//======= Copyright (c) Valve Corporation, All rights reserved. =============== // // Purpose: Access to SteamVR system (hmd) and compositor (distort) interfaces. // //============================================================================= using UnityEngine; using Valve.VR; using System.IO; using System.Linq; #if UNITY_2017_2_OR_NEWER using UnityEngine.XR; #else using XRSettings = UnityEngine.VR.VRSettings; using XRDevice = UnityEngine.VR.VRDevice; #endif namespace Valve.VR { public class SteamVR : System.IDisposable { // Use this to check if SteamVR is currently active without attempting // to activate it in the process. public static bool active { get { return _instance != null; } } // Set this to false to keep from auto-initializing when calling SteamVR.instance. private static bool _enabled = true; public static bool enabled { get { if (!XRSettings.enabled) enabled = false; return _enabled; } set { _enabled = value; if (_enabled) { Initialize(); } else { SafeDispose(); } } } private static SteamVR _instance; public static SteamVR instance { get { #if UNITY_EDITOR if (!Application.isPlaying) return null; #endif if (!enabled) return null; if (_instance == null) { _instance = CreateInstance(); // If init failed, then auto-disable so scripts don't continue trying to re-initialize things. if (_instance == null) _enabled = false; } return _instance; } } public enum InitializedStates { None, Initializing, InitializeSuccess, InitializeFailure, } public static InitializedStates initializedState = InitializedStates.None; public static void Initialize(bool forceUnityVRMode = false) { if (forceUnityVRMode) { SteamVR_Behaviour.instance.InitializeSteamVR(true); return; } else { if (_instance == null) { _instance = CreateInstance(); if (_instance == null) _enabled = false; } } if (_enabled) SteamVR_Behaviour.Initialize(forceUnityVRMode); } public static bool usingNativeSupport { get { return XRDevice.GetNativePtr() != System.IntPtr.Zero; } } public static SteamVR_Settings settings { get; private set; } private static void ReportGeneralErrors() { string errorLog = "[SteamVR] Initialization failed. "; if (XRSettings.enabled == false) errorLog += "VR may be disabled in player settings. Go to player settings in the editor and check the 'Virtual Reality Supported' checkbox'. "; if (XRSettings.supportedDevices != null && XRSettings.supportedDevices.Length > 0) { if (XRSettings.supportedDevices.Contains("OpenVR") == false) errorLog += "OpenVR is not in your list of supported virtual reality SDKs. Add it to the list in player settings. "; else if (XRSettings.supportedDevices.First().Contains("OpenVR") == false) errorLog += "OpenVR is not first in your list of supported virtual reality SDKs. This is okay, but if you have an Oculus device plugged in, and Oculus above OpenVR in this list, it will try and use the Oculus SDK instead of OpenVR. "; } else { errorLog += "You have no SDKs in your Player Settings list of supported virtual reality SDKs. Add OpenVR to it. "; } errorLog += "To force OpenVR initialization call SteamVR.Initialize(true). "; Debug.LogWarning(errorLog); } private static SteamVR CreateInstance() { initializedState = InitializedStates.Initializing; try { var error = EVRInitError.None; if (!SteamVR.usingNativeSupport) { ReportGeneralErrors(); initializedState = InitializedStates.InitializeFailure; SteamVR_Events.Initialized.Send(false); return null; } // Verify common interfaces are valid. OpenVR.GetGenericInterface(OpenVR.IVRCompositor_Version, ref error); if (error != EVRInitError.None) { initializedState = InitializedStates.InitializeFailure; ReportError(error); ReportGeneralErrors(); SteamVR_Events.Initialized.Send(false); return null; } OpenVR.GetGenericInterface(OpenVR.IVROverlay_Version, ref error); if (error != EVRInitError.None) { initializedState = InitializedStates.InitializeFailure; ReportError(error); SteamVR_Events.Initialized.Send(false); return null; } OpenVR.GetGenericInterface(OpenVR.IVRInput_Version, ref error); if (error != EVRInitError.None) { initializedState = InitializedStates.InitializeFailure; ReportError(error); SteamVR_Events.Initialized.Send(false); return null; } settings = SteamVR_Settings.instance; if (Application.isEditor) IdentifyEditorApplication(); SteamVR_Input.IdentifyActionsFile(); if (SteamVR_Settings.instance.inputUpdateMode != SteamVR_UpdateModes.Nothing || SteamVR_Settings.instance.poseUpdateMode != SteamVR_UpdateModes.Nothing) { SteamVR_Input.Initialize(); #if UNITY_EDITOR if (SteamVR_Input.IsOpeningSetup()) return null; #endif } } catch (System.Exception e) { Debug.LogError("[SteamVR] " + e); SteamVR_Events.Initialized.Send(false); return null; } _enabled = true; initializedState = InitializedStates.InitializeSuccess; SteamVR_Events.Initialized.Send(true); return new SteamVR(); } static void ReportError(EVRInitError error) { switch (error) { case EVRInitError.None: break; case EVRInitError.VendorSpecific_UnableToConnectToOculusRuntime: Debug.LogWarning("[SteamVR] Initialization Failed! Make sure device is on, Oculus runtime is installed, and OVRService_*.exe is running."); break; case EVRInitError.Init_VRClientDLLNotFound: Debug.LogWarning("[SteamVR] Drivers not found! They can be installed via Steam under Library > Tools. Visit http://steampowered.com to install Steam."); break; case EVRInitError.Driver_RuntimeOutOfDate: Debug.LogWarning("[SteamVR] Initialization Failed! Make sure device's runtime is up to date."); break; default: Debug.LogWarning("[SteamVR] " + OpenVR.GetStringForHmdError(error)); break; } } // native interfaces public CVRSystem hmd { get; private set; } public CVRCompositor compositor { get; private set; } public CVROverlay overlay { get; private set; } // tracking status static public bool initializing { get; private set; } static public bool calibrating { get; private set; } static public bool outOfRange { get; private set; } static public bool[] connected = new bool[OpenVR.k_unMaxTrackedDeviceCount]; // render values public float sceneWidth { get; private set; } public float sceneHeight { get; private set; } public float aspect { get; private set; } public float fieldOfView { get; private set; } public Vector2 tanHalfFov { get; private set; } public VRTextureBounds_t[] textureBounds { get; private set; } public SteamVR_Utils.RigidTransform[] eyes { get; private set; } public ETextureType textureType; // hmd properties public string hmd_TrackingSystemName { get { return GetStringProperty(ETrackedDeviceProperty.Prop_TrackingSystemName_String); } } public string hmd_ModelNumber { get { return GetStringProperty(ETrackedDeviceProperty.Prop_ModelNumber_String); } } public string hmd_SerialNumber { get { return GetStringProperty(ETrackedDeviceProperty.Prop_SerialNumber_String); } } public float hmd_SecondsFromVsyncToPhotons { get { return GetFloatProperty(ETrackedDeviceProperty.Prop_SecondsFromVsyncToPhotons_Float); } } public float hmd_DisplayFrequency { get { return GetFloatProperty(ETrackedDeviceProperty.Prop_DisplayFrequency_Float); } } public EDeviceActivityLevel GetHeadsetActivityLevel() { return OpenVR.System.GetTrackedDeviceActivityLevel(OpenVR.k_unTrackedDeviceIndex_Hmd); } public string GetTrackedDeviceString(uint deviceId) { var error = ETrackedPropertyError.TrackedProp_Success; var capacity = hmd.GetStringTrackedDeviceProperty(deviceId, ETrackedDeviceProperty.Prop_AttachedDeviceId_String, null, 0, ref error); if (capacity > 1) { var result = new System.Text.StringBuilder((int)capacity); hmd.GetStringTrackedDeviceProperty(deviceId, ETrackedDeviceProperty.Prop_AttachedDeviceId_String, result, capacity, ref error); return result.ToString(); } return null; } public string GetStringProperty(ETrackedDeviceProperty prop, uint deviceId = OpenVR.k_unTrackedDeviceIndex_Hmd) { var error = ETrackedPropertyError.TrackedProp_Success; var capactiy = hmd.GetStringTrackedDeviceProperty(deviceId, prop, null, 0, ref error); if (capactiy > 1) { var result = new System.Text.StringBuilder((int)capactiy); hmd.GetStringTrackedDeviceProperty(deviceId, prop, result, capactiy, ref error); return result.ToString(); } return (error != ETrackedPropertyError.TrackedProp_Success) ? error.ToString() : ""; } public float GetFloatProperty(ETrackedDeviceProperty prop, uint deviceId = OpenVR.k_unTrackedDeviceIndex_Hmd) { var error = ETrackedPropertyError.TrackedProp_Success; return hmd.GetFloatTrackedDeviceProperty(deviceId, prop, ref error); } private static bool runningTemporarySession = false; public static bool InitializeTemporarySession(bool initInput = false) { if (Application.isEditor) { //bool needsInit = (!active && !usingNativeSupport && !runningTemporarySession); EVRInitError initError = EVRInitError.None; OpenVR.GetGenericInterface(OpenVR.IVRCompositor_Version, ref initError); bool needsInit = initError != EVRInitError.None; if (needsInit) { EVRInitError error = EVRInitError.None; OpenVR.Init(ref error, EVRApplicationType.VRApplication_Overlay); if (error != EVRInitError.None) { Debug.LogError("[SteamVR] Error during OpenVR Init: " + error.ToString()); return false; } IdentifyEditorApplication(false); SteamVR_Input.IdentifyActionsFile(false); runningTemporarySession = true; } if (initInput) { SteamVR_Input.Initialize(true); } return needsInit; } return false; } public static void ExitTemporarySession() { if (runningTemporarySession) { OpenVR.Shutdown(); runningTemporarySession = false; } } #if UNITY_EDITOR public static void ShowBindingsForEditor() { bool temporarySession = InitializeTemporarySession(false); Valve.VR.EVRSettingsError bindingFlagError = Valve.VR.EVRSettingsError.None; Valve.VR.OpenVR.Settings.SetBool(Valve.VR.OpenVR.k_pch_SteamVR_Section, Valve.VR.OpenVR.k_pch_SteamVR_DebugInputBinding, true, ref bindingFlagError); if (bindingFlagError != Valve.VR.EVRSettingsError.None) Debug.LogError("[SteamVR] Error turning on the debug input binding flag in steamvr: " + bindingFlagError.ToString()); if (Application.isPlaying == false) { IdentifyEditorApplication(); SteamVR_Input.IdentifyActionsFile(); } if (temporarySession) ExitTemporarySession(); string bindingurl = "http://localhost:8998/dashboard/controllerbinding.html?app=" + SteamVR_Settings.instance.editorAppKey; #if UNITY_STANDALONE_WIN SteamVR_Windows_Editor_Helper.BrowserApplication browser = SteamVR_Windows_Editor_Helper.GetDefaultBrowser(); if (browser == SteamVR_Windows_Editor_Helper.BrowserApplication.Unknown) { Debug.LogError("[SteamVR] Unfortunately we were unable to detect your default browser. You may need to manually open the controller binding UI from SteamVR if it does not open successfully. SteamVR Menu -> Devices -> Controller Input Binding. Press play in your application to get it running then select it under Current Application."); } else if (browser == SteamVR_Windows_Editor_Helper.BrowserApplication.Edge) { Debug.LogError("[SteamVR] Microsoft Edge sometimes has issues with opening localhost webpages. You may need to manually open the controller binding UI from SteamVR if it did not load successfully. SteamVR Menu -> Devices -> Controller Input Binding. Press play in your application to get it running then select it under Current Application."); } #endif Application.OpenURL(bindingurl); //todo: update with the actual api call } public static string GetSteamVRFolderParentPath(bool localToAssetsFolder = false) { SteamVR_Settings asset = ScriptableObject.CreateInstance(); UnityEditor.MonoScript scriptAsset = UnityEditor.MonoScript.FromScriptableObject(asset); string scriptPath = UnityEditor.AssetDatabase.GetAssetPath(scriptAsset); System.IO.FileInfo settingsScriptFileInfo = new System.IO.FileInfo(scriptPath); string fullPath = settingsScriptFileInfo.Directory.Parent.Parent.FullName; if (localToAssetsFolder == false) return fullPath; else { System.IO.DirectoryInfo assetsDirectoryInfo = new DirectoryInfo(Application.dataPath); string localPath = fullPath.Substring(assetsDirectoryInfo.Parent.FullName.Length + 1); //plus separator char return localPath; } } public static string GetSteamVRFolderPath(bool localToAssetsFolder = false) { SteamVR_Settings asset = ScriptableObject.CreateInstance(); UnityEditor.MonoScript scriptAsset = UnityEditor.MonoScript.FromScriptableObject(asset); string scriptPath = UnityEditor.AssetDatabase.GetAssetPath(scriptAsset); System.IO.FileInfo settingsScriptFileInfo = new System.IO.FileInfo(scriptPath); string fullPath = settingsScriptFileInfo.Directory.Parent.FullName; if (localToAssetsFolder == false) return fullPath; else { System.IO.DirectoryInfo assetsDirectoryInfo = new DirectoryInfo(Application.dataPath); string localPath = fullPath.Substring(assetsDirectoryInfo.Parent.FullName.Length + 1); //plus separator char return localPath; } } public static string GetSteamVRResourcesFolderPath(bool localToAssetsFolder = false) { string basePath = GetSteamVRFolderParentPath(localToAssetsFolder); string folderPath = Path.Combine(basePath, "SteamVR_Resources"); if (Directory.Exists(folderPath) == false) Directory.CreateDirectory(folderPath); string resourcesFolderPath = Path.Combine(folderPath, "Resources"); if (Directory.Exists(resourcesFolderPath) == false) Directory.CreateDirectory(resourcesFolderPath); return resourcesFolderPath; } #endif public const string defