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#ifndef __OPENCV_FAST_HOUGH_TRANSFORM_HPP__
#define __OPENCV_FAST_HOUGH_TRANSFORM_HPP__
#ifdef __cplusplus

#include "opencv2/core.hpp"


namespace cv { namespace ximgproc {

/**
* @brief   Specifies the part of Hough space to calculate
* @details The enum specifies the part of Hough space to calculate. Each
* member specifies primarily direction of lines (horizontal or vertical)
* and the direction of angle changes.
* Direction of angle changes is from multiples of 90 to odd multiples of 45.
* The image considered to be written top-down and left-to-right.
* Angles are started from vertical line and go clockwise.
* Separate quarters and halves are written in orientation they should be in
* full Hough space.
*/
enum AngleRangeOption
{
  ARO_0_45    = 0, //< Vertical primarily direction and clockwise angle changes
  ARO_45_90   = 1, //< Horizontal primarily direction and counterclockwise angle changes
  ARO_90_135  = 2, //< Horizontal primarily direction and clockwise angle changes
  ARO_315_0   = 3, //< Vertical primarily direction and counterclockwise angle changes
  ARO_315_45  = 4, //< Vertical primarily direction
  ARO_45_135  = 5, //< Horizontal primarily direction
  ARO_315_135 = 6, //< Full set of directions
  ARO_CTR_HOR = 7, //< 90 +/- atan(0.5), interval approximately from 64.5 to 116.5 degrees.
                   //< It is used for calculating Fast Hough Transform for images skewed by atan(0.5).
  ARO_CTR_VER = 8  //< +/- atan(0.5), interval approximately from 333.5(-26.5) to 26.5 degrees
                   //< It is used for calculating Fast Hough Transform for images skewed by atan(0.5).
};

/**
 * @brief   Specifies binary operations.
 * @details The enum specifies binary operations, that is such ones which involve
 *          two operands. Formally, a binary operation @f$ f @f$ on a set @f$ S @f$
 *          is a binary relation that maps elements of the Cartesian product
 *          @f$ S \times S @f$ to @f$ S @f$:
*           @f[ f: S \times S \to S @f]
 * @ingroup MinUtils_MathOper
 */
enum HoughOp
{
  FHT_MIN = 0,  //< Binary minimum operation. The constant specifies the binary minimum operation
                //< @f$ f @f$ that is defined as follows: @f[ f(x, y) = \min(x, y) @f]
  FHT_MAX = 1,  //< Binary maximum operation. The constant specifies the binary maximum operation
                //< @f$ f @f$ that is defined as follows: @f[ f(x, y) = \max(x, y) @f]
  FHT_ADD = 2,  //< Binary addition operation. The constant specifies the binary addition operation
                //< @f$ f @f$ that is defined as follows: @f[ f(x, y) = x + y @f]
  FHT_AVE = 3   //< Binary average operation. The constant specifies the binary average operation
                //< @f$ f @f$ that is defined as follows: @f[ f(x, y) = \frac{x + y}{2} @f]
};

/**
* @brief   Specifies to do or not to do skewing of Hough transform image
* @details The enum specifies to do or not to do skewing of Hough transform image
* so it would be no cycling in Hough transform image through borders of image.
*/
enum HoughDeskewOption
{
  HDO_RAW    = 0, //< Use raw cyclic image
  HDO_DESKEW = 1  //< Prepare deskewed image
};

/**
 * @brief   Specifies the degree of rules validation.
 * @details The enum specifies the degree of rules validation. This can be used,
 *          for example, to choose a proper way of input arguments validation.
 */
typedef enum {
  RO_STRICT          = 0x00,  ///< Validate each rule in a proper way.
  RO_IGNORE_BORDERS  = 0x01,  ///< Skip validations of image borders.
} RulesOption;

/**
* @brief   Calculates 2D Fast Hough transform of an image.
* @param   dst         The destination image, result of transformation.
* @param   src         The source (input) image.
* @param   dstMatDepth The depth of destination image
* @param   op          The operation to be applied, see cv::HoughOp
* @param   angleRange  The part of Hough space to calculate, see cv::AngleRangeOption
* @param   makeSkew    Specifies to do or not to do image skewing, see cv::HoughDeskewOption
*
* The function calculates the fast Hough transform for full, half or quarter
* range of angles.
*/
CV_EXPORTS void FastHoughTransform( InputArray  src,
                                    OutputArray dst,
                                    int         dstMatDepth,
                                    int         angleRange = ARO_315_135,
                                    int         op = FHT_ADD,
                                    int         makeSkew = HDO_DESKEW );

/**
* @brief   Calculates coordinates of line segment corresponded by point in Hough space.
* @param   houghPoint  Point in Hough space.
* @param   srcImgInfo The source (input) image of Hough transform.
* @param   angleRange  The part of Hough space where point is situated, see cv::AngleRangeOption
* @param   makeSkew    Specifies to do or not to do image skewing, see cv::HoughDeskewOption
* @param   rules       Specifies strictness of line segment calculating, see cv::RulesOption
* @retval  [Vec4i]     Coordinates of line segment corresponded by point in Hough space.
* @remarks If rules parameter set to RO_STRICT
           then returned line cut along the border of source image.
* @remarks If rules parameter set to RO_WEAK then in case of point, which belongs
           the incorrect part of Hough image, returned line will not intersect source image.
*
* The function calculates coordinates of line segment corresponded by point in Hough space.
*/
CV_EXPORTS Vec4i HoughPoint2Line(const Point &houghPoint,
                                 InputArray  srcImgInfo,
                                 int         angleRange = ARO_315_135,
                                 int         makeSkew = HDO_DESKEW,
                                 int         rules = RO_IGNORE_BORDERS );

} }// namespace cv::ximgproc

#endif //__cplusplus
#endif //__OPENCV_FAST_HOUGH_TRANSFORM_HPP__