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It can paint multi-spectral images. vtkImagingSourcesPython.vtkImageCanvasSource2DV.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. V.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. V.SafeDownCast(vtkObjectBase) -> vtkImageCanvasSource2D C++: static vtkImageCanvasSource2D *SafeDownCast(vtkObjectBase *o) V.NewInstance() -> vtkImageCanvasSource2D C++: vtkImageCanvasSource2D *NewInstance() V.SetDrawColor(float, float, float, float) C++: void SetDrawColor(double, double, double, double) V.SetDrawColor((float, float, float, float)) C++: void SetDrawColor(double a[4]) V.SetDrawColor(float) C++: void SetDrawColor(double a) V.SetDrawColor(float, float) C++: void SetDrawColor(double a, double b) V.SetDrawColor(float, float, float) C++: void SetDrawColor(double a, double b, double c) V.GetDrawColor() -> (float, float, float, float) C++: double *GetDrawColor() V.InitializeCanvasVolume(vtkImageData) C++: void InitializeCanvasVolume(vtkImageData *volume) Initialize the canvas with a given volume V.FillBox(int, int, int, int) C++: void FillBox(int min0, int max0, int min1, int max1) Set the pixels inside the box (min0, max0, min1, max1) to the current DrawColor V.FillTube(int, int, int, int, float) C++: void FillTube(int x0, int y0, int x1, int y1, double radius) Set the pixels inside the box (min0, max0, min1, max1) to the current DrawColor V.FillTriangle(int, int, int, int, int, int) C++: void FillTriangle(int x0, int y0, int x1, int y1, int x2, int y2) Set the pixels inside the box (min0, max0, min1, max1) to the current DrawColor V.DrawCircle(int, int, float) C++: void DrawCircle(int c0, int c1, double radius) Set the pixels inside the box (min0, max0, min1, max1) to the current DrawColor V.DrawPoint(int, int) C++: void DrawPoint(int p0, int p1) Set the pixels inside the box (min0, max0, min1, max1) to the current DrawColor V.DrawSegment(int, int, int, int) C++: void DrawSegment(int x0, int y0, int x1, int y1) Set the pixels inside the box (min0, max0, min1, max1) to the current DrawColor V.DrawSegment3D([float, ...], [float, ...]) C++: void DrawSegment3D(double *p0, double *p1) V.DrawSegment3D(float, float, float, float, float, float) C++: void DrawSegment3D(double x1, double y1, double z1, double x2, double y2, double z2) Set the pixels inside the box (min0, max0, min1, max1) to the current DrawColor V.DrawImage(int, int, vtkImageData) C++: void DrawImage(int x0, int y0, vtkImageData *i) V.DrawImage(int, int, vtkImageData, int, int, int, int) C++: void DrawImage(int x0, int y0, vtkImageData *, int sx, int sy, int width, int height) Draw subimage of the input image in the canvas at position x0 and y0. The subimage is defined with sx, sy, width, and height. V.FillPixel(int, int) C++: void FillPixel(int x, int y) Fill a colored area with another color. (like connectivity) All pixels connected (and with the same value) to pixel (x, y) get replaced by the current "DrawColor". V.SetExtent([int, ...]) C++: void SetExtent(int *extent) V.SetExtent(int, int, int, int, int, int) C++: void SetExtent(int x1, int x2, int y1, int y2, int z1, int z2) These methods set the WholeExtent of the output It sets the size of the canvas. Extent is a min max 3D box. Minimums and maximums are inclusive. V.SetDefaultZ(int) C++: virtual void SetDefaultZ(int _arg) The drawing operations can only draw into one 2D XY plane at a time. If the canvas is a 3D volume, then this z value is used as the default for 2D operations. The default is 0. V.GetDefaultZ() -> int C++: virtual int GetDefaultZ() The drawing operations can only draw into one 2D XY plane at a time. If the canvas is a 3D volume, then this z value is used as the default for 2D operations. The default is 