// Use this for initialization
public void Initialize(FContext controller)
{
this.controller = controller;
// find main camera
GameObject[] mainCameras = GameObject.FindGameObjectsWithTag("MainCamera");
if (mainCameras.Length == 0)
{
throw new MissingComponentException("CameraTracking.Initialize: could not find camera with tag MainCamera");
}
var mainCameraObj = mainCameras[0];
if (mainCameras.Length > 1)
{
DebugUtil.Log(2, "CameraTracking.Initialize: there are multiple objects with tag MainCamera. Using the one named " + mainCameraObj.GetName());
}
mainCamera = new fCamera(mainCameraObj.GetComponent <Camera> () as Camera);
// on Vive the MainCamera will have some child cameras that are a problem,
// so get rid of them
if (gs.VRPlatform.CurrentVRDevice == gs.VRPlatform.Device.HTCVive)
{
List <GameObject> children = new List <GameObject>(mainCameraObj.Children());
foreach (var child in children)
{
mainCameraObj.RemoveChild(child);
child.Destroy();
}
}
is_orthographic_view = mainCamera.IsOrthographic;
List <Camera> newCameras = new List <Camera>();
Vector3f mainPos = mainCamera.GetPosition();
Quaternionf mainRot = mainCamera.GetRotation();
// create camera for 3D widgets layer
widgetCamera = new fCamera(Camera.Instantiate((Camera)mainCamera, mainPos, mainRot));
widgetCamera.SetName("WidgetCamera");
newCameras.Add(widgetCamera);
// create camera for HUD layer
hudCamera = new fCamera(Camera.Instantiate((Camera)mainCamera, mainPos, mainRot));
hudCamera.SetName("HUDCamera");
newCameras.Add(hudCamera);
// create camera for UI
uiCamera = new fCamera(Camera.Instantiate((Camera)mainCamera, mainPos, mainRot));
uiCamera.SetName("UICamera");
((Camera)uiCamera).orthographic = true;
((Camera)uiCamera).orthographicSize = 0.5f;
newCameras.Add(uiCamera);
// create camera for cursor
cursorCamera = new fCamera(Camera.Instantiate((Camera)mainCamera, mainPos, mainRot));
cursorCamera.SetName("CursorCamera");
newCameras.Add(cursorCamera);
// configure these cameras
// - must disable audio listener if it exists
// - do depth clear so we can draw on top of other layers
foreach (Camera cam in newCameras)
{
AudioListener listener = cam.GetComponent <AudioListener>();
if (listener != null)
{
listener.enabled = false;
}
cam.clearFlags = CameraClearFlags.Depth;
cam.tag = "Untagged";
}
// set up camera masks
// this camera only renders 3DWidgetOverlay layer, and mainCam does not!
int nWidgetLayer = FPlatform.WidgetOverlayLayer;
int nHUDLayer = FPlatform.HUDLayer;
int nUILayer = FPlatform.UILayer;
int nCursorLayer = FPlatform.CursorLayer;
((Camera)widgetCamera).cullingMask = (1 << nWidgetLayer);
((Camera)hudCamera).cullingMask = (1 << nHUDLayer);
((Camera)uiCamera).cullingMask = (1 << nUILayer);
((Camera)cursorCamera).cullingMask = (1 << nCursorLayer);
((Camera)mainCamera).cullingMask &= ~(1 << nWidgetLayer);
((Camera)mainCamera).cullingMask &= ~(1 << nHUDLayer);
((Camera)mainCamera).cullingMask &= ~(1 << nUILayer);
((Camera)mainCamera).cullingMask &= ~(1 << nCursorLayer);
// attach camera animation object to main camera
CameraAnimator anim = mainCamera.AddComponent <CameraAnimator>();
anim.UseCamera = mainCamera;
anim.UseScene = this.controller.Scene;
// add target point to camera
CameraTarget target = mainCamera.AddComponent <CameraTarget>();
target.TargetPoint = new Vector3f(0.0f, mainCamera.GetPosition().y, 0.0f);
target.context = this.controller;
// add camera manipulator to camera
// TODO: this does not need to be a monobehavior...
