vtc_zte_ztscan_enc.cpp

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/* $Id: vtc_zte_ztscan_enc.cpp,v 1.1 2005/05/09 21:29:49 wmaycisco Exp $ */
/****************************************************************************/
/*   MPEG4 Visual Texture Coding (VTC) Mode Software                        */
/*                                                                          */
/*   This software was jointly developed by the following participants:     */
/*                                                                          */
/*   Single-quant,  multi-quant and flow control                            */
/*   are provided by  Sarnoff Corporation                                   */
/*     Iraj Sodagar   (iraj@sarnoff.com)                                    */
/*     Hung-Ju Lee    (hjlee@sarnoff.com)                                   */
/*     Paul Hatrack   (hatrack@sarnoff.com)                                 */
/*     Shipeng Li     (shipeng@sarnoff.com)                                 */
/*     Bing-Bing Chai (bchai@sarnoff.com)                                   */
/*     B.S. Srinivas  (bsrinivas@sarnoff.com)                               */
/*                                                                          */
/*   Bi-level is provided by Texas Instruments                              */
/*     Jie Liang      (liang@ti.com)                                        */
/*                                                                          */
/*   Shape Coding is provided by  OKI Electric Industry Co., Ltd.           */
/*     Zhixiong Wu    (sgo@hlabs.oki.co.jp)                                 */
/*     Yoshihiro Ueda (yueda@hlabs.oki.co.jp)                               */
/*     Toshifumi Kanamaru (kanamaru@hlabs.oki.co.jp)                        */
/*                                                                          */
/*   OKI, Sharp, Sarnoff, TI and Microsoft contributed to bitstream         */
/*   exchange and bug fixing.                                               */
/*                                                                          */
/*                                                                          */
/* In the course of development of the MPEG-4 standard, this software       */
/* module is an implementation of a part of one or more MPEG-4 tools as     */
/* specified by the MPEG-4 standard.                                        */
/*                                                                          */
/* The copyright of this software belongs to ISO/IEC. ISO/IEC gives use     */
/* of the MPEG-4 standard free license to use this  software module or      */
/* modifications thereof for hardware or software products claiming         */
/* conformance to the MPEG-4 standard.                                      */
/*                                                                          */
/* Those intending to use this software module in hardware or software      */
/* products are advised that use may infringe existing  patents. The        */
/* original developers of this software module and their companies, the     */
/* subsequent editors and their companies, and ISO/IEC have no liability    */
/* and ISO/IEC have no liability for use of this software module or         */
/* modification thereof in an implementation.                               */
/*                                                                          */
/* Permission is granted to MPEG members to use, copy, modify,              */
/* and distribute the software modules ( or portions thereof )              */
/* for standardization activity within ISO/IEC JTC1/SC29/WG11.              */
/*                                                                          */
/* Copyright 1995, 1996, 1997, 1998 ISO/IEC                                 */
/****************************************************************************/

/************************************************************/
/*     Sarnoff Very Low Bit Rate Still Image Coder          */
/*     Copyright 1995, 1996, 1997, 1998 Sarnoff Corporation */
/************************************************************/

/************************************************************/
/*  Filename: ztscan_enc.c                                  */
/*  Author: Bing-Bing Chai                                  */
/*  Date: Dec. 4, 1997                                      */
/*                                                          */
/*  Descriptions:                                           */
/*    This file contains the routines that performs         */
/*    zero tree scanning and entropy encoding.              */
/*                                                          */
/************************************************************/

#include <stdio.h>
#include <stdlib.h>
#ifndef WIN32
#include <unistd.h>
#endif
#include <ctype.h>
#include <string.h>
#include <math.h>
#include "basic.hpp"
#include "startcode.hpp"
#include "dataStruct.hpp"
#include "states.hpp"
#include "globals.hpp"
#include "errorHandler.hpp"
#include "ac.hpp"
#include "bitpack.hpp"
#include "msg.hpp"
#include "ztscan_common.hpp"
#include "ztscanUtil.hpp"

// added for FDAM1 by Samsung AIT on 2000/02/03
#ifndef	_SHAPE_
#define	_SHAPE_
#endif
// ~added for FDAM1 by Samsung AIT 2000/02/03

/* local global variables */
static ac_encoder ace;

static int bit_stream_length;
static SInt **dc_coeff;
/* added by Z. Wu @ OKI for SA-prediction */
static Char **dc_mask;
static COEFFINFO **coeffinfo;
static Int color;
static Int height, width;


/******************************************************************/
/****************************  DC  ********************************/
/******************************************************************/

/*******************************************************/
/**************  Forward DC Prediction  ****************/
/*******************************************************/

/********************************************************
  Function Name
  -------------
  static DATA DC_pred_pix(Int i, Int j)

  Arguments
  ---------
  Int i, Int j: Index of wavelet coefficient (row, col)
  
  Description
  -----------
  DPCM prediction for a DC coefficient, refer to syntax
  for algorithm. 

