override protected void OnUserBeginInteracting() {
GrabWidgetData data = WidgetManager.m_Instance.GetCurrentCameraPath();
m_EatInteractingInput = (data == null) ? false : data.m_WidgetScript != this;
WidgetManager.m_Instance.SetCurrentCameraPath(this);
Debug.Assert(m_InteractingController == InputManager.ControllerName.Brush ||
m_InteractingController == InputManager.ControllerName.Wand);
m_ActiveKnot = m_LastValidCollisionResults[(int)m_InteractingController];
// If we just grabbed a knot control, record the Y position of the controller grab point.
if (m_ActiveKnot.control != CameraPathKnot.kDefaultControl) {
BaseControllerBehavior b = InputManager.Controllers[(int)m_InteractingController].Behavior;
if (m_ActiveKnot.knot.KnotType == CameraPathKnot.Type.Fov) {
CameraPathFovKnot fovKnot = m_ActiveKnot.knot as CameraPathFovKnot;
m_GrabControlInitialYDiff = b.PointerAttachPoint.transform.position.y -
fovKnot.GetGrabTransform(
(int)CameraPathFovKnot.ControlType.FovControl).position.y;
}
if (m_ActiveKnot.knot.KnotType == CameraPathKnot.Type.Speed) {
CameraPathSpeedKnot speedKnot = m_ActiveKnot.knot as CameraPathSpeedKnot;
m_GrabControlInitialYDiff = b.PointerAttachPoint.transform.position.y -
speedKnot.GetGrabTransform(
(int)CameraPathSpeedKnot.ControlType.SpeedControl).position.y;
}
}
}
public void HighlightEntirePath() {
CameraPathTinter t = WidgetManager.m_Instance.PathTinter;
for (int i = 0; i < Path.PositionKnots.Count; ++i) {
CameraPathPositionKnot pk = Path.PositionKnots[i];
pk.RegisterHighlight(0, true);
t.TintKnot(pk);
}
for (int i = 0; i < Path.RotationKnots.Count; ++i) {
CameraPathRotationKnot rk = Path.RotationKnots[i];
rk.RegisterHighlight(0, true);
t.TintKnot(rk);
}
for (int i = 0; i < Path.SpeedKnots.Count; ++i) {
CameraPathSpeedKnot sk = Path.SpeedKnots[i];
sk.RegisterHighlight(0, true);
t.TintKnot(sk);
}
for (int i = 0; i < Path.FovKnots.Count; ++i) {
CameraPathFovKnot fk = Path.FovKnots[i];
fk.RegisterHighlight(0, true);
t.TintKnot(fk);
}
for (int i = 0; i < Path.Segments.Count; ++i) {
t.TintSegment(m_Path.Segments[i]);
}
}
override protected void OnUserEndInteracting() {
base.OnUserEndInteracting();
if (!m_EatInteractingInput) {
// Finalize our move commands with the current state of whatever's being actively modified.
switch (m_ActiveKnot.knot.KnotType) {
case CameraPathKnot.Type.Position:
if (m_ActiveKnot.control == 0) {
SketchMemoryScript.m_Instance.PerformAndRecordCommand(
new MovePositionKnotCommand(m_Path, m_ActiveKnot,
TrTransform.FromTransform(m_ActiveKnot.knot.transform), true));
} else {
CameraPathPositionKnot pk = m_ActiveKnot.knot as CameraPathPositionKnot;
Vector3 knotFwd = m_ActiveKnot.knot.transform.forward;
SketchMemoryScript.m_Instance.PerformAndRecordCommand(
new ModifyPositionKnotCommand(
m_Path, m_ActiveKnot, pk.TangentMagnitude, knotFwd, final:true));
}
break;
case CameraPathKnot.Type.Rotation:
case CameraPathKnot.Type.Speed:
case CameraPathKnot.Type.Fov:
// Reset any PreviewWidget overrides.