var manipulator = mainCamera.AddComponent <CameraManipulator>();
manipulator.Camera = mainCamera;
// initialize FPlatform
FPlatform.MainCamera = mainCamera;
FPlatform.WidgetCamera = widgetCamera;
FPlatform.HUDCamera = hudCamera;
FPlatform.OrthoUICamera = uiCamera;
FPlatform.CursorCamera = cursorCamera;
}
// for checking things...
public static void print_compare(string prefix, Quaternion q1, g3.Quaternionf q2)
{
double dErr = Math.Abs(q1.x - q2.x) + Math.Abs(q1.y - q2.y) + Math.Abs(q1.z - q2.z) + Math.Abs(q1.w - q2.w);
DebugUtil.Log(2, "{0} {1} {2} err {3}", prefix, q1.ToString("F8"), q2.ToString(), dErr);
}
public virtual SceneObject BuildMeshReference(FScene scene, string sSceneFilePath, TypedAttribSet attributes)
{
string sAbsPath = "", sRelPath = "";
bool bAbsPathOK = safe_set_property_s(attributes, IOStrings.AReferencePath, (str) => { sAbsPath = str; });
bool bRelPathOK = safe_set_property_s(attributes, IOStrings.ARelReferencePath, (str) => { sRelPath = str; });
string sScenePathDir = Path.GetDirectoryName(sSceneFilePath);
// ok we are going to try really hard to find references...
string sUsePath = "";
string sBaseFilename = "";
if (bRelPathOK)
{
sBaseFilename = Path.GetFileName(sRelPath);
// first we check if relative path exists
string sAbsRelPath = Path.Combine(sScenePathDir, sRelPath);
if (System.IO.File.Exists(sAbsRelPath))
{
DebugUtil.Log(2, "[UnitySerialization.BuildMeshReference] using relative path " + sRelPath);
sUsePath = sAbsRelPath;
}
// if not, we try appending filename to scene path
if (sUsePath == "")
{
string sLocalPath = Path.Combine(sScenePathDir, sBaseFilename);
if (System.IO.File.Exists(sLocalPath))
{
DebugUtil.Log(2, "[UnitySerialization.BuildMeshReference] using local path " + sLocalPath);
sUsePath = sLocalPath;
}
}
// if that fails we accumulate relative path segments (from last folder backwards)
// and see if we can find the file in any of those
List <string> subdirs = new List <string>(sRelPath.Split(Path.DirectorySeparatorChar).Reverse());
int N = subdirs.Count;
string sAccumPath = "";
for (int i = 1; i < N && sUsePath == ""; ++i)
{
sAccumPath = Path.Combine(subdirs[i], sAccumPath);
string sLocalPath = Path.Combine(Path.Combine(sScenePathDir, sAccumPath), sBaseFilename);
DebugUtil.Log(2, "trying " + sLocalPath);
if (System.IO.File.Exists(sLocalPath))
{
DebugUtil.Log(2, "[UnitySerialization.BuildMeshReference] using local path " + sLocalPath);
sUsePath = sLocalPath;
}
}
}
// ok if all that failed, try absolute path
if (sUsePath == "" && bAbsPathOK)
{
sBaseFilename = Path.GetFileName(sAbsPath);
if (System.IO.File.Exists(sAbsPath))
{
DebugUtil.Log(2, "[UnitySerialization.BuildMeshReference] using absolute path " + sAbsPath);
sUsePath = sAbsPath;
}
// try appending filename to scene path in case we didn't have a relative path at all (bRelPathOK = false)
if (sUsePath == "")
{
string sLocalPath = Path.Combine(sScenePathDir, sBaseFilename);
if (System.IO.File.Exists(sLocalPath))
{
DebugUtil.Log(2, "[UnitySerialization.BuildMeshReference] using local path " + sLocalPath);
sUsePath = sLocalPath;
}
}
}
if (sUsePath == "")
{
emit_message("referenced mesh does not exist at path [" + sAbsPath + "] or [" + sRelPath + "] ");
return(null);
}
SceneMeshImporter import = new SceneMeshImporter();
bool bOK = import.ReadFile(sUsePath);
if (bOK == false && import.LastReadResult.code != g3.IOCode.Ok)
{
emit_message("import of mesh [" + sUsePath + "] failed: " + import.LastReadResult.message);
// [TODO] how can we show this message?
