opencv/modules/stitching/doc/warpers.rst

Images Warping
==============

.. highlight:: cpp

detail::RotationWarper
----------------------
.. ocv:class:: detail::RotationWarper

Rotation-only model image warper interface. ::

    class CV_EXPORTS RotationWarper
    {
    public:
        virtual ~RotationWarper() {}

        virtual Point2f warpPoint(const Point2f &pt, const Mat &K, const Mat &R) = 0;

        virtual Rect buildMaps(Size src_size, const Mat &K, const Mat &R, Mat &xmap, Mat &ymap) = 0;

        virtual Point warp(const Mat &src, const Mat &K, const Mat &R, int interp_mode, int border_mode,
                           Mat &dst) = 0;
       
        virtual void warpBackward(const Mat &src, const Mat &K, const Mat &R, int interp_mode, int border_mode,
                                  Size dst_size, Mat &dst) = 0;

        virtual Rect warpRoi(Size src_size, const Mat &K, const Mat &R) = 0;
    };

detail::RotationWarper::warpPoint
---------------------------------

Projects the image point.

.. ocv:function:: Point2f detail::RotationWarper::warpPoint(const Point2f &pt, const Mat &K, const Mat &R)

    :param pt: Source point
    
    :param K: Camera intrinsic parameters

    :param R: Camera rotation matrix

    :return: Projected point

detail::RotationWarper::buildMaps
---------------------------------

Builds the projection maps according to the given camera data.

.. ocv:function:: Rect detail::RotationWarper::buildMaps(Size src_size, const Mat &K, const Mat &R, Mat &xmap, Mat &ymap)

    :param src_size: Source image size
    
    :param K: Camera intrinsic parameters

    :param R: Camera rotation matrix

    :param xmap: Projection map for the x axis

    :param ymap: Projection map for the y axis

    :return: Projected image minimum bounding box

detail::RotationWarper::warp
----------------------------

Projects the image.

.. ocv:function:: Point detal::RotationWarper::warp(const Mat &src, const Mat &K, const Mat &R, int interp_mode, int border_mode, Mat &dst)

    :param src: Source image
    
    :param K: Camera intrinsic parameters

    :param R: Camera rotation matrix

    :param interp_mode: Interpolation mode

    :param border_mode: Border extrapolation mode

    :param dst: Projected image

    :return: Project image top-left corner

detail::RotationWarper::warpBackward
------------------------------------

Projects the image backward.

.. ocv:function:: void detail::RotationWarper::warpBackward(const Mat &src, const Mat &K, const Mat &R, int interp_mode, int border_mode, Size dst_size, Mat &dst)

    :param src: Projected image

    :param K: Camera intrinsic parameters

    :param R: Camera rotation matrix

    :param interp_mode: Interpolation mode

    :param border_mode: Border extrapolation mode

    :param dst_size: Backward-projected image size

    :param dst_size: Backward-projected image

detail::RotationWarper::warpRoi
-------------------------------

.. ocv:function:: Rect detail::RotationWarper::warpRoi(Size src_size, const Mat &K, const Mat &R)

    :param src_size: Source image bounding box
    
    :param K: Camera intrinsic parameters

    :param R: Camera rotation matrix

    :return: Projected image minimum bounding box

detail::ProjectorBase
---------------------
.. ocv:struct:: detail::ProjectorBase

Base class for warping logic implementation. ::

    struct CV_EXPORTS ProjectorBase
    {
        void setCameraParams(const Mat &K = Mat::eye(3, 3, CV_32F), 
                            const Mat &R = Mat::eye(3, 3, CV_32F), 
                            const Mat &T = Mat::zeros(3, 1, CV_32F));

        float scale;
        float k[9];
        float rinv[9];
        float r_kinv[9];
        float k_rinv[9];
        float t[3];
    };

detail::RotationWarperBase
--------------------------
.. ocv:class:: detail::RotationWarperBase