  Functions Called
  ----------------
  None.

  Return Value
  ------------
    prediction for coeffinfo[i][j].quantized_value
********************************************************/ 
SInt CVTCEncoder::DC_pred_pix(Int i, Int j)
{
//Added by Sarnoff for error resilience, 3/5/99
#ifdef _DC_PACKET_
  if(!mzte_codec.m_usErrResiDisable)
  // error resilience doesn't use prediction
    return 0;
#endif 
//End: Added by Sarnoff for error resilience, 3/5/99

  /*  modified by Z. Wu @ OKI */
  Int pred_i, pred_j, pred_d;

  if ( i==0 || dc_mask[i-1][j] == 0 ) 
    pred_i = 0;
  else	
    pred_i = dc_coeff[i-1][j];

  if ( j==0 || dc_mask[i][j-1] == 0 ) 
    pred_j = 0;
  else 	
    pred_j = dc_coeff[i][j-1];

  if ( i==0 || j== 0 || dc_mask[i-1][j-1] == 0 )
    pred_d = 0;
  else
    pred_d = dc_coeff[i-1][j-1];
  
  if ( abs(pred_d-pred_j) < abs(pred_d-pred_i))	
    return(pred_i);
  else
    return(pred_j);

}



/*****************************************************
  Function Name
  -------------
  Void DC_predict()

  Arguments
  ---------
  None
  
  Description
  -----------
  control program for DC prediction

  Functions Called
  ----------------
  DC_pred_pix(i,j).

  Return Value
  ------------
  none
******************************************************/

Void CVTCEncoder::DC_predict(Int color)
{
  Int i,j,dc_h,dc_w,offset_dc,max_dc;

  dc_h=mzte_codec.m_iDCHeight;
  dc_w=mzte_codec.m_iDCWidth;

  dc_coeff=(SInt **)calloc(dc_h,sizeof(SInt *));
  for(i=0;i<dc_h;i++)
    dc_coeff[i]=(SInt *)calloc(dc_w,sizeof(SInt));

  dc_mask=(Char **)calloc(dc_h,sizeof(Char *));
  for(i=0;i<dc_h;i++)
    dc_mask[i]=(Char *)calloc(dc_w,sizeof(Char));


  coeffinfo=mzte_codec.m_SPlayer[color].coeffinfo;

  for(i=0;i<dc_h;i++)
    for(j=0;j<dc_w;j++) {
      dc_coeff[i][j]=coeffinfo[i][j].quantized_value;
      dc_mask [i][j]=coeffinfo[i][j].mask;
    }

  /* prediction */    
  offset_dc=0;
	
  for(i=0;i<dc_h;i++)
    for(j=0;j<dc_w;j++){
      if ( dc_mask[i][j] != 0 ) {
	if(offset_dc>(coeffinfo[i][j].quantized_value-=DC_pred_pix(i,j)))
	  offset_dc=coeffinfo[i][j].quantized_value;
      }
    }

  if(offset_dc>0)
    offset_dc=0;

  /* adjust coeff's by offset_dc */
  max_dc=0;
  for(i=0;i<dc_h;i++)
    for(j=0;j<dc_w;j++){
      if ( dc_mask[i][j] != 0 ) {
	coeffinfo[i][j].quantized_value -=offset_dc;
	/* find max_dc */
	if (max_dc<coeffinfo[i][j].quantized_value)
	  max_dc=coeffinfo[i][j].quantized_value;
      }
    }
    
  mzte_codec.m_iOffsetDC=offset_dc;
  mzte_codec.m_iMaxDC=max_dc;  /* hjlee */
  noteDebug("DC pred: offset=%d, max_dc=%d",
	    mzte_codec.m_iOffsetDC,mzte_codec.m_iMaxDC);  

  for(i=0;i<dc_h;i++) {
    free(dc_coeff[i]);
    free(dc_mask[i]);
  }
  free(dc_coeff);
  free(dc_mask);
}




/********************************************************
  Function Name
  -------------
  Void wavelet_dc_encode(Int c)


  Arguments
  ---------
  Int c - color component.
  