//HUDUtil.ShowCenteredStaticPopupMessage("popups/error_reading_file", activeCockpit);
return(null);
}
MeshReferenceSO refSO = import.GetMeshReference(scene.DefaultMeshSOMaterial);
safe_set_property_s(attributes, IOStrings.ASOName, (s) => { refSO.Name = s; });
RestoreTransform(refSO, attributes);
return(refSO);
}
// FixedUpdate is called before any Update
public void Update()
{
if (CheckForSpatialInputActive() == false)
{
return;
}
Vector3 rootPos = spatialCamRig.transform.position;
SpatialDevice[] hands = { Left, Right };
for (int i = 0; i < 2; ++i)
{
SpatialDevice h = hands[i];
h.CursorActive = VRPlatform.IsSpatialDeviceTracked(i);
if (h.CursorActive)
{
h.Hand.Show();
h.Cursor.Show();
Vector3 handPos = VRPlatform.GetLocalControllerPosition(i);
Quaternion handRot = VRPlatform.GetLocalControllerRotation(i);
h.AbsoluteHandFrame = new Frame3f(rootPos + handPos, handRot);
float fPositionT = 0.2f;
float fRotationT = 0.2f;
//float fPositionT = 1.0f;
//float fRotationT = 1.0f;
if (h.SmoothedHandFrame.Origin != Vector3f.Zero)
{
Vector3 new_origin =
Vector3.Lerp(h.SmoothedHandFrame.Origin, h.AbsoluteHandFrame.Origin, fPositionT);
Quaternion new_rotation =
Quaternion.Slerp(h.SmoothedHandFrame.Rotation, h.AbsoluteHandFrame.Rotation, fRotationT);
h.SmoothedHandFrame = new Frame3f(new_origin, new_rotation);
}
else
{
h.SmoothedHandFrame = h.AbsoluteHandFrame;
}
h.Hand.transform.position = h.SmoothedHandFrame.Origin;
h.Hand.transform.rotation = h.SmoothedHandFrame.Rotation * (Quaternionf)handGeomRotation;
h.CursorRay = new Ray(h.SmoothedHandFrame.Origin,
(h.SmoothedHandFrame.Rotation * Vector3.forward).Normalized);
if (Mathf.Abs(h.CursorRay.direction.sqrMagnitude - 1.0f) > 0.001f)
{
DebugUtil.Log(2, "SpatialInputController.Update - invlaid cursor ray! rotation was {0}", h.SmoothedHandFrame.Rotation);
h.CursorRay = new Ray(h.SmoothedHandFrame.Origin, Vector3.up);
}
// raycast into scene to see if we hit object, UI, bounds, etc.