m_ActiveKnot.knot.gameObject.SetActive(true);
InputManager.Wand.Geometry.PreviewKnotHint.Activate(false);
InputManager.Brush.Geometry.PreviewKnotHint.Activate(false);
SketchControlsScript.m_Instance.CameraPathCaptureRig.OverridePreviewWidgetPathT(null);
if (m_ActiveKnot.control == 0) {
SketchMemoryScript.m_Instance.PerformAndRecordCommand(
new MoveConstrainedKnotCommand(m_Path, m_ActiveKnot,
m_ActiveKnot.knot.transform.rotation, final:true));
} else {
if (m_ActiveKnot.knot.KnotType == CameraPathKnot.Type.Speed) {
CameraPathSpeedKnot sk = m_ActiveKnot.knot as CameraPathSpeedKnot;
SketchMemoryScript.m_Instance.PerformAndRecordCommand(
new ModifySpeedKnotCommand(sk, sk.SpeedValue));
} else if (m_ActiveKnot.knot.KnotType == CameraPathKnot.Type.Fov) {
CameraPathFovKnot fk = m_ActiveKnot.knot as CameraPathFovKnot;
SketchMemoryScript.m_Instance.PerformAndRecordCommand(
new ModifyFovKnotCommand(fk, fk.FovValue));
}
}
break;
}
}
m_KnotEditingLastInputXf = null;
m_ActiveKnot = null;
}
override public void UpdateTool()
{
base.UpdateTool();
// If we're in the recording state, just look for cancel and get out.
if (CurrentMode == Mode.Recording)
{
if (InputManager.m_Instance.GetCommandDown(InputManager.SketchCommands.MenuContextClick))
{
SketchControlsScript.m_Instance.CameraPathCaptureRig.StopRecordingPath(false);
}
return;
}
var widgets = WidgetManager.m_Instance.CameraPathWidgets;
Transform toolAttachXf = InputManager.Brush.Geometry.ToolAttachPoint;
bool input = InputManager.m_Instance.GetCommand(InputManager.SketchCommands.Activate);
bool inputDown = InputManager.m_Instance.GetCommandDown(InputManager.SketchCommands.Activate);
// Tint any path we're intersecting with.
if (!input && m_LastValidPath != null && m_Mode != Mode.RemoveKnot)
{
m_LastValidPath.TintSegments(m_LastValidPosition);
}
// Initiating input.
if (inputDown)
{
// We clicked, but the path we clicked on isn't the active path. In that case,
// switch it to the active path and eat up this input.
// Don't do this for removing knots. That input should be explicit.
if (m_Mode != Mode.RemoveKnot && m_LastValidPath != null)
{
GrabWidgetData data = WidgetManager.m_Instance.GetCurrentCameraPath();
bool lastValidIsCurrent = (data == null) ? false : data.m_WidgetScript == m_LastValidPath;
if (!lastValidIsCurrent)
{
WidgetManager.m_Instance.SetCurrentCameraPath(m_LastValidPath);
return;
}
}
switch (m_Mode)
{
case Mode.AddPositionKnot:
// Create a new path if none exists or if we're trying to add a position point
// in a place where we're not extending an existing path.
if (!WidgetManager.m_Instance.AnyCameraPathWidgetsActive ||
(m_LastValidPath == null && m_ExtendPath == null))
{
m_ExtendPath = WidgetManager.m_Instance.CreatePathWidget();
m_ExtendPathType = ExtendPathType.ExtendAtHead;
WidgetManager.m_Instance.SetCurrentCameraPath(m_ExtendPath);
}
if (m_LastValidPath != null)
{
m_LastValidPath.AddPathConstrainedKnot(
CameraPathKnot.Type.Position, m_LastValidPosition, toolAttachXf.rotation);
m_LastPlacedKnot = m_LastValidPath.Path.LastPlacedKnotInfo;
m_LastPlacedKnotPath = m_LastValidPath;
}
else if (m_ExtendPath != null)
{
// Manipulation of a path we wish to extend.
m_ExtendPath.ExtendPath(toolAttachXf.position, m_ExtendPathType);
// Remember the index of the path we just added to, so we can manipulate it
// while input is held.
// Don't record this if we just made our path loop.
if (!m_ExtendPath.Path.PathLoops)
{
m_LastPlacedKnot = m_ExtendPath.Path.LastPlacedKnotInfo;
m_LastPlacedKnotPath = m_ExtendPath;
}
}
break;
case Mode.AddRotationKnot:
if (m_LastValidPath != null)
{
m_LastValidPath.AddPathConstrainedKnot(
CameraPathKnot.Type.Rotation, m_LastValidPosition, toolAttachXf.rotation);
m_LastPlacedKnot = m_LastValidPath.Path.LastPlacedKnotInfo;
m_LastPlacedKnotPath = m_LastValidPath;
}
break;
case Mode.AddSpeedKnot:
if (m_LastValidPath != null)
{
m_LastValidPath.AddPathConstrainedKnot(
CameraPathKnot.Type.Speed, m_LastValidPosition, toolAttachXf.rotation);
m_LastPlacedKnot = m_LastValidPath.Path.LastPlacedKnotInfo;
m_LastPlacedKnotPath = m_LastValidPath;
}
break;
case Mode.AddFovKnot:
if (m_LastValidPath != null)
{
m_LastValidPath.AddPathConstrainedKnot(
CameraPathKnot.Type.Fov, m_LastValidPosition, toolAttachXf.rotation);
m_LastPlacedKnot = m_LastValidPath.Path.LastPlacedKnotInfo;
m_LastPlacedKnotPath = m_LastValidPath;
}
break;
case Mode.RemoveKnot:
CheckToRemoveKnot(toolAttachXf.position);
break;
}
// Remember what our controller looked like so we can manipulate this knot.
