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Floor0.java

/* -*-mode:java; c-basic-offset:2; indent-tabs-mode:nil -*- */
/* 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 Floor0 extends FuncFloor{

  void pack(Object i, Buffer opb){
    InfoFloor0 info=(InfoFloor0)i;
    opb.write(info.order, 8);
    opb.write(info.rate, 16);
    opb.write(info.barkmap, 16);
    opb.write(info.ampbits, 6);
    opb.write(info.ampdB, 8);
    opb.write(info.numbooks-1, 4);
    for(int j=0; j<info.numbooks; j++)
      opb.write(info.books[j], 8);
  }

  Object unpack(Info vi, Buffer opb){
    InfoFloor0 info=new InfoFloor0();
    info.order=opb.read(8);
    info.rate=opb.read(16);
    info.barkmap=opb.read(16);
    info.ampbits=opb.read(6);
    info.ampdB=opb.read(8);
    info.numbooks=opb.read(4)+1;

    if((info.order<1)||(info.rate<1)||(info.barkmap<1)||(info.numbooks<1)){
      return (null);
    }

    for(int j=0; j<info.numbooks; j++){
      info.books[j]=opb.read(8);
      if(info.books[j]<0||info.books[j]>=vi.books){
        return (null);
      }
    }
    return (info);
  }

  Object look(DspState vd, InfoMode mi, Object i){
    float scale;
    Info vi=vd.vi;
    InfoFloor0 info=(InfoFloor0)i;
    LookFloor0 look=new LookFloor0();
    look.m=info.order;
    look.n=vi.blocksizes[mi.blockflag]/2;
    look.ln=info.barkmap;
    look.vi=info;
    look.lpclook.init(look.ln, look.m);

    // we choose a scaling constant so that:
    scale=look.ln/toBARK((float)(info.rate/2.));

    // the mapping from a linear scale to a smaller bark scale is
    // straightforward.  We do *not* make sure that the linear mapping
    // does not skip bark-scale bins; the decoder simply skips them and
    // the encoder may do what it wishes in filling them.  They're
    // necessary in some mapping combinations to keep the scale spacing
    // accurate
    look.linearmap=new int[look.n];
    for(int j=0; j<look.n; j++){
      int val=(int)Math.floor(toBARK((float)((info.rate/2.)/look.n*j))*scale); // bark numbers represent band edges
      if(val>=look.ln)
        val=look.ln; // guard against the approximation
      look.linearmap[j]=val;
    }
    return look;
  }

  static float toBARK(float f){
    return (float)(13.1*Math.atan(.00074*(f))+2.24*Math.atan((f)*(f)*1.85e-8)+1e-4*(f));
  }

  Object state(Object i){
    EchstateFloor0 state=new EchstateFloor0();
    InfoFloor0 info=(InfoFloor0)i;

    // a safe size if usually too big (dim==1)
    state.codewords=new int[info.order];
    state.curve=new float[info.barkmap];
    state.frameno=-1;
    return (state);
  }

  void free_info(Object i){
  }

  void free_look(Object i){
  }

  void free_state(Object vs){
  }

  int forward(Block vb, Object i, float[] in, float[] out, Object vs){
    return 0;
  }

  float[] lsp=null;

  int inverse(Block vb, Object i, float[] out){
    //System.err.println("Floor0.inverse "+i.getClass()+"]");
    LookFloor0 look=(LookFloor0)i;
    InfoFloor0 info=look.vi;
    int ampraw=vb.opb.read(info.ampbits);
    if(ampraw>0){ // also handles the -1 out of data case
      int maxval=(1<<info.ampbits)-1;
      float amp=(float)ampraw/maxval*info.ampdB;
      int booknum=vb.opb.read(Util.ilog(info.numbooks));

      if(booknum!=-1&&booknum<info.numbooks){

        synchronized(this){
          if(lsp==null||lsp.length<look.m){
            lsp=new float[look.m];
          }
          else{
            for(int j=0; j<look.m; j++)
              lsp[j]=0.f;
          }