bool bHit = false;
if (context != null)
{
// want to hit-test active gizmo first, because that has hit-priority
if (context.TransformManager.HaveActiveGizmo)
{
UIRayHit uiHit = null;
if (context.TransformManager.ActiveGizmo.FindRayIntersection(h.CursorRay, out uiHit))
{
h.RayHitPos = uiHit.hitPos;
bHit = true;
}
}
// next we tested scene
if (bHit == false)
{
AnyRayHit hit = null;
if (context.FindAnyRayIntersection(h.CursorRay, out hit))
{
h.RayHitPos = hit.hitPos;
bHit = true;
}
}
// finally test worldbounds
if (bHit == false)
{
GameObjectRayHit ghit = null;
if (context.GetScene().FindWorldBoundsHit(h.CursorRay, out ghit))
{
h.RayHitPos = ghit.hitPos;
}
}
}
// if not, plane cursor on view-perp plane centered at last hit pos,
// otherwise it will be stuck/disappear
if (bHit == false)
{
Frame3f f = new Frame3f(h.RayHitPos, camera.transform.forward);
h.RayHitPos = f.RayPlaneIntersection(h.CursorRay.origin, h.CursorRay.direction, 2);
}
h.Cursor.transform.position = h.RayHitPos;
//if (scene.InCapture)
// MaterialUtil.SetMaterial(h.Cursor, h.CursorCapturingMaterial);
//else
if (bHit)
{
MaterialUtil.SetMaterial(h.Cursor, h.CursorHitMaterial);
}
else
{
MaterialUtil.SetMaterial(h.Cursor, h.CursorDefaultMaterial);
}
// maintain a consistent visual size for 3D cursor sphere
float fScaling = VRUtil.GetVRRadiusForVisualAngle(h.RayHitPos, camera.transform.position, CursorVisualAngleInDegrees);
h.Cursor.transform.localScale = fScaling * Vector3.one;
// orient cursor so it is tilted like a 2D cursor, but per-hand
Vector3 cursor_right = Vector3.Cross(camera.transform.up, h.CursorRay.direction);
Vector3 cursor_fw = Vector3.Cross(cursor_right, camera.transform.up);
float rotSign = (h == Right) ? 1.0f : -1.0f;
Vector3 pointDir = (camera.transform.up + cursor_fw - 0.5f * rotSign * cursor_right).normalized;
h.Cursor.transform.localRotation = Quaternion.FromToRotation(Vector3.up, pointDir);
// update laser line
if (h.Laser != null)
{
float hDist = (h.RayHitPos - h.CursorRay.origin).magnitude;
Vector3 p0 = h.RayHitPos - 0.9f * hDist * h.CursorRay.direction;
Vector3 p1 = h.RayHitPos + 100.0f * h.CursorRay.direction;
float r0 = VRUtil.GetVRRadiusForVisualAngle(p0, camera.transform.position, 0.5f);
h.LaserRen.SetPosition(0, p0);
h.LaserRen.SetPosition(1, p1);
h.LaserRen.startWidth = h.LaserRen.endWidth = r0;
}
// udpate cursor
Mesh useMesh = context.ToolManager.HasActiveTool(i) ? activeToolCursorMesh : standardCursorMesh;
if (h.Cursor.GetSharedMesh() != useMesh)
{
h.Cursor.SetSharedMesh(useMesh);
}
}
else
{
h.Hand.Hide();
h.Cursor.Hide();
}
}
}
public static void print_compare(string prefix, Vector3 v1, g3.Vector3f v2)
{
double dErr = Math.Abs(v1.x - v2.x) + Math.Abs(v1.y - v2.y) + Math.Abs(v1.z - v2.z);
DebugUtil.Log(2, "{0} {1} {2} err {3}", prefix, v1.ToString("F8"), v2.ToString(), dErr);
}
void Restore_OnAttribute(string sName, string sValue)
{
if (eState != RestoreState.InSceneObject && eState != RestoreState.InStruct)
{
throw new FormatException("[Serializer] not in correct state for OnAttrib");
}
char[] delimiterChars = { ' ' };
if (sName == IOStrings.Struct)
{
}
else if (sName[0] == 'i')
{
int iValue = 0;
int.TryParse(sValue, out iValue);
CurAttribs.Pairs[sName] = iValue;
}
else if (sName[0] == 'f')
{
float fValue = 0;
float.TryParse(sValue, out fValue);
CurAttribs.Pairs[sName] = fValue;
}
else if (sName[0] == 'b')
{
bool bValue = true;
if (sValue.Equals("false", StringComparison.InvariantCultureIgnoreCase))
{
