Editor | Contains scripts that add functionality to the Unity Editor, and enhance several C# component scripts. |
Materials | Contains materials that are used for graphical components within the Utilities package, such as the main GUI display. |
Meshes | Contains meshes that are required by some OVR scripts, such as the TrackerBounds. |
Moonlight | Contains classes designed for Gear VR development. It includes sub-folders with mobile equivalents of all top-level folders (Editor, Materials, Prefabs, et cetera). |
Prefabs | Contains the main Unity prefabs that are used to provide the VR support for a Unity scene: OVRCameraRig and OVRPlayerController. These prefabs are not required to provide tracked VR in Unity 5 (see Unity VR Support). |
Scenes | Contains sample scenes illustrating common concepts. |
Scripts | Contains the C# files that are used to tie the VR framework and Unity components together. Many of these scripts work together within the various Prefabs. |
Azilya the last amazonian mac os. Textures | Contains image assets that are required by some of the script components. |
Auto Trigger After Launch | Select to enable capture after a delay specified in Auto Trigger Delay. Otherwise capture is triggered by the keypress specified in Triggered by Key. |
Auto Trigger Delay | Specify delay after application launch before cubemap is taken. (requires Auto Trigger After Launch selected). |
Triggered By Key | Specifies key to trigger image capture (requires Auto Trigger After Launch not selected). |
Path Name | Specifies directory, file name, and file type (JPEG or PNG) for screen capture. Windows default path: C:Users$usernameAppDataLocalLowSample$yourAppNameOVR_ScreenShot306 Android default path: /storage/emulated/0/Android/data/com.unity3d.$yourAppName/files/OVR_ScreenShot360/ Default file type: PNG. |
Cubemap Size | Specify size (2048 x 2048 is default, and is the resolution required for preview cubemaps submitted to the Oculus Store). |
Updated Anchors | Allows clients to filter the poses set by tracking. Used to modify or ignore positional tracking. |
TrackingSpace | A GameObject that defines the reference frame used by tracking. You can move this relative to the OVRCameraRig for use cases in which the rig needs to respond to tracker input. For example, OVRPlayerController changes the position and rotation of TrackingSpace to make the character controller follow the yaw of the current head pose. |
Monoscopic | If true, rendering will try to optimize for a single viewpoint rather than rendering once for each eye. Not supported on all platforms. |
Use Position Tracking | Disables the IR tracker and causes head position to be inferred from the current rotation using the head model. |
Reset Tracker On Load | This value defaults to True. When turned off, subsequent scene loads will not reset the tracker. This will keep the tracker orientation the same from scene to scene, as well as keep magnetometer settings intact. |
Tracking Origin Type | Set to Eye Level to track the position and orientation y-axis relative to the HMD’s position. Set to Floor Level to track position and orientation relative to the floor, based on the user’s standing height as specified in the Oculus Configuration Utility. Default is Eye Level. |
OVRDisplay | Provides the pose and rendering state of the HMD. |
OVRTracker | Provides the pose, frustum, and tracking status of the infrared tracking sensor. |
OVRPlayerController | OVRPlayerController implements a basic first-person controller for the VR framework. It is attached to the OVRPlayerController prefab, which has an OVRCameraRig attached to it. The controller will interact properly with a Unity scene, provided that the scene has collision detection assigned to it. OVRPlayerController contains a few variables attached to sliders that change the physics properties of the controller. This includes Acceleration (how fast the player will increase speed), Dampening (how fast a player will decrease speed when movement input is not activated), Back and Side Dampen (how much to reduce side and back Acceleration), Rotation Amount (the amount in degrees per frame to rotate the user in the Y axis) and Gravity Modifier (how fast to accelerate player down when in the air). When HMD Rotates Y is set, the actual Y rotation of the cameras will set the Y rotation value of the parent transform that it is attached to. The OVRPlayerController prefab has an empty GameObject attached to it called ForwardDirection. This GameObject contains the matrix which motor control bases it direction on. This GameObject should also house the body geometry which will be seen by the player. |
OVRGridCube | OVRGridCube is a helper class that shows a grid of cubes when activated. Its main purpose is to be used as a way to know where the ideal center of location is for the user’s eye position. This is especially useful when positional tracking is activated. The cubes will change color to red when positional data is available, and will remain blue if position tracking is not available, or change back to blue if vision is lost. |
