// java wrapper for vtkMath object // package vtk; import vtk.*; public class vtkMath 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 double Pi_2(); public double Pi() { return Pi_2(); } private native double RadiansFromDegrees_3(double id0); public double RadiansFromDegrees(double id0) { return RadiansFromDegrees_3(id0); } private native double DegreesFromRadians_4(double id0); public double DegreesFromRadians(double id0) { return DegreesFromRadians_4(id0); } private native int Round_5(double id0); public int Round(double id0) { return Round_5(id0); } private native int Floor_6(double id0); public int Floor(double id0) { return Floor_6(id0); } private native int Ceil_7(double id0); public int Ceil(double id0) { return Ceil_7(id0); } private native int CeilLog2_8(int id0); public int CeilLog2(int id0) { return CeilLog2_8(id0); } private native boolean IsPowerOfTwo_9(int id0); public boolean IsPowerOfTwo(int id0) { return IsPowerOfTwo_9(id0); } private native int NearestPowerOfTwo_10(int id0); public int NearestPowerOfTwo(int id0) { return NearestPowerOfTwo_10(id0); } private native int Factorial_11(int id0); public int Factorial(int id0) { return Factorial_11(id0); } private native int Binomial_12(int id0,int id1); public int Binomial(int id0,int id1) { return Binomial_12(id0,id1); } private native void RandomSeed_13(int id0); public void RandomSeed(int id0) { RandomSeed_13(id0); } private native int GetSeed_14(); public int GetSeed() { return GetSeed_14(); } private native double Random_15(); public double Random() { return Random_15(); } private native double Random_16(double id0,double id1); public double Random(double id0,double id1) { return Random_16(id0,id1); } private native double Gaussian_17(); public double Gaussian() { return Gaussian_17(); } private native double Gaussian_18(double id0,double id1); public double Gaussian(double id0,double id1) { return Gaussian_18(id0,id1); } private native void Add_19(double id0[],double id1[],double id2[]); public void Add(double id0[],double id1[],double id2[]) { Add_19(id0,id1,id2); } private native void Subtract_20(double id0[],double id1[],double id2[]); public void Subtract(double id0[],double id1[],double id2[]) { Subtract_20(id0,id1,id2); } private native void MultiplyScalar_21(double id0[],double id1); public void MultiplyScalar(double id0[],double id1) { MultiplyScalar_21(id0,id1); } private native void MultiplyScalar2D_22(double id0[],double id1); public void MultiplyScalar2D(double id0[],double id1) { MultiplyScalar2D_22(id0,id1); } private native double Dot_23(double id0[],double id1[]); public double Dot(double id0[],double id1[]) { return Dot_23(id0,id1); } private native void Cross_24(double id0[],double id1[],double id2[]); public void Cross(double id0[],double id1[],double id2[]) { Cross_24(id0,id1,id2); } private native double Norm_25(double id0[]); public double Norm(double id0[]) { return Norm_25(id0); } private native double Normalize_26(double id0[]); public double Normalize(double id0[]) { return Normalize_26(id0); } private native void Perpendiculars_27(double id0[],double id1[],double id2[],double id3); public void Perpendiculars(double id0[],double id1[],double id2[],double id3) { Perpendiculars_27(id0,id1,id2,id3); } private native boolean ProjectVector_28(double id0[],double id1[],double id2[]); public boolean ProjectVector(double id0[],double id1[],double id2[]) { return ProjectVector_28(id0,id1,id2); } private native boolean ProjectVector2D_29(double id0[],double id1[],double id2[]); public boolean ProjectVector2D(double id0[],double id1[],double id2[]) { return ProjectVector2D_29(id0,id1,id2); } private native double Distance2BetweenPoints_30(double id0[],double id1[]); public double Distance2BetweenPoints(double id0[],double id1[]) { return Distance2BetweenPoints_30(id0,id1); } private