0. V.SetRatio(float, float, float) C++: void SetRatio(double, double, double) V.SetRatio((float, float, float)) C++: void SetRatio(double a[3]) V.GetRatio() -> (float, float, float) C++: double *GetRatio() V.SetNumberOfScalarComponents(int) C++: virtual void SetNumberOfScalarComponents(int i) Set the number of scalar components V.GetNumberOfScalarComponents() -> int C++: virtual int GetNumberOfScalarComponents() Set the number of scalar components V.SetScalarTypeToFloat() C++: void SetScalarTypeToFloat() Set/Get the data scalar type (i.e VTK_DOUBLE). Note that these methods are setting and getting the pipeline scalar type. i.e. they are setting the type that the image data will be once it has executed. Until the REQUEST_DATA pass the actual scalars may be of some other type. This is for backwards compatibility V.SetScalarTypeToDouble() C++: void SetScalarTypeToDouble() Set/Get the data scalar type (i.e VTK_DOUBLE). Note that these methods are setting and getting the pipeline scalar type. i.e. they are setting the type that the image data will be once it has executed. Until the REQUEST_DATA pass the actual scalars may be of some other type. This is for backwards compatibility V.SetScalarTypeToInt() C++: void SetScalarTypeToInt() Set/Get the data scalar type (i.e VTK_DOUBLE). Note that these methods are setting and getting the pipeline scalar type. i.e. they are setting the type that the image data will be once it has executed. Until the REQUEST_DATA pass the actual scalars may be of some other type. This is for backwards compatibility V.SetScalarTypeToUnsignedInt() C++: void SetScalarTypeToUnsignedInt() Set/Get the data scalar type (i.e VTK_DOUBLE). Note that these methods are setting and getting the pipeline scalar type. i.e. they are setting the type that the image data will be once it has executed. Until the REQUEST_DATA pass the actual scalars may be of some other type. This is for backwards compatibility V.SetScalarTypeToLong() C++: void SetScalarTypeToLong() Set/Get the data scalar type (i.e VTK_DOUBLE). Note that these methods are setting and getting the pipeline scalar type. i.e. they are setting the type that the image data will be once it has executed. Until the REQUEST_DATA pass the actual scalars may be of some other type. This is for backwards compatibility V.SetScalarTypeToUnsignedLong() C++: void SetScalarTypeToUnsignedLong() Set/Get the data scalar type (i.e VTK_DOUBLE). Note that these methods are setting and getting the pipeline scalar type. i.e. they are setting the type that the image data will be once it has executed. Until the REQUEST_DATA pass the actual scalars may be of some other type. This is for backwards compatibility V.SetScalarTypeToShort() C++: void SetScalarTypeToShort() Set/Get the data scalar type (i.e VTK_DOUBLE). Note that these methods are setting and getting the pipeline scalar type. i.e. they are setting the type that the image data will be once it has executed. Until the REQUEST_DATA pass the actual scalars may be of some other type. This is for backwards compatibility V.SetScalarTypeToUnsignedShort() C++: void SetScalarTypeToUnsignedShort() Set/Get the data scalar type (i.e VTK_DOUBLE). Note that these methods are setting and getting the pipeline scalar type. i.e. they are setting the type that the image data will be once it has executed. Until the REQUEST_DATA pass the actual scalars may be of some other type. This is for backwards compatibility V.SetScalarTypeToUnsignedChar() C++: void SetScalarTypeToUnsignedChar() Set/Get the data scalar type (i.e VTK_DOUBLE). Note that these methods are setting and getting the pipeline scalar type. i.e. they are setting the type that the image data will be once it has executed. Until the REQUEST_DATA pass the actual scalars may