📄 dwt_int.c

📁 spiht for linux this is used to decod and encode vedio i wich all enjoy
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/* *  * QccPack: Quantization, compression, and coding libraries * Copyright (C) 1997-2009  James E. Fowler *  * This library 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 library 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 library; if not, write to the * Free Software Foundation, Inc., 675 Mass Ave, Cambridge, * MA 02139, USA. *  */#include "libQccPack.h"static int QccWAVWaveletDWTSubbandPhaseInt(int level, int signal_origin,                                           int subsample_pattern){  int phase = -(signal_origin % (1 << level));    phase &= (1 << (level - 1));  phase ^= (subsample_pattern & (1 << (level - 1))) << 1;  if (phase)    return(QCCWAVWAVELET_PHASE_ODD);  else    return(QCCWAVWAVELET_PHASE_EVEN);}int QccWAVWaveletDWT1DInt(QccVectorInt signal,                          int signal_length,                          int signal_origin,                          int subsample_pattern,                          int num_scales,                          const QccWAVWavelet *wavelet){  int return_value;  int scale;  int current_length;  int phase;  if (signal == NULL)    return(0);  if (wavelet == NULL)    return(0);  if (num_scales <= 0)    return(0);  current_length = signal_length;  for (scale = 0; scale < num_scales; scale++)    {      phase =        QccWAVWaveletDWTSubbandPhaseInt(scale + 1, signal_origin,                                        subsample_pattern);      if (QccWAVWaveletAnalysis1DInt(signal,                                     current_length,                                     phase,                                     wavelet))        {          QccErrorAddMessage("(QccWAVWaveletDWT1DInt): Error calling QccWAVWaveletAnalysis1DInt()");          goto Error;        }      current_length =        QccWAVWaveletDWTSubbandLength(signal_length, scale + 1, 0,                                      signal_origin, subsample_pattern);    }  return_value = 0;  goto Return; Error:  return_value = 1; Return:  return(return_value);}int QccWAVWaveletInverseDWT1DInt(QccVectorInt signal,                                 int signal_length,                                 int signal_origin,                                 int subsample_pattern,                                 int num_scales,                                 const QccWAVWavelet *wavelet){  int return_value;  int scale;  int current_length;  int phase;  if (signal == NULL)    return(0);  if (wavelet == NULL)    return(0);  if (num_scales <= 0)    return(0);      for (scale = num_scales - 1; scale >= 0; scale--)    {      current_length =         QccWAVWaveletDWTSubbandLength(signal_length, scale,                                      0, signal_origin,                                      subsample_pattern);      phase =        QccWAVWaveletDWTSubbandPhaseInt(scale + 1, signal_origin,                                        subsample_pattern);      if (QccWAVWaveletSynthesis1DInt(signal,                                      current_length,                                      phase,                                      wavelet))        {          QccErrorAddMessage("(QccWAVWaveletInverseDWT1DInt): Error calling QccWAVWaveletSynthesis1DInt()");          goto Error;        }    }  return_value = 0;  goto Return; Error:  return_value = 1; Return:  return(return_value);}int QccWAVWaveletDWT2DInt(QccMatrixInt matrix,                          int num_rows,                          int num_cols,                          int origin_row,                          int origin_col,                          int subsample_pattern_row,                          int subsample_pattern_col,                          int num_scales,                          const QccWAVWavelet *wavelet){  int return_value;  int scale;  int original_num_rows = 0;  int original_num_cols = 0;  int phase_row;  int phase_col;  if (matrix == NULL)    return(0);  if (wavelet == NULL)    return(0);  if (num_scales <= 0)    return(0);  original_num_rows = num_rows;  original_num_cols = num_cols;  for (scale = 0; scale < num_scales; scale++)    {      phase_row = QccWAVWaveletDWTSubbandPhaseInt(scale + 1, origin_row,                                                  subsample_pattern_row);      phase_col = QccWAVWaveletDWTSubbandPhaseInt(scale + 1, origin_col,                                                  subsample_pattern_col);      if (QccWAVWaveletAnalysis2DInt(matrix,                                     num_rows,                                     num_cols,                                     phase_row,                                     phase_col,                                     wavelet))        {          QccErrorAddMessage("(QccWAVWaveletDWT2DInt): Error calling QccWAVWaveletAnalysis2DInt()");          goto Error;        }      num_rows =        QccWAVWaveletDWTSubbandLength(original_num_rows, scale + 1,                                      0, origin_row, subsample_pattern_row);      num_cols =        QccWAVWaveletDWTSubbandLength(original_num_cols, scale + 1,                                      0, origin_col, subsample_pattern_col);    }  return_value = 0;  goto Return; Error:  return_value = 1; Return:  return(return_value);}int QccWAVWaveletInverseDWT2DInt(QccMatrixInt matrix,                                 int num_rows,                                 int num_cols,                                 int origin_row,                                 int origin_col,                                 int subsample_pattern_row,                                 int subsample_pattern_col,                                 int num_scales,                                 const QccWAVWavelet *wavelet){  int return_value;  int scale;  int original_num_rows = 0;  int original_num_cols = 0;  int phase_row;  int phase_col;  if (matrix == NULL)    return(0);  if (wavelet == NULL)    return(0);  if (num_scales <= 0)    return(0);  original_num_rows = num_rows;  original_num_cols = num_cols;  for (scale = num_scales - 1; scale >= 0; scale--)    {      num_rows =        QccWAVWaveletDWTSubbandLength(original_num_rows, scale,                                      0, origin_row, subsample_pattern_row);      num_cols =        QccWAVWaveletDWTSubbandLength(original_num_cols, scale,                                      0, origin_col, subsample_pattern_col);      phase_row = QccWAVWaveletDWTSubbandPhaseInt(scale + 1, origin_row,                                                  subsample_pattern_row);      phase_col = QccWAVWaveletDWTSubbandPhaseInt(scale + 1, origin_col,                                                  subsample_pattern_col);      if (QccWAVWaveletSynthesis2DInt(matrix,                                      num_rows,                                      num_cols,                                      phase_row,                                      phase_col,                                      wavelet))        {          QccErrorAddMessage("(QccWAVWaveletInverseDWT2DInt): Error calling QccWAVWaveletSynthesis2DInt()");          goto Error;        }    }  return_value = 0;  goto Return; Error:  return_value = 1; Return:  return(return_value);}int QccWAVWaveletDyadicDWT3DInt(QccVolumeInt volume,                                int num_frames,                                int num_rows,                                int num_cols,                                int origin_frame,                                int origin_row,                                int origin_col,                                int subsample_pattern_frame,                                int subsample_pattern_row,                                int subsample_pattern_col,                                int num_scales,                                const QccWAVWavelet *wavelet){  int return_value;  int scale;  int original_num_frames = 0;  int original_num_rows = 0;  int original_num_cols = 0;  int phase_frame;  int phase_row;  int phase_col;    if (volume == NULL)
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📂 所属分类 Linux/Unix编程
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