native double AngleBetweenVectors_31(double id0[],double id1[]); public double AngleBetweenVectors(double id0[],double id1[]) { return AngleBetweenVectors_31(id0,id1); } private native double GaussianAmplitude_32(double id0,double id1); public double GaussianAmplitude(double id0,double id1) { return GaussianAmplitude_32(id0,id1); } private native double GaussianAmplitude_33(double id0,double id1,double id2); public double GaussianAmplitude(double id0,double id1,double id2) { return GaussianAmplitude_33(id0,id1,id2); } private native double GaussianWeight_34(double id0,double id1); public double GaussianWeight(double id0,double id1) { return GaussianWeight_34(id0,id1); } private native double GaussianWeight_35(double id0,double id1,double id2); public double GaussianWeight(double id0,double id1,double id2) { return GaussianWeight_35(id0,id1,id2); } private native double Dot2D_36(double id0[],double id1[]); public double Dot2D(double id0[],double id1[]) { return Dot2D_36(id0,id1); } private native double Norm2D_37(double id0[]); public double Norm2D(double id0[]) { return Norm2D_37(id0); } private native double Normalize2D_38(double id0[]); public double Normalize2D(double id0[]) { return Normalize2D_38(id0); } private native double Determinant2x2_39(double id0[],double id1[]); public double Determinant2x2(double id0[],double id1[]) { return Determinant2x2_39(id0,id1); } private native double Determinant2x2_40(double id0,double id1,double id2,double id3); public double Determinant2x2(double id0,double id1,double id2,double id3) { return Determinant2x2_40(id0,id1,id2,id3); } private native double Determinant3x3_41(double id0[],double id1[],double id2[]); public double Determinant3x3(double id0[],double id1[],double id2[]) { return Determinant3x3_41(id0,id1,id2); } private native double Determinant3x3_42(double id0,double id1,double id2,double id3,double id4,double id5,double id6,double id7,double id8); public double Determinant3x3(double id0,double id1,double id2,double id3,double id4,double id5,double id6,double id7,double id8) { return Determinant3x3_42(id0,id1,id2,id3,id4,id5,id6,id7,id8); } private native void MultiplyQuaternion_43(double id0[],double id1[],double id2[]); public void MultiplyQuaternion(double id0[],double id1[],double id2[]) { MultiplyQuaternion_43(id0,id1,id2); } private native void RotateVectorByNormalizedQuaternion_44(double id0[],double id1[],double id2[]); public void RotateVectorByNormalizedQuaternion(double id0[],double id1[],double id2[]) { RotateVectorByNormalizedQuaternion_44(id0,id1,id2); } private native void RotateVectorByWXYZ_45(double id0[],double id1[],double id2[]); public void RotateVectorByWXYZ(double id0[],double id1[],double id2[]) { RotateVectorByWXYZ_45(id0,id1,id2); } private native void RGBToHSV_46(double id0[],double id1[]); public void RGBToHSV(double id0[],double id1[]) { RGBToHSV_46(id0,id1); } private native double[] RGBToHSV_47(double id0[]); public double[] RGBToHSV(double id0[]) { return RGBToHSV_47(id0); } private native double[] RGBToHSV_48(double id0,double id1,double id2); public double[] RGBToHSV(double id0,double id1,double id2) { return RGBToHSV_48(id0,id1,id2); } private native void HSVToRGB_49(double id0[],double id1[]); public void HSVToRGB(double id0[],double id1[]) { HSVToRGB_49(id0,id1); } private native double[] HSVToRGB_50(double id0[]); public double[] HSVToRGB(double id0[]) { return HSVToRGB_50(id0); } private native double[] HSVToRGB_51(double id0,double id1,double id2); public double[] HSVToRGB(double id0,double id1,double id2) { return HSVToRGB_51(id0,id1,id2); } private native void LabToXYZ_52(double id0[],double id1[]); public void LabToXYZ(double id0[],double id1[]) { LabToXYZ_52(id0,id1); } private native double[] LabToXYZ_53(double id0[]); public double[] LabToXYZ(double id0[]) { return