Constructor Detail

• ComplexDoubleType

  public ComplexDoubleType(DirectAccessContainer<ComplexDoubleType,? extends DoubleAccess> complexfloatStorage)

• ComplexDoubleType

  public ComplexDoubleType(double real,
                           double complex)

• ComplexDoubleType

  public ComplexDoubleType()

Method Detail

• createSuitableDirectAccessContainer

  public DirectAccessContainer<ComplexDoubleType,? extends DoubleAccess> createSuitableDirectAccessContainer(DirectAccessContainerFactory storageFactory,
                                                                                                             int[] dim)

  Description copied from interface: Type
  The Type creates the DirectAccessContainer used for storing image data; based on the given storage strategy and its size. It basically only decides here which BasicType it uses (float, int, byte, bit, ...) and how many entities per pixel it needs (e.g. 2 floats per pixel for a complex number). This enables the separation of Image and the basic types.

  Specified by:

  createSuitableDirectAccessContainer in interface Type<ComplexDoubleType>

  Parameters:

  storageFactory - - Which storage strategy is used

  dim - - the dimensions

  Returns:

  - the instantiated DirectAccessContainer where only the Type knowns the BasicType it contains.

• updateContainer

  public void updateContainer(Cursor<?> c)

  Description copied from interface: Type
  This method is used by the Cursors to update the data current data array of the Type, for example when moving from one Cell to the next. If it is only an Array the Cursors never have to call that function. The idea behind this concept is maybe not obvious. The Type knows which basic type is used (float, int, byte, ...) but does not know how it is stored (Array, CellDirectAccessContainer, ...) to prevent multiple implementations of Type. That's why Type asks the DataAccess to give the actual basic array by passing the Cursor that calls the method. The DataAccess is also an Array, CellDirectAccessContainer, ... which can then communicate with the ArrayCursor, CellCursor, ... and return the current basic type array. A typical implementation of this method looks like that (this is the FloatType implementation): float[] v = floatStorage.getCurrentStorageArray( c );

  Specified by:

  updateContainer in interface Type<ComplexDoubleType>

  Parameters:

  c - - the Cursor gives a link to itself so that the Type tell its DataAccess to get the new basic type array.

• duplicateTypeOnSameDirectAccessContainer

  public ComplexDoubleType duplicateTypeOnSameDirectAccessContainer()

  Description copied from interface: Type
  Creates a new Type which stores in the same physical array. This is only used internally.

  Specified by:

  duplicateTypeOnSameDirectAccessContainer in interface Type<ComplexDoubleType>

  Returns:

  - a new Type instance working on the same DirectAccessContainer

• getRealFloat

  public float getRealFloat()

  Specified by:

  getRealFloat in interface ComplexType<ComplexDoubleType>

• getRealDouble

  public double getRealDouble()

  Specified by:

  getRealDouble in interface ComplexType<ComplexDoubleType>

• getComplexFloat

  public float getComplexFloat()

  Specified by:

  getComplexFloat in interface ComplexType<ComplexDoubleType>

• getComplexDouble

  public double getComplexDouble()

  Specified by:

  getComplexDouble in interface ComplexType<ComplexDoubleType>

• setReal

  public void setReal(float real)

  Specified by:

  setReal in interface ComplexType<ComplexDoubleType>

• setReal

  public void setReal(double real)

  Specified by:

  setReal in interface ComplexType<ComplexDoubleType>

• setComplex

  public void setComplex(float complex)

  Specified by:

  setComplex in interface ComplexType<ComplexDoubleType>

• setComplex

  public void setComplex(double complex)

  Specified by:

  setComplex in interface ComplexType<ComplexDoubleType>

• set

  public void set(double real,
                  double complex)

• set

  public void set(ComplexDoubleType c)

  Description copied from interface: Type
  Sets the value of another Type.

  Specified by:

  set in interface Type<ComplexDoubleType>

  Overrides:

  set in class ComplexTypeImpl<ComplexDoubleType>

  Parameters:

  c - - the new value

• createArray1D

  public ComplexDoubleType[] createArray1D(int size1)

  Description copied from interface: Type
  Creates a 1d array of the generic Type

  Specified by:

  createArray1D in interface Type<ComplexDoubleType>

  Parameters:

  size1 - - the size of the array

  Returns:

  - T[] array

• createArray2D

  public ComplexDoubleType[][] createArray2D(int size1,
                                             int size2)

  Description copied from interface: Type
  Creates a 2d array of the generic Type

  Specified by:

  createArray2D in interface Type<ComplexDoubleType>

  Parameters:

  size1 - - the size of the array

  size2 - - the size of the array

  Returns:

  - T[][] array

• createArray3D

  public ComplexDoubleType[][][] createArray3D(int size1,
                                               int size2,
                                               int size3)

  Description copied from interface: Type
  Creates a 3d array of the generic Type

  Specified by:

  createArray3D in interface Type<ComplexDoubleType>

  Parameters:

  size1 - - the size of the array

  size2 - - the size of the array

  size3 - - the size of the array

  Returns:

  - T[][][] array

• createVariable

  public ComplexDoubleType createVariable()

  Description copied from interface: Type
  Creates a new Type which can only store one value.

  Specified by:

  createVariable in interface Type<ComplexDoubleType>

  Returns:

  - a new Type instance

• copy

  public ComplexDoubleType copy()

  Description copied from interface: Type
  Creates a new Type which can only store one value but contains the value of this Type

  Specified by:

  copy in interface Type<ComplexDoubleType>

  Specified by:

  copy in class TypeImpl<ComplexDoubleType>

  Returns:

  - a new Type instance