OVRTrackerBounds | Warns players when the HMD moves outside the trackable range. |
ForwardDirection | An empty GameObject attached to the OVRPlayerController prefab containing the matrix upon which motor control bases its direction. This GameObject should also house the body geometry which will be seen by the player. See TrackingSpace in “OVRCameraRig” for more information |
Trivial | An empty scene with one cube and a plain Unity camera. |
Room | A cubic room formed from six cubes enclosing an OVRPlayerController. |
Cubes | A 3D array of cubes and an OVRCameraRig. |
OVRDebugHeadController.cs | A simple behavior that can be attached to the parent of the CameraRig to provide movement via the gamepad, useful for testing applications in Unity without an HMD. |
OVROverlay.cs | Add to an object with a Quad mesh filter to have the quad rendered as a TimeWarp overlay instead by drawing it into the eye buffer. |
OVRPlatformMenu.cs | Helper component for detecting Back Key long-press to bring-up the Universal Menu and Back Key short-press to bring up the Confirm-Quit to Home Menu. Additionally implements a Wait Timer for displaying Long Press Time. For more information on interface guidelines and requirements, please review Interface Guidelines and Universal Menu in the Mobile SDK documentation. |
OVRTouchpad.cs | Interface class to a touchpad. |
OVRChromaticAberration.cs | Drop-in component for toggling chromatic aberration correction on and off for Android. |
OVRDebugGraph.cs Operation recon spider mac os. | Drop-in component for toggling the TimeWarp debug graph on and off. Information regarding the TimeWarp Debug Graph may be found in the TimeWarp technical note in the Mobile SDK documentation. |
OVRModeParms.cs | Example code for de-clocking your application to reduce power and thermal load as well as how to query the current power level state. |
OVRMonoscopic.cs | Drop-in component for toggling Monoscopic rendering on and off for Android. |
OVRResetOrientation.cs | Drop-in component for resetting the camera orientation. |
OVRWaitCursor.cs | Helper component for auto-rotating a wait cursor. |
30Hz_Sample | An example of how to set the TimeWarp vsync rate to support 30Hz apps, as well as how to enable Chromatic Aberration Correction and Monoscopic Rendering for Android. For more information on 30Hz TimeWarp and Chromatic Aberration Correction for Android, please review the TimeWarp technical note in theMobile SDK documentation. |
Box_Room | A simple box room for testing. |
Crosshair_Sample | An example of how to use a 3D cursor in the world with three different modes. |
FirstPerson_Sample | An example of how to attach avatar geometry to the OVRPlayerController. |
GlobalMenu_Sample | An example demonstrating Back Key long-press action and the Universal Menu. Additionally demonstrates a gaze cursor with trail. For more information on Interface Guidelines and requirements, please review the following documents: Interface Guidelines andUniversal Menu in the Mobile SDK documentation. |
LayeredCameras | Illustrates how to render nearby and far-away content with separate cameras. |
Menu_Sample | An example demonstrating a simple in-game menu activated by Back Key short-press action. The menu also uses the Battery Level API for displaying the current battery level and temperature. |
MoviePlayer_Sample | An example demonstrating basic in-game video using Android MediaPlayer. |
Multicamera_Sample | An example of switching cameras in one scene. |
SaveState_Sample | An example demonstrating saving the state of the game on pause and loading it on resume. Click on the objects in the scene to change their color. When you run the scene again, the objects should be in the color you had selected before exiting. |
Startup_Sample | An example of a quick, comfortable VR app loading experience utilizing a black splash screen, VR enabled logo scene, and an async main level load. For more information on interface guidelines, please review Interface Guidelines and Universal Menu in the Mobile SDK documentation. |
Crosshair3D.cs | Detailed code for how to create judder-free crosshairs tied to the camera view. |
MoviePlayerSample.cs | Example code and documentation for how to play an in-game video on a textured quad using Android MediaPlayer (mobile) or Unity’s native media rendering (PC). |
Multicamera_Sample.cs | For use with the sample scene. |
StartupSample.cs | Example code for loading a minimal-scene on startup while loading the main scene in the background. |
Bartender game mac os. TimeWarp30HzSample.cs | Example code for setting up TimeWarp to support 30Hz apps as well as toggling Chromatic Aberration Correction and Monoscopic Rendering on and off. |