/*=========================================================================
 *
 *  Copyright Insight Software Consortium
 *
 *  Licensed under the Apache License, Version 2.0 (the "License");
 *  you may not use this file except in compliance with the License.
 *  You may obtain a copy of the License at
 *
 *         http://www.apache.org/licenses/LICENSE-2.0.txt
 *
 *  Unless required by applicable law or agreed to in writing, software
 *  distributed under the License is distributed on an "AS IS" BASIS,
 *  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 *  See the License for the specific language governing permissions and
 *  limitations under the License.
 *
 *=========================================================================*/
#ifndef itkDanielssonDistanceMapImageFilter_h
#define itkDanielssonDistanceMapImageFilter_h

#include "itkImageToImageFilter.h"
#include "itkImageRegionIteratorWithIndex.h"

namespace itk
{
/** \class DanielssonDistanceMapImageFilter
 *
 * \tparam TInputImage Input Image Type
 * \tparam TOutputImage Output Image Type
 * \tparam TVoronoiImage Voronoi Image Type. Note the default value is TInputImage.
 *
 * \brief This filter computes the distance map of the input image
 * as an approximation with pixel accuracy to the Euclidean distance.
 *
 * The input is assumed to contain numeric codes defining objects.
 * The filter will produce as output the following images:
 *
 * \li A <b>Voronoi partition</b> using the same numeric codes as the input.
 * \li A <b>distance map</b> with the approximation to the euclidean distance.
 *   from a particular pixel to the nearest object to this pixel
 *   in the input image.
 * \li A <b>vector map</b> containing the component of the vector relating
 *   the current pixel with the closest point of the closest object
 *   to this pixel. Given that the components of the distance are
 *   computed in "pixels", the vector is represented by an
 *   itk::Offset. That is, physical coordinates are not used.
 *
 * This filter is N-dimensional and known to be efficient
 * in computational time. The algorithm is the N-dimensional version
 * of the 4SED algorithm given for two dimensions in:
 *
 * Danielsson, Per-Erik.  Euclidean Distance Mapping.  Computer
 * Graphics and Image Processing 14, 227-248 (1980).
 *
 * \ingroup ImageFeatureExtraction
 * \ingroup ITKDistanceMap
 */
template< typename TInputImage,
  typename TOutputImage,
  typename TVoronoiImage = TInputImage >
class ITK_TEMPLATE_EXPORT DanielssonDistanceMapImageFilter:
  public ImageToImageFilter< TInputImage, TOutputImage >
{
public:
  /** Standard class typedefs. */
  typedef DanielssonDistanceMapImageFilter                Self;
  typedef ImageToImageFilter< TInputImage, TOutputImage > Superclass;
  typedef SmartPointer< Self >                            Pointer;
  typedef SmartPointer< const Self >                      ConstPointer;

  typedef DataObject::Pointer                             DataObjectPointer;

  /** Method for creation through the object factory */
  itkNewMacro(Self);

  /** Run-time type information (and related methods). */
  itkTypeMacro(DanielssonDistanceMapImageFilter, ImageToImageFilter);

  /** Type for input image. */
  typedef   TInputImage InputImageType;

  /** Type for input image pixel.*/
  typedef typename InputImageType::PixelType InputPixelType;

  /** Type for the region of the input image. */
  typedef typename InputImageType::RegionType RegionType;

  /** Type for the index of the input image. */
  typedef typename RegionType::IndexType IndexType;

  /** Type for the index of the input image. */
  typedef typename InputImageType::OffsetType OffsetType;

  /** Type for the spacing of the input image. */
  typedef typename InputImageType::SpacingType      SpacingType;
  typedef typename InputImageType::SpacingValueType SpacingValueType;

  /** Type for the size of the input image. */
  typedef typename RegionType::SizeType SizeType;

  /** Type for one size element of the input image.*/
  typedef typename SizeType::SizeValueType SizeValueType;

  /** Type for two of the three output images: the VoronoiMap and the
   * DistanceMap.  */
  typedef   TOutputImage OutputImageType;

  /** Type for output image pixel.*/
  typedef typename OutputImageType::PixelType OutputPixelType;

  typedef TVoronoiImage                         VoronoiImageType;
  typedef typename VoronoiImageType::Pointer    VoronoiImagePointer;
  typedef typename VoronoiImageType::PixelType  VoronoiPixelType;

  /** The dimension of the input and output images. */
  itkStaticConstMacro(InputImageDimension, unsigned int,
                      InputImageType::ImageDimension);

  /** Pointer Type for the vector distance image */
  typedef Image< OffsetType,
                 itkGetStaticConstMacro(InputImageDimension) > VectorImageType;