be of some other type. This is for backwards compatibility V.SetScalarTypeToChar() C++: void SetScalarTypeToChar() Set/Get the data scalar type (i.e VTK_DOUBLE). Note that these methods are setting and getting the pipeline scalar type. i.e. they are setting the type that the image data will be once it has executed. Until the REQUEST_DATA pass the actual scalars may be of some other type. This is for backwards compatibility V.SetScalarType(int) C++: void SetScalarType(int) Set/Get the data scalar type (i.e VTK_DOUBLE). Note that these methods are setting and getting the pipeline scalar type. i.e. they are setting the type that the image data will be once it has executed. Until the REQUEST_DATA pass the actual scalars may be of some other type. This is for backwards compatibility V.GetScalarType() -> int C++: int GetScalarType() Set/Get the data scalar type (i.e VTK_DOUBLE). Note that these methods are setting and getting the pipeline scalar type. i.e. they are setting the type that the image data will be once it has executed. Until the REQUEST_DATA pass the actual scalars may be of some other type. This is for backwards compatibility vtkImageEllipsoidSourceGetCenterGetRadiusGetOutputScalarTypeGetOutValueGetInValueSetInValueSetOutValueSetOutputScalarTypeToFloatSetOutputScalarTypeToDoubleSetOutputScalarTypeToShortSetOutputScalarTypeToLongSetOutputScalarTypeToIntSetOutputScalarTypeToCharSetOutputScalarTypeGetWholeExtentSetWholeExtentSetCenterSetRadiusSetOutputScalarTypeToUnsignedIntSetOutputScalarTypeToUnsignedShortSetOutputScalarTypeToUnsignedLongSetOutputScalarTypeToUnsignedCharvtkImageEllipsoidSource - Create a binary image of an ellipsoid. Superclass: vtkImageAlgorithm vtkImageEllipsoidSource creates a binary image of a ellipsoid. It was created as an example of a simple source, and to test the mask filter. It is also used internally in vtkImageDilateErode3D. vtkImagingSourcesPython.vtkImageEllipsoidSourceV.SafeDownCast(vtkObjectBase) -> vtkImageEllipsoidSource C++: static vtkImageEllipsoidSource *SafeDownCast( vtkObjectBase *o) V.NewInstance() -> vtkImageEllipsoidSource C++: vtkImageEllipsoidSource *NewInstance() V.SetWholeExtent([int, int, int, int, int, int]) C++: void SetWholeExtent(int extent[6]) V.SetWholeExtent(int, int, int, int, int, int) C++: void SetWholeExtent(int minX, int maxX, int minY, int maxY, int minZ, int maxZ) Set/Get the extent of the whole output image. V.GetWholeExtent([int, int, int, int, int, int]) C++: void GetWholeExtent(int extent[6]) V.GetWholeExtent() -> (int, int, int, int, int, int) C++: int *GetWholeExtent() Set/Get the extent of the whole output image. V.SetCenter(float, float, float) C++: void SetCenter(double, double, double) V.SetCenter((float, float, float)) C++: void SetCenter(double a[3]) V.GetCenter() -> (float, float, float) C++: double *GetCenter() V.SetRadius(float, float, float) C++: void SetRadius(double, double, double) V.SetRadius((float, float, float)) C++: void SetRadius(double a[3]) V.GetRadius() -> (float, float, float) C++: double *GetRadius() V.SetInValue(float) C++: virtual void SetInValue(double _arg) Set/Get the inside pixel values. V.GetInValue() -> float C++: virtual double GetInValue() Set/Get the inside pixel values. V.SetOutValue(float) C++: virtual void SetOutValue(double _arg) Set/Get the outside pixel values. V.GetOutValue() -> float C++: virtual double GetOutValue() Set/Get the outside pixel values. V.SetOutputScalarType(int) C++: virtual void SetOutputScalarType(int _arg) Set what type of scalar data this source should generate. V.GetOutputScalarType() -> int C++: virtual int GetOutputScalarType() Set what type of scalar data this source should generate. V.SetOutputScalarTypeToFloat() C++: void SetOutputScalarTypeToFloat() Set what