Base class for rotation-based warper using a `detail::ProjectorBase`_ derived class. ::

    template <class P>
    class CV_EXPORTS RotationWarperBase : public RotationWarper
    {   
    public:
        Point2f warpPoint(const Point2f &pt, const Mat &K, const Mat &R);
        
        Rect buildMaps(Size src_size, const Mat &K, const Mat &R, Mat &xmap, Mat &ymap);

        Point warp(const Mat &src, const Mat &K, const Mat &R, int interp_mode, int border_mode,
                Mat &dst);

        void warpBackward(const Mat &src, const Mat &K, const Mat &R, int interp_mode, int border_mode,
                        Size dst_size, Mat &dst);

        Rect warpRoi(Size src_size, const Mat &K, const Mat &R);

    protected:

        // Detects ROI of the destination image. It's correct for any projection.
        virtual void detectResultRoi(Size src_size, Point &dst_tl, Point &dst_br);

        // Detects ROI of the destination image by walking over image border.
        // Correctness for any projection isn't guaranteed.
        void detectResultRoiByBorder(Size src_size, Point &dst_tl, Point &dst_br);

        P projector_;
    };

detail::PlaneWarper
-------------------
.. ocv:class:: detail::PlaneWarper

Warper that maps an image onto the z = 1 plane. ::

    class CV_EXPORTS PlaneWarper : public RotationWarperBase<PlaneProjector>
    {
    public:
        PlaneWarper(float scale = 1.f) { projector_.scale = scale; }

        void setScale(float scale) { projector_.scale = scale; }

        Point2f warpPoint(const Point2f &pt, const Mat &K, const Mat &R, const Mat &T);

        Rect buildMaps(Size src_size, const Mat &K, const Mat &R, const Mat &T, Mat &xmap, Mat &ymap);

        Point warp(const Mat &src, const Mat &K, const Mat &R, const Mat &T, int interp_mode, int border_mode,
                   Mat &dst);

        Rect warpRoi(Size src_size, const Mat &K, const Mat &R, const Mat &T);

    protected:
        void detectResultRoi(Size src_size, Point &dst_tl, Point &dst_br);
    };

.. seealso:: :ocv:class:`detail::RotationWarper`

detail::SphericalWarper
-----------------------
.. ocv:class:: detail::SphericalWarper

Warper that maps an image onto the unit sphere located at the origin. ::

    class CV_EXPORTS SphericalWarper : public RotationWarperBase<SphericalProjector>
    {
    public:
        SphericalWarper(float scale) { projector_.scale = scale; }

    protected:
        void detectResultRoi(Size src_size, Point &dst_tl, Point &dst_br);
    };

.. seealso:: :ocv:class:`detail::RotationWarper`
   
detail::CylindricalWarper
-------------------------
.. ocv:class:: detail::CylindricalWarper

Warper that maps an image onto the x*x + z*z = 1 cylinder. ::
    
    class CV_EXPORTS CylindricalWarper : public RotationWarperBase<CylindricalProjector>
    {
    public:
        CylindricalWarper(float scale) { projector_.scale = scale; }

    protected:
        void detectResultRoi(Size src_size, Point &dst_tl, Point &dst_br)
        { 
            RotationWarperBase<CylindricalProjector>::detectResultRoiByBorder(src_size, dst_tl, dst_br); 
        }
    };

.. seealso:: :ocv:class:`detail::RotationWarper`
Updated the stitching module docs 13 years ago			`Images Warping`
			`==============`

			`.. highlight:: cpp`

			`detail::RotationWarper`
			`----------------------`
			`.. ocv:class:: detail::RotationWarper`

Updated the stitching module docs 13 years ago			`Rotation-only model image warper interface. ::`
Updated the stitching module docs 13 years ago
			`class CV_EXPORTS RotationWarper`
			`{`
			`public:`
			`virtual ~RotationWarper() {}`