bValue = false;
}
CurAttribs.Pairs[sName] = bValue;
}
else if (sName[0] == 'v')
{
float x = 0, y = 0, z = 0;
string[] values = sValue.Split(delimiterChars);
if (values.Length == 3)
{
float.TryParse(values[0], out x);
float.TryParse(values[1], out y);
float.TryParse(values[2], out z);
}
CurAttribs.Pairs[sName] = new Vector3f(x, y, z);
}
else if (sName[0] == 'u')
{
float x = 0, y = 0;
string[] values = sValue.Split(delimiterChars);
if (values.Length == 2)
{
float.TryParse(values[0], out x);
float.TryParse(values[1], out y);
}
CurAttribs.Pairs[sName] = new Vector2f(x, y);
}
else if (sName[0] == 'q')
{
float x = 0, y = 0, z = 0, w = 0;
string[] values = sValue.Split(delimiterChars);
if (values.Length == 4)
{
float.TryParse(values[0], out x);
float.TryParse(values[1], out y);
float.TryParse(values[2], out z);
float.TryParse(values[3], out w);
}
CurAttribs.Pairs[sName] = new Quaternionf(x, y, z, w);
}
else if (sName[0] == 'c')
{
float r = 0, g = 0, b = 0, a = 0;
string[] values = sValue.Split(delimiterChars);
if (values.Length == 4)
{
float.TryParse(values[0], out r);
float.TryParse(values[1], out g);
float.TryParse(values[2], out b);
float.TryParse(values[3], out a);
}
CurAttribs.Pairs[sName] = new Colorf(r, g, b, a);
}
else if (sName[0] == 'z')
{
if (sName[1] == 'd' && sName[2] == '3')
{
CurAttribs.Pairs[sName] = restore_list3d(sValue);
}
else if (sName[1] == 'f' && sName[2] == '3')
{
CurAttribs.Pairs[sName] = restore_list3f(sValue);
}
else if (sName[1] == 'i' && sName[2] == '3')
{
CurAttribs.Pairs[sName] = restore_list3i(sValue);
}
else if (sName[1] == 'd' && sName[2] == '2')
{
CurAttribs.Pairs[sName] = restore_list2d(sValue);
}
else if (sName[1] == 'f' && sName[2] == '2')
{
CurAttribs.Pairs[sName] = restore_list2f(sValue);
}
else
{
DebugUtil.Warning("[SceneSerializer.Restore_OnAttribute] - unknown array format {0}", sName);
}
}
else if (sName[0] == 'x')
{
if (sName[1] == 'd' && sName[2] == '3')
{
CurAttribs.Pairs[sName] = restore_list3d_binary(sValue);
}
else if (sName[1] == 'd')
{
CurAttribs.Pairs[sName] = restore_list1d_binary(sValue);
}
//else if (sName[1] == 'd' && sName[2] == '2')
// CurAttribs.Pairs[sName] = restore_list2d_binary(sValue);
else if (sName[1] == 'f' && sName[2] == '3')
{
CurAttribs.Pairs[sName] = restore_list3f_binary(sValue);
}
else if (sName[1] == 'f')
{
CurAttribs.Pairs[sName] = restore_list1f_binary(sValue);
}
else if (sName[1] == 'i' && sName[2] == '3')
{
CurAttribs.Pairs[sName] = restore_list3i_binary(sValue);
}
else if (sName[1] == 'i' && sName[2] == '4')
{
CurAttribs.Pairs[sName] = restore_list4i_binary(sValue);
}
else if (sName[1] == 'i')
{
CurAttribs.Pairs[sName] = restore_list1i_binary(sValue);
}
else if (sName[1] == 'j')
{
CurAttribs.Pairs[sName] = restore_list1s_binary(sValue);
}
else if (sName[1] == 'k')
{
CurAttribs.Pairs[sName] = restore_list1b_binary(sValue);
}
else
{
DebugUtil.Warning("[SceneSerializer.Restore_OnAttribute] - unknown binary format {0}", sName);
}
}
else if (sName[0] == 'y')
{
if (sName[1] == 'd' && sName[2] == '3')
{
CurAttribs.Pairs[sName] = restore_list3d_compressed(sValue);
}
else if (sName[1] == 'd')
{
CurAttribs.Pairs[sName] = restore_list1d_compressed(sValue);
}
//else if (sName[1] == 'd' && sName[2] == '2')
// CurAttribs.Pairs[sName] = restore_list2d_compressed(sValue);
else if (sName[1] == 'f' && sName[2] == '3')
{
CurAttribs.Pairs[sName] = restore_list3f_compressed(sValue);
}
else if (sName[1] == 'f')
{
CurAttribs.Pairs[sName] = restore_list1f_compressed(sValue);
