📄 lifting_cdf9_7.c
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signal[signal_length - 1] += BETA * (3*signal[signal_length - 2] - signal[signal_length - 4]); for (index = 1; index < signal_length; index += 2) signal[index] += GAMMA * (signal[index - 1] + signal[index + 1]); signal[0] = EPSILON * (signal[0] + DELTA * (3*signal[1] - signal[3])); for (index = 2; index < signal_length - 1; index += 2) signal[index] = EPSILON * (signal[index] + DELTA * (signal[index + 1] + signal[index - 1])); signal[signal_length - 1] = EPSILON * (signal[signal_length - 1] + DELTA * (3*signal[signal_length - 2] - signal[signal_length - 4])); for (index = 1; index < signal_length; index += 2) signal[index] /= (-EPSILON);}static void QccWAVCDF97AnalysisBoundaryOddOdd(QccVector signal, int signal_length){ int index; signal[0] += ALPHA * (3*signal[1] - signal[3]); for (index = 2; index < signal_length - 1; index += 2) signal[index] += ALPHA * (signal[index - 1] + signal[index + 1]); signal[signal_length - 1] += ALPHA * (3*signal[signal_length - 2] - signal[signal_length - 4]); for (index = 1; index < signal_length - 1; index += 2) signal[index] += BETA * (signal[index + 1] + signal[index - 1]); signal[0] += GAMMA * (3*signal[1] - signal[3]); for (index = 2; index < signal_length - 1; index += 2) signal[index] += GAMMA * (signal[index - 1] + signal[index + 1]); signal[signal_length - 1] += GAMMA * (3*signal[signal_length - 2] - signal[signal_length - 4]); for (index = 1; index < signal_length - 1; index += 2) signal[index] = EPSILON * (signal[index] + DELTA * (signal[index + 1] + signal[index - 1])); for (index = 0; index < signal_length; index += 2) signal[index] /= (-EPSILON);}int QccWAVLiftingAnalysisCohenDaubechiesFeauveau9_7(QccVector signal, int signal_length, int phase, int boundary){ if (signal == NULL) return(0); if (!signal_length) return(0); if (signal_length == 1) { if (phase == QCCWAVWAVELET_PHASE_EVEN) signal[0] *= M_SQRT2; else signal[0] /= M_SQRT2; return(0); } if ((boundary == QCCWAVWAVELET_BOUNDARY_BOUNDARY_WAVELET) && ((signal_length == 2) || (signal_length == 3))) boundary = QCCWAVWAVELET_BOUNDARY_SYMMETRIC_EXTENSION; switch (phase) { case QCCWAVWAVELET_PHASE_EVEN: switch (signal_length % 2) { case 0: switch (boundary) { case QCCWAVWAVELET_BOUNDARY_SYMMETRIC_EXTENSION: QccWAVCDF97AnalysisSymmetricEvenEven(signal, signal_length); break; case QCCWAVWAVELET_BOUNDARY_PERIODIC_EXTENSION: QccWAVCDF97AnalysisPeriodicEvenEven(signal, signal_length); break; case QCCWAVWAVELET_BOUNDARY_BOUNDARY_WAVELET: QccWAVCDF97AnalysisBoundaryEvenEven(signal, signal_length); break; default: QccErrorAddMessage("(QccWAVLiftingAnalysisCohenDaubechiesFeauveau9_7): Undefined boundary method"); return(1); } break; case 1: switch (boundary) { case QCCWAVWAVELET_BOUNDARY_SYMMETRIC_EXTENSION: QccWAVCDF97AnalysisSymmetricOddEven(signal, signal_length); break; case QCCWAVWAVELET_BOUNDARY_PERIODIC_EXTENSION: QccErrorAddMessage("(QccWAVLiftingAnalysisCohenDaubechiesFeauveau9_7): Signal length must be even for periodic extension"); return(1); break; case QCCWAVWAVELET_BOUNDARY_BOUNDARY_WAVELET: QccWAVCDF97AnalysisBoundaryOddEven(signal, signal_length); break; default: QccErrorAddMessage("(QccWAVLiftingAnalysisCohenDaubechiesFeauveau9_7): Undefined boundary method"); return(1); } break; } break; case QCCWAVWAVELET_PHASE_ODD: switch (signal_length % 2) { case 0: switch (boundary) { case QCCWAVWAVELET_BOUNDARY_SYMMETRIC_EXTENSION: QccWAVCDF97AnalysisSymmetricEvenOdd(signal, signal_length); break; case QCCWAVWAVELET_BOUNDARY_PERIODIC_EXTENSION: QccWAVCDF97AnalysisPeriodicEvenOdd(signal, signal_length); break; case QCCWAVWAVELET_BOUNDARY_BOUNDARY_WAVELET: QccWAVCDF97AnalysisBoundaryEvenOdd(signal, signal_length); break; default: QccErrorAddMessage("(QccWAVLiftingAnalysisCohenDaubechiesFeauveau9_7): Undefined boundary method"); return(1); } break; case 1: switch (boundary) { case QCCWAVWAVELET_BOUNDARY_SYMMETRIC_EXTENSION: QccWAVCDF97AnalysisSymmetricOddOdd(signal, signal_length); break; case QCCWAVWAVELET_BOUNDARY_PERIODIC_EXTENSION: QccErrorAddMessage("(QccWAVLiftingAnalysisCohenDaubechiesFeauveau9_7): Signal length must be even for periodic