if (m_LastPlacedKnot != null)
{
Transform controller = InputManager.Brush.Transform;
Transform knotXf = m_LastPlacedKnot.knot.transform;
TrTransform newWidgetXf = Coords.AsGlobal[knotXf];
m_LastPlacedKnotXf_LS = Coords.AsGlobal[controller].inverse * newWidgetXf;
HideAllMeshes();
}
}
else if (input)
{
if (m_Mode == Mode.RemoveKnot)
{
CheckToRemoveKnot(toolAttachXf.position);
}
else if (m_LastPlacedKnot != null)
{
// Holding input from last frame can allow us to manipulate a just placed position knot.
WidgetManager.m_Instance.PathTinter.TintKnot(m_LastPlacedKnot.knot);
TrTransform controllerXf = Coords.AsGlobal[InputManager.Brush.Transform];
TrTransform inputXf = controllerXf * m_LastPlacedKnotXf_LS;
switch (m_LastPlacedKnot.knot.KnotType)
{
case CameraPathKnot.Type.Position:
if (m_LastPlacedKnot.control != 0)
{
CameraPathPositionKnot pk = m_LastPlacedKnot.knot as CameraPathPositionKnot;
float tangentMag = pk.GetTangentMagnitudeFromControlXf(inputXf);
Vector3 knotFwd =
(inputXf.translation - m_LastPlacedKnot.knot.transform.position).normalized;
if ((CameraPathPositionKnot.ControlType)m_LastPlacedKnot.control ==
CameraPathPositionKnot.ControlType.TangentControlBack)
{
knotFwd *= -1.0f;
}
SketchMemoryScript.m_Instance.PerformAndRecordCommand(
new ModifyPositionKnotCommand(
m_LastPlacedKnotPath.Path, m_LastPlacedKnot, tangentMag, knotFwd,
mergesWithCreateCommand: true));
}
break;
case CameraPathKnot.Type.Rotation:
// Rotation knots hide when we grab them, and in their place, we set the preview widget.
m_LastPlacedKnot.knot.gameObject.SetActive(false);
SketchControlsScript.m_Instance.CameraPathCaptureRig.OverridePreviewWidgetPathT(
m_LastPlacedKnot.knot.PathT);
SketchMemoryScript.m_Instance.PerformAndRecordCommand(
new MoveConstrainedKnotCommand(m_LastPlacedKnotPath.Path, m_LastPlacedKnot,
inputXf.rotation, mergesWithCreateCommand: true));
break;
case CameraPathKnot.Type.Speed:
CameraPathSpeedKnot sk = m_LastPlacedKnot.knot as CameraPathSpeedKnot;
float speed = sk.GetSpeedValueFromY(
InputManager.Brush.Behavior.PointerAttachPoint.transform.position.y);
SketchMemoryScript.m_Instance.PerformAndRecordCommand(
new ModifySpeedKnotCommand(sk, speed, mergesWithCreateCommand: true));
break;
case CameraPathKnot.Type.Fov:
CameraPathFovKnot fk = m_LastPlacedKnot.knot as CameraPathFovKnot;
float fov = fk.GetFovValueFromY(
InputManager.Brush.Behavior.PointerAttachPoint.transform.position.y);
SketchMemoryScript.m_Instance.PerformAndRecordCommand(
new ModifyFovKnotCommand(fk, fov, mergesWithCreateCommand: true));
break;
}
}
}
else
{
// No input to work with. Forget we had anything and make sure our meshes are showing.
if (m_LastPlacedKnot != null)
{
RefreshMeshVisibility();
// Rotation knots hide when we grab them, make sure it's enabled.
if (m_LastPlacedKnot.knot.KnotType == CameraPathKnot.Type.Rotation)
{
m_LastPlacedKnot.knot.gameObject.SetActive(true);
SketchControlsScript.m_Instance.CameraPathCaptureRig.OverridePreviewWidgetPathT(null);
}
}
m_LastPlacedKnot = null;
m_LastPlacedKnotPath = null;
}
}
static public void CreateFromSaveData(CameraPathMetadata cameraPath) {
// Create a new widget.