type of scalar data this source should generate. V.SetOutputScalarTypeToDouble() C++: void SetOutputScalarTypeToDouble() Set what type of scalar data this source should generate. V.SetOutputScalarTypeToLong() C++: void SetOutputScalarTypeToLong() Set what type of scalar data this source should generate. V.SetOutputScalarTypeToUnsignedLong() C++: void SetOutputScalarTypeToUnsignedLong() Set what type of scalar data this source should generate. V.SetOutputScalarTypeToInt() C++: void SetOutputScalarTypeToInt() Set what type of scalar data this source should generate. V.SetOutputScalarTypeToUnsignedInt() C++: void SetOutputScalarTypeToUnsignedInt() Set what type of scalar data this source should generate. V.SetOutputScalarTypeToShort() C++: void SetOutputScalarTypeToShort() Set what type of scalar data this source should generate. V.SetOutputScalarTypeToUnsignedShort() C++: void SetOutputScalarTypeToUnsignedShort() Set what type of scalar data this source should generate. V.SetOutputScalarTypeToChar() C++: void SetOutputScalarTypeToChar() Set what type of scalar data this source should generate. V.SetOutputScalarTypeToUnsignedChar() C++: void SetOutputScalarTypeToUnsignedChar() Set what type of scalar data this source should generate. vtkImageGaussianSourceGetMaximumGetStandardDeviationSetStandardDeviationSetMaximumvtkImageGaussianSource - Create an image with Gaussian pixel values. Superclass: vtkImageAlgorithm vtkImageGaussianSource just produces images with pixel values determined by a Gaussian. vtkImagingSourcesPython.vtkImageGaussianSourceV.SafeDownCast(vtkObjectBase) -> vtkImageGaussianSource C++: static vtkImageGaussianSource *SafeDownCast(vtkObjectBase *o) V.NewInstance() -> vtkImageGaussianSource C++: vtkImageGaussianSource *NewInstance() V.SetWholeExtent(int, int, int, int, int, int) C++: void SetWholeExtent(int xMinx, int xMax, int yMin, int yMax, int zMin, int zMax) Set/Get the extent of the whole output image. V.SetMaximum(float) C++: virtual void SetMaximum(double _arg) Set/Get the Maximum value of the gaussian V.GetMaximum() -> float C++: virtual double GetMaximum() Set/Get the Maximum value of the gaussian V.SetStandardDeviation(float) C++: virtual void SetStandardDeviation(double _arg) Set/Get the standard deviation of the gaussian V.GetStandardDeviation() -> float C++: virtual double GetStandardDeviation() Set/Get the standard deviation of the gaussian vtkImageGridSourceGetDataSpacingGetGridOriginGetDataExtentGetGridSpacingGetDataOriginGetFillValueGetDataScalarTypeGetLineValueSetDataScalarTypeToIntSetDataScalarTypeToDoubleSetDataScalarTypeToShortSetDataScalarTypeSetLineValueSetFillValueUndefinedbitunsigned charunsigned shortunsigned intunsigned longunsigned long longunsigned __int64floatdoubleidtypeunicode stringvariantobjectvoidGetDataScalarTypeAsStringSetGridOriginSetGridSpacingSetDataSpacingSetDataOriginSetDataExtentSetDataScalarTypeToUnsignedCharSetDataScalarTypeToUnsignedShortvtkImageGridSource - Create an image of a grid. Superclass: vtkImageAlgorithm vtkImageGridSource produces an image of a grid. The default output type is double. vtkImagingSourcesPython.vtkImageGridSourceV.SafeDownCast(vtkObjectBase) -> vtkImageGridSource C++: static vtkImageGridSource *SafeDownCast(vtkObjectBase *o) V.NewInstance() -> vtkImageGridSource C++: vtkImageGridSource *NewInstance() V.SetGridSpacing(int, int, int) C++: void SetGridSpacing(int, int, int) V.SetGridSpacing((int, int, int)) C++: void SetGridSpacing(int a[3]) V.GetGridSpacing() -> (int, int, int) C++: int *GetGridSpacing() V.SetGridOrigin(int, int, int) C++: void SetGridOrigin(int, int, int) V.SetGridOrigin((int, int, int)) C++: void SetGridOrigin(int a[3]) V.GetGridOrigin() -> (int, int, int) C++: int *GetGridOrigin() V.SetLineValue(float) C++: virtual void SetLineValue(double _arg) Set the grey level of the lines. Default 1.0. V.GetLineValue() -> float C++: virtual double GetLineValue() Set the grey level of the lines. Default 1.0. V.SetFillValue(float) C++: virtual void SetFillValue(double _arg) Set the grey level of the fill. Default 0.0. V.GetFillValue() -> float C++: virtual double GetFillValue() Set the grey level of the fill. Default 0.0. V.SetDataScalarType(int) C++: virtual void SetDataScalarType(int _arg) Set/Get the data type of pixels in the imported data. As a convenience, the OutputScalarType is set to the same value. V.SetDataScalarTypeToDouble() C++: void SetDataScalarTypeToDouble() Set/Get the data type of pixels in the imported data. As a convenience, the OutputScalarType is set to the same value. V.SetDataScalarTypeToInt() C++: void SetDataScalarTypeToInt() Set/Get the data type of pixels in the imported data. As a convenience, the OutputScalarType is set to the same value. V.SetDataScalarTypeToShort() C++: void SetDataScalarTypeToShort() Set/Get the data type of pixels in the imported data. As a convenience, the OutputScalarType is set to the same value. V.SetDataScalarTypeToUnsignedShort() C++: void SetDataScalarTypeToUnsignedShort() Set/Get the data type of pixels in the imported data. As a convenience, the OutputScalarType is set to the same value. V.SetDataScalarTypeToUnsignedChar() C++: void SetDataScalarTypeToUnsignedChar() Set/Get the data type of pixels in the imported data. As a convenience, the OutputScalarType is set to the same value. V.GetDataScalarType() -> int C++: virtual int GetDataScalarType() Set/Get the data type of pixels in the imported data. As a convenience, the OutputScalarType is set to the same value. V.GetDataScalarTypeAsString() -> string C++: const char *GetDataScalarTypeAsString() Set/Get the data type of pixels in the imported data. As a convenience, the OutputScalarType is set to the same value. V.SetDataExtent(int, int, int, int, int, int) C++: void SetDataExtent(int, int, int, int, int, int) V.SetDataExtent((int, int, int, int, int, int)) C++: void SetDataExtent(int a[6]) V.GetDataExtent() -> (int, int, int, int, int, int) C++: int *GetDataExtent() V.SetDataSpacing(float, float, float) C++: void SetDataSpacing(double, double, double) V.SetDataSpacing((float, float, float)) C++: void SetDataSpacing(double a[3]) V.GetDataSpacing() -> (float, float, float) C++: double *GetDataSpacing() V.SetDataOrigin(float, float, float) C++: void SetDataOrigin(double, double, double) V.SetDataOrigin((float, float, float)) C++: void SetDataOrigin(double a[3]) V.GetDataOrigin() -> (float, float, float) C++: double *GetDataOrigin() AAAAAAAAAAAsAgA[AAOACA:A1A(AAA AAAAwAkA_ASAGA;A/A#AA A@A@@@@@@@@vtkImageMandelbrotSourceGetSubsampleRateMinValueGetSubsampleRateMaxValueGetOriginCXGetSampleCXGetProjectionAxesGetConstantSizeGetSubsampleRateGetMaximumNumberOfIterationsZoomCopyOriginAndSamplePanSetConstantSizeConstantSizeOffConstantSizeOnSetSubsampleRateSetMaximumNumberOfIterationsSetSizeCXGetSizeCXSetProjectionAxesSetOriginCXSetSampleCXGetMaximumNumberOfIterationsMinValueGetMaximumNumberOfIterationsMaxValuevtkImageMandelbrotSource - Mandelbrot image. Superclass: vtkImageAlgorithm vtkImageMandelbrotSource creates an unsigned char image of the Mandelbrot set. The values in the image are the number of iterations it takes for the magnitude of the value to get over 2. The equation repeated is z = z^2 + C (z and C are complex). Initial value of z is zero, and the real value of C is mapped onto the x axis, and the imaginary value of C is mapped onto the Y Axis. I was thinking of extending this source to generate Julia Sets (initial value of Z varies). This would be 4 possible parameters to vary, but there are