Exemple #1
0
        public bool UpdateCapture(ITransformable target, Ray worldRay)
        {
            // ray-hit with plane perpendicular to rotateAxisW
            Vector3 planeHit = raycastFrame.RayPlaneIntersection(worldRay.origin, worldRay.direction, 2);

            // find angle of hitpos in 2D plane perp to rotateAxis, and compute delta-angle
            Vector3 dv          = planeHit - rotateFrameW.Origin;
            int     iX          = (nRotationAxis + 1) % 3;
            int     iY          = (nRotationAxis + 2) % 3;
            float   fX          = Vector3.Dot(dv, rotateFrameW.GetAxis(iX));
            float   fY          = Vector3.Dot(dv, rotateFrameW.GetAxis(iY));
            float   fNewAngle   = (float)Math.Atan2(fY, fX);
            float   fDeltaAngle = (fNewAngle - fRotateStartAngle);

            // construct new frame for target that is rotated around axis
            Vector3    rotateAxisL = rotateFrameL.GetAxis(nRotationAxis);
            Quaternion q           = Quaternion.AngleAxis(fDeltaAngle * Mathf.Rad2Deg, rotateAxisL);
            Frame3     newFrame    = rotateFrameL;

            newFrame.Rotation = q * newFrame.Rotation;                          // order matters here!

            // update target
            target.SetLocalFrame(newFrame, CoordSpace.ObjectCoords);

            return(true);
        }
Exemple #2
0
        public bool UpdateCapture(ITransformable target, Ray worldRay)
        {
            // ray-hit with world-space translation plane
            Vector3 planeHit = translateFrameW.RayPlaneIntersection(worldRay.origin, worldRay.direction, nTranslationPlaneNormal);
            int     e0       = (nTranslationPlaneNormal + 1) % 3;
            int     e1       = (nTranslationPlaneNormal + 2) % 3;

            // construct delta in world space and project into frame coordinates
            Vector3 delta = (planeHit - vInitialHitPos);
            float   dx    = Vector3.Dot(delta, translateFrameW.GetAxis(e0));
            float   dy    = Vector3.Dot(delta, translateFrameW.GetAxis(e1));

            // construct new local frame translated along plane axes
            Frame3 newFrame = translateFrameL;

            newFrame.Origin += dx * translateFrameL.GetAxis(e0) + dy * translateFrameL.GetAxis(e1);

            // update target
            target.SetLocalFrame(newFrame, CoordSpace.ObjectCoords);

            return(true);
        }
Exemple #3
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        public bool BeginCapture(ITransformable target, Ray worldRay, UIRayHit hit)
        {
            // save local and world frames
            rotateFrameL = target.GetLocalFrame(CoordSpace.ObjectCoords);
            rotateFrameW = target.GetLocalFrame(CoordSpace.WorldCoords);
            rotateAxisW  = rotateFrameW.GetAxis(nRotationAxis);

            // save angle of hitpos in 2D plane perp to rotateAxis, so we can find delta-angle later
            Vector3 vWorldHitPos = hit.hitPos;
            Vector3 dv           = vWorldHitPos - rotateFrameW.Origin;
            int     iX           = (nRotationAxis + 1) % 3;
            int     iY           = (nRotationAxis + 2) % 3;
            float   fX           = Vector3.Dot(dv, rotateFrameW.GetAxis(iX));
            float   fY           = Vector3.Dot(dv, rotateFrameW.GetAxis(iY));

            fRotateStartAngle = (float)Math.Atan2(fY, fX);

            // construct plane we will ray-intersect with in UpdateCapture()
            raycastFrame = new Frame3(vWorldHitPos, rotateAxisW);

            return(true);
        }
        public bool UpdateCapture(ITransformable target, Ray worldRay)
        {
            // ray-hit with plane that contains translation axis
            Vector3 planeHit = raycastFrame.RayPlaneIntersection(worldRay.origin, worldRay.direction, 2);

            // figure out new T-value along axis, then our translation update is delta-t
            float fNewT   = MathUtil.ClosestPointOnLineT(translateFrameW.Origin, translateAxisW, planeHit);
            float fDeltaT = (fNewT - fTranslateStartT);

            // construct new frame translated along axis (in local space)
            Frame3 newFrame = translateFrameL;

            newFrame.Origin += fDeltaT * translateFrameL.GetAxis(nTranslationAxis);

            // update target
            target.SetLocalFrame(newFrame, CoordSpace.ObjectCoords);

            return(true);
        }
        float fTranslateStartT;                 // start T-value along translateAxisW

        public bool BeginCapture(ITransformable target, Ray worldRay, UIRayHit hit)
        {
            // save local and world frames
            translateFrameL = target.GetLocalFrame(CoordSpace.ObjectCoords);
            translateFrameW = target.GetLocalFrame(CoordSpace.WorldCoords);
            translateAxisW  = translateFrameW.GetAxis(nTranslationAxis);

            // save t-value of closest point on translation axis, so we can find delta-t
            Vector3 vWorldHitPos = hit.hitPos;

            fTranslateStartT = MathUtil.ClosestPointOnLineT(
                translateFrameW.Origin, translateAxisW, vWorldHitPos);

            // construct plane we will ray-intersect with in UpdateCapture()
            Vector3 vForward = Vector3.Cross(Camera.main.transform.up, translateAxisW);

            raycastFrame = new Frame3(vWorldHitPos, vForward);

            return(true);
        }