// Token: 0x06000D86 RID: 3462 RVA: 0x00054E44 File Offset: 0x00053044
private void OnPostRender()
{
if (this.currentColor != this.targetColor)
{
if (Mathf.Abs(this.currentColor.a - this.targetColor.a) < Mathf.Abs(this.deltaColor.a) * Time.deltaTime)
{
this.currentColor = this.targetColor;
this.deltaColor = new Color(0f, 0f, 0f, 0f);
}
else
{
this.currentColor += this.deltaColor * Time.deltaTime;
}
if (this.fadeOverlay)
{
SteamVR_Overlay instance = SteamVR_Overlay.instance;
if (instance != null)
{
instance.alpha = 1f - this.currentColor.a;
}
}
}
if (this.currentColor.a > 0f && SteamVR_Fade.fadeMaterial)
{
SteamVR_Fade.fadeMaterial.SetColor(SteamVR_Fade.fadeMaterialColorID, this.currentColor);
SteamVR_Fade.fadeMaterial.SetPass(0);
GL.Begin(7);
GL.Vertex3(-1f, -1f, 0f);
GL.Vertex3(1f, -1f, 0f);
GL.Vertex3(1f, 1f, 0f);
GL.Vertex3(-1f, 1f, 0f);
GL.End();
}
}
public bool ComputeIntersection(Vector3 source, Vector3 direction, ref SteamVR_Overlay.IntersectionResults results)
{
CVROverlay overlay = OpenVR.Overlay;
if (overlay == null)
{
return false;
}
VROverlayIntersectionParams_t vROverlayIntersectionParams_t = default(VROverlayIntersectionParams_t);
vROverlayIntersectionParams_t.eOrigin = SteamVR_Render.instance.trackingSpace;
vROverlayIntersectionParams_t.vSource.v0 = source.x;
vROverlayIntersectionParams_t.vSource.v1 = source.y;
vROverlayIntersectionParams_t.vSource.v2 = -source.z;
vROverlayIntersectionParams_t.vDirection.v0 = direction.x;
vROverlayIntersectionParams_t.vDirection.v1 = direction.y;
vROverlayIntersectionParams_t.vDirection.v2 = -direction.z;
VROverlayIntersectionResults_t vROverlayIntersectionResults_t = default(VROverlayIntersectionResults_t);
if (!overlay.ComputeOverlayIntersection(this.handle, ref vROverlayIntersectionParams_t, ref vROverlayIntersectionResults_t))
{
return false;
}
results.point = new Vector3(vROverlayIntersectionResults_t.vPoint.v0, vROverlayIntersectionResults_t.vPoint.v1, -vROverlayIntersectionResults_t.vPoint.v2);
results.normal = new Vector3(vROverlayIntersectionResults_t.vNormal.v0, vROverlayIntersectionResults_t.vNormal.v1, -vROverlayIntersectionResults_t.vNormal.v2);
results.UVs = new Vector2(vROverlayIntersectionResults_t.vUVs.v0, vROverlayIntersectionResults_t.vUVs.v1);
results.distance = vROverlayIntersectionResults_t.fDistance;
return true;
}
// Token: 0x06005F5A RID: 24410 RVA: 0x00217CD0 File Offset: 0x002160D0
private IEnumerator RenderLoop()
{
while (Application.isPlaying)
{
yield return(this.waitForEndOfFrame);
if (!SteamVR_Render.pauseRendering)
{
CVRCompositor compositor = OpenVR.Compositor;
if (compositor != null)
{
if (!compositor.CanRenderScene())
{
continue;
}
compositor.SetTrackingSpace(this.trackingSpace);
}
SteamVR_Overlay overlay = SteamVR_Overlay.instance;
if (overlay != null)
{
overlay.UpdateOverlay();
}
this.RenderExternalCamera();
}
}
yield break;
}
private void Update()
{
foreach (int num in this.controllerIndices)
{
SteamVR_Overlay instance = SteamVR_Overlay.instance;
if (instance && this.point && this.pointer)
{
SteamVR_Utils.RigidTransform transform = SteamVR_Controller.Input(num).transform;
this.pointer.transform.localPosition = transform.pos;