  Description
  -----------
  Control program for encode DC information for one 
  color component.

  Functions Called
  ----------------
  None.
  DC_predict()
  put_param()
  cacll_encode()
  
  Return Value
  ------------
  None.

********************************************************/ 
Void CVTCEncoder::wavelet_dc_encode(Int c)
{

  noteDetail("Encoding DC (wavelet_dc_encode)....");
  color=c;

//Added by Sarnoff for error resilience, 3/5/99
#ifdef _DC_PACKET_
  if(!mzte_codec.m_usErrResiDisable)
    acmSGMK.Max_frequency = Bitplane_Max_frequency;
#endif
//End: Added by Sarnoff for error resilience, 3/5/99

  emit_bits((UShort)mzte_codec.m_iMean[color], 8);
  put_param((UShort)mzte_codec.m_iQDC[color], 7);
  /* emit_bits(mzte_codec.Qdc[color], 8); */

  DC_predict(color);
  put_param(-mzte_codec.m_iOffsetDC,7);
  put_param(mzte_codec.m_iMaxDC,7); /* hjlee */
  /* put_param(mzte_codec.m_iMaxDC+mzte_codec.m_iOffsetDC,7); */ /* hjlee */
  //printf("%d %d %d %d\n", mzte_codec.m_iMean[color],mzte_codec.m_iQDC[color],-mzte_codec.m_iOffsetDC,mzte_codec.m_iMaxDC);
  cacll_encode();
  noteDetail("Completed encoding DC.");

}



/********************************************************
  Function Name
  -------------
  static Void cacll_encode()

  Arguments
  ---------
  None.

  
  Description
  -----------
  Encode DC information for one color component.

  Functions Called
  ----------------
  mzte_ac_encoder_init()
  mzte_ac_model_init()
  mzte_ac_encode_symbol()
  mzte_ac_model_done()
  mzte_ac_encoder_done()

  Return Value
  ------------
  None.

********************************************************/ 
Void CVTCEncoder::cacll_encode()
{
  Int dc_h, dc_w,i,j;
	Int numBP, bp; // 1124

  dc_w=mzte_codec.m_iDCWidth;
  dc_h=mzte_codec.m_iDCHeight;

  // 1124
  /* init arithmetic coder */
  numBP = ceilLog2(mzte_codec.m_iMaxDC+1); // modified by Sharp (99/2/16)
  mzte_ac_encoder_init(&ace);
  if ((acm_bpdc=(ac_model *)calloc(numBP,sizeof(ac_model)))==NULL)
    errorHandler("Can't allocate memory for prob model.");
  
  for (i=0; i<numBP; i++) {
    acm_bpdc[i].Max_frequency = Bitplane_Max_frequency;
    mzte_ac_model_init(&(acm_bpdc[i]),2,NULL,ADAPT,1);
  }
  coeffinfo=mzte_codec.m_SPlayer[color].coeffinfo;

//Modified by Sarnoff for error resilience, 3/5/99
 if(mzte_codec.m_usErrResiDisable){ //no error resi case
  for (bp=numBP-1; bp>=0; bp--) {
    for(i=0;i<dc_h;i++)
      for(j=0;j<dc_w;j++){
		 // printf("%d %d \n", i,j);
	if( coeffinfo[i][j].mask == 1) 
	  mzte_ac_encode_symbol(&ace, &(acm_bpdc[bp]),
				((coeffinfo[i][j].quantized_value)>>bp)&1);
      }
  }
  /* close arithmetic coder */
  for (i=0; i<numBP; i++) 
    mzte_ac_model_done(&(acm_bpdc[i]));
  free(acm_bpdc); 
  bit_stream_length=mzte_ac_encoder_done(&ace);
 }
 else{ //error resilience case
#ifdef _DC_PACKET_
  TU_max_dc += numBP;
  mzte_ac_model_init(&acmType[color][0][CONTEXT_INIT],NUMCHAR_TYPE,
					NULL,ADAPT,1);	

  for (bp=numBP-1; bp>=0; bp--) {
	for(i=0;i<dc_h;i++){
      for(j=0;j<dc_w;j++){
	if( coeffinfo[i][j].mask == 1) 
	  mzte_ac_encode_symbol(&ace, &(acm_bpdc[bp]),
				((coeffinfo[i][j].quantized_value)>>bp)&1);
      }
		check_segment_size(color);
	}
	check_end_of_DC_packet(numBP);
  }

