// java wrapper for vtkCheckerboardSplatter object // package vtk; import vtk.*; public class vtkCheckerboardSplatter extends vtkImageAlgorithm { 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 SetSampleDimensions_2(int id0,int id1,int id2); public void SetSampleDimensions(int id0,int id1,int id2) { SetSampleDimensions_2(id0,id1,id2); } private native void SetSampleDimensions_3(int id0[]); public void SetSampleDimensions(int id0[]) { SetSampleDimensions_3(id0); } private native int[] GetSampleDimensions_4(); public int[] GetSampleDimensions() { return GetSampleDimensions_4(); } private native void SetModelBounds_5(double id0,double id1,double id2,double id3,double id4,double id5); public void SetModelBounds(double id0,double id1,double id2,double id3,double id4,double id5) { SetModelBounds_5(id0,id1,id2,id3,id4,id5); } private native void SetModelBounds_6(double id0[]); public void SetModelBounds(double id0[]) { SetModelBounds_6(id0); } private native double[] GetModelBounds_7(); public double[] GetModelBounds() { return GetModelBounds_7(); } private native void SetFootprint_8(int id0); public void SetFootprint(int id0) { SetFootprint_8(id0); } private native int GetFootprintMinValue_9(); public int GetFootprintMinValue() { return GetFootprintMinValue_9(); } private native int GetFootprintMaxValue_10(); public int GetFootprintMaxValue() { return GetFootprintMaxValue_10(); } private native int GetFootprint_11(); public int GetFootprint() { return GetFootprint_11(); } private native void SetRadius_12(double id0); public void SetRadius(double id0) { SetRadius_12(id0); } private native double GetRadiusMinValue_13(); public double GetRadiusMinValue() { return GetRadiusMinValue_13(); } private native double GetRadiusMaxValue_14(); public double GetRadiusMaxValue() { return GetRadiusMaxValue_14(); } private native double GetRadius_15(); public double GetRadius() { return GetRadius_15(); } private native void SetScaleFactor_16(double id0); public void SetScaleFactor(double id0) { SetScaleFactor_16(id0); } private native double GetScaleFactorMinValue_17(); public double GetScaleFactorMinValue() { return GetScaleFactorMinValue_17(); } private native double GetScaleFactorMaxValue_18(); public double GetScaleFactorMaxValue() { return GetScaleFactorMaxValue_18(); } private native double GetScaleFactor_19(); public double GetScaleFactor() { return GetScaleFactor_19(); } private native void SetExponentFactor_20(double id0); public void SetExponentFactor(double id0) { SetExponentFactor_20(id0); } private native double GetExponentFactor_21(); public double GetExponentFactor() { return GetExponentFactor_21(); } private native void SetScalarWarping_22(int id0); public void SetScalarWarping(int id0) { SetScalarWarping_22(id0); } private native int GetScalarWarping_23(); public int GetScalarWarping() { return GetScalarWarping_23(); } private native void ScalarWarpingOn_24(); public void ScalarWarpingOn() { ScalarWarpingOn_24(); } private native void ScalarWarpingOff_25(); public void ScalarWarpingOff() { ScalarWarpingOff_25(); } private native void SetNormalWarping_26(int id0); public void SetNormalWarping(int id0) { SetNormalWarping_26(id0); } private native int GetNormalWarping_27(); public int GetNormalWarping() { return GetNormalWarping_27(); } private native void NormalWarpingOn_28(); public void NormalWarpingOn() { NormalWarpingOn_28(); } private native void NormalWarpingOff_29(); public void NormalWarpingOff() { NormalWarpingOff_29(); } private native void SetEccentricity_30(double id0); public void SetEccentricity(double id0) { SetEccentricity_30(id0); } private native double GetEccentricityMinValue_31(); public double GetEccentricityMinValue() { return GetEccentricityMinValue_31(); } private native double GetEccentricityMaxValue_32(); public double GetEccentricityMaxValue() { return GetEccentricityMaxValue_32(); } private