// java wrapper for vtkEuclideanClusterExtraction object
//

package vtk;
import vtk.*;

public class vtkEuclideanClusterExtraction extends vtkPolyDataAlgorithm
{

  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 SetRadius_2(double id0);
  public void SetRadius(double id0)
    { SetRadius_2(id0); }

  private native double GetRadiusMinValue_3();
  public double GetRadiusMinValue()
    { return GetRadiusMinValue_3(); }

  private native double GetRadiusMaxValue_4();
  public double GetRadiusMaxValue()
    { return GetRadiusMaxValue_4(); }

  private native double GetRadius_5();
  public double GetRadius()
    { return GetRadius_5(); }

  private native void SetScalarConnectivity_6(boolean id0);
  public void SetScalarConnectivity(boolean id0)
    { SetScalarConnectivity_6(id0); }

  private native boolean GetScalarConnectivity_7();
  public boolean GetScalarConnectivity()
    { return GetScalarConnectivity_7(); }

  private native void ScalarConnectivityOn_8();
  public void ScalarConnectivityOn()
    { ScalarConnectivityOn_8(); }

  private native void ScalarConnectivityOff_9();
  public void ScalarConnectivityOff()
    { ScalarConnectivityOff_9(); }

  private native void SetScalarRange_10(double id0,double id1);
  public void SetScalarRange(double id0,double id1)
    { SetScalarRange_10(id0,id1); }

  private native void SetScalarRange_11(double id0[]);
  public void SetScalarRange(double id0[])
    { SetScalarRange_11(id0); }

  private native double[] GetScalarRange_12();
  public double[] GetScalarRange()
    { return GetScalarRange_12(); }

  private native void SetExtractionMode_13(int id0);
  public void SetExtractionMode(int id0)
    { SetExtractionMode_13(id0); }

  private native int GetExtractionModeMinValue_14();
  public int GetExtractionModeMinValue()
    { return GetExtractionModeMinValue_14(); }

  private native int GetExtractionModeMaxValue_15();
  public int GetExtractionModeMaxValue()
    { return GetExtractionModeMaxValue_15(); }

  private native int GetExtractionMode_16();
  public int GetExtractionMode()
    { return GetExtractionMode_16(); }

  private native void SetExtractionModeToPointSeededClusters_17();
  public void SetExtractionModeToPointSeededClusters()
    { SetExtractionModeToPointSeededClusters_17(); }

  private native void SetExtractionModeToLargestCluster_18();
  public void SetExtractionModeToLargestCluster()
    { SetExtractionModeToLargestCluster_18(); }

  private native void SetExtractionModeToSpecifiedClusters_19();
  public void SetExtractionModeToSpecifiedClusters()
    { SetExtractionModeToSpecifiedClusters_19(); }

  private native void SetExtractionModeToClosestPointCluster_20();
  public void SetExtractionModeToClosestPointCluster()
    { SetExtractionModeToClosestPointCluster_20(); }

  private native void SetExtractionModeToAllClusters_21();
  public void SetExtractionModeToAllClusters()
    { SetExtractionModeToAllClusters_21(); }

  private native String GetExtractionModeAsString_22();
  public String GetExtractionModeAsString()
    { return GetExtractionModeAsString_22(); }

  private native void InitializeSeedList_23();
  public void InitializeSeedList()
    { InitializeSeedList_23(); }

  private native void AddSeed_24(int id0);
  public void AddSeed(int id0)
    { AddSeed_24(id0); }

  private native void DeleteSeed_25(int id0);
  public void DeleteSeed(int id0)
    { DeleteSeed_25(id0); }

  private native void InitializeSpecifiedClusterList_26();
  public void InitializeSpecifiedClusterList()
    { InitializeSpecifiedClusterList_26(); }

  private native void AddSpecifiedCluster_27(int id0);
  public void AddSpecifiedCluster(int id0)
    { AddSpecifiedCluster_27(id0); }

  private native void DeleteSpecifiedCluster_28(int id0);
  public void DeleteSpecifiedCluster(int id0)
    { DeleteSpecifiedCluster_28(id0); }

  private native void SetClosestPoint_29(double id0,double id1,double id2);
  public void SetClosestPoint(double id0,double id1,double id2)
    { SetClosestPoint_29(id0,id1,id2); }

  private native void SetClosestPoint_30(double id0[]);
  public void SetClosestPoint(double id0[])
    { SetClosestPoint_30(id0); }

  private native double[] GetClosestPoint_31();
  public double[] GetClosestPoint()
    { return GetClosestPoint_31(); }

  private native int GetNumberOfExtractedClusters_32();
  public int GetNumberOfExtractedClusters()
    { return GetNumberOfExtractedClusters_32(); }

  private native void SetColorClusters_33(boolean id0);
  public void SetColorClusters(boolean id0)
    { SetColorClusters_33(id0); }

  private native boolean GetColorClusters_34();
  public boolean GetColorClusters()
    { return GetColorClusters_34(); }

  private native void ColorClustersOn_35();
  public void ColorClustersOn()
    { ColorClustersOn_35(); }

  private native void ColorClustersOff_36();
  public void ColorClustersOff()
    { ColorClustersOff_36(); }

  private native void SetLocator_37(vtkAbstractPointLocator id0);
  public void SetLocator(vtkAbstractPointLocator id0)
    { SetLocator_37(id0); }

  private native long GetLocator_38();
  public vtkAbstractPointLocator GetLocator() {
    long temp = GetLocator_38();

    if (temp == 0) return null;
    return (vtkAbstractPointLocator)vtkObjectBase.JAVA_OBJECT_MANAGER.getJavaObject(temp);
}

  public vtkEuclideanClusterExtraction() { super(); }

  public vtkEuclideanClusterExtraction(long id) { super(id); }
  public native long   VTKInit();

}