no more 4d images :( The third dimension (z axis) is the imaginary value of the initial value. vtkImagingSourcesPython.vtkImageMandelbrotSourceV.SafeDownCast(vtkObjectBase) -> vtkImageMandelbrotSource C++: static vtkImageMandelbrotSource *SafeDownCast( vtkObjectBase *o) V.NewInstance() -> vtkImageMandelbrotSource C++: vtkImageMandelbrotSource *NewInstance() V.SetWholeExtent([int, int, int, int, int, int]) C++: void SetWholeExtent(int extent[6]) V.SetWholeExtent(int, int, int, int, int, int) C++: void SetWholeExtent(int minX, int maxX, int minY, int maxY, int minZ, int maxZ) Set/Get the extent of the whole output Volume. V.GetWholeExtent() -> (int, int, int, int, int, int) C++: int *GetWholeExtent() V.SetConstantSize(int) C++: virtual void SetConstantSize(int _arg) This flag determines whether the Size or spacing of a data set remain constant (when extent is changed). By default, size remains constant. V.GetConstantSize() -> int C++: virtual int GetConstantSize() This flag determines whether the Size or spacing of a data set remain constant (when extent is changed). By default, size remains constant. V.ConstantSizeOn() C++: virtual void ConstantSizeOn() This flag determines whether the Size or spacing of a data set remain constant (when extent is changed). By default, size remains constant. V.ConstantSizeOff() C++: virtual void ConstantSizeOff() This flag determines whether the Size or spacing of a data set remain constant (when extent is changed). By default, size remains constant. V.SetProjectionAxes(int, int, int) C++: void SetProjectionAxes(int x, int y, int z) V.SetProjectionAxes([int, int, int]) C++: void SetProjectionAxes(int a[3]) Set the projection from the 4D space (4 parameters / 2 imaginary numbers) to the axes of the 3D Volume. 0=C_Real, 1=C_Imaginary, 2=X_Real, 4=X_Imaginary V.GetProjectionAxes() -> (int, int, int) C++: int *GetProjectionAxes() V.SetOriginCX(float, float, float, float) C++: void SetOriginCX(double, double, double, double) V.SetOriginCX((float, float, float, float)) C++: void SetOriginCX(double a[4]) V.GetOriginCX() -> (float, float, float, float) C++: double *GetOriginCX() V.SetSampleCX(float, float, float, float) C++: void SetSampleCX(double, double, double, double) V.SetSampleCX((float, float, float, float)) C++: void SetSampleCX(double a[4]) V.GetSampleCX() -> (float, float, float, float) C++: double *GetSampleCX() V.SetSizeCX(float, float, float, float) C++: void SetSizeCX(double cReal, double cImag, double xReal, double xImag) Just a different way of setting the sample. This sets the size of the 4D volume. SampleCX is computed from size and extent. Size is ignored when a dimension i 0 (collapsed). V.GetSizeCX() -> (float, float, float, float) C++: double *GetSizeCX() V.GetSizeCX([float, float, float, float]) C++: void GetSizeCX(double s[4]) Just a different way of setting the sample. This sets the size of the 4D volume. SampleCX is computed from size and extent. Size is ignored when a dimension i 0 (collapsed). V.SetMaximumNumberOfIterations(int) C++: virtual void SetMaximumNumberOfIterations( unsigned short _arg) The maximum number of cycles run to see if the value goes over 2 V.GetMaximumNumberOfIterationsMinValue() -> int C++: virtual unsigned short GetMaximumNumberOfIterationsMinValue() The maximum number of cycles run to see if the value goes over 2 V.GetMaximumNumberOfIterationsMaxValue() -> int C++: virtual unsigned short GetMaximumNumberOfIterationsMaxValue() The maximum number of cycles run to see if the value goes over 2 V.GetMaximumNumberOfIterations() -> int C++: virtual unsigned short GetMaximumNumberOfIterations() The maximum number of cycles run to see if the value goes over 2 V.Zoom(float) C++: void Zoom(double factor) Convienence for Viewer. Pan 