this.pointer.transform.localRotation = transform.rot;
SteamVR_Overlay.IntersectionResults intersectionResults = default(SteamVR_Overlay.IntersectionResults);
bool flag = instance.ComputeIntersection(transform.pos, transform.rot * Vector3.forward, ref intersectionResults);
if (flag)
{
this.point.transform.localPosition = intersectionResults.point;
this.point.transform.localRotation = Quaternion.LookRotation(intersectionResults.normal);
}
}
else
{
foreach (EVRButtonId evrbuttonId in this.buttonIds)
{
if (SteamVR_Controller.Input(num).GetPressDown(evrbuttonId))
{
Debug.Log(evrbuttonId + " press down");
}
if (SteamVR_Controller.Input(num).GetPressUp(evrbuttonId))
{
Debug.Log(evrbuttonId + " press up");
if (evrbuttonId == EVRButtonId.k_EButton_Axis1)
{
SteamVR_Controller.Input(num).TriggerHapticPulse(500, EVRButtonId.k_EButton_Axis0);
this.PrintControllerStatus(num);
}
}
if (SteamVR_Controller.Input(num).GetPress(evrbuttonId))
{
Debug.Log(evrbuttonId);
}
}
foreach (EVRButtonId evrbuttonId2 in this.axisIds)
{
if (SteamVR_Controller.Input(num).GetTouchDown(evrbuttonId2))
{
Debug.Log(evrbuttonId2 + " touch down");
}
if (SteamVR_Controller.Input(num).GetTouchUp(evrbuttonId2))
{
Debug.Log(evrbuttonId2 + " touch up");
}
if (SteamVR_Controller.Input(num).GetTouch(evrbuttonId2))
{
Vector2 axis = SteamVR_Controller.Input(num).GetAxis(evrbuttonId2);
Debug.Log("axis: " + axis);
}
}
}
}
}
private void Update()
{
foreach (int controllerIndex in this.controllerIndices)
{
SteamVR_Overlay instance = SteamVR_Overlay.instance;
if ((bool)((Object)instance) && (bool)((Object)this.point) && (bool)((Object)this.pointer))
{
SteamVR_Utils.RigidTransform transform = SteamVR_Controller.Input(controllerIndex).transform;
this.pointer.transform.localPosition = transform.pos;
this.pointer.transform.localRotation = transform.rot;
SteamVR_Overlay.IntersectionResults results = new SteamVR_Overlay.IntersectionResults();
if (instance.ComputeIntersection(transform.pos, transform.rot * Vector3.forward, ref results))
{
this.point.transform.localPosition = results.point;
this.point.transform.localRotation = Quaternion.LookRotation(results.normal);
}
}
else
{
foreach (EVRButtonId buttonId in this.buttonIds)
{
if (SteamVR_Controller.Input(controllerIndex).GetPressDown(buttonId))
{
Debug.Log((object)(((int)buttonId).ToString() + " press down"));
}
if (SteamVR_Controller.Input(controllerIndex).GetPressUp(buttonId))
{
Debug.Log((object)(((int)buttonId).ToString() + " press up"));
if (buttonId == EVRButtonId.k_EButton_Axis1)
{
SteamVR_Controller.Input(controllerIndex).TriggerHapticPulse((ushort)500, EVRButtonId.k_EButton_Axis0);
this.PrintControllerStatus(controllerIndex);
}
}
if (SteamVR_Controller.Input(controllerIndex).GetPress(buttonId))
{
Debug.Log((object)buttonId);
}
}
foreach (EVRButtonId axisId in this.axisIds)
{
if (SteamVR_Controller.Input(controllerIndex).GetTouchDown(axisId))
{
Debug.Log((object)(((int)axisId).ToString() + " touch down"));
}
if (SteamVR_Controller.Input(controllerIndex).GetTouchUp(axisId))
{
Debug.Log((object)(((int)axisId).ToString() + " touch up"));
}
if (SteamVR_Controller.Input(controllerIndex).GetTouch(axisId))
{
