Constructor Detail

• SingleCellArrayImg

  public SingleCellArrayImg(int n)

• SingleCellArrayImg

  public SingleCellArrayImg(int[] cellDims,
                            long[] cellMin,
                            A cellData,
                            Dirty dirtyFlag)

Method Detail

• setLinkedType

  public void setLinkedType(T type)

  Specified by:

  setLinkedType in interface NativeImg<T extends NativeType<T>,A extends ArrayDataAccess<A>>

• createLinkedType

  public T createLinkedType()

  Specified by:

  createLinkedType in interface NativeImg<T extends NativeType<T>,A extends ArrayDataAccess<A>>

• update

  public A update(Object updater)

  Description copied from interface: NativeImg
  called by type with cursor.

  Specified by:

  update in interface NativeImg<T extends NativeType<T>,A extends ArrayDataAccess<A>>

  Parameters:

  updater - cursor

  Returns:

  native array which is referred to by the updater

• getStorageArray

  public Object getStorageArray()

  Get the single primitive array containing the data of this cell.

  Returns:

  primitive array with the cell data. Actual type will be char[], byte[], short[], int[], long[], double[], or float[], depending on the pixel type.

• setDirty

  public void setDirty()

  If the cell is backed by a Dirty-capable access, flag it as dirty. (Otherwise, do nothing.)

• randomAccess

  public RandomAccess<T> randomAccess()

  Description copied from interface: RandomAccessible
  Create a random access sampler for integer coordinates.

  The returned random access covers as much of the domain as possible.

  Please note: RandomAccessibleIntervals have a finite domain (their Interval), so RandomAccessible.randomAccess() is only guaranteed to cover this finite domain. This may lead to unexpected results when using Views. In the following code

   RandomAccessible<T> extended = Views.extendBorder( img )
   RandomAccessibleInterval<T> cropped = Views.interval( extended, img );
   RandomAccess<T> a1 = extended.randomAccess();
   RandomAccess<T> a2 = cropped.randomAccess();
   

  The access a1 on the extended image is valid everywhere. However, somewhat counter-intuitively, the access a2 on the extended and cropped image is only valid on the interval img to which the extended image was cropped. The access is only required to cover this interval, because it is the domain of the cropped image. Views attempts to provide the fastest possible access that meets this requirement, and will therefore strip the extension. To deal with this, if you know that you need to access pixels outside the domain of the RandomAccessibleInterval, and you know that the RandomAccessibleInterval is actually defined beyond its interval boundaries, then use the RandomAccessible.randomAccess(Interval) variant and specify which interval you actually want to access. In the above example,

   RandomAccess<T> a2 = cropped.randomAccess( Intervals.expand( img, 10 ) );
   

  will provide the extended access as expected.

  Specified by:

  randomAccess in interface RandomAccessible<T extends NativeType<T>>

  Returns:

  random access sampler

• randomAccess

  public RandomAccess<T> randomAccess(Interval interval)

  Description copied from interface: RandomAccessible
  Create a random access sampler for integer coordinates.

  The returned random access is intended to be used in the specified interval only. Thus, the RandomAccessible may provide optimized versions. If the interval is completely contained in the domain, the random access is guaranteed to provide the same values as that obtained by RandomAccessible.randomAccess() within the interval.

  Specified by:

  randomAccess in interface RandomAccessible<T extends NativeType<T>>

  Parameters:

  interval - in which interval you intend to use the random access.

  Returns:

  random access sampler

• cursor

  public Cursor<T> cursor()

  Description copied from interface: IterableRealInterval

  Returns a RealCursor that iterates with optimal speed without calculating the location at each iteration step. Localization is performed on demand.

  Use this where localization is required rarely/ not for each iteration.

  Specified by:

  cursor in interface IterableInterval<T extends NativeType<T>>

  Specified by:

  cursor in interface IterableRealInterval<T extends NativeType<T>>

  Returns:

  fast iterating iterator

• localizingCursor

  public Cursor<T> localizingCursor()

  Description copied from interface: IterableRealInterval

  Returns a RealLocalizable Iterator that calculates its location at each iteration step. That is, localization is performed with optimal speed.

  Use this where localization is required often/ for each iteration.

  Specified by:

  localizingCursor in interface IterableInterval<T extends NativeType<T>>

  Specified by:

  localizingCursor in interface IterableRealInterval<T extends NativeType<T>>

  Returns:

  fast localizing iterator

• factory

  public ImgFactory<T> factory()

  Description copied from interface: Img
  Get a ImgFactory that creates Imgs of the same kind as this one. This is useful to create Imgs for temporary storage in generic methods where the specific Img type is unknown. Note, that the factory can be used even if all references to this Img have been invalidated.

  Specified by:

  factory in interface Img<T extends NativeType<T>>

  Returns:

  a factory for Imgs of the same kind as this one.

• copy

  public Img<T> copy()

  Specified by:

  copy in interface Img<T extends NativeType<T>>

  Returns:

  - A copy of the current Img instance, all pixels are duplicated

• size

  public long size()

  Description copied from interface: IterableRealInterval

  Returns the number of elements in this Function.

  Specified by:

  size in interface IterableRealInterval<T extends NativeType<T>>

  Returns:

  number of elements

• firstElement

  public T firstElement()

  Description copied from interface: IterableRealInterval
  Get the first element of this IterableRealInterval. This is a shortcut for cursor().next(). This can be used to create a new variable of type T using firstElement().createVariable(), which is useful in generic methods to store temporary results, e.g., a running sum over pixels in the IterableRealInterval.

  Specified by:

  firstElement in interface IterableRealInterval<T extends NativeType<T>>

  Returns:

  the first element in iteration order.

• iterationOrder

  public Object iterationOrder()

  Description copied from interface: IterableRealInterval
  Returns the iteration order of this IterableRealInterval. If the returned object equals (Object.equals(Object)) the iteration order of another IterableRealInterval f then they can be copied by synchronous iteration. That is, having an Iterator on this and another Iterator on f, moving both in synchrony will point both of them to corresponding locations in their source domain. In other words, this and f have the same iteration order and means and the same number of elements.

  Specified by:

  iterationOrder in interface IterableRealInterval<T extends NativeType<T>>

  Returns:

  the iteration order of this IterableRealInterval.

  See Also:

  FlatIterationOrder

• iterator

  public Iterator<T> iterator()

  Specified by:

  iterator in interface Iterable<T extends NativeType<T>>