LabToXYZ_53(id0); } private native void XYZToLab_54(double id0[],double id1[]); public void XYZToLab(double id0[],double id1[]) { XYZToLab_54(id0,id1); } private native double[] XYZToLab_55(double id0[]); public double[] XYZToLab(double id0[]) { return XYZToLab_55(id0); } private native void XYZToRGB_56(double id0[],double id1[]); public void XYZToRGB(double id0[],double id1[]) { XYZToRGB_56(id0,id1); } private native double[] XYZToRGB_57(double id0[]); public double[] XYZToRGB(double id0[]) { return XYZToRGB_57(id0); } private native void RGBToXYZ_58(double id0[],double id1[]); public void RGBToXYZ(double id0[],double id1[]) { RGBToXYZ_58(id0,id1); } private native double[] RGBToXYZ_59(double id0[]); public double[] RGBToXYZ(double id0[]) { return RGBToXYZ_59(id0); } private native void RGBToLab_60(double id0[],double id1[]); public void RGBToLab(double id0[],double id1[]) { RGBToLab_60(id0,id1); } private native double[] RGBToLab_61(double id0[]); public double[] RGBToLab(double id0[]) { return RGBToLab_61(id0); } private native void LabToRGB_62(double id0[],double id1[]); public void LabToRGB(double id0[],double id1[]) { LabToRGB_62(id0,id1); } private native double[] LabToRGB_63(double id0[]); public double[] LabToRGB(double id0[]) { return LabToRGB_63(id0); } private native void UninitializeBounds_64(double id0[]); public void UninitializeBounds(double id0[]) { UninitializeBounds_64(id0); } private native int AreBoundsInitialized_65(double id0[]); public int AreBoundsInitialized(double id0[]) { return AreBoundsInitialized_65(id0); } private native double ClampAndNormalizeValue_66(double id0,double id1[]); public double ClampAndNormalizeValue(double id0,double id1[]) { return ClampAndNormalizeValue_66(id0,id1); } private native int GetScalarTypeFittingRange_67(double id0,double id1,double id2,double id3); public int GetScalarTypeFittingRange(double id0,double id1,double id2,double id3) { return GetScalarTypeFittingRange_67(id0,id1,id2,id3); } private native int GetAdjustedScalarRange_68(vtkDataArray id0,int id1,double id2[]); public int GetAdjustedScalarRange(vtkDataArray id0,int id1,double id2[]) { return GetAdjustedScalarRange_68(id0,id1,id2); } private native int ExtentIsWithinOtherExtent_69(int id0[],int id1[]); public int ExtentIsWithinOtherExtent(int id0[],int id1[]) { return ExtentIsWithinOtherExtent_69(id0,id1); } private native int BoundsIsWithinOtherBounds_70(double id0[],double id1[],double id2[]); public int BoundsIsWithinOtherBounds(double id0[],double id1[],double id2[]) { return BoundsIsWithinOtherBounds_70(id0,id1,id2); } private native int PointIsWithinBounds_71(double id0[],double id1[],double id2[]); public int PointIsWithinBounds(double id0[],double id1[],double id2[]) { return PointIsWithinBounds_71(id0,id1,id2); } private native int PlaneIntersectsAABB_72(double id0[],double id1[],double id2[]); public int PlaneIntersectsAABB(double id0[],double id1[],double id2[]) { return PlaneIntersectsAABB_72(id0,id1,id2); } private native double Solve3PointCircle_73(double id0[],double id1[],double id2[],double id3[]); public double Solve3PointCircle(double id0[],double id1[],double id2[],double id3[]) { return Solve3PointCircle_73(id0,id1,id2,id3); } private native double Inf_74(); public double Inf() { return Inf_74(); } private native double NegInf_75(); public double NegInf() { return NegInf_75(); } private native double Nan_76(); public double Nan() { return Nan_76(); } private native int IsInf_77(double id0); public int IsInf(double id0) { return IsInf_77(id0); } private native int IsNan_78(double id0); public int IsNan(double id0) { return IsNan_78(id0); } private native boolean IsFinite_79(double id0); public boolean IsFinite(double id0) { return IsFinite_79(id0); } public vtkMath() { super(); } public vtkMath(long id) { super(id); } public native long VTKInit(); }