Debug.Log((object)("axis: " + (object)SteamVR_Controller.Input(controllerIndex).GetAxis(axisId)));
}
}
}
}
}
private void OnPostRender()
{
SteamVR instance = SteamVR.instance;
Camera component = base.GetComponent <Camera>();
float num = this.scale * component.aspect / instance.aspect;
float x = -this.scale;
float x2 = this.scale;
float y = num;
float y2 = -num;
Material blitMaterial = SteamVR_Camera.blitMaterial;
blitMaterial.mainTexture = SteamVR_Camera.GetSceneTexture(component.hdr);
GL.PushMatrix();
GL.LoadOrtho();
blitMaterial.SetPass(0);
GL.Begin(7);
GL.TexCoord2(0f, 0f);
GL.Vertex3(x, y, 0f);
GL.TexCoord2(1f, 0f);
GL.Vertex3(x2, y, 0f);
GL.TexCoord2(1f, 1f);
GL.Vertex3(x2, y2, 0f);
GL.TexCoord2(0f, 1f);
GL.Vertex3(x, y2, 0f);
GL.End();
GL.PopMatrix();
SteamVR_Overlay instance2 = SteamVR_Overlay.instance;
if (instance2 && instance2.texture && SteamVR_GameView.overlayMaterial && this.drawOverlay)
{
Texture texture = instance2.texture;
SteamVR_GameView.overlayMaterial.mainTexture = texture;
float x3 = 0f;
float y3 = 1f - (float)Screen.height / (float)texture.height;
float x4 = (float)Screen.width / (float)texture.width;
float y4 = 1f;
GL.PushMatrix();
GL.LoadOrtho();
SteamVR_GameView.overlayMaterial.SetPass((QualitySettings.activeColorSpace != ColorSpace.Linear) ? 0 : 1);
GL.Begin(7);
GL.TexCoord2(x3, y3);
GL.Vertex3(-1f, -1f, 0f);
GL.TexCoord2(x4, y3);
GL.Vertex3(1f, -1f, 0f);
GL.TexCoord2(x4, y4);
GL.Vertex3(1f, 1f, 0f);
GL.TexCoord2(x3, y4);
GL.Vertex3(-1f, 1f, 0f);
GL.End();
GL.PopMatrix();
}
}
private void Awake()
{
this.scaleLimitX = string.Format("{0:N1}", this.scaleLimits.x);
this.scaleLimitY = string.Format("{0:N1}", this.scaleLimits.y);
this.scaleRateText = string.Format("{0:N1}", this.scaleRate);
SteamVR_Overlay instance = SteamVR_Overlay.instance;
if (instance != null)
{
this.uvOffset = instance.uvOffset;
this.distance = instance.distance;
}
}
public void HideMenu()
{
this.RestoreCursorState();
if (this.overlayCam != null)
{
this.overlayCam.enabled = true;
}
if (this.overlay != null)
{
this.overlay.uvOffset = this.uvOffset;
this.overlay.distance = this.distance;
this.overlay = null;
}
}
public void HideMenu()
{
RestoreCursorState();
if (overlayCam != null)
overlayCam.enabled = true;
if (overlay != null)
{
overlay.uvOffset = uvOffset;
overlay.distance = distance;
overlay = null;
}
}
public void HideMenu()
{
this.RestoreCursorState();
if (this.overlayCam != null)
{
this.overlayCam.enabled = true;
}
if (this.overlay != null)
{
this.overlay.uvOffset = this.uvOffset;
this.overlay.distance = this.distance;
this.overlay = null;
}
}
public void ShowMenu()
{
var overlay = SteamVR_Overlay.instance;
if (overlay == null)
{
return;
}
var texture = overlay.texture as RenderTexture;
if (texture == null)
{
Debug.LogError("Menu requires overlay texture to be a render texture.");
return;
}
SaveCursorState();
/*# if !UNITY_WSA_10_0
* Cursor.visible = true;
* Cursor.lockState = CursorLockMode.None;
#endif */
this.overlay = overlay;
uvOffset = overlay.uvOffset;
distance = overlay.distance;
// If an existing camera is rendering into the overlay texture, we need
// to temporarily disable it to keep it from clearing the texture on us.
