📄 sadwt_int.c
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{ input_signal_vector[row] = signal[row][col]; input_mask_vector[row] = mask[row][col]; } if (QccWAVWaveletShapeAdaptiveSynthesis1DInt(input_signal_vector, output_signal_vector, subsequence, input_mask_vector, output_mask_vector, baseband_num_rows, wavelet)) { QccErrorAddMessage("(QccWAVWaveletInverseShapeAdaptiveDWT2DInt): Error calling QccWAVWaveletShapeAdaptiveSynthesis1DInt()"); goto Error; } for (row = 0; row < baseband_num_rows; row++) { signal[row][col] = output_signal_vector[row]; mask[row][col] = output_mask_vector[row]; } } for (row = 0; row < baseband_num_rows; row++) { for (col = 0; col < baseband_num_cols; col++) { input_signal_vector[col] = signal[row][col]; input_mask_vector[col] = mask[row][col]; } if (QccWAVWaveletShapeAdaptiveSynthesis1DInt(input_signal_vector, output_signal_vector, subsequence, input_mask_vector, output_mask_vector, baseband_num_cols, wavelet)) { QccErrorAddMessage("(QccWAVWaveletInverseShapeAdaptiveDWT2DInt): Error calling QccWAVWaveletShapeAdaptiveSynthesis1DInt()"); goto Error; } for (col = 0; col < baseband_num_cols; col++) { signal[row][col] = output_signal_vector[col]; mask[row][col] = output_mask_vector[col]; } } } return_value = 0; goto Return; Error: return_value = 1; Return: QccVectorIntFree(input_signal_vector); QccVectorIntFree(output_signal_vector); QccVectorIntFree(subsequence); QccVectorIntFree(input_mask_vector); QccVectorIntFree(output_mask_vector); return(return_value);}int QccWAVWaveletShapeAdaptiveDyadicDWT3DInt(QccVolumeInt signal, QccVolumeInt mask, int num_frames, int num_rows, int num_cols, int spatial_num_scales, const QccWAVWavelet *wavelet){ int return_value; QccVectorInt input_signal_vector = NULL; QccVectorInt output_signal_vector = NULL; QccVectorInt subsequence = NULL; QccVectorInt input_mask_vector = NULL; QccVectorInt output_mask_vector = NULL; int scale; int frame, row, col; int baseband_num_frames; int baseband_num_rows; int baseband_num_cols; int temp_length; temp_length = QccMathMax(num_frames, QccMathMax(num_rows, num_cols)); /* Allocate temporary working arrays */ if ((input_signal_vector = QccVectorIntAlloc(temp_length)) == NULL) { QccErrorAddMessage("(QccWaveletShapeAdaptiveDyadicDWT3DInt): Error calling VectorAlloc()"); goto Error; } if ((output_signal_vector = QccVectorIntAlloc(temp_length)) == NULL) { QccErrorAddMessage("(QccWaveletShapeAdaptiveDyadicDWT3DInt): Error calling VectorAlloc()"); goto Error; } if ((subsequence = QccVectorIntAlloc(temp_length)) == NULL) { QccErrorAddMessage("(QccWaveletShapeAdaptiveDyadicDWT3DInt): Error calling VectorAlloc()"); goto Error; } if ((input_mask_vector = QccVectorIntAlloc(temp_length)) == NULL) { QccErrorAddMessage("(QccWaveletShapeAdaptiveDyadicDWT3DInt): Error calling VectorAlloc()"); goto Error; } if ((output_mask_vector = QccVectorIntAlloc(temp_length)) == NULL) { QccErrorAddMessage("(QccWaveletShapeAdaptiveDyadicDWT3DInt): Error calling VectorAlloc()"); goto Error; } for (scale = 0; scale < spatial_num_scales; scale++) { baseband_num_frames = QccWAVWaveletDWTSubbandLength(num_frames, scale, 0, 0, 0); baseband_num_rows = QccWAVWaveletDWTSubbandLength(num_rows, scale, 0, 0, 0); baseband_num_cols = QccWAVWaveletDWTSubbandLength(num_cols, scale, 0, 0, 0); for (frame = 0; frame < baseband_num_frames; frame++) for (row = 0; row < baseband_num_rows; row++) { for (col = 0; col < baseband_num_cols; col++) { input_signal_vector[col] = signal[frame][row][col]; input_mask_vector[col] = mask[frame][row][col]; } if (QccWAVWaveletShapeAdaptiveAnalysis1DInt(input_signal_vector, output_signal_vector, subsequence, input_mask_vector, output_mask_vector, baseband_num_cols, wavelet)) { QccErrorAddMessage("(QccWAVWaveletShapeAdaptiveDyadicDWT3DInt): Error calling QccWAVWaveletShapeAdaptiveAnalysis1DInt()"); goto Error; } for (col = 0; col < baseband_num_cols; col++) { signal[frame][row][col] = output_signal_vector[col]; mask[frame][row][col] = output_mask_vector[col]; } } for (frame = 0; frame < baseband_num_frames; frame++) for (col = 0; col < baseband_num_cols; col++) { for (row = 0; row < baseband_num_rows; row++) { input_signal_vector[row] = signal[frame][row][col]; input_mask_vector[row] = mask[frame][row][col]; } if (QccWAVWaveletShapeAdaptiveAnalysis1DInt(input_signal_vector, output_signal_vector, subsequence, input_mask_vector, output_mask_vector, baseband_num_rows, wavelet)) { QccErrorAddMessage("(QccWAVWaveletShapeAdaptiveDyadicDWT3DInt): Error calling QccWAVWaveletShapeAdaptiveAnalysis1DInt()"); goto Error; } for (row = 0; row < baseband_num_rows; row++) { signal[frame][row][col] = output_signal_vector[row]; mask[frame][row][col] = output_mask_vector[row]; } } for (row = 0; row < baseband_num_rows; row++) for (col = 0; col < baseband_num_cols; col++) { for (frame = 0; frame < baseband_num_frames; frame++) { input_signal_vector[frame] = signal[frame][row][col]; input_mask_vector[frame] = mask[frame][row][col]; } if (QccWAVWaveletShapeAdaptiveAnalysis1DInt(input_signal_vector, output_signal_vector, subsequence, input_mask_vector, output_mask_vector, baseband_num_frames, wavelet)) { QccErrorAddMessage("(QccWAVWaveletShapeAdaptiveDyadicDWT3DInt): Error calling QccWAVWaveletShapeAdaptiveAnalysis1DInt()"); goto Error; } for (frame = 0; frame < baseband_num_frames; frame++) { signal[frame][row][col] = output_signal_vector[frame]; mask[frame][row][col] = output_mask_vector[frame]; } } } return_value = 0; goto Return; Error: return_value = 1; Return: QccVectorIntFree(input_signal_vector); QccVectorIntFree(output_signal_vector); QccVectorIntFree(subsequence); QccVectorIntFree(input_mask_vector); QccVectorIntFree(output_mask_vector); return(return_value);}int QccWAVWaveletInverseShapeAdaptiveDyadicDWT3DInt(QccVolumeInt signal, QccVolumeInt mask, int num_frames, int num_rows, int num_cols, int spatial_num_scales, const QccWAVWavelet *wavelet){ int return_value; QccVectorInt input_signal_vector = NULL; QccVectorInt output_signal_vector = NULL; QccVectorInt subsequence = NULL; QccVectorInt input_mask_vector = NULL; QccVectorInt output_mask_vector = NULL; int scale; int frame, row, col; int baseband_num_frames; int baseband_num_rows; int baseband_num_cols; int temp_length; temp_length = QccMathMax(num_frames, QccMathMax(num_rows, num_cols)); /* Allocate temporary working arrays */ if ((input_signal_vector = QccVectorIntAlloc(temp_length)) == NULL) { QccErrorAddMessage("(QccWAVWaveletInverseShapeAdaptiveDyadicDWT3DInt): Error calling QccVectorIntAlloc()"); goto Error; } if ((output_signal_vector = QccVectorIntAlloc(temp_length)) == NULL) { QccErrorAddMessage("(QccWAVWaveletInverseShapeAdaptiveDyadicDWT3DInt): Error calling QccVectorIntAlloc()"); goto Error; } if ((subsequence = QccVectorIntAlloc(temp_length)) == NULL) { QccErrorAddMessage("(QccWAVWaveletInverseShapeAdaptiveDyadicDWT3DInt): Error calling QccVectorIntAlloc()"); goto Error; } if ((input_mask_vector = QccVectorIntAlloc(temp_length)) == NULL) { QccErrorAddMessage("(QccWAVWaveletInverseShapeAdaptiveDyadicDWT3DInt): Error calling QccVectorIntAlloc()"); goto Error; } if ((output_mask_vector = QccVectorIntAlloc(temp_length)) == NULL) { QccErrorAddMessage("(QccWAVWaveletInverseShapeAdaptiveDyadicDWT3DInt): Error calling QccVectorIntAlloc()"); goto Error; } for (scale = spatial_num_scales - 1; scale >= 0; scale--) { baseband_num_frames = QccWAVWaveletDWTSubbandLength(num_frames, scale, 0, 0, 0); baseband_num_rows = QccWAVWaveletDWTSubbandLength(num_rows, scale, 0, 0, 0); baseband_num_cols = QccWAVWaveletDWTSubbandLength(num_cols, scale, 0, 0, 0); for (row = 0; row < baseband_num_rows; row++) for (col = 0; col < baseband_num_cols; col++) { for (frame = 0; frame < baseband_num_frames; frame++) { input_signal_vector[frame] = signal[frame][row][col]; input_mask_vector[frame] = mask[frame][row][col]; } if (QccWAVWaveletShapeAdaptiveSynthesis1DInt(input_signal_vector, output_signal_vector, subsequence, input_mask_vector, output_mask_vector,⌨️ 快捷键说明
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