CameraPathWidget widget = Instantiate<CameraPathWidget>(
WidgetManager.m_Instance.CameraPathWidgetPrefab);
widget.transform.parent = App.Scene.MainCanvas.transform;
// The scale of path widgets is arbitrary. However, the scale should be one at creation
// time so the knots added below have appropriate mesh scales.
widget.transform.localScale = Vector3.one;
widget.transform.localPosition = Vector3.zero;
widget.transform.localRotation = Quaternion.identity;
// Add the path knots and set their tangent speed.
for (int i = 0; i < cameraPath.PathKnots.Length; ++i) {
GameObject go = Instantiate<GameObject>(
WidgetManager.m_Instance.CameraPathPositionKnotPrefab);
go.transform.position = cameraPath.PathKnots[i].Xf.translation;
go.transform.rotation = cameraPath.PathKnots[i].Xf.rotation;
go.transform.parent = widget.transform;
CameraPathPositionKnot knot = go.GetComponent<CameraPathPositionKnot>();
knot.TangentMagnitude = cameraPath.PathKnots[i].TangentMagnitude;
widget.m_Path.PositionKnots.Add(knot);
widget.m_Path.AllKnots.Add(knot);
if (i > 0) {
widget.m_Path.Segments.Add(CameraPath.CreateSegment(widget.transform));
}
}
// Refresh the path so the segment curves are correct.
for (int i = 0; i < cameraPath.PathKnots.Length - 1; ++i) {
widget.m_Path.RefreshSegment(i);
}
// Add the rotation knots. Note this list is ordered, and they're serialized in order,
// so we need to make sure they're created in order.
for (int i = 0; i < cameraPath.RotationKnots.Length; ++i) {
GameObject go = Instantiate<GameObject>(
WidgetManager.m_Instance.CameraPathRotationKnotPrefab);
go.transform.position = cameraPath.RotationKnots[i].Xf.translation;
go.transform.rotation = cameraPath.RotationKnots[i].Xf.rotation;
go.transform.parent = widget.transform;
CameraPathRotationKnot knot = go.GetComponent<CameraPathRotationKnot>();
knot.PathT = new PathT(cameraPath.RotationKnots[i].PathTValue);
knot.DistanceAlongSegment = widget.m_Path.GetSegmentDistanceToT(knot.PathT);
widget.m_Path.RotationKnots.Add(knot);
widget.m_Path.AllKnots.Add(knot);
}
// Align quaternions on all rotation knots so we don't have unexpected camera flips
// when calculating rotation as we walk the path.
widget.m_Path.RefreshRotationKnotPolarities();
// Add the speed knots. Note this list is ordered, and they're serialized in order,
// so we need to make sure they're created in order.
for (int i = 0; i < cameraPath.SpeedKnots.Length; ++i) {
GameObject go = Instantiate<GameObject>(
WidgetManager.m_Instance.CameraPathSpeedKnotPrefab);
go.transform.position = cameraPath.SpeedKnots[i].Xf.translation;
go.transform.rotation = cameraPath.SpeedKnots[i].Xf.rotation;
go.transform.parent = widget.transform;
CameraPathSpeedKnot knot = go.GetComponent<CameraPathSpeedKnot>();
knot.PathT = new PathT(cameraPath.SpeedKnots[i].PathTValue);
knot.DistanceAlongSegment = widget.m_Path.GetSegmentDistanceToT(knot.PathT);
knot.SpeedValue = cameraPath.SpeedKnots[i].Speed;
widget.m_Path.SpeedKnots.Add(knot);
widget.m_Path.AllKnots.Add(knot);
}
// Add the fov knots. Note this list is ordered, and they're serialized in order,
// so we need to make sure they're created in order.
for (int i = 0; i < cameraPath.FovKnots.Length; ++i) {
GameObject go = Instantiate<GameObject>(
WidgetManager.m_Instance.CameraPathFovKnotPrefab);
go.transform.position = cameraPath.FovKnots[i].Xf.translation;
go.transform.rotation = cameraPath.FovKnots[i].Xf.rotation;
go.transform.parent = widget.transform;
CameraPathFovKnot knot = go.GetComponent<CameraPathFovKnot>();
knot.PathT = new PathT(cameraPath.FovKnots[i].PathTValue);
knot.DistanceAlongSegment = widget.m_Path.GetSegmentDistanceToT(knot.PathT);
knot.FovValue = cameraPath.FovKnots[i].Fov;
widget.m_Path.FovKnots.Add(knot);
widget.m_Path.AllKnots.Add(knot);
}
// Refresh visuals on the whole path.