  /** Pointer Type for input image. */
  typedef typename InputImageType::ConstPointer InputImagePointer;

  /** Pointer Type for the output image. */
  typedef typename OutputImageType::Pointer OutputImagePointer;

  /** Pointer Type for the vector distance image. */
  typedef typename VectorImageType::Pointer VectorImagePointer;

  /** Set if the distance should be squared. */
  itkSetMacro(SquaredDistance, bool);

  /** Get the distance squared. */
  itkGetConstReferenceMacro(SquaredDistance, bool);

  /** Set On/Off if the distance is squared. */
  itkBooleanMacro(SquaredDistance);

  /** Set if the input is binary. If this variable is set, each
   * nonzero pixel in the input image will be given a unique numeric
   * code to be used by the Voronoi partition.  If the image is binary
   * but you are not interested in the Voronoi regions of the
   * different nonzero pixels, then you need not set this.  */
  itkSetMacro(InputIsBinary, bool);

  /** Get if the input is binary.  See SetInputIsBinary(). */
  itkGetConstReferenceMacro(InputIsBinary, bool);

  /** Set On/Off if the input is binary.  See SetInputIsBinary(). */
  itkBooleanMacro(InputIsBinary);

  /** Set if image spacing should be used in computing distances. */
  itkSetMacro(UseImageSpacing, bool);

  /** Get whether spacing is used. */
  itkGetConstReferenceMacro(UseImageSpacing, bool);

  /** Set On/Off whether spacing is used. */
  itkBooleanMacro(UseImageSpacing);

  /** Get Voronoi Map
   * This map shows for each pixel what object is closest to it.
   * Each object should be labeled by a number (larger than 0),
   * so the map has a value for each pixel corresponding to the label
   * of the closest object.  */
  VoronoiImageType * GetVoronoiMap();

  /** Get Distance map image.  The distance map is shown as a gray
   * value image depending on the pixel type of the output image.
   * Regarding the source image, background should be dark (gray value
   * = 0) and object should have a gray value larger than 0.  The
   * minimal distance is calculated on the object frontier, and the
   * output image gives for each pixel its minimal distance from the
   * object (if there is more than one object the closest object is
   * considered). */
  OutputImageType * GetDistanceMap();

  /** Get vector field of distances. */
  VectorImageType * GetVectorDistanceMap();

  /** Standard itk::ProcessObject subclass method. */
  typedef ProcessObject::DataObjectPointerArraySizeType DataObjectPointerArraySizeType;
  using Superclass::MakeOutput;
  virtual DataObjectPointer MakeOutput( DataObjectPointerArraySizeType idx ) ITK_OVERRIDE;

#ifdef ITK_USE_CONCEPT_CHECKING
  itkStaticConstMacro(OutputImageDimension, unsigned int,
                      TOutputImage::ImageDimension);
  itkStaticConstMacro(VoronoiImageDimension, unsigned int,
                      TVoronoiImage::ImageDimension);

  // Begin concept checking
  itkConceptMacro( InputOutputSameDimensionCheck,
                   ( Concept::SameDimension< InputImageDimension, OutputImageDimension > ) );
  itkConceptMacro( InputVoronoiSameDimensionCheck,
                   ( Concept::SameDimension< InputImageDimension, VoronoiImageDimension > ) );
  itkConceptMacro( DoubleConvertibleToOutputCheck,
                   ( Concept::Convertible< double, OutputPixelType > ) );
  itkConceptMacro( InputConvertibleToOutputCheck,
                   ( Concept::Convertible< InputPixelType,
                                           OutputPixelType > ) );
  // End concept checking
#endif

protected:
  DanielssonDistanceMapImageFilter();
  virtual ~DanielssonDistanceMapImageFilter() ITK_OVERRIDE {}
  void PrintSelf(std::ostream & os, Indent indent) const ITK_OVERRIDE;

  /** Compute Danielsson distance map and Voronoi Map. */
  void GenerateData() ITK_OVERRIDE;

  /** Prepare data. */
  void PrepareData();

  /**  Compute Voronoi Map. */
  void ComputeVoronoiMap();

  /** Update distance map locally.  Used by GenerateData(). */
  void UpdateLocalDistance(VectorImageType *,
                           const IndexType &,
                           const OffsetType &);

private:
  ITK_DISALLOW_COPY_AND_ASSIGN(DanielssonDistanceMapImageFilter);

  bool m_SquaredDistance;
  bool m_InputIsBinary;
  bool m_UseImageSpacing;

  SpacingType m_InputSpacingCache;

}; // end of DanielssonDistanceMapImageFilter class
} //end namespace itk

#ifndef ITK_MANUAL_INSTANTIATION
#include "itkDanielssonDistanceMapImageFilter.hxx"
#endif

#endif