1 // java wrapper for vtkRectilinearSynchronizedTemplates object
7 public class vtkRectilinearSynchronizedTemplates extends vtkPolyDataAlgorithm
10 private native int IsTypeOf_0(String id0);
11 public int IsTypeOf(String id0)
12 { return IsTypeOf_0(id0); }
14 private native int IsA_1(String id0);
15 public int IsA(String id0)
16 { return IsA_1(id0); }
18 private native int GetMTime_2();
20 { return GetMTime_2(); }
22 private native void SetComputeNormals_3(int id0);
23 public void SetComputeNormals(int id0)
24 { SetComputeNormals_3(id0); }
26 private native int GetComputeNormals_4();
27 public int GetComputeNormals()
28 { return GetComputeNormals_4(); }
30 private native void ComputeNormalsOn_5();
31 public void ComputeNormalsOn()
32 { ComputeNormalsOn_5(); }
34 private native void ComputeNormalsOff_6();
35 public void ComputeNormalsOff()
36 { ComputeNormalsOff_6(); }
38 private native void SetComputeGradients_7(int id0);
39 public void SetComputeGradients(int id0)
40 { SetComputeGradients_7(id0); }
42 private native int GetComputeGradients_8();
43 public int GetComputeGradients()
44 { return GetComputeGradients_8(); }
46 private native void ComputeGradientsOn_9();
47 public void ComputeGradientsOn()
48 { ComputeGradientsOn_9(); }
50 private native void ComputeGradientsOff_10();
51 public void ComputeGradientsOff()
52 { ComputeGradientsOff_10(); }
54 private native void SetComputeScalars_11(int id0);
55 public void SetComputeScalars(int id0)
56 { SetComputeScalars_11(id0); }
58 private native int GetComputeScalars_12();
59 public int GetComputeScalars()
60 { return GetComputeScalars_12(); }
62 private native void ComputeScalarsOn_13();
63 public void ComputeScalarsOn()
64 { ComputeScalarsOn_13(); }
66 private native void ComputeScalarsOff_14();
67 public void ComputeScalarsOff()
68 { ComputeScalarsOff_14(); }
70 private native void SetValue_15(int id0,double id1);
71 public void SetValue(int id0,double id1)
72 { SetValue_15(id0,id1); }
74 private native double GetValue_16(int id0);
75 public double GetValue(int id0)
76 { return GetValue_16(id0); }
78 private native void SetNumberOfContours_17(int id0);
79 public void SetNumberOfContours(int id0)
80 { SetNumberOfContours_17(id0); }
82 private native int GetNumberOfContours_18();
83 public int GetNumberOfContours()
84 { return GetNumberOfContours_18(); }
86 private native void GenerateValues_19(int id0,double id1[]);
87 public void GenerateValues(int id0,double id1[])
88 { GenerateValues_19(id0,id1); }
90 private native void GenerateValues_20(int id0,double id1,double id2);
91 public void GenerateValues(int id0,double id1,double id2)
92 { GenerateValues_20(id0,id1,id2); }
94 private native void SetArrayComponent_21(int id0);
95 public void SetArrayComponent(int id0)
96 { SetArrayComponent_21(id0); }
98 private native int GetArrayComponent_22();
99 public int GetArrayComponent()
100 { return GetArrayComponent_22(); }
102 private native void SetGenerateTriangles_23(int id0);
103 public void SetGenerateTriangles(int id0)
104 { SetGenerateTriangles_23(id0); }
106 private native int GetGenerateTriangles_24();
107 public int GetGenerateTriangles()
108 { return GetGenerateTriangles_24(); }
110 private native void GenerateTrianglesOn_25();
111 public void GenerateTrianglesOn()
112 { GenerateTrianglesOn_25(); }
114 private native void GenerateTrianglesOff_26();
115 public void GenerateTrianglesOff()
116 { GenerateTrianglesOff_26(); }
118 private native void ComputeSpacing_27(vtkRectilinearGrid id0,int id1,int id2,int id3,int id4[],double id5[]);
119 public void ComputeSpacing(vtkRectilinearGrid id0,int id1,int id2,int id3,int id4[],double id5[])
120 { ComputeSpacing_27(id0,id1,id2,id3,id4,id5); }
122 public vtkRectilinearSynchronizedTemplates() { super(); }
124 public vtkRectilinearSynchronizedTemplates(long id) { super(id); }
125 public native long VTKInit();