native double GetEccentricity_33(); public double GetEccentricity() { return GetEccentricity_33(); } private native void SetAccumulationMode_34(int id0); public void SetAccumulationMode(int id0) { SetAccumulationMode_34(id0); } private native int GetAccumulationModeMinValue_35(); public int GetAccumulationModeMinValue() { return GetAccumulationModeMinValue_35(); } private native int GetAccumulationModeMaxValue_36(); public int GetAccumulationModeMaxValue() { return GetAccumulationModeMaxValue_36(); } private native int GetAccumulationMode_37(); public int GetAccumulationMode() { return GetAccumulationMode_37(); } private native void SetAccumulationModeToMin_38(); public void SetAccumulationModeToMin() { SetAccumulationModeToMin_38(); } private native void SetAccumulationModeToMax_39(); public void SetAccumulationModeToMax() { SetAccumulationModeToMax_39(); } private native void SetAccumulationModeToSum_40(); public void SetAccumulationModeToSum() { SetAccumulationModeToSum_40(); } private native String GetAccumulationModeAsString_41(); public String GetAccumulationModeAsString() { return GetAccumulationModeAsString_41(); } private native void SetOutputScalarType_42(int id0); public void SetOutputScalarType(int id0) { SetOutputScalarType_42(id0); } private native int GetOutputScalarType_43(); public int GetOutputScalarType() { return GetOutputScalarType_43(); } private native void SetOutputScalarTypeToDouble_44(); public void SetOutputScalarTypeToDouble() { SetOutputScalarTypeToDouble_44(); } private native void SetOutputScalarTypeToFloat_45(); public void SetOutputScalarTypeToFloat() { SetOutputScalarTypeToFloat_45(); } private native void SetCapping_46(int id0); public void SetCapping(int id0) { SetCapping_46(id0); } private native int GetCapping_47(); public int GetCapping() { return GetCapping_47(); } private native void CappingOn_48(); public void CappingOn() { CappingOn_48(); } private native void CappingOff_49(); public void CappingOff() { CappingOff_49(); } private native void SetCapValue_50(double id0); public void SetCapValue(double id0) { SetCapValue_50(id0); } private native double GetCapValue_51(); public double GetCapValue() { return GetCapValue_51(); } private native void SetNullValue_52(double id0); public void SetNullValue(double id0) { SetNullValue_52(id0); } private native double GetNullValue_53(); public double GetNullValue() { return GetNullValue_53(); } private native void SetMaximumDimension_54(int id0); public void SetMaximumDimension(int id0) { SetMaximumDimension_54(id0); } private native int GetMaximumDimensionMinValue_55(); public int GetMaximumDimensionMinValue() { return GetMaximumDimensionMinValue_55(); } private native int GetMaximumDimensionMaxValue_56(); public int GetMaximumDimensionMaxValue() { return GetMaximumDimensionMaxValue_56(); } private native int GetMaximumDimension_57(); public int GetMaximumDimension() { return GetMaximumDimension_57(); } private native void SetParallelSplatCrossover_58(int id0); public void SetParallelSplatCrossover(int id0) { SetParallelSplatCrossover_58(id0); } private native int GetParallelSplatCrossoverMinValue_59(); public int GetParallelSplatCrossoverMinValue() { return GetParallelSplatCrossoverMinValue_59(); } private native int GetParallelSplatCrossoverMaxValue_60(); public int GetParallelSplatCrossoverMaxValue() { return GetParallelSplatCrossoverMaxValue_60(); } private native int GetParallelSplatCrossover_61(); public int GetParallelSplatCrossover() { return GetParallelSplatCrossover_61(); } private native void ComputeModelBounds_62(vtkDataSet id0,vtkImageData id1,vtkInformation id2); public void ComputeModelBounds(vtkDataSet id0,vtkImageData id1,vtkInformation id2) { ComputeModelBounds_62(id0,id1,id2); } public vtkCheckerboardSplatter() { super(); } public vtkCheckerboardSplatter(long id) { super(id); } public native long VTKInit(); }