          CodeBook b=vb.vd.fullbooks[info.books[booknum]];
          float last=0.f;

          for(int j=0; j<look.m; j++)
            out[j]=0.0f;

          for(int j=0; j<look.m; j+=b.dim){
            if(b.decodevs(lsp, j, vb.opb, 1, -1)==-1){
              for(int k=0; k<look.n; k++)
                out[k]=0.0f;
              return (0);
            }
          }
          for(int j=0; j<look.m;){
            for(int k=0; k<b.dim; k++, j++)
              lsp[j]+=last;
            last=lsp[j-1];
          }
          // take the coefficients back to a spectral envelope curve
          Lsp.lsp_to_curve(out, look.linearmap, look.n, look.ln, lsp, look.m,
              amp, info.ampdB);

          return (1);
        }
      }
    }
    return (0);
  }

  Object inverse1(Block vb, Object i, Object memo){
    LookFloor0 look=(LookFloor0)i;
    InfoFloor0 info=look.vi;
    float[] lsp=null;
    if(memo instanceof float[]){
      lsp=(float[])memo;
    }

    int ampraw=vb.opb.read(info.ampbits);
    if(ampraw>0){ // also handles the -1 out of data case
      int maxval=(1<<info.ampbits)-1;
      float amp=(float)ampraw/maxval*info.ampdB;
      int booknum=vb.opb.read(Util.ilog(info.numbooks));

      if(booknum!=-1&&booknum<info.numbooks){
        CodeBook b=vb.vd.fullbooks[info.books[booknum]];
        float last=0.f;

        if(lsp==null||lsp.length<look.m+1){
          lsp=new float[look.m+1];
        }
        else{
          for(int j=0; j<lsp.length; j++)
            lsp[j]=0.f;
        }

        for(int j=0; j<look.m; j+=b.dim){
          if(b.decodev_set(lsp, j, vb.opb, b.dim)==-1){
            return (null);
          }
        }

        for(int j=0; j<look.m;){
          for(int k=0; k<b.dim; k++, j++)
            lsp[j]+=last;
          last=lsp[j-1];
        }
        lsp[look.m]=amp;
        return (lsp);
      }
    }
    return (null);
  }

  int inverse2(Block vb, Object i, Object memo, float[] out){
    LookFloor0 look=(LookFloor0)i;
    InfoFloor0 info=look.vi;

    if(memo!=null){
      float[] lsp=(float[])memo;
      float amp=lsp[look.m];

      Lsp.lsp_to_curve(out, look.linearmap, look.n, look.ln, lsp, look.m, amp,
          info.ampdB);
      return (1);
    }
    for(int j=0; j<look.n; j++){
      out[j]=0.f;
    }
    return (0);
  }

  static float fromdB(float x){
    return (float)(Math.exp((x)*.11512925));
  }

  static void lsp_to_lpc(float[] lsp, float[] lpc, int m){
    int i, j, m2=m/2;
    float[] O=new float[m2];
    float[] E=new float[m2];
    float A;
    float[] Ae=new float[m2+1];
    float[] Ao=new float[m2+1];
    float B;
    float[] Be=new float[m2];
    float[] Bo=new float[m2];
    float temp;

    // even/odd roots setup
    for(i=0; i<m2; i++){
      O[i]=(float)(-2.*Math.cos(lsp[i*2]));
      E[i]=(float)(-2.*Math.cos(lsp[i*2+1]));
    }

    // set up impulse response
    for(j=0; j<m2; j++){
      Ae[j]=0.f;
      Ao[j]=1.f;
      Be[j]=0.f;
      Bo[j]=1.f;
    }
    Ao[j]=1.f;
    Ae[j]=1.f;

    // run impulse response
    for(i=1; i<m+1; i++){
      A=B=0.f;
      for(j=0; j<m2; j++){
        temp=O[j]*Ao[j]+Ae[j];
        Ae[j]=Ao[j];
        Ao[j]=A;
        A+=temp;

        temp=E[j]*Bo[j]+Be[j];
        Be[j]=Bo[j];
        Bo[j]=B;
        B+=temp;
      }
      lpc[i-1]=(A+Ao[j]+B-Ae[j])/2;
      Ao[j]=A;
      Ae[j]=B;
    }
  }

  static void lpc_to_curve(float[] curve, float[] lpc, float amp, LookFloor0 l,
      String name, int frameno){
    // l->m+1 must be less than l->ln, but guard in case we get a bad stream
    float[] lcurve=new float[Math.max(l.ln*2, l.m*2+2)];

    if(amp==0){
      for(int j=0; j<l.n; j++)
        curve[j]=0.0f;
      return;
    }
    l.lpclook.lpc_to_curve(lcurve, lpc, amp);

    for(int i=0; i<l.n; i++)
      curve[i]=lcurve[l.linearmap[i]];
  }

  class InfoFloor0{
    int order;
    int rate;
    int barkmap;

    int ampbits;
    int ampdB;

    int numbooks; // <= 16
    int[] books=new int[16];
  }

  class LookFloor0{
    int n;
    int ln;
    int m;
    int[] linearmap;

    InfoFloor0 vi;
    Lpc lpclook=new Lpc();
  }

  class EchstateFloor0{
    int[] codewords;
    float[] curve;
    long frameno;
    long codes;
  }
}

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