}
else if (sName[1] == 'i' && sName[2] == '3')
{
CurAttribs.Pairs[sName] = restore_list3i_compressed(sValue);
}
else if (sName[1] == 'i' && sName[2] == '4')
{
CurAttribs.Pairs[sName] = restore_list4i_compressed(sValue);
}
else if (sName[1] == 'i')
{
CurAttribs.Pairs[sName] = restore_list1i_compressed(sValue);
}
else if (sName[1] == 'j')
{
CurAttribs.Pairs[sName] = restore_list1s_compressed(sValue);
}
else if (sName[1] == 'k')
{
CurAttribs.Pairs[sName] = restore_list1b_compressed(sValue);
}
else
{
DebugUtil.Warning("[SceneSerializer.Restore_OnAttribute] - unknown compressed format {0}", sName);
}
}
else
{
CurAttribs.Pairs[sName] = sValue;
}
}
void HandleInput_Touch()
{
// update mouse/gamepad cursor
MouseController.Update();
// create our super-input object (wraps all supported input types)
InputState input = new InputState();
input.Initialize_TouchInput(this);
lastInputState = input;
// run override behaviors
overrideBehaviors.SendOverrideInputs(input);
input.TouchCaptureActive = (captureTouch != null);
// update left-capture
if (captureTouch != null)
{
Capture cap = captureTouch.element.UpdateCapture(input, captureTouch.data);
if (cap.state == CaptureState.Continue)
{
// (carry on)
}
else if (cap.state == CaptureState.End)
{
DebugUtil.Log(10, "[SceneController] released touch capture " + captureTouch.element.CaptureIdentifier);
captureTouch = null;
}
}
// if we have a free device, check for capture.
bool bCanCapture = (bInCameraControl == false);
if (bCanCapture && captureTouch == null)
{
// collect up capture requests
List <CaptureRequest> vRequests = new List <CaptureRequest>();
inputBehaviors.CollectWantsCapture(input, vRequests);
if (vRequests.Count > 0)
{
// select one of the capture requests. technically we could end
// up with none successfully Begin'ing, but behaviors should be
// doing those checks in WantCapture, not BeginCapture !!
vRequests.OrderBy(x => x.element.Priority);
Capture capReq = null;
for (int i = 0; i < vRequests.Count && capReq == null; ++i)
{
// filter out invalid requests
// (??)
// before we actually begin capture we will complete any text editing
// [RMS] perhaps this should be configurable for behavior? Some behaviors
// do not require this (eg view controls...)
completeTextEntryOnFocusChange();
Capture c = vRequests[i].element.BeginCapture(input, CaptureSide.Any);
if (c.state == CaptureState.Begin)
{
capReq = c;
}
}
if (capReq != null)
{
captureTouch = capReq;
}
}
}
}
void HandleInput_SpaceControllers()
{
// update cursors
SpatialController.Update();
MouseController.HideCursor();
// have to do this after cursor update in case hotkey uses mouse position
HandleKeyboardInput();
// create our super-input object (wraps all supported input types)
InputState input = new InputState();
input.Initialize_SpatialController(this);
lastInputState = input;
// run override behaviors
overrideBehaviors.SendOverrideInputs(input);
input.LeftCaptureActive = (captureLeft != null);
input.RightCaptureActive = (captureRight != null);
// update left-capture
if (captureLeft != null)
{
Capture cap = captureLeft.element.UpdateCapture(input, captureLeft.data);
if (cap.state == CaptureState.Continue)
{
// (carry on)
}
else if (cap.state == CaptureState.End)
{
DebugUtil.Log(10, "[SceneController] released left capture " + captureLeft.element.CaptureIdentifier);
if (captureRight == captureLeft)
{
captureRight = null; // if we are doing a dual-capture, we only want to end once!!