extension"); return(1); break; case QCCWAVWAVELET_BOUNDARY_BOUNDARY_WAVELET: QccWAVCDF97AnalysisBoundaryOddOdd(signal, signal_length); break; default: QccErrorAddMessage("(QccWAVLiftingAnalysisCohenDaubechiesFeauveau9_7): Undefined boundary method"); return(1); } break; } break; } return(0);}static void QccWAVCDF97SynthesisSymmetricEvenEven(QccVector signal, int signal_length){ int index; for (index = 1; index < signal_length; index += 2) signal[index] *= (-EPSILON); signal[0] = signal[0]/EPSILON - 2 * DELTA * signal[1]; for (index = 2; index < signal_length; index += 2) signal[index] = signal[index]/EPSILON - DELTA * (signal[index + 1] + signal[index - 1]); for (index = 1; index < signal_length - 2; index += 2) signal[index] -= GAMMA * (signal[index - 1] + signal[index + 1]); signal[signal_length - 1] -= 2 * GAMMA * signal[signal_length - 2]; signal[0] -= 2 * BETA * signal[1]; for (index = 2; index < signal_length; index += 2) signal[index] -= BETA * (signal[index + 1] + signal[index - 1]); for (index = 1; index < signal_length - 2; index += 2) signal[index] -= ALPHA * (signal[index - 1] + signal[index + 1]); signal[signal_length - 1] -= 2 * ALPHA * signal[signal_length - 2];}static void QccWAVCDF97SynthesisSymmetricEvenOdd(QccVector signal, int signal_length){ int index; for (index = 0; index < signal_length; index += 2) signal[index] *= (-EPSILON); for (index = 1; index < signal_length - 2; index += 2) signal[index] = signal[index] / EPSILON - DELTA * (signal[index + 1] + signal[index - 1]); signal[signal_length - 1] = signal[signal_length - 1] / EPSILON - 2 * DELTA * signal[signal_length - 2]; signal[0] -= 2 * GAMMA * signal[1]; for (index = 2; index < signal_length; index += 2) signal[index] -= GAMMA * (signal[index - 1] + signal[index + 1]); for (index = 1; index < signal_length - 2; index += 2) signal[index] -= BETA * (signal[index + 1] + signal[index - 1]); signal[signal_length - 1] -= 2 * BETA * signal[signal_length - 2]; signal[0] -= 2 * ALPHA * signal[1]; for (index = 2; index < signal_length; index += 2) signal[index] -= ALPHA * (signal[index - 1] + signal[index + 1]);}static void QccWAVCDF97SynthesisSymmetricOddEven(QccVector signal, int signal_length){ int index; for (index = 1; index < signal_length - 1; index += 2) signal[index] *= (-EPSILON); signal[0] = signal[0] / EPSILON - 2 * DELTA * signal[1]; for (index = 2; index < signal_length - 2; index += 2) signal[index] = signal[index] / EPSILON - DELTA * (signal[index + 1] + signal[index - 1]); signal[signal_length - 1] = signal[signal_length - 1] / EPSILON - 2 * DELTA * signal[signal_length - 2]; for (index = 1; index < signal_length - 1; index += 2) signal[index] -= GAMMA * (signal[index - 1] + signal[index + 1]); signal[0] -= 2 * BETA * signal[1]; for (index = 2; index < signal_length - 2; index += 2) signal[index] -= BETA * (signal[index + 1] + signal[index - 1]); signal[signal_length - 1] -= 2 * BETA * signal[signal_length - 2]; for (index = 1; index < signal_length - 1; index += 2) signal[index] -= ALPHA * (signal[index - 1] + signal[index + 1]);}static void QccWAVCDF97SynthesisSymmetricOddOdd(QccVector signal, int signal_length){ int index; for (index = 0; index < signal_length; index += 2) signal[index] *= (-EPSILON); for (index = 1; index < signal_length; index += 2) signal[index] = signal[index] / EPSILON - DELTA * (signal[index + 1] + signal[index - 1]); signal[0] -= 2 * GAMMA * signal[1]; for (index = 2; index < signal_length - 2; index += 2) signal[index] -= GAMMA * (signal[index - 1] + signal[index + 1]); signal[signal_length - 1] -= 2 * GAMMA * signal[signal_length - 2]; for (index = 1; index < signal_length; index += 2) signal[index] -= BETA * (signal[index + 1] + signal[index - 1]); signal[0] -= 2 * ALPHA * signal[1]; for (index = 2; index < signal_length - 2; index += 2) signal[index] -= ALPHA * (signal[index - 1] + signal[index + 1]); signal[signal_length - 1] -= 2 * ALPHA * signal[signal_length - 2];}static void QccWAVCDF97SynthesisPeriodicEvenEven(QccVector signal, int signal_length){ int index; for (index = 1; index < signal_length; index += 2) signal[index] *= (-EPSILON); ⌨️ 快捷键说明
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