// java wrapper for vtkEncodedGradientEstimator object // package vtk; import vtk.*; public class vtkEncodedGradientEstimator extends vtkObject { private native int IsTypeOf_0(String id0); public int IsTypeOf(String id0) { return IsTypeOf_0(id0); } private native int IsA_1(String id0); public int IsA(String id0) { return IsA_1(id0); } private native void SetInputData_2(vtkImageData id0); public void SetInputData(vtkImageData id0) { SetInputData_2(id0); } private native long GetInputData_3(); public vtkImageData GetInputData() { long temp = GetInputData_3(); if (temp == 0) return null; return (vtkImageData)vtkObjectBase.JAVA_OBJECT_MANAGER.getJavaObject(temp); } private native void SetGradientMagnitudeScale_4(double id0); public void SetGradientMagnitudeScale(double id0) { SetGradientMagnitudeScale_4(id0); } private native double GetGradientMagnitudeScale_5(); public double GetGradientMagnitudeScale() { return GetGradientMagnitudeScale_5(); } private native void SetGradientMagnitudeBias_6(double id0); public void SetGradientMagnitudeBias(double id0) { SetGradientMagnitudeBias_6(id0); } private native double GetGradientMagnitudeBias_7(); public double GetGradientMagnitudeBias() { return GetGradientMagnitudeBias_7(); } private native void SetBoundsClip_8(int id0); public void SetBoundsClip(int id0) { SetBoundsClip_8(id0); } private native int GetBoundsClipMinValue_9(); public int GetBoundsClipMinValue() { return GetBoundsClipMinValue_9(); } private native int GetBoundsClipMaxValue_10(); public int GetBoundsClipMaxValue() { return GetBoundsClipMaxValue_10(); } private native int GetBoundsClip_11(); public int GetBoundsClip() { return GetBoundsClip_11(); } private native void BoundsClipOn_12(); public void BoundsClipOn() { BoundsClipOn_12(); } private native void BoundsClipOff_13(); public void BoundsClipOff() { BoundsClipOff_13(); } private native void SetBounds_14(int id0,int id1,int id2,int id3,int id4,int id5); public void SetBounds(int id0,int id1,int id2,int id3,int id4,int id5) { SetBounds_14(id0,id1,id2,id3,id4,id5); } private native void SetBounds_15(int id0[]); public void SetBounds(int id0[]) { SetBounds_15(id0); } private native int[] GetBounds_16(); public int[] GetBounds() { return GetBounds_16(); } private native void Update_17(); public void Update() { Update_17(); } private native int GetEncodedNormalIndex_18(int id0); public int GetEncodedNormalIndex(int id0) { return GetEncodedNormalIndex_18(id0); } private native int GetEncodedNormalIndex_19(int id0,int id1,int id2); public int GetEncodedNormalIndex(int id0,int id1,int id2) { return GetEncodedNormalIndex_19(id0,id1,id2); } private native void SetNumberOfThreads_20(int id0); public void SetNumberOfThreads(int id0) { SetNumberOfThreads_20(id0); } private native int GetNumberOfThreadsMinValue_21(); public int GetNumberOfThreadsMinValue() { return GetNumberOfThreadsMinValue_21(); } private native int GetNumberOfThreadsMaxValue_22(); public int GetNumberOfThreadsMaxValue() { return GetNumberOfThreadsMaxValue_22(); } private native int GetNumberOfThreads_23(); public int GetNumberOfThreads() { return GetNumberOfThreads_23(); } private native void SetDirectionEncoder_24(vtkDirectionEncoder id0); public void SetDirectionEncoder(vtkDirectionEncoder id0) { SetDirectionEncoder_24(id0); } private native long GetDirectionEncoder_25(); public vtkDirectionEncoder GetDirectionEncoder() { long temp = GetDirectionEncoder_25(); if (temp == 0) return null; return (vtkDirectionEncoder)vtkObjectBase.JAVA_OBJECT_MANAGER.getJavaObject(temp); } private native void SetComputeGradientMagnitudes_26(int id0); public void SetComputeGradientMagnitudes(int id0) { SetComputeGradientMagnitudes_26(id0); } private native int GetComputeGradientMagnitudes_27(); public int GetComputeGradientMagnitudes() { return GetComputeGradientMagnitudes_27(); } private native void ComputeGradientMagnitudesOn_28(); public void ComputeGradientMagnitudesOn() { ComputeGradientMagnitudesOn_28(); } private native void ComputeGradientMagnitudesOff_29(); public void ComputeGradientMagnitudesOff() { ComputeGradientMagnitudesOff_29(); } private native void SetCylinderClip_30(int id0); public void SetCylinderClip(int id0) { SetCylinderClip_30(id0); } private native int GetCylinderClip_31(); public int GetCylinderClip() { return GetCylinderClip_31(); } private native void CylinderClipOn_32(); public void CylinderClipOn() { CylinderClipOn_32(); } private native void CylinderClipOff_33(); public void CylinderClipOff() { CylinderClipOff_33(); } private native double GetLastUpdateTimeInSeconds_34(); public double GetLastUpdateTimeInSeconds() { return GetLastUpdateTimeInSeconds_34(); } private native double GetLastUpdateTimeInCPUSeconds_35(); public double GetLastUpdateTimeInCPUSeconds() { return GetLastUpdateTimeInCPUSeconds_35(); } private native int GetUseCylinderClip_36(); public int GetUseCylinderClip() { return GetUseCylinderClip_36(); } private native void SetZeroNormalThreshold_37(double id0); public void SetZeroNormalThreshold(double id0) { SetZeroNormalThreshold_37(id0); } private native double GetZeroNormalThreshold_38(); public double GetZeroNormalThreshold() { return GetZeroNormalThreshold_38(); } private native void SetZeroPad_39(int id0); public void SetZeroPad(int id0) { SetZeroPad_39(id0); } private native int GetZeroPadMinValue_40(); public int GetZeroPadMinValue() { return GetZeroPadMinValue_40(); } private native int GetZeroPadMaxValue_41(); public int GetZeroPadMaxValue() { return GetZeroPadMaxValue_41(); } private native int GetZeroPad_42(); public int GetZeroPad() { return GetZeroPad_42(); } private native void ZeroPadOn_43(); public void ZeroPadOn() { ZeroPadOn_43(); } private native void ZeroPadOff_44(); public void ZeroPadOff() { ZeroPadOff_44(); } private native int[] GetInputSize_45(); public int[] GetInputSize() { return GetInputSize_45(); } private native double[] GetInputAspect_46(); public double[] GetInputAspect() { return GetInputAspect_46(); } public vtkEncodedGradientEstimator() { super(); } public vtkEncodedGradientEstimator(long id) { super(id); } }