}
captureLeft = null;
}
}
// update right-capture
// if we are doing a both-capture, we only want to send update once
if (captureRight != null && captureRight != captureLeft)
{
Capture cap = captureRight.element.UpdateCapture(input, captureRight.data);
if (cap.state == CaptureState.Continue)
{
// (carry on)
}
else if (cap.state == CaptureState.End)
{
DebugUtil.Log(10, "[SceneController] released right capture " + captureRight.element.CaptureIdentifier);
captureRight = null;
}
}
// if we have a free device, check for capture.
bool bCanCapture = (bInCameraControl == false);
if (bCanCapture && (captureLeft == null || captureRight == null))
{
// collect up capture requests
List <CaptureRequest> vRequests = new List <CaptureRequest>();
inputBehaviors.CollectWantsCapture(input, vRequests);
if (vRequests.Count > 0)
{
// end outstanding hovers
TerminateHovers(input);
// select one of the capture requests. technically we could end
// up with none successfully Begin'ing, but behaviors should be
// doing those checks in WantCapture, not BeginCapture !!
vRequests.OrderBy(x => x.element.Priority);
Capture capReq = null;
for (int i = 0; i < vRequests.Count && capReq == null; ++i)
{
// filter out invalid requests
CaptureSide eUseSide = vRequests[i].side;
if (eUseSide == CaptureSide.Any) // replace Any with Both. Does that make sense??
{
eUseSide = CaptureSide.Both;
}
if ((eUseSide == CaptureSide.Left || eUseSide == CaptureSide.Both) &&
captureLeft != null)
{
continue;
}
if ((eUseSide == CaptureSide.Right || eUseSide == CaptureSide.Both) &&
captureRight != null)
{
continue;
}
Capture c = vRequests[i].element.BeginCapture(input, eUseSide);
if (c.state == CaptureState.Begin)
{
capReq = c;
}
}
if (capReq != null)
{
// technically we only should terminate hover on capture controller,
// but that seems really hard. This will clear hovers but they will
// come back next frame. Perhaps revisit if this is causing flicker...
TerminateHovers(input);
// [RMS] most of this checking is redundant now, but leaving because of debug logging
if (capReq.data.which == CaptureSide.Left)
{
if (captureLeft != null)
{
DebugUtil.Warning("[SceneController.HandleInput_SpaceControllers] received Capture request for Left side from {0}, but already capturing! Ignoring.", capReq.element.CaptureIdentifier);
}
else
{
captureLeft = capReq;
DebugUtil.Log(10, "[SceneController] began left-capture" + captureLeft.element.CaptureIdentifier);
}
}
else if (capReq.data.which == CaptureSide.Right)
{
if (captureRight != null)
{
DebugUtil.Warning("[SceneController.HandleInput_SpaceControllers] received Capture request for Right side from {0}, but already capturing! Ignoring.", capReq.element.CaptureIdentifier);
}
else
{
captureRight = capReq;
DebugUtil.Log(10, "[SceneController] began right-capture" + captureRight.element.CaptureIdentifier);
}
}
else if (capReq.data.which == CaptureSide.Both || capReq.data.which == CaptureSide.Any)
{
if (captureLeft != null || captureRight != null)
{
DebugUtil.Warning("[SceneController.HandleInput_SpaceControllers] received Capture request for both sides from {0}, but already capturing! Ignoring.", capReq.element.CaptureIdentifier);
}
else
{
captureLeft = captureRight = capReq;
DebugUtil.Log(10, "[SceneController] began both-capture " + captureLeft.element.CaptureIdentifier);
}
}
}
}
}
// update hover if we have a free device
if (captureLeft == null || captureRight == null)
{
inputBehaviors.UpdateHover(input);
}
}
private void Context_OnWindowResized()
{
DebugUtil.Log(2, "WINDOW RESIZE EVENT");
FUtil.SafeSendAnyEvent(OnContainerBoundsModified, this);
}
