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#ifndef __OPENCV_FUZZY_F0_MATH_H__
#define __OPENCV_FUZZY_F0_MATH_H__

#include "opencv2/fuzzy/types.hpp"
#include "opencv2/core.hpp"

namespace cv
{

namespace ft
{
    //! @addtogroup f0_math
    //! @{

    /** @brief Computes components of the array using direct F0-transform.
    @param matrix Input array.
    @param kernel Kernel used for processing. Function **createKernel** can be used.
    @param components Output 32-bit array for the components.
    @param mask Mask can be used for unwanted area marking.

    The function computes components using predefined kernel and mask.

    @note
        F-transform technique is described in paper @cite Perf:FT.
     */
    CV_EXPORTS_AS(FT02D_components1) void FT02D_components(InputArray matrix, InputArray kernel, OutputArray components, InputArray mask);

    /** @brief Computes components of the array using direct F0-transform.
    @param matrix Input array.
    @param kernel Kernel used for processing. Function **createKernel** can be used.
    @param components Output 32-bit array for the components.

    The function computes components using predefined kernel.

    @note
        F-transform technique is described in paper @cite Perf:FT.
     */
    CV_EXPORTS_W void FT02D_components(InputArray matrix, InputArray kernel, OutputArray components);

    /** @brief Computes inverse F0-transfrom.
    @param components Input 32-bit single channel array for the components.
    @param kernel Kernel used for processing. Function **createKernel** can be used.
    @param output Output 32-bit array.
    @param width Width of the output array.
    @param height Height of the output array.

    @note
        F-transform technique is described in paper @cite Perf:FT.
     */
    CV_EXPORTS_W void FT02D_inverseFT(InputArray components, InputArray kernel, OutputArray output, int width, int height);

    /** @brief Computes F0-transfrom and inverse F0-transfrom at once.
    @param matrix Input matrix.
    @param kernel Kernel used for processing. Function **createKernel** can be used.
    @param output Output 32-bit array.
    @param mask Mask used for unwanted area marking.

    This function computes F-transfrom and inverse F-transfotm in one step. It is fully sufficient and optimized for **Mat**.
    */
    CV_EXPORTS_AS(FT02D_process1) void FT02D_process(InputArray matrix, InputArray kernel, OutputArray output, InputArray mask);

    /** @brief Computes F0-transfrom and inverse F0-transfrom at once.
    @param matrix Input matrix.
    @param kernel Kernel used for processing. Function **createKernel** can be used.
    @param output Output 32-bit array.

    This function computes F-transfrom and inverse F-transfotm in one step. It is fully sufficient and optimized for **Mat**.
    */
    CV_EXPORTS_W void FT02D_process(InputArray matrix, InputArray kernel, OutputArray output);

    /** @brief Computes F0-transfrom and inverse F0-transfrom at once and return state.
    @param matrix Input matrix.
    @param kernel Kernel used for processing. Function **createKernel** can be used.
    @param output Output 32-bit array.
    @param mask Mask used for unwanted area marking.
    @param maskOutput Mask after one iteration.
    @param firstStop If **true** function returns -1 when first problem appears. In case of **false**, the process is completed and summation of all problems returned.

    This function computes iteration of F-transfrom and inverse F-transfotm and handle image and mask change. The function is used in *inpaint* function.
    */
    CV_EXPORTS_W int FT02D_iteration(InputArray matrix, InputArray kernel, OutputArray output, InputArray mask, OutputArray maskOutput, bool firstStop);

    //! @}
}
}

#endif // __OPENCV_FUZZY_F0_MATH_H__