			`virtual Point2f warpPoint(const Point2f &pt, const Mat &K, const Mat &R) = 0;`

			`virtual Rect buildMaps(Size src_size, const Mat &K, const Mat &R, Mat &xmap, Mat &ymap) = 0;`

			`virtual Point warp(const Mat &src, const Mat &K, const Mat &R, int interp_mode, int border_mode,`
			`Mat &dst) = 0;`

			`virtual void warpBackward(const Mat &src, const Mat &K, const Mat &R, int interp_mode, int border_mode,`
			`Size dst_size, Mat &dst) = 0;`

			`virtual Rect warpRoi(Size src_size, const Mat &K, const Mat &R) = 0;`
			`};`

Updated the stitching module docs 13 years ago			`detail::RotationWarper::warpPoint`
			`---------------------------------`

			`Projects the image point.`

			`.. ocv:function:: Point2f detail::RotationWarper::warpPoint(const Point2f &pt, const Mat &K, const Mat &R)`

			`:param pt: Source point`

			`:param K: Camera intrinsic parameters`

			`:param R: Camera rotation matrix`

			`:return: Projected point`

			`detail::RotationWarper::buildMaps`
			`---------------------------------`

			`Builds the projection maps according to the given camera data.`

			`.. ocv:function:: Rect detail::RotationWarper::buildMaps(Size src_size, const Mat &K, const Mat &R, Mat &xmap, Mat &ymap)`

			`:param src_size: Source image size`

			`:param K: Camera intrinsic parameters`

			`:param R: Camera rotation matrix`

			`:param xmap: Projection map for the x axis`

			`:param ymap: Projection map for the y axis`

			`:return: Projected image minimum bounding box`

			`detail::RotationWarper::warp`
			`----------------------------`

			`Projects the image.`

			`.. ocv:function:: Point detal::RotationWarper::warp(const Mat &src, const Mat &K, const Mat &R, int interp_mode, int border_mode, Mat &dst)`

			`:param src: Source image`

			`:param K: Camera intrinsic parameters`

			`:param R: Camera rotation matrix`

			`:param interp_mode: Interpolation mode`

			`:param border_mode: Border extrapolation mode`

			`:param dst: Projected image`

			`:return: Project image top-left corner`

			`detail::RotationWarper::warpBackward`
			`------------------------------------`

			`Projects the image backward.`

			`.. ocv:function:: void detail::RotationWarper::warpBackward(const Mat &src, const Mat &K, const Mat &R, int interp_mode, int border_mode, Size dst_size, Mat &dst)`

			`:param src: Projected image`

			`:param K: Camera intrinsic parameters`

			`:param R: Camera rotation matrix`

			`:param interp_mode: Interpolation mode`

			`:param border_mode: Border extrapolation mode`

			`:param dst_size: Backward-projected image size`

			`:param dst_size: Backward-projected image`

			`detail::RotationWarper::warpRoi`
			`-------------------------------`

			`.. ocv:function:: Rect detail::RotationWarper::warpRoi(Size src_size, const Mat &K, const Mat &R)`

			`:param src_size: Source image bounding box`

			`:param K: Camera intrinsic parameters`

			`:param R: Camera rotation matrix`

			`:return: Projected image minimum bounding box`

			`detail::ProjectorBase`
			`---------------------`
			`.. ocv:struct:: detail::ProjectorBase`

			`Base class for warping logic implementation. ::`

			`struct CV_EXPORTS ProjectorBase`
			`{`
			`void setCameraParams(const Mat &K = Mat::eye(3, 3, CV_32F),`
			`const Mat &R = Mat::eye(3, 3, CV_32F),`
			`const Mat &T = Mat::zeros(3, 1, CV_32F));`

			`float scale;`
			`float k[9];`
			`float rinv[9];`
			`float r_kinv[9];`
			`float k_rinv[9];`
			`float t[3];`
			`};`