  /* close arithmetic coder */
  if (packet_size+ace.bitCount+ace.followBits>0){
	  for (i=0; i<numBP; i++) 
		mzte_ac_model_done(&(acm_bpdc[i]));
	  mzte_ac_model_done(&(acmType[color][0][CONTEXT_INIT]));
	  free(acm_bpdc); 
	  bit_stream_length=mzte_ac_encoder_done(&ace);
  }
#else 
  //same as no error resi case
  for (bp=numBP-1; bp>=0; bp--) {
    for(i=0;i<dc_h;i++)
      for(j=0;j<dc_w;j++){
		 // printf("%d %d \n", i,j);
	if( coeffinfo[i][j].mask == 1) 
	  mzte_ac_encode_symbol(&ace, &(acm_bpdc[bp]),
				((coeffinfo[i][j].quantized_value)>>bp)&1);
      }
  }
  /* close arithmetic coder */
  for (i=0; i<numBP; i++) 
    mzte_ac_model_done(&(acm_bpdc[i]));

  free(acm_bpdc); 
  bit_stream_length=mzte_ac_encoder_done(&ace);
#endif 
 }
//End: Added by Sarnoff for error resilience, 3/5/99
}

/*********************************************************************/
/*****************************  AC  **********************************/
/*********************  Single and Multi Quant  **********************/
/*********************************************************************/

Void CVTCEncoder::bitplane_encode(Int val,Int l,Int max_bplane)
{
  register int i,k=0;

  for(i=max_bplane-1;i>=0;i--,k++)
    mzte_ac_encode_symbol(&ace,&acm_bpmag[l][k],(val>>i)&1);
}


/*********************************************************************/
/*****************************  AC  **********************************/
/*************************  Single quant  ****************************/
/*********************************************************************/
/*******************************************************
  The following single quant routines are for band by
  band scan order.
*******************************************************/
/********************************************************
  Function Name
  -------------
  Void wavelet_higher_bands_encode_SQ_band(Int col)

  Arguments
  ---------
  None.

  Description
  -----------
  Control program for encoding AC information for one 
  color component. Single quant mode.

  Functions Called
  ----------------
  cachb_encode_SQ_band()
  mzte_ac_encoder_init()
  mzte_ac_model_init()
  mzte_ac_model_done()
  mzte_ac_encoder_done()

  Return Value
  ------------
  None.

********************************************************/ 
Void CVTCEncoder::wavelet_higher_bands_encode_SQ_band(Int col)
{
  SNR_IMAGE *snr_image;
    
  noteDetail("Encoding AC (wavelet_higher_bands_encode_SQ)....");

  color=col;
  snr_image=&(mzte_codec.m_SPlayer[color].SNRlayer.snr_image);
  
//Modified by Sarnoff for error resilience, 3/5/99
 if(mzte_codec.m_usErrResiDisable){ //no error resi case
  /* init arithmetic coder */
  mzte_ac_encoder_init(&ace);

  probModelInitSQ(color);  // hjlee 0901

  cachb_encode_SQ_band(snr_image);
  
  probModelFreeSQ(color);  // hjlee 0901
  
  bit_stream_length=mzte_ac_encoder_done(&ace);
 }
 else{ //error resilience case
  /* init arithmetic coder */
  init_arith_encoder_model(color);

  cachb_encode_SQ_band(snr_image);
  
  if (packet_size+ace.bitCount>0)
  {
	  /* if color is V then write packet header */
	  TU_last--;
	  close_arith_encoder_model(color,
		mzte_codec.m_iCurSpatialLev==0 || color==2);
	  if (mzte_codec.m_iCurSpatialLev==0 || color==2)
		  force_end_of_packet();
	  else
		  TU_last++;
  }
 }
//End modified by Sarnoff for error resilience, 3/5/99

  noteDetail("Completed encoding AC.");
}


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