for (int i = 0; i < widget.m_Path.AllKnots.Count; ++i) {
widget.m_Path.AllKnots[i].RefreshVisuals();
widget.m_Path.AllKnots[i].ActivateTint(false);
widget.m_Path.AllKnots[i].SetActivePathVisuals(false);
}
// And turn them off.
widget.m_Path.ValidatePathLooping();
widget.m_Path.SetKnotsActive(false);
App.Switchboard.TriggerCameraPathCreated();
}
override public float GetActivationScore(Vector3 point, InputManager.ControllerName name) {
float nearestKnotScore = -1.0f;
KnotDescriptor nearestResult = new KnotDescriptor();
if (VideoRecorderUtils.ActiveVideoRecording == null &&
!WidgetManager.m_Instance.WidgetsDormant &&
!InputManager.m_Instance.GetCommand(InputManager.SketchCommands.Activate)) {
// Check against all knots and put our results in storage bins.
// Note that we're walking along the sorted lists instead of using m_Path.m_AllKnots.
// This ensures the knotIndex stored in KnotCollisionResult is correct.
for (int i = 0; i < m_Path.PositionKnots.Count; ++i) {
int control = -1;
CameraPathPositionKnot pk = m_Path.PositionKnots[i];
float knotScore = pk.gameObject.activeSelf ?
pk.CollisionWithPoint(point, out control) : -1.0f;
if (knotScore > nearestKnotScore) {
nearestResult.Set(pk, control, i, null);
nearestKnotScore = knotScore;
}
}
for (int i = 0; i < m_Path.RotationKnots.Count; ++i) {
int control = -1;
CameraPathRotationKnot rk = m_Path.RotationKnots[i];
float knotScore = rk.CollisionWithPoint(point, out control);
if (knotScore > nearestKnotScore) {
nearestResult.Set(rk, control, null, rk.PathT);
nearestKnotScore = knotScore;
}
}
for (int i = 0; i < m_Path.SpeedKnots.Count; ++i) {
int control = -1;
CameraPathSpeedKnot sk = m_Path.SpeedKnots[i];
float knotScore = sk.CollisionWithPoint(point, out control);
if (knotScore > nearestKnotScore) {
nearestResult.Set(sk, control, null, sk.PathT);
nearestKnotScore = knotScore;
}
}
for (int i = 0; i < m_Path.FovKnots.Count; ++i) {
int control = -1;
CameraPathFovKnot fk = m_Path.FovKnots[i];
float knotScore = fk.CollisionWithPoint(point, out control);
if (knotScore > nearestKnotScore) {
nearestResult.Set(fk, control, null, fk.PathT);
nearestKnotScore = knotScore;
}
}
}
bool brushOrWand = (name == InputManager.ControllerName.Brush) ||
(name == InputManager.ControllerName.Wand);
if (!m_UserInteracting) {
if (brushOrWand) {
m_LastCollisionResults[(int)name].Set(nearestResult);
if ((nearestResult.knot != null) && (nearestResult.control != -1)) {
m_LastValidCollisionResults[(int)name].Set(nearestResult);
}
}
} else if (m_InteractingController != name && brushOrWand) {
m_LastCollisionResults[(int)name].Set(null, CameraPathKnot.kDefaultControl, null, null);
}
return nearestKnotScore;
}
override public void RecordAndSetPosRot(TrTransform inputXf) {
// Don't manipulate anything if we're eating input.
if (m_EatInteractingInput) {
return;
}
SnapEnabled = (m_ActiveKnot.knot.KnotType == CameraPathKnot.Type.Rotation ||
m_ActiveKnot.knot.KnotType == CameraPathKnot.Type.Position) &&
InputManager.Controllers[(int)m_InteractingController].GetCommand(
InputManager.SketchCommands.MenuContextClick);
inputXf = GetDesiredTransform(inputXf);
if (m_ActiveKnot.knot.KnotType == CameraPathKnot.Type.Position) {
// Move the base knot.
if (m_ActiveKnot.control == 0) {
// If this knot is the tail or the head and we're within snapping distance of the other
// end, snap to the transform.
