0 info;
  int map;
  
  int parts;
  int stages;
  CodeBook[] fullbooks;
  CodeBook   phrasebook;
  int[][] partbooks;
//  CodeBook[][] partbooks;

  int partvals;
  int[][] decodemap;

  int  postbits;
  int         phrasebits;
//  int[][]     frames;
  int    frames;
}

class InfoResidue0{
  // block-partitioned VQ coded straight residue
  int begin;
  int end;

  // first stage (lossless partitioning)
  int grouping;                   // group n vectors per partition
  int partitions;                 // possible codebooks for a partition
  int groupbook;                  // huffbook for partitioning
  int[] secondstages=new int[64]; // expanded out to pointers in lookup
  int[] booklist=new int[256];    // list of second stage books

  // encode-only heuristic settings
  float[] entmax=new float[64];       // book entropy threshholds
  float[] ampmax=new float[64];       // book amp threshholds
  int[] subgrp=new int[64];       // book heuristic subgroup size
  int[] blimit=new int[64];       // subgroup position limits
}

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