android-7.0.0_r1/s

/*
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  copy or use the software.


                          BSD 3-Clause License

 Copyright (C) 2014, Olexa Bilaniuk, Hamid Bazargani & Robert Laganiere, all rights reserved.

 Redistribution and use in source and binary forms, with or without modification,
 are permitted provided that the following conditions are met:

   * Redistribution's of source code must retain the above copyright notice,
     this list of conditions and the following disclaimer.

   * Redistribution's in binary form must reproduce the above copyright notice,
     this list of conditions and the following disclaimer in the documentation
     and/or other materials provided with the distribution.

   * The name of the copyright holders may not be used to endorse or promote products
     derived from this software without specific prior written permission.

 This software is provided by the copyright holders and contributors "as is" and
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*/

/**
 * Bilaniuk, Olexa, Hamid Bazargani, and Robert Laganiere. "Fast Target
 * Recognition on Mobile Devices: Revisiting Gaussian Elimination for the
 * Estimation of Planar Homographies." In Computer Vision and Pattern
 * Recognition Workshops (CVPRW), 2014 IEEE Conference on, pp. 119-125.
 * IEEE, 2014.
 */

/* Include Guards */
#ifndef __OPENCV_RHO_H__
#define __OPENCV_RHO_H__


/* Includes */
#include <opencv2/core.hpp>
#include <stdint.h>


/* Defines */


/* Flags */
#ifndef RHO_FLAG_NONE
#define RHO_FLAG_NONE                        (0U<<0)
#endif
#ifndef RHO_FLAG_ENABLE_NR
#define RHO_FLAG_ENABLE_NR                   (1U<<0)
#endif
#ifndef RHO_FLAG_ENABLE_REFINEMENT
#define RHO_FLAG_ENABLE_REFINEMENT           (1U<<1)
#endif
#ifndef RHO_FLAG_ENABLE_FINAL_REFINEMENT
#define RHO_FLAG_ENABLE_FINAL_REFINEMENT     (1U<<2)
#endif


/* Namespace cv */
namespace cv{

/* Data structures */

/**
 * Homography Estimation context.
 */

struct RHO_HEST;
typedef struct RHO_HEST RHO_HEST;


/* Functions */

/**
 * Initialize the estimator context, by allocating the aligned buffers
 * internally needed.
 *
 * @return A pointer to the context if successful; NULL if an error occured.
 */

Ptr<RHO_HEST> rhoInit(void);


/**
 * Ensure that the estimator context's internal table for non-randomness
 * criterion is at least of the given size, and uses the given beta. The table
 * should be larger than the maximum number of matches fed into the estimator.
 *
 * A value of N of 0 requests deallocation of the table.
 *
 * @param [in] p     The initialized estimator context
 * @param [in] N     If 0, deallocate internal table. If > 0, ensure that the
 *                   internal table is of at least this size, reallocating if
 *                   necessary.
 * @param [in] beta  The beta-factor to use within the table.
 * @return 0 if unsuccessful; non-zero otherwise.
 */

int  rhoEnsureCapacity(Ptr<RHO_HEST> p, unsigned N, double beta);


/**
 * Seeds the internal PRNG with the given seed.
 *
 * Although it is not required to call this function, since context
 * initialization seeds itself with entropy from rand(), this function allows
 * reproducible results by using a specified seed.
 *
 * @param [in] p    The estimator context whose PRNG is to be seeded.
 * @param [in] seed The 64-bit integer seed.
 */

void rhoSeed(Ptr<RHO_HEST> p, uint64_t seed);