			`detail::RotationWarperBase`
			`--------------------------`
			`.. ocv:class:: detail::RotationWarperBase`

			Base class for rotation-based warper using a `detail::ProjectorBase`_ derived class. ::

			`template <class P>`
			`class CV_EXPORTS RotationWarperBase : public RotationWarper`
			`{`
			`public:`
			`Point2f warpPoint(const Point2f &pt, const Mat &K, const Mat &R);`

			`Rect buildMaps(Size src_size, const Mat &K, const Mat &R, Mat &xmap, Mat &ymap);`

			`Point warp(const Mat &src, const Mat &K, const Mat &R, int interp_mode, int border_mode,`
			`Mat &dst);`

			`void warpBackward(const Mat &src, const Mat &K, const Mat &R, int interp_mode, int border_mode,`
			`Size dst_size, Mat &dst);`

			`Rect warpRoi(Size src_size, const Mat &K, const Mat &R);`

			`protected:`

			`// Detects ROI of the destination image. It's correct for any projection.`
			`virtual void detectResultRoi(Size src_size, Point &dst_tl, Point &dst_br);`

			`// Detects ROI of the destination image by walking over image border.`
			`// Correctness for any projection isn't guaranteed.`
			`void detectResultRoiByBorder(Size src_size, Point &dst_tl, Point &dst_br);`

			`P projector_;`
			`};`

Updated the stitching module docs 13 years ago			`detail::PlaneWarper`
			`-------------------`
			`.. ocv:class:: detail::PlaneWarper`

			`Warper that maps an image onto the z = 1 plane. ::`

			`class CV_EXPORTS PlaneWarper : public RotationWarperBase<PlaneProjector>`
			`{`
			`public:`
			`PlaneWarper(float scale = 1.f) { projector_.scale = scale; }`

			`void setScale(float scale) { projector_.scale = scale; }`

			`Point2f warpPoint(const Point2f &pt, const Mat &K, const Mat &R, const Mat &T);`

			`Rect buildMaps(Size src_size, const Mat &K, const Mat &R, const Mat &T, Mat &xmap, Mat &ymap);`

			`Point warp(const Mat &src, const Mat &K, const Mat &R, const Mat &T, int interp_mode, int border_mode,`
			`Mat &dst);`

			`Rect warpRoi(Size src_size, const Mat &K, const Mat &R, const Mat &T);`

			`protected:`
			`void detectResultRoi(Size src_size, Point &dst_tl, Point &dst_br);`
			`};`

			.. seealso:: :ocv:class:`detail::RotationWarper`

			`detail::SphericalWarper`
			`-----------------------`
			`.. ocv:class:: detail::SphericalWarper`

			`Warper that maps an image onto the unit sphere located at the origin. ::`

			`class CV_EXPORTS SphericalWarper : public RotationWarperBase<SphericalProjector>`
			`{`
			`public:`
			`SphericalWarper(float scale) { projector_.scale = scale; }`

			`protected:`
			`void detectResultRoi(Size src_size, Point &dst_tl, Point &dst_br);`
			`};`

			.. seealso:: :ocv:class:`detail::RotationWarper`

			`detail::CylindricalWarper`
			`-------------------------`
			`.. ocv:class:: detail::CylindricalWarper`

			`Warper that maps an image onto the xx + zz = 1 cylinder. ::`

			`class CV_EXPORTS CylindricalWarper : public RotationWarperBase<CylindricalProjector>`
			`{`
			`public:`
			`CylindricalWarper(float scale) { projector_.scale = scale; }`

			`protected:`
			`void detectResultRoi(Size src_size, Point &dst_tl, Point &dst_br)`
			`{`
			`RotationWarperBase<CylindricalProjector>::detectResultRoiByBorder(src_size, dst_tl, dst_br);`
			`}`
			`};`

			.. seealso:: :ocv:class:`detail::RotationWarper`