// // C++: static Ptr_AffineFeature cv::AffineFeature::create(Ptr_Feature2D backend, int maxTilt = 5, int minTilt = 0, float tiltStep = 1.4142135623730951f, float rotateStepBase = 72) // /** * param backend The detector/extractor you want to use as backend. * param maxTilt The highest power index of tilt factor. 5 is used in the paper as tilt sampling range n. * param minTilt The lowest power index of tilt factor. 0 is used in the paper. * param tiltStep Tilt sampling step \(\delta_t\) in Algorithm 1 in the paper. * param rotateStepBase Rotation sampling step factor b in Algorithm 1 in the paper. * return automatically generated */ public static AffineFeature create(Feature2D backend, int maxTilt, int minTilt, float tiltStep, float rotateStepBase) { if (backend != null) { backend.ThrowIfDisposed(); } return(AffineFeature.__fromPtr__(features2d_AffineFeature_create_10(backend.getNativeObjAddr(), maxTilt, minTilt, tiltStep, rotateStepBase))); }
/** * param backend The detector/extractor you want to use as backend. * param maxTilt The highest power index of tilt factor. 5 is used in the paper as tilt sampling range n. * param minTilt The lowest power index of tilt factor. 0 is used in the paper. * return automatically generated */ public static AffineFeature create(Feature2D backend, int maxTilt, int minTilt) { if (backend != null) { backend.ThrowIfDisposed(); } return(AffineFeature.__fromPtr__(features2d_AffineFeature_create_12(backend.getNativeObjAddr(), maxTilt, minTilt))); }
/** * param backend The detector/extractor you want to use as backend. * return automatically generated */ public static AffineFeature create(Feature2D backend) { if (backend != null) { backend.ThrowIfDisposed(); } return(AffineFeature.__fromPtr__(features2d_AffineFeature_create_14(backend.getNativeObjAddr()))); }