// java wrapper for vtkSuperquadricSource object // package vtk; import vtk.*; public class vtkSuperquadricSource extends vtkPolyDataAlgorithm { 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 SetCenter_2(double id0,double id1,double id2); public void SetCenter(double id0,double id1,double id2) { SetCenter_2(id0,id1,id2); } private native void SetCenter_3(double id0[]); public void SetCenter(double id0[]) { SetCenter_3(id0); } private native double[] GetCenter_4(); public double[] GetCenter() { return GetCenter_4(); } private native void SetScale_5(double id0,double id1,double id2); public void SetScale(double id0,double id1,double id2) { SetScale_5(id0,id1,id2); } private native void SetScale_6(double id0[]); public void SetScale(double id0[]) { SetScale_6(id0); } private native double[] GetScale_7(); public double[] GetScale() { return GetScale_7(); } private native int GetThetaResolution_8(); public int GetThetaResolution() { return GetThetaResolution_8(); } private native void SetThetaResolution_9(int id0); public void SetThetaResolution(int id0) { SetThetaResolution_9(id0); } private native int GetPhiResolution_10(); public int GetPhiResolution() { return GetPhiResolution_10(); } private native void SetPhiResolution_11(int id0); public void SetPhiResolution(int id0) { SetPhiResolution_11(id0); } private native double GetThickness_12(); public double GetThickness() { return GetThickness_12(); } private native void SetThickness_13(double id0); public void SetThickness(double id0) { SetThickness_13(id0); } private native double GetThicknessMinValue_14(); public double GetThicknessMinValue() { return GetThicknessMinValue_14(); } private native double GetThicknessMaxValue_15(); public double GetThicknessMaxValue() { return GetThicknessMaxValue_15(); } private native double GetPhiRoundness_16(); public double GetPhiRoundness() { return GetPhiRoundness_16(); } private native void SetPhiRoundness_17(double id0); public void SetPhiRoundness(double id0) { SetPhiRoundness_17(id0); } private native double GetThetaRoundness_18(); public double GetThetaRoundness() { return GetThetaRoundness_18(); } private native void SetThetaRoundness_19(double id0); public void SetThetaRoundness(double id0) { SetThetaRoundness_19(id0); } private native void SetSize_20(double id0); public void SetSize(double id0) { SetSize_20(id0); } private native double GetSize_21(); public double GetSize() { return GetSize_21(); } private native void SetAxisOfSymmetry_22(int id0); public void SetAxisOfSymmetry(int id0) { SetAxisOfSymmetry_22(id0); } private native int GetAxisOfSymmetry_23(); public int GetAxisOfSymmetry() { return GetAxisOfSymmetry_23(); } private native void SetXAxisOfSymmetry_24(); public void SetXAxisOfSymmetry() { SetXAxisOfSymmetry_24(); } private native void SetYAxisOfSymmetry_25(); public void SetYAxisOfSymmetry() { SetYAxisOfSymmetry_25(); } private native void SetZAxisOfSymmetry_26(); public void SetZAxisOfSymmetry() { SetZAxisOfSymmetry_26(); } private native void ToroidalOn_27(); public void ToroidalOn() { ToroidalOn_27(); } private native void ToroidalOff_28(); public void ToroidalOff() { ToroidalOff_28(); } private native int GetToroidal_29(); public int GetToroidal() { return GetToroidal_29(); } private native void SetToroidal_30(int id0); public void SetToroidal(int id0) { SetToroidal_30(id0); } private native void SetOutputPointsPrecision_31(int id0); public void SetOutputPointsPrecision(int id0) { SetOutputPointsPrecision_31(id0); } private native int GetOutputPointsPrecision_32(); public int GetOutputPointsPrecision() { return GetOutputPointsPrecision_32(); } public vtkSuperquadricSource() { super(); } public vtkSuperquadricSource(long id) { super(id); } public native long VTKInit(); }