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HuJH} 1H o<H H;Mu?HH[A^A_]IHuLh HuH2<HH 0<H H;Mt f.UHAWAVSH(HuHXHED~D}HG]ԉ]؅y HHtcLw(MtZA)Au>HuH} t@EIL((`+ HuH{;HH} 1H([A^A_]ÐUHH=H5Hs2H 0 }uHƓH= H]ÐUH] fDUHSPHH=H5)H2H uHaH=Zg H51HGH- t H 4tH[]H=$H[][ fUHAVSH0HuHHEЋFEHEHEH}ȃuoHuX tqH]H=K1H At1H=!H tH=!H t HLckHuLj1H0[A^]f.@UHAWAVSH(HuHHED~D}HG]ԉ]؅y|HHLw(HEMA)AuhHuH}Q}L}tlH=:0LAtbH=o LtOH=r LthL4hc*h{ hh hLeqAS%/hhhhh[hhhhh<hhxhnh+dh\ZhPhFh int C++: static vtkTypeBool IsTypeOf(const char *type) Return 1 if this class type is the same type of (or a subclass of) the named class. Returns 0 otherwise. This method works in combination with vtkTypeMacro found in vtkSetGet.h. IsAV.IsA(string) -> int C++: vtkTypeBool IsA(const char *type) override; Return 1 if this class is the same type of (or a subclass of) the named class. Returns 0 otherwise. This method works in combination with vtkTypeMacro found in vtkSetGet.h. SafeDownCastV.SafeDownCast(vtkObjectBase) -> vtkImageButterworthHighPass C++: static vtkImageButterworthHighPass *SafeDownCast( vtkObjectBase *o) NewInstanceV.NewInstance() -> vtkImageButterworthHighPass C++: vtkImageButterworthHighPass *NewInstance() SetCutOffV.SetCutOff(float, float, float) C++: void SetCutOff(double, double, double) V.SetCutOff((float, float, float)) C++: void SetCutOff(double a[3]) V.SetCutOff(float) C++: void SetCutOff(double v) SetXCutOffV.SetXCutOff(float) C++: void SetXCutOff(double v) Set/Get the cutoff frequency for each axis. The values are specified in the order X, Y, Z, Time. Units: Cycles per world unit (as defined by the data spacing). SetYCutOffV.SetYCutOff(float) C++: void SetYCutOff(double v) Set/Get the cutoff frequency for each axis. The values are specified in the order X, Y, Z, Time. Units: Cycles per world unit (as defined by the data spacing). SetZCutOffV.SetZCutOff(float) C++: void SetZCutOff(double v) Set/Get the cutoff frequency for each axis. The values are specified in the order X, Y, Z, Time. Units: Cycles per world unit (as defined by the data spacing). GetCutOffV.GetCutOff() -> (float, float, float) C++: double *GetCutOff() GetXCutOffV.GetXCutOff() -> float C++: double GetXCutOff() Set/Get the cutoff frequency for each axis. The values are specified in the order X, Y, Z, Time. Units: Cycles per world unit (as defined by the data spacing). GetYCutOffV.GetYCutOff() -> float C++: double GetYCutOff() Set/Get the cutoff frequency for each axis. The values are specified in the order X, Y, Z, Time. Units: Cycles per world unit (as defined by the data spacing). GetZCutOffV.GetZCutOff() -> float C++: double GetZCutOff() Set/Get the cutoff frequency for each axis. The values are specified in the order X, Y, Z, Time. Units: Cycles per world unit (as defined by the data spacing). SetOrderV.SetOrder(int) C++: virtual void SetOrder(int _arg) The order determines sharpness of the cutoff curve. GetOrderV.GetOrder() -> int C++: virtual int GetOrder() The order determines sharpness of the cutoff curve. vtkThreadedImageAlgorithmvtkImageAlgorithmvtkAlgorithmvtkObjectvtkObjectBase@P *d@dvtkImageButterworthLowPassvtkImagingFourierPython.vtkImageButterworthLowPassvtkImageButterworthLowPass - Frequency domain Low pass. Superclass: vtkThreadedImageAlgorithm This filter only works on an image after it has been converted to frequency domain by a vtkImageFFT filter. A vtkImageRFFT filter can be used to convert the output back into the spatial domain. vtkImageButterworthLowPass the high frequency components are attenuated. Input and output are in doubles, with two components (complex numbers). out(i, j) = (1 + pow(CutOff/Freq(i,j), 2*Order)); @sa vtkImageButterworthHighPass vtkImageFFT vtkImageRFFT V.SafeDownCast(vtkObjectBase) -> vtkImageButterworthLowPass C++: static vtkImageButterworthLowPass *SafeDownCast( vtkObjectBase *o) V.NewInstance() -> vtkImageButterworthLowPass C++: vtkImageButterworthLowPass *NewInstance() vtkImageFFTvtkImagingFourierPython.vtkImageFFTvtkImageFFT - Fast Fourier Transform. Superclass: vtkImageFourierFilter vtkImageFFT implements a fast Fourier transform. The input can have real or complex data in any components and data types, but the output is always complex doubles with real values in component0, and imaginary values in component1. The filter is fastest for images that have power of two sizes. The filter uses a butterfly diagram for each prime factor of the dimension. This makes images with prime number dimensions (i.e. 17x17) much slower to compute. Multi dimensional (i.e volumes) FFT's are decomposed so that each axis executes serially. V.IsTypeOf(string) -> int C++: static vtkTypeBool IsTypeOf(const char *type) Construct an instance of vtkImageDecomposeFilter filter with default dimensionality 3. V.IsA(string) -> int C++: vtkTypeBool IsA(const char *type) override; Construct an instance of vtkImageDecomposeFilter filter with default dimensionality 3. V.SafeDownCast(vtkObjectBase) -> vtkImageFFT C++: static vtkImageFFT *SafeDownCast(vtkObjectBase *o) Construct an instance of vtkImageDecomposeFilter filter with default dimensionality 3. V.NewInstance() -> vtkImageFFT C++: vtkImageFFT *NewInstance() Construct an instance of vtkImageDecomposeFilter filter with default dimensionality 3. vtkImageFourierFiltervtkImageDecomposeFiltervtkImageIterateFiltervtkImageFourierCentervtkImagingFourierPython.vtkImageFourierCentervtkImageFourierCenter - Shifts constant frequency to center for display. Superclass: vtkImageDecomposeFilter Is used for dispaying images in frequency space. FFT converts spatial images into frequency space, but puts the zero frequency at the origin. This filter shifts the zero frequency to the center of the image. Input and output are assumed to be doubles. V.SafeDownCast(vtkObjectBase) -> vtkImageFourierCenter C++: static vtkImageFourierCenter *SafeDownCast(vtkObjectBase *o) Construct an instance of vtkImageDecomposeFilter filter with default dimensionality 3. V.NewInstance() -> vtkImageFourierCenter C++: vtkImageFourierCenter *NewInstance() Construct an instance of vtkImageDecomposeFilter filter with default dimensionality 3. vtkImagingFourierPython.vtkImageFourierFiltervtkImageFourierFilter - Superclass that implements complex numbers. Superclass: vtkImageDecomposeFilter vtkImageFourierFilter is a class of filters that use complex numbers this superclass is a container for methods that manipulate these structure including fast Fourier transforms. Complex numbers may become a class. This should really be a helper class. V.SafeDownCast(vtkObjectBase) -> vtkImageFourierFilter C++: static vtkImageFourierFilter *SafeDownCast(vtkObjectBase *o) Construct an instance of vtkImageDecomposeFilter filter with default dimensionality 3. V.NewInstance() -> vtkImageFourierFilter C++: vtkImageFourierFilter *NewInstance() Construct an instance of vtkImageDecomposeFilter filter with default dimensionality 3. ExecuteFftV.ExecuteFft(vtkImageComplex, vtkImageComplex, int) C++: void ExecuteFft(vtkImageComplex *in, vtkImageComplex *out, int N) This function calculates the whole fft of an array. The contents of the input array are changed. (It is engineered for no decimation) ExecuteRfftV.ExecuteRfft(vtkImageComplex, vtkImageComplex, int) C++: void ExecuteRfft(vtkImageComplex *in, vtkImageComplex *out, int N) This function calculates the whole fft of an array. The contents of the input array are changed. (It is engineered for no decimation) vtkImageComplexvtkImageIdealHighPassvtkImagingFourierPython.vtkImageIdealHighPassvtkImageIdealHighPass - Simple frequency domain band pass. Superclass: vtkThreadedImageAlgorithm This filter only works on an image after it has been converted to frequency domain by a vtkImageFFT filter. A vtkImageRFFT filter can be used to convert the output back into the spatial domain. vtkImageIdealHighPass just sets a portion of the image to zero. The sharp cutoff in the frequence domain produces ringing in the spatial domain. Input and Output must be doubles. Dimensionality is set when the axes are set. Defaults to 2D on X and Y axes. @sa vtkImageButterworthHighPass vtkImageIdealLowPass vtkImageFFT vtkImageRFFT V.SafeDownCast(vtkObjectBase) -> vtkImageIdealHighPass C++: static vtkImageIdealHighPass *SafeDownCast(vtkObjectBase *o) V.NewInstance() -> vtkImageIdealHighPass C++: vtkImageIdealHighPass *NewInstance() vtkImageIdealLowPassvtkImagingFourierPython.vtkImageIdealLowPassvtkImageIdealLowPass - Simple frequency domain band pass. Superclass: vtkThreadedImageAlgorithm This filter only works on an image after it has been converted to frequency domain by a vtkImageFFT filter. A vtkImageRFFT filter can be used to convert the output back into the spatial domain. vtkImageIdealLowPass just sets a portion of the image to zero. The result is an image with a lot of ringing. Input and Output must be doubles. Dimensionality is set when the axes are set. Defaults to 2D on X and Y axes. @sa vtkImageButterworthLowPass vtkImageIdealHighPass vtkImageFFT vtkImageRFFT V.SafeDownCast(vtkObjectBase) -> vtkImageIdealLowPass C++: static vtkImageIdealLowPass *SafeDownCast(vtkObjectBase *o) V.NewInstance() -> vtkImageIdealLowPass C++: vtkImageIdealLowPass *NewInstance() vtkImageRFFTvtkImagingFourierPython.vtkImageRFFTvtkImageRFFT - Reverse Fast Fourier Transform. Superclass: vtkImageFourierFilter vtkImageRFFT implements the reverse fast Fourier transform. The input can have real or complex data in any components and data types, but the output is always complex doubles with real values in component0, and imaginary values in component1. The filter is fastest for images that have power of two sizes. The filter uses a butterfly fitlers for each prime factor of the dimension. This makes images with prime number dimensions (i.e. 17x17) much slower to compute. Multi dimensional (i.e volumes) FFT's are decomposed so that each axis executes in series. In most cases the RFFT will produce an image whose imaginary values are all zero's. In this case vtkImageExtractComponents can be used to remove this imaginary components leaving only the real image. @sa vtkImageExtractComponenents V.SafeDownCast(vtkObjectBase) -> vtkImageRFFT C++: static vtkImageRFFT *SafeDownCast(vtkObjectBase *o) Construct an instance of vtkImageDecomposeFilter filter with default dimensionality 3. V.NewInstance() -> vtkImageRFFT C++: vtkImageRFFT *NewInstance() Construct an instance of vtkImageDecomposeFilter filter with default dimensionality 3. vtkTableFFTvtkImagingFourierPython.vtkTableFFTvtkTableFFT - FFT for table columns Superclass: vtkTableAlgorithm vtkTableFFT performs the Fast Fourier Transform on the columns of a table. 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