var cameras = Object.FindObjectsOfType(typeof(Camera)) as Camera[];
foreach (var cam in cameras)
{
if (cam.enabled && cam.targetTexture == texture)
{
overlayCam = cam;
overlayCam.enabled = false;
break;
}
}
var tracker = SteamVR_Render.Top();
if (tracker != null)
{
scale = tracker.origin.localScale.x;
}
}
private void OnDisable()
{
if (handle != OpenVR.k_ulOverlayHandleInvalid)
{
var overlay = OpenVR.Overlay;
if (overlay != null)
{
overlay.DestroyOverlay(handle);
}
handle = OpenVR.k_ulOverlayHandleInvalid;
}
SteamVR_Overlay.instance = null;
}
public void HideMenu()
{
RestoreCursorState();
if (overlayCam != null)
{
overlayCam.enabled = true;
}
if (overlay != null)
{
overlay.uvOffset = uvOffset;
overlay.distance = distance;
overlay = null;
}
}
private void OnEnable()
{
var overlay = OpenVR.Overlay;
if (overlay != null)
{
var error = overlay.CreateOverlay(key, gameObject.name, ref handle);
if (error != EVROverlayError.None)
{
Debug.Log(overlay.GetOverlayErrorNameFromEnum(error));
enabled = false;
return;
}
}
SteamVR_Overlay.instance = this;
}
public void ShowMenu()
{
SteamVR_Overlay instance = SteamVR_Overlay.instance;
if (instance == null)
{
return;
}
RenderTexture renderTexture = instance.texture as RenderTexture;
if (renderTexture == null)
{
Debug.LogError("Menu requires overlay texture to be a render texture.");
return;
}
this.SaveCursorState();
Cursor.visible = true;
Cursor.lockState = CursorLockMode.None;
this.overlay = instance;
this.uvOffset = instance.uvOffset;
this.distance = instance.distance;
Camera[] array = UnityEngine.Object.FindObjectsOfType(typeof(Camera)) as Camera[];
Camera[] array2 = array;
for (int i = 0; i < array2.Length; i++)
{
Camera camera = array2[i];
if (camera.enabled && camera.targetTexture == renderTexture)
{
this.overlayCam = camera;
this.overlayCam.enabled = false;
break;
}
}
SteamVR_Camera steamVR_Camera = SteamVR_Render.Top();
if (steamVR_Camera != null)
{
this.scale = steamVR_Camera.origin.localScale.x;
}
}
public void ShowMenu()
{
var overlay = SteamVR_Overlay.instance;
if (overlay == null)
return;
var texture = overlay.texture as RenderTexture;
if (texture == null)
{
Debug.LogError("Menu requires overlay texture to be a render texture.");
return;
}
SaveCursorState();
Cursor.visible = true;
Cursor.lockState = CursorLockMode.None;
this.overlay = overlay;
uvOffset = overlay.uvOffset;
distance = overlay.distance;
// If an existing camera is rendering into the overlay texture, we need
// to temporarily disable it to keep it from clearing the texture on us.
var cameras = Object.FindObjectsOfType(typeof(Camera)) as Camera[];
foreach (var cam in cameras)
{
if (cam.enabled && cam.targetTexture == texture)
{
overlayCam = cam;
overlayCam.enabled = false;
break;
}
}
var tracker = SteamVR_Render.Top();
if (tracker != null)
scale = tracker.origin.localScale.x;
}
public void ShowMenu()
{
SteamVR_Overlay instance = SteamVR_Overlay.instance;
if (instance == null)
{
return;
}
RenderTexture renderTexture = instance.texture as RenderTexture;
if (renderTexture == null)
{
Debug.LogError("Menu requires overlay texture to be a render texture.");
return;
}
this.SaveCursorState();
Cursor.visible = true;
Cursor.lockState = CursorLockMode.None;
this.overlay = instance;
this.uvOffset = instance.uvOffset;
this.distance = instance.distance;
Camera[] array = UnityEngine.Object.FindObjectsOfType(typeof(Camera)) as Camera[];
Camera[] array2 = array;
for (int i = 0; i < array2.Length; i++)
{
Camera camera = array2[i];
if (camera.enabled && camera.targetTexture == renderTexture)
{
this.overlayCam = camera;
this.overlayCam.enabled = false;
break;
}
}
SteamVR_Camera steamVR_Camera = SteamVR_Render.Top();
if (steamVR_Camera != null)
{
this.scale = steamVR_Camera.origin.localScale.x;
}
}
