// java wrapper for vtkThreadedImageAlgorithm object
//

package vtk;
import vtk.*;

public class vtkThreadedImageAlgorithm 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 ThreadedExecute_2(vtkImageData id0,vtkImageData id1,int id2[],int id3);
  public void ThreadedExecute(vtkImageData id0,vtkImageData id1,int id2[],int id3)
    { ThreadedExecute_2(id0,id1,id2,id3); }

  private native boolean GetEnableSMP_3();
  public boolean GetEnableSMP()
    { return GetEnableSMP_3(); }

  private native void SetEnableSMP_4(boolean id0);
  public void SetEnableSMP(boolean id0)
    { SetEnableSMP_4(id0); }

  private native void SetGlobalDefaultEnableSMP_5(boolean id0);
  public void SetGlobalDefaultEnableSMP(boolean id0)
    { SetGlobalDefaultEnableSMP_5(id0); }

  private native boolean GetGlobalDefaultEnableSMP_6();
  public boolean GetGlobalDefaultEnableSMP()
    { return GetGlobalDefaultEnableSMP_6(); }

  private native void SetMinimumPieceSize_7(int id0,int id1,int id2);
  public void SetMinimumPieceSize(int id0,int id1,int id2)
    { SetMinimumPieceSize_7(id0,id1,id2); }

  private native void SetMinimumPieceSize_8(int id0[]);
  public void SetMinimumPieceSize(int id0[])
    { SetMinimumPieceSize_8(id0); }

  private native int[]  GetMinimumPieceSize_9();
  public int[]  GetMinimumPieceSize()
    { return GetMinimumPieceSize_9(); }

  private native void SetDesiredBytesPerPiece_10(int id0);
  public void SetDesiredBytesPerPiece(int id0)
    { SetDesiredBytesPerPiece_10(id0); }

  private native int GetDesiredBytesPerPiece_11();
  public int GetDesiredBytesPerPiece()
    { return GetDesiredBytesPerPiece_11(); }

  private native void SetSplitMode_12(int id0);
  public void SetSplitMode(int id0)
    { SetSplitMode_12(id0); }

  private native int GetSplitModeMinValue_13();
  public int GetSplitModeMinValue()
    { return GetSplitModeMinValue_13(); }

  private native int GetSplitModeMaxValue_14();
  public int GetSplitModeMaxValue()
    { return GetSplitModeMaxValue_14(); }

  private native void SetSplitModeToSlab_15();
  public void SetSplitModeToSlab()
    { SetSplitModeToSlab_15(); }

  private native void SetSplitModeToBeam_16();
  public void SetSplitModeToBeam()
    { SetSplitModeToBeam_16(); }

  private native void SetSplitModeToBlock_17();
  public void SetSplitModeToBlock()
    { SetSplitModeToBlock_17(); }

  private native int GetSplitMode_18();
  public int GetSplitMode()
    { return GetSplitMode_18(); }

  private native void SetNumberOfThreads_19(int id0);
  public void SetNumberOfThreads(int id0)
    { SetNumberOfThreads_19(id0); }

  private native int GetNumberOfThreadsMinValue_20();
  public int GetNumberOfThreadsMinValue()
    { return GetNumberOfThreadsMinValue_20(); }

  private native int GetNumberOfThreadsMaxValue_21();
  public int GetNumberOfThreadsMaxValue()
    { return GetNumberOfThreadsMaxValue_21(); }

  private native int GetNumberOfThreads_22();
  public int GetNumberOfThreads()
    { return GetNumberOfThreads_22(); }

  private native int SplitExtent_23(int id0[],int id1[],int id2,int id3);
  public int SplitExtent(int id0[],int id1[],int id2,int id3)
    { return SplitExtent_23(id0,id1,id2,id3); }

  public vtkThreadedImageAlgorithm() { super(); }

  public vtkThreadedImageAlgorithm(long id) { super(id); }

}