OpenCV 5.0.0-pre
Open Source Computer Vision
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cv::detail::PlaneWarper Class Reference

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

#include <opencv2/stitching/detail/warpers.hpp>

Collaboration diagram for cv::detail::PlaneWarper:

Public Member Functions

 PlaneWarper (float scale=1.f)
 Construct an instance of the plane warper class.
 
virtual Rect buildMaps (Size src_size, InputArray K, InputArray R, InputArray T, OutputArray xmap, OutputArray ymap)
 
Rect buildMaps (Size src_size, InputArray K, InputArray R, OutputArray xmap, OutputArray ymap) CV_OVERRIDE
 Builds the projection maps according to the given camera data.
 
virtual Point warp (InputArray src, InputArray K, InputArray R, InputArray T, int interp_mode, int border_mode, OutputArray dst)
 
Point warp (InputArray src, InputArray K, InputArray R, int interp_mode, int border_mode, OutputArray dst) CV_OVERRIDE
 Projects the image.
 
Point2f warpPoint (const Point2f &pt, InputArray K, InputArray R) CV_OVERRIDE
 Projects the image point.
 
Point2f warpPoint (const Point2f &pt, InputArray K, InputArray R, InputArray T)
 
Point2f warpPointBackward (const Point2f &pt, InputArray K, InputArray R) CV_OVERRIDE
 Projects the image point backward.
 
Point2f warpPointBackward (const Point2f &pt, InputArray K, InputArray R, InputArray T)
 
Rect warpRoi (Size src_size, InputArray K, InputArray R) CV_OVERRIDE
 
Rect warpRoi (Size src_size, InputArray K, InputArray R, InputArray T)
 
- Public Member Functions inherited from cv::detail::RotationWarperBase< PlaneProjector >
Rect buildMaps (Size src_size, InputArray K, InputArray R, OutputArray xmap, OutputArray ymap) CV_OVERRIDE
 Builds the projection maps according to the given camera data.
 
float getScale () const CV_OVERRIDE
 
void setScale (float val) CV_OVERRIDE
 
Point warp (InputArray src, InputArray K, InputArray R, int interp_mode, int border_mode, OutputArray dst) CV_OVERRIDE
 Projects the image.
 
void warpBackward (InputArray src, InputArray K, InputArray R, int interp_mode, int border_mode, Size dst_size, OutputArray dst) CV_OVERRIDE
 Projects the image backward.
 
Point2f warpPoint (const Point2f &pt, InputArray K, InputArray R) CV_OVERRIDE
 Projects the image point.
 
Point2f warpPointBackward (const Point2f &pt, InputArray K, InputArray R) CV_OVERRIDE
 Projects the image point backward.
 
Rect warpRoi (Size src_size, InputArray K, InputArray R) CV_OVERRIDE
 
- Public Member Functions inherited from cv::detail::RotationWarper
virtual ~RotationWarper ()
 

Protected Member Functions

void detectResultRoi (Size src_size, Point &dst_tl, Point &dst_br) CV_OVERRIDE
 
- Protected Member Functions inherited from cv::detail::RotationWarperBase< PlaneProjector >
void detectResultRoiByBorder (Size src_size, Point &dst_tl, Point &dst_br)
 

Additional Inherited Members

- Protected Attributes inherited from cv::detail::RotationWarperBase< PlaneProjector >
PlaneProjector projector_
 

Detailed Description

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

Constructor & Destructor Documentation

◆ PlaneWarper()

cv::detail::PlaneWarper::PlaneWarper ( float scale = 1.f)
inline

Construct an instance of the plane warper class.

Parameters
scaleProjected image scale multiplier

Member Function Documentation

◆ buildMaps() [1/2]

virtual Rect cv::detail::PlaneWarper::buildMaps ( Size src_size,
InputArray K,
InputArray R,
InputArray T,
OutputArray xmap,
OutputArray ymap )
virtual

Reimplemented in cv::detail::PlaneWarperGpu.

◆ buildMaps() [2/2]

Rect cv::detail::PlaneWarper::buildMaps ( Size src_size,
InputArray K,
InputArray R,
OutputArray xmap,
OutputArray ymap )
virtual

Builds the projection maps according to the given camera data.

Parameters
src_sizeSource image size
KCamera intrinsic parameters
RCamera rotation matrix
xmapProjection map for the x axis
ymapProjection map for the y axis
Returns
Projected image minimum bounding box

Implements cv::detail::RotationWarper.

Reimplemented in cv::detail::PlaneWarperGpu.

◆ detectResultRoi()

void cv::detail::PlaneWarper::detectResultRoi ( Size src_size,
Point & dst_tl,
Point & dst_br )
protectedvirtual

◆ warp() [1/2]

virtual Point cv::detail::PlaneWarper::warp ( InputArray src,
InputArray K,
InputArray R,
InputArray T,
int interp_mode,
int border_mode,
OutputArray dst )
virtual

Reimplemented in cv::detail::PlaneWarperGpu.

◆ warp() [2/2]

Point cv::detail::PlaneWarper::warp ( InputArray src,
InputArray K,
InputArray R,
int interp_mode,
int border_mode,
OutputArray dst )
virtual

Projects the image.

Parameters
srcSource image
KCamera intrinsic parameters
RCamera rotation matrix
interp_modeInterpolation mode
border_modeBorder extrapolation mode
dstProjected image
Returns
Project image top-left corner

Implements cv::detail::RotationWarper.

Reimplemented in cv::detail::PlaneWarperGpu.

◆ warpPoint() [1/2]

Point2f cv::detail::PlaneWarper::warpPoint ( const Point2f & pt,
InputArray K,
InputArray R )
virtual

Projects the image point.

Parameters
ptSource point
KCamera intrinsic parameters
RCamera rotation matrix
Returns
Projected point

Implements cv::detail::RotationWarper.

◆ warpPoint() [2/2]

Point2f cv::detail::PlaneWarper::warpPoint ( const Point2f & pt,
InputArray K,
InputArray R,
InputArray T )

◆ warpPointBackward() [1/2]

Point2f cv::detail::PlaneWarper::warpPointBackward ( const Point2f & pt,
InputArray K,
InputArray R )
virtual

Projects the image point backward.

Parameters
ptProjected point
KCamera intrinsic parameters
RCamera rotation matrix
Returns
Backward-projected point

Implements cv::detail::RotationWarper.

◆ warpPointBackward() [2/2]

Point2f cv::detail::PlaneWarper::warpPointBackward ( const Point2f & pt,
InputArray K,
InputArray R,
InputArray T )

◆ warpRoi() [1/2]

Rect cv::detail::PlaneWarper::warpRoi ( Size src_size,
InputArray K,
InputArray R )
virtual
Parameters
src_sizeSource image bounding box
KCamera intrinsic parameters
RCamera rotation matrix
Returns
Projected image minimum bounding box

Implements cv::detail::RotationWarper.

◆ warpRoi() [2/2]

Rect cv::detail::PlaneWarper::warpRoi ( Size src_size,
InputArray K,
InputArray R,
InputArray T )

The documentation for this class was generated from the following file: