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https://github.com/opencv/opencv.git
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initial implementation of projection matrix, 3D to window coordinates, window coordinates to 3D ray (not yet tested)
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@ -110,6 +110,8 @@ namespace cv
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inline const Vec2f & getFov() const { return fov_; }
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inline void setFov(const Vec2f & fov) { fov_ = fov; }
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void computeProjectionMatrix(Matx44f &proj) const;
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private:
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Vec2d clip_;
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Vec2f fov_;
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@ -43,6 +43,9 @@ namespace cv
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Affine3f getViewerPose();
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void setViewerPose(const Affine3f &pose);
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void convertToWindowCoordinates(const Point3f &pt, Point3f &window_coord);
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void converTo3DRay(const Point3f &window_coord, Point3f &origin, Vec3f &direction);
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void spin();
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void spinOnce(int time = 1, bool force_redraw = false);
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bool wasStopped() const;
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@ -196,3 +196,26 @@ void cv::viz::Camera2::setWindowSize(const Size &window_size)
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else
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fov_[0] = (atan2(principal_point_[0],focal_[0]) + atan2(window_size.width-principal_point_[0],focal_[0])) * 180 / CV_PI;
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}
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void cv::viz::Camera2::computeProjectionMatrix(Matx44f &proj) const
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{
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double top = clip_[0] * tan (0.5 * fov_[1]);
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double left = -(top * window_size_.width) / window_size_.height;
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double right = -left;
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double bottom = -top;
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double temp1 = 2.0 * clip_[0];
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double temp2 = 1.0 / (right - left);
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double temp3 = 1.0 / (top - bottom);
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double temp4 = 1.0 / clip_[1] - clip_[0];
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proj = Matx44d::zeros();
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proj(0,0) = temp1 * temp2;
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proj(1,1) = temp1 * temp3;
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proj(0,2) = (right + left) * temp2;
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proj(1,2) = (top + bottom) * temp3;
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proj(2,2) = (-clip_[1] - clip_[0]) * temp4;
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proj(3,2) = -1.0;
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proj(2,3) = (-temp1 * clip_[1]) * temp4;
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}
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@ -49,3 +49,6 @@ cv::Affine3f cv::viz::Viz3d::getWidgetPose(const String &id) const { return impl
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void cv::viz::Viz3d::setCamera(const Camera2 &camera) { impl_->setCamera(camera); }
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void cv::viz::Viz3d::setViewerPose(const Affine3f &pose) { impl_->setViewerPose(pose); }
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cv::Affine3f cv::viz::Viz3d::getViewerPose() { return impl_->getViewerPose(); }
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void cv::viz::Viz3d::convertToWindowCoordinates(const Point3f &pt, Point3f &window_coord) { impl_->convertToWindowCoordinates(pt, window_coord); }
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void cv::viz::Viz3d::converTo3DRay(const Point3f &window_coord, Point3f &origin, Vec3f &direction) { impl_->converTo3DRay(window_coord, origin, direction); }
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@ -604,13 +604,18 @@ void cv::viz::Viz3d::VizImpl::setCamera(const Camera2 &camera)
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}
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/////////////////////////////////////////////////////////////////////////////////////////////
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void cv::viz::Viz3d::VizImpl::getCamera(viz::Camera2 &camera)
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cv::viz::Camera2 cv::viz::Viz3d::VizImpl::getCamera() const
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{
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vtkCamera& active_camera = *renderer_->GetActiveCamera();
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camera.setFov(Vec2f(0.0, active_camera.GetViewAngle() * CV_PI / 180.0f));
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camera.setClip(Vec2d(active_camera.GetClippingRange()));
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camera.setWindowSize(Size(renderer_->GetRenderWindow()->GetSize()[0],
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renderer_->GetRenderWindow()->GetSize()[1]));
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Vec2f fov(0.0, active_camera.GetViewAngle() * CV_PI / 180.0f);
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Vec2d clip(active_camera.GetClippingRange());
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Size window_size(renderer_->GetRenderWindow()->GetSize()[0],
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renderer_->GetRenderWindow()->GetSize()[1]);
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Camera2 camera(fov, window_size);
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camera.setClip(clip);
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return camera;
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}
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/////////////////////////////////////////////////////////////////////////////////////////////
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@ -664,6 +669,35 @@ cv::Affine3f cv::viz::Viz3d::VizImpl::getViewerPose ()
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return cv::Affine3f(R, pos);
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}
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/////////////////////////////////////////////////////////////////////////////////////////////
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void cv::viz::Viz3d::VizImpl::convertToWindowCoordinates(const Point3f &pt, Point3f &window_coord)
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{
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// Use the built in function of renderer
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double point_wcs[3] = {pt.x, pt.y, pt.z};
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renderer_->WorldToView(point_wcs[0], point_wcs[1], point_wcs[2]);
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window_coord.x = point_wcs[0];
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window_coord.y = point_wcs[1];
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window_coord.z = point_wcs[2];
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}
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/////////////////////////////////////////////////////////////////////////////////////////////
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void cv::viz::Viz3d::VizImpl::converTo3DRay(const Point3f &window_coord, Point3f &origin, Vec3f &direction)
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{
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// Use the built in function of renderer
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double point_view[3] = {window_coord.x, window_coord.y, window_coord.z};
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renderer_->ViewToWorld(point_view[0], point_view[1], point_view[2]);
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vtkCamera &active_camera = *renderer_->GetActiveCamera();
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double *cam_pos = active_camera.GetPosition();
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origin.x = cam_pos[0];
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origin.y = cam_pos[1];
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origin.z = cam_pos[2];
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direction[0] = point_view[0] - cam_pos[0];
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direction[1] = point_view[1] - cam_pos[1];
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direction[2] = point_view[2] - cam_pos[2];
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normalize(direction);
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}
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/////////////////////////////////////////////////////////////////////////////////////////////
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void cv::viz::Viz3d::VizImpl::resetCamera ()
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{
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@ -111,7 +111,7 @@ public:
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// and 'Camera' class itself with various constructors/fields
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void setCamera(const Camera2 &camera);
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void getCamera(Camera2 &camera);
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Camera2 getCamera() const;
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void initCameraParameters (); /** \brief Initialize camera parameters with some default values. */
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bool cameraParamsSet () const; /** \brief Checks whether the camera parameters were manually loaded from file.*/
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@ -146,8 +146,8 @@ public:
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void setViewerPose(const Affine3f &pose);
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Affine3f getViewerPose();
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void convertToWindowCoordinates(const Point3f &pt, Point3f &window_coord);
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void converTo3DRay(const Point3f &window_coord, Point3f &origin, Vec3f &direction);
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