3D volume relative to spacing. Zoom constant factor. V.Pan(float, float, float) C++: void Pan(double x, double y, double z) Convienence for Viewer. Pan 3D volume relative to spacing. Zoom constant factor. V.CopyOriginAndSample(vtkImageMandelbrotSource) C++: void CopyOriginAndSample(vtkImageMandelbrotSource *source) Convienence for Viewer. Copy the OriginCX and the SpacingCX. What about other parameters ??? V.SetSubsampleRate(int) C++: virtual void SetSubsampleRate(int _arg) Set/Get a subsample rate. V.GetSubsampleRateMinValue() -> int C++: virtual int GetSubsampleRateMinValue() Set/Get a subsample rate. V.GetSubsampleRateMaxValue() -> int C++: virtual int GetSubsampleRateMaxValue() Set/Get a subsample rate. V.GetSubsampleRate() -> int C++: virtual int GetSubsampleRate() Set/Get a subsample rate. vtkImageNoiseSourceGetMinimumSetMinimumvtkImageNoiseSource - Create an image filled with noise. Superclass: vtkImageAlgorithm vtkImageNoiseSource just produces images filled with noise. The only option now is uniform noise specified by a min and a max. There is one major problem with this source. Every time it executes, it will output different pixel values. This has important implications when a stream requests overlapping regions. The same pixels will have different values on different updates. vtkImagingSourcesPython.vtkImageNoiseSourceV.SafeDownCast(vtkObjectBase) -> vtkImageNoiseSource C++: static vtkImageNoiseSource *SafeDownCast(vtkObjectBase *o) V.NewInstance() -> vtkImageNoiseSource C++: vtkImageNoiseSource *NewInstance() V.SetMinimum(float) C++: virtual void SetMinimum(double _arg) Set/Get the minimum and maximum values for the generated noise. V.GetMinimum() -> float C++: virtual double GetMinimum() Set/Get the minimum and maximum values for the generated noise. V.SetMaximum(float) C++: virtual void SetMaximum(double _arg) Set/Get the minimum and maximum values for the generated noise. V.GetMaximum() -> float C++: virtual double GetMaximum() Set/Get the minimum and maximum values for the generated noise. V.SetWholeExtent(int, int, int, int, int, int) C++: void SetWholeExtent(int xMinx, int xMax, int yMin, int yMax, int zMin, int zMax) V.SetWholeExtent((int, int, int, int, int, int)) C++: void SetWholeExtent(const int ext[6]) Set how large of an image to generate. vtkImageSinusoidSourceGetDirectionGetPeriodGetPhaseGetAmplitudeSetPhaseSetAmplitudeSetPeriodSetDirectionvtkImageSinusoidSource - Create an image with sinusoidal pixel values. Superclass: vtkImageAlgorithm vtkImageSinusoidSource just produces images with pixel values determined by a sinusoid. vtkImagingSourcesPython.vtkImageSinusoidSourceV.SafeDownCast(vtkObjectBase) -> vtkImageSinusoidSource C++: static vtkImageSinusoidSource *SafeDownCast(vtkObjectBase *o) V.NewInstance() -> vtkImageSinusoidSource C++: vtkImageSinusoidSource *NewInstance() V.SetDirection(float, float, float) C++: void SetDirection(double, double, double) V.SetDirection([float, float, float]) C++: void SetDirection(double dir[3]) Set/Get the direction vector which determines the sinusoidal orientation. The magnitude is ignored. V.GetDirection() -> (float, float, float) C++: double *GetDirection() V.SetPeriod(float) C++: virtual void SetPeriod(double _arg) Set/Get the period of the sinusoid in pixels. V.GetPeriod() -> float C++: virtual double GetPeriod() Set/Get the period of the sinusoid in pixels. V.SetPhase(float) C++: virtual void SetPhase(double _arg) Set/Get the phase: 0->2Pi. 0 => Cosine, pi/2 => Sine. V.GetPhase() -> float C++: virtual double GetPhase() Set/Get the phase: 0->2Pi. 0 => Cosine, pi/2 => Sine. V.SetAmplitude(float) C++: virtual void SetAmplitude(double _arg) Set/Get the magnitude of the sinusoid. 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