/**
 * Estimates the homography using the given context, matches and parameters to
 * PROSAC.
 *
 * The given context must have been initialized.
 *
 * The matches are provided as two arrays of N single-precision, floating-point
 * (x,y) points. Points with corresponding offsets in the two arrays constitute
 * a match. The homography estimation attempts to find the 3x3 matrix H which
 * best maps the homogeneous-coordinate points in the source array to their
 * corresponding homogeneous-coordinate points in the destination array.
 *
 *     Note: At least 4 matches must be provided (N >= 4).
 *     Note: A point in either array takes up 2 floats. The first of two stores
 *           the x-coordinate and the second of the two stores the y-coordinate.
 *           Thus, the arrays resemble this in memory:
 *
 *           src =    [x0, y0, x1, y1, x2, y2, x3, y3, x4, y4, ...]
 *           Matches:     |       |       |       |       |
 *           dst =    [x0, y0, x1, y1, x2, y2, x3, y3, x4, y4, ...]
 *     Note: The matches are expected to be provided sorted by quality, or at
 *           least not be worse-than-random in ordering.
 *
 * A pointer to the base of an array of N bytes can be provided. It serves as
 * an output mask to indicate whether the corresponding match is an inlier to
 * the returned homography, if any. A zero indicates an outlier; A non-zero
 * value indicates an inlier.
 *
 * The PROSAC estimator requires a few parameters of its own. These are:
 *
 *     - The maximum distance that a source point projected onto the destination
 *           plane can be from its putative match and still be considered an
 *           inlier. Must be non-negative.
 *           A sane default is 3.0.
 *     - The maximum number of PROSAC iterations. This corresponds to the
 *           largest number of samples that will be drawn and tested.
 *           A sane default is 2000.
 *     - The RANSAC convergence parameter. This corresponds to the number of
 *           iterations after which PROSAC will start sampling like RANSAC.
 *           A sane default is 2000.
 *     - The confidence threshold. This corresponds to the probability of
 *           finding a correct solution. Must be bounded by [0, 1].
 *           A sane default is 0.995.
 *     - The minimum number of inliers acceptable. Only a solution with at
 *           least this many inliers will be returned. The minimum is 4.
 *           A sane default is 10% of N.
 *     - The beta-parameter for the non-randomness termination criterion.
 *           Ignored if non-randomness criterion disabled, otherwise must be
 *           bounded by (0, 1).
 *           A sane default is 0.35.
 *     - Optional flags to control the estimation. Available flags are:
 *           HEST_FLAG_NONE:
 *               No special processing.
 *           HEST_FLAG_ENABLE_NR:
 *               Enable non-randomness criterion. If set, the beta parameter
 *               must also be set.
 *           HEST_FLAG_ENABLE_REFINEMENT:
 *               Enable refinement of each new best model, as they are found.
 *           HEST_FLAG_ENABLE_FINAL_REFINEMENT:
 *               Enable one final refinement of the best model found before
 *               returning it.
 *
 * The PROSAC estimator optionally accepts an extrinsic initial guess of H.
 *
 * The PROSAC estimator outputs a final estimate of H provided it was able to
 * find one with a minimum of supporting inliers. If it was not, it outputs
 * the all-zero matrix.
 *
 * The extrinsic guess at and final estimate of H are both in the same form:
 * A 3x3 single-precision floating-point matrix with step 3. Thus, it is a
 * 9-element array of floats, with the elements as follows:
 *
 *     [ H00, H01, H02,
 *       H10, H11, H12,
 *       H20, H21, 1.0 ]
 *
 * Notice that the homography is normalized to H22 = 1.0.
 *
 * The function returns the number of inliers if it was able to find a
 * homography with at least the minimum required support, and 0 if it was not.
 *
 *
 * @param [in/out] p       The context to use for homography estimation. Must
 *                             be already initialized. Cannot be NULL.
 * @param [in]     src     The pointer to the source points of the matches.
 *                             Must be aligned to 4 bytes. Cannot be NULL.
 * @param [in]     dst     The pointer to the destination points of the matches.
 *                             Must be aligned to 4 bytes. Cannot be NULL.
 * @param [out]    inl     The pointer to the output mask of inlier matches.
 *                             Must be aligned to 4 bytes. May be NULL.
 * @param [in]     N       The number of matches. Minimum 4.
 * @param [in]     maxD    The maximum distance. Minimum 0.
 * @param [in]     maxI    The maximum number of PROSAC iterations.
 * @param [in]     rConvg  The RANSAC convergence parameter.
 * @param [in]     cfd     The required confidence in the solution.
 * @param [in]     minInl  The minimum required number of inliers. Minimum 4.
 * @param [in]     beta    The beta-parameter for the non-randomness criterion.
 * @param [in]     flags   A union of flags to fine-tune the estimation.
 * @param [in]     guessH  An extrinsic guess at the solution H, or NULL if
 *                         none provided.
 * @param [out]    finalH  The final estimation of H, or the zero matrix if
 *                         the minimum number of inliers was not met.
 *                         Cannot be NULL.
 * @return                 The number of inliers if the minimum number of
 *                         inliers for acceptance was reached; 0 otherwise.
 */

unsigned rhoHest(Ptr<RHO_HEST> p,       /* Homography estimation context. */
                 const float*  src,     /* Source points */
                 const float*  dst,     /* Destination points */
                 char*         inl,     /* Inlier mask */
                 unsigned      N,       /*  = src.length = dst.length = inl.length */
                 float         maxD,    /*   3.0 */
                 unsigned      maxI,    /*  2000 */
                 unsigned      rConvg,  /*  2000 */
                 double        cfd,     /* 0.995 */
                 unsigned      minInl,  /*     4 */
                 double        beta,    /*  0.35 */
                 unsigned      flags,   /*     0 */
                 const float*  guessH,  /* Extrinsic guess, NULL if none provided */
                 float*        finalH); /* Final result. */


/* End Namespace cv */
}


#endif