X 0x0__text__TEXT xy__data__DATA @H p#1__cstring__TEXT __compact_unwind__LD$__eh_frame__TEXT h2  x%1( PUHH=H5H H uHH=H]ÐUH]fDUHSPHH=H5H H uHH=H5^ HHt H tH[]H=H[]fUHSH(HuHHE؋FEHEHEH}Ѓu1Hut3H}HuHcH([]þ1H([]UHAWAVSH(HuHFHED~D}HG]ԉ]؅y HHtdLw(HEMt8A)Au3HuH}t}Hut;HHt<1@H}1)HE1ILPHuHcH([A^A_]f.@UHAVSH0HuHQHEЋFEHEuGH5H}HU}t@HHtCHH5W HPE1LEHu+H}Ⱦ1H0[A^]E1HuLUHAVSH HuH6HEDvDuHG]]yHHH(HD9u3HPxHt9HHH5 HPE1LEHucH}111RE1HuCLHt6HHt)HHH1Q@H߾1HH [A^]UHAWAVSH(HuHHED~D}HG]ԉ]؅y HHtgLw(Mt^A)AuBHuH}tD}utHA9tAILHu6H}1H([A^A_]IL`HuHHUHAVSH HuHHEDvDuHG]]y HHt#H(HtD9uEt%Ht*11H}111 HhHuHcHHH [A^]@UHAVSH HuHHEDvDuHG]]y HHt+H(Ht"D9u!Et-H`Ht(1.H}111HpHuHHHH [A^]f.DUHAVSH HuHHEDvDuHG]]y HHt(H(HtD9uEt*H1`Ht(1.H}111HxHuHHHH [A^]fUHAWAVSH(HuHHED~D}HG]ԉ]؅y HHt}Lw(MttA)AuXHuH}tZ}ut^L΃OA9tAILHu6H}1H([A^A_]ILHuHHf.UHAWAVSH(HuH)HED~D}HG]܉]y HHt#H(HtD9uAEtHt+12H}111!HLcHuLHHH([A^A_]f.DUHAWAVSH(HuHHED~D}HG]܉]y HHt#H(HtD9uAEtHt+12H}111!HLcHuLHHH([A^A_]f.DUHAVSH HuHHEDvDuHG]]y HHt#H(HtD9uEt%Ht*11H}111 HHuHcHHH [A^]@UHSPHH=HtZH= HtGH= Ht4H= Ht!H= HtHH[]H[]*HD\\hH[QkvtkImageGradientMagnitudevtkImagingGeneralPython.vtkImageGradientMagnitudevtkImageGradientMagnitude - Computes magnitude of the gradient. Superclass: vtkThreadedImageAlgorithm vtkImageGradientMagnitude computes the gradient magnitude of an image. Setting the dimensionality determines whether the gradient is computed on 2D images, or 3D volumes. The default is two dimensional XY images. @sa vtkImageGradient vtkImageMagnitude IsTypeOfV.IsTypeOf(string) -> 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) -> vtkImageGradientMagnitude C++: static vtkImageGradientMagnitude *SafeDownCast( vtkObjectBase *o) NewInstanceV.NewInstance() -> vtkImageGradientMagnitude C++: vtkImageGradientMagnitude *NewInstance() SetHandleBoundariesV.SetHandleBoundaries(int) C++: virtual void SetHandleBoundaries(int _arg) If "HandleBoundariesOn" then boundary pixels are duplicated So central differences can get values. GetHandleBoundariesV.GetHandleBoundaries() -> int C++: virtual int GetHandleBoundaries() If "HandleBoundariesOn" then boundary pixels are duplicated So central differences can get values. HandleBoundariesOnV.HandleBoundariesOn() C++: virtual void HandleBoundariesOn() If "HandleBoundariesOn" then boundary pixels are duplicated So central differences can get values. HandleBoundariesOffV.HandleBoundariesOff() C++: virtual void HandleBoundariesOff() If "HandleBoundariesOn" then boundary pixels are duplicated So central differences can get values. SetDimensionalityV.SetDimensionality(int) C++: virtual void SetDimensionality(int _arg) Determines how the input is interpreted (set of 2d slices ...) GetDimensionalityMinValueV.GetDimensionalityMinValue() -> int C++: virtual int GetDimensionalityMinValue() Determines how the input is interpreted (set of 2d slices ...) GetDimensionalityMaxValueV.GetDimensionalityMaxValue() -> int C++: virtual int GetDimensionalityMaxValue() Determines how the input is interpreted (set of 2d slices ...) 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