1 // java wrapper for vtkTriangle object
\r
7 public class vtkTriangle extends vtkCell
\r
10 private native String GetClassName_0();
\r
11 public String GetClassName()
\r
12 { return GetClassName_0(); }
\r
14 private native int IsA_1(String id0);
\r
15 public int IsA(String id0)
\r
16 { return IsA_1(id0); }
\r
18 private native long GetEdge_2(int id0);
\r
19 public vtkCell GetEdge(int id0) {
\r
20 long temp = GetEdge_2(id0);
\r
22 if (temp == 0) return null;
\r
23 return (vtkCell)vtkObject.JAVA_OBJECT_MANAGER.getJavaObject(temp);
\r
26 private native int GetCellType_3();
\r
27 public int GetCellType()
\r
28 { return GetCellType_3(); }
\r
30 private native int GetCellDimension_4();
\r
31 public int GetCellDimension()
\r
32 { return GetCellDimension_4(); }
\r
34 private native int GetNumberOfEdges_5();
\r
35 public int GetNumberOfEdges()
\r
36 { return GetNumberOfEdges_5(); }
\r
38 private native int GetNumberOfFaces_6();
\r
39 public int GetNumberOfFaces()
\r
40 { return GetNumberOfFaces_6(); }
\r
42 private native long GetFace_7(int id0);
\r
43 public vtkCell GetFace(int id0) {
\r
44 long temp = GetFace_7(id0);
\r
46 if (temp == 0) return null;
\r
47 return (vtkCell)vtkObject.JAVA_OBJECT_MANAGER.getJavaObject(temp);
\r
50 private native int CellBoundary_8(int id0,double id1[],vtkIdList id2);
\r
51 public int CellBoundary(int id0,double id1[],vtkIdList id2)
\r
52 { return CellBoundary_8(id0,id1,id2); }
\r
54 private native void Contour_9(double id0,vtkDataArray id1,vtkIncrementalPointLocator id2,vtkCellArray id3,vtkCellArray id4,vtkCellArray id5,vtkPointData id6,vtkPointData id7,vtkCellData id8,int id9,vtkCellData id10);
\r
55 public void Contour(double id0,vtkDataArray id1,vtkIncrementalPointLocator id2,vtkCellArray id3,vtkCellArray id4,vtkCellArray id5,vtkPointData id6,vtkPointData id7,vtkCellData id8,int id9,vtkCellData id10)
\r
56 { Contour_9(id0,id1,id2,id3,id4,id5,id6,id7,id8,id9,id10); }
\r
58 private native int Triangulate_10(int id0,vtkIdList id1,vtkPoints id2);
\r
59 public int Triangulate(int id0,vtkIdList id1,vtkPoints id2)
\r
60 { return Triangulate_10(id0,id1,id2); }
\r
62 private native double ComputeArea_11();
\r
63 public double ComputeArea()
\r
64 { return ComputeArea_11(); }
\r
66 private native void Clip_12(double id0,vtkDataArray id1,vtkIncrementalPointLocator id2,vtkCellArray id3,vtkPointData id4,vtkPointData id5,vtkCellData id6,int id7,vtkCellData id8,int id9);
\r
67 public void Clip(double id0,vtkDataArray id1,vtkIncrementalPointLocator id2,vtkCellArray id3,vtkPointData id4,vtkPointData id5,vtkCellData id6,int id7,vtkCellData id8,int id9)
\r
68 { Clip_12(id0,id1,id2,id3,id4,id5,id6,id7,id8,id9); }
\r
70 private native void InterpolationFunctions_13(double id0[],double id1[]);
\r
71 public void InterpolationFunctions(double id0[],double id1[])
\r
72 { InterpolationFunctions_13(id0,id1); }
\r
74 private native void InterpolationDerivs_14(double id0[],double id1[]);
\r
75 public void InterpolationDerivs(double id0[],double id1[])
\r
76 { InterpolationDerivs_14(id0,id1); }
\r
78 private native void InterpolateFunctions_15(double id0[],double id1[]);
\r
79 public void InterpolateFunctions(double id0[],double id1[])
\r
80 { InterpolateFunctions_15(id0,id1); }
\r
82 private native void InterpolateDerivs_16(double id0[],double id1[]);
\r
83 public void InterpolateDerivs(double id0[],double id1[])
\r
84 { InterpolateDerivs_16(id0,id1); }
\r
86 private native int GetParametricCenter_17(double id0[]);
\r
87 public int GetParametricCenter(double id0[])
\r
88 { return GetParametricCenter_17(id0); }
\r
90 private native double GetParametricDistance_18(double id0[]);
\r
91 public double GetParametricDistance(double id0[])
\r
92 { return GetParametricDistance_18(id0); }
\r
94 private native void TriangleCenter_19(double id0[],double id1[],double id2[],double id3[]);
\r
95 public void TriangleCenter(double id0[],double id1[],double id2[],double id3[])
\r
96 { TriangleCenter_19(id0,id1,id2,id3); }
\r
98 private native double TriangleArea_20(double id0[],double id1[],double id2[]);
\r
99 public double TriangleArea(double id0[],double id1[],double id2[])
\r
100 { return TriangleArea_20(id0,id1,id2); }
\r
102 private native double Circumcircle_21(double id0[],double id1[],double id2[],double id3[]);
\r
103 public double Circumcircle(double id0[],double id1[],double id2[],double id3[])
\r
104 { return Circumcircle_21(id0,id1,id2,id3); }
\r
106 private native int BarycentricCoords_22(double id0[],double id1[],double id2[],double id3[],double id4[]);
\r
107 public int BarycentricCoords(double id0[],double id1[],double id2[],double id3[],double id4[])
\r
108 { return BarycentricCoords_22(id0,id1,id2,id3,id4); }
\r
110 private native int ProjectTo2D_23(double id0[],double id1[],double id2[],double id3[],double id4[],double id5[]);
\r
111 public int ProjectTo2D(double id0[],double id1[],double id2[],double id3[],double id4[],double id5[])
\r
112 { return ProjectTo2D_23(id0,id1,id2,id3,id4,id5); }
\r
114 private native void ComputeNormal_24(double id0[],double id1[],double id2[],double id3[]);
\r
115 public void ComputeNormal(double id0[],double id1[],double id2[],double id3[])
\r
116 { ComputeNormal_24(id0,id1,id2,id3); }
\r
118 private native void ComputeNormalDirection_25(double id0[],double id1[],double id2[],double id3[]);
\r
119 public void ComputeNormalDirection(double id0[],double id1[],double id2[],double id3[])
\r
120 { ComputeNormalDirection_25(id0,id1,id2,id3); }
\r
122 private native int PointInTriangle_26(double id0[],double id1[],double id2[],double id3[],double id4);
\r
123 public int PointInTriangle(double id0[],double id1[],double id2[],double id3[],double id4)
\r
124 { return PointInTriangle_26(id0,id1,id2,id3,id4); }
\r
126 private native void ComputeQuadric_27(double id0[],double id1[],double id2[],vtkQuadric id3);
\r
127 public void ComputeQuadric(double id0[],double id1[],double id2[],vtkQuadric id3)
\r
128 { ComputeQuadric_27(id0,id1,id2,id3); }
\r
130 public vtkTriangle() { super(); }
\r
132 public vtkTriangle(long id) { super(id); }
\r
133 public native long VTKInit();
\r