1 // java wrapper for vtkEvenlySpacedStreamlines2D object
7 public class vtkEvenlySpacedStreamlines2D 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 void SetStartPosition_2(double id0,double id1,double id2);
19 public void SetStartPosition(double id0,double id1,double id2)
20 { SetStartPosition_2(id0,id1,id2); }
22 private native void SetStartPosition_3(double id0[]);
23 public void SetStartPosition(double id0[])
24 { SetStartPosition_3(id0); }
26 private native double[] GetStartPosition_4();
27 public double[] GetStartPosition()
28 { return GetStartPosition_4(); }
30 private native void SetIntegrator_5(vtkInitialValueProblemSolver id0);
31 public void SetIntegrator(vtkInitialValueProblemSolver id0)
32 { SetIntegrator_5(id0); }
34 private native long GetIntegrator_6();
35 public vtkInitialValueProblemSolver GetIntegrator() {
36 long temp = GetIntegrator_6();
38 if (temp == 0) return null;
39 return (vtkInitialValueProblemSolver)vtkObjectBase.JAVA_OBJECT_MANAGER.getJavaObject(temp);
42 private native void SetIntegratorType_7(int id0);
43 public void SetIntegratorType(int id0)
44 { SetIntegratorType_7(id0); }
46 private native int GetIntegratorType_8();
47 public int GetIntegratorType()
48 { return GetIntegratorType_8(); }
50 private native void SetIntegratorTypeToRungeKutta2_9();
51 public void SetIntegratorTypeToRungeKutta2()
52 { SetIntegratorTypeToRungeKutta2_9(); }
54 private native void SetIntegratorTypeToRungeKutta4_10();
55 public void SetIntegratorTypeToRungeKutta4()
56 { SetIntegratorTypeToRungeKutta4_10(); }
58 private native void SetInterpolatorTypeToDataSetPointLocator_11();
59 public void SetInterpolatorTypeToDataSetPointLocator()
60 { SetInterpolatorTypeToDataSetPointLocator_11(); }
62 private native void SetInterpolatorTypeToCellLocator_12();
63 public void SetInterpolatorTypeToCellLocator()
64 { SetInterpolatorTypeToCellLocator_12(); }
66 private native void SetIntegrationStepUnit_13(int id0);
67 public void SetIntegrationStepUnit(int id0)
68 { SetIntegrationStepUnit_13(id0); }
70 private native int GetIntegrationStepUnit_14();
71 public int GetIntegrationStepUnit()
72 { return GetIntegrationStepUnit_14(); }
74 private native void SetMaximumNumberOfSteps_15(int id0);
75 public void SetMaximumNumberOfSteps(int id0)
76 { SetMaximumNumberOfSteps_15(id0); }
78 private native int GetMaximumNumberOfSteps_16();
79 public int GetMaximumNumberOfSteps()
80 { return GetMaximumNumberOfSteps_16(); }
82 private native void SetMinimumNumberOfLoopPoints_17(int id0);
83 public void SetMinimumNumberOfLoopPoints(int id0)
84 { SetMinimumNumberOfLoopPoints_17(id0); }
86 private native int GetMinimumNumberOfLoopPoints_18();
87 public int GetMinimumNumberOfLoopPoints()
88 { return GetMinimumNumberOfLoopPoints_18(); }
90 private native void SetInitialIntegrationStep_19(double id0);
91 public void SetInitialIntegrationStep(double id0)
92 { SetInitialIntegrationStep_19(id0); }
94 private native double GetInitialIntegrationStep_20();
95 public double GetInitialIntegrationStep()
96 { return GetInitialIntegrationStep_20(); }
98 private native void SetSeparatingDistance_21(double id0);
99 public void SetSeparatingDistance(double id0)
100 { SetSeparatingDistance_21(id0); }
102 private native double GetSeparatingDistance_22();
103 public double GetSeparatingDistance()
104 { return GetSeparatingDistance_22(); }
106 private native void SetSeparatingDistanceRatio_23(double id0);
107 public void SetSeparatingDistanceRatio(double id0)
108 { SetSeparatingDistanceRatio_23(id0); }
110 private native double GetSeparatingDistanceRatio_24();
111 public double GetSeparatingDistanceRatio()
112 { return GetSeparatingDistanceRatio_24(); }
114 private native void SetClosedLoopMaximumDistance_25(double id0);
115 public void SetClosedLoopMaximumDistance(double id0)
116 { SetClosedLoopMaximumDistance_25(id0); }
118 private native double GetClosedLoopMaximumDistance_26();
119 public double GetClosedLoopMaximumDistance()
120 { return GetClosedLoopMaximumDistance_26(); }
122 private native void SetLoopAngle_27(double id0);
123 public void SetLoopAngle(double id0)
124 { SetLoopAngle_27(id0); }
126 private native double GetLoopAngle_28();
127 public double GetLoopAngle()
128 { return GetLoopAngle_28(); }
130 private native void SetTerminalSpeed_29(double id0);
131 public void SetTerminalSpeed(double id0)
132 { SetTerminalSpeed_29(id0); }
134 private native double GetTerminalSpeed_30();
135 public double GetTerminalSpeed()
136 { return GetTerminalSpeed_30(); }
138 private native void SetComputeVorticity_31(boolean id0);
139 public void SetComputeVorticity(boolean id0)
140 { SetComputeVorticity_31(id0); }
142 private native boolean GetComputeVorticity_32();
143 public boolean GetComputeVorticity()
144 { return GetComputeVorticity_32(); }
146 private native void SetInterpolatorPrototype_33(vtkAbstractInterpolatedVelocityField id0);
147 public void SetInterpolatorPrototype(vtkAbstractInterpolatedVelocityField id0)
148 { SetInterpolatorPrototype_33(id0); }
150 private native void SetInterpolatorType_34(int id0);
151 public void SetInterpolatorType(int id0)
152 { SetInterpolatorType_34(id0); }
154 public vtkEvenlySpacedStreamlines2D() { super(); }
156 public vtkEvenlySpacedStreamlines2D(long id) { super(id); }
157 public native long VTKInit();