TrTransform snappedXf = inputXf;
int positionKnot = m_ActiveKnot.positionKnotIndex.Value;
if (positionKnot == 0 || positionKnot == Path.NumPositionKnots - 1) {
int otherIndex = positionKnot == 0 ? Path.NumPositionKnots - 1 : 0;
float distToOther = Vector3.Distance(inputXf.translation,
Path.PositionKnots[otherIndex].KnotXf.position);
if (distToOther < m_KnotSnapDistanceToEnd) {
snappedXf.translation = Path.PositionKnots[otherIndex].KnotXf.position;
snappedXf.rotation = Path.PositionKnots[otherIndex].KnotXf.rotation;
}
}
SketchMemoryScript.m_Instance.PerformAndRecordCommand(
new MovePositionKnotCommand(m_Path, m_ActiveKnot, snappedXf));
} else {
// Modify the knot tangents.
CameraPathPositionKnot pk = m_ActiveKnot.knot as CameraPathPositionKnot;
if (SnapEnabled) {
Vector3 snappedTranslation = inputXf.translation;
snappedTranslation.y = pk.transform.position.y;
inputXf.translation = snappedTranslation;
}
float tangentMag = pk.GetTangentMagnitudeFromControlXf(inputXf);
Vector3 knotFwd = (inputXf.translation - m_ActiveKnot.knot.transform.position).normalized;
if ((CameraPathPositionKnot.ControlType)m_ActiveKnot.control ==
CameraPathPositionKnot.ControlType.TangentControlBack) {
knotFwd *= -1.0f;
}
SketchMemoryScript.m_Instance.PerformAndRecordCommand(
new ModifyPositionKnotCommand(m_Path, m_ActiveKnot, tangentMag, knotFwd));
}
return;
}
// Constrain rotation and speed knots to the path.
// Instead of testing the raw value that comes in from the controller position, test our
// last valid path position plus any translation that's happened the past frame. This
// method keeps the test positions near the path, allowing continuous movement when the
// user has moved beyond the intersection distance to the path.
Vector3 positionToProject = inputXf.translation;
if (m_KnotEditingLastInputXf.HasValue) {
Vector3 translationDiff = inputXf.translation - m_KnotEditingLastInputXf.Value;
positionToProject = m_ActiveKnot.knot.KnotXf.position + translationDiff;
}
m_KnotEditingLastInputXf = inputXf.translation;
// Project transform on to the path to get t.
Vector3 error = Vector3.zero;
if (m_Path.ProjectPositionOnToPath(positionToProject, out PathT pathT, out error)) {
// Move the base knot.
if (m_ActiveKnot.control == 0) {
// Path constrained knots are a little sticky on the ends of the path. Knots very
// near the ends *probably* want to be on the ends, and when there are small deltas
// near the ends, it causes unwanted erratic curves.
m_ActiveKnot.pathT = m_Path.MaybeSnapPathTToEnd(pathT, m_KnotSnapDistanceToEnd);
// Rotation knots allow the user to place the preview widget at their position
// for live preview.
if (m_ActiveKnot.knot.KnotType == CameraPathKnot.Type.Rotation) {
CheckForPreviewWidgetOverride(pathT);
}
SketchMemoryScript.m_Instance.PerformAndRecordCommand(
new MoveConstrainedKnotCommand(m_Path, m_ActiveKnot, inputXf.rotation));
} else {
// Alternate controls.
BaseControllerBehavior b = InputManager.Controllers[(int)m_InteractingController].Behavior;
float controllerY = b.PointerAttachPoint.transform.position.y;
if (m_ActiveKnot.knot.KnotType == CameraPathKnot.Type.Speed) {
CameraPathSpeedKnot sk = m_ActiveKnot.knot as CameraPathSpeedKnot;
float speed = sk.GetSpeedValueFromY(controllerY - m_GrabControlInitialYDiff);
SketchMemoryScript.m_Instance.PerformAndRecordCommand(
new ModifySpeedKnotCommand(sk, speed));
} else if (m_ActiveKnot.knot.KnotType == CameraPathKnot.Type.Fov) {
CameraPathFovKnot fk = m_ActiveKnot.knot as CameraPathFovKnot;
float fov = fk.GetFovValueFromY(controllerY - m_GrabControlInitialYDiff);
CheckForPreviewWidgetOverride(fk.PathT);
SketchMemoryScript.m_Instance.PerformAndRecordCommand(
new ModifyFovKnotCommand(fk, fov));
}
}
}
m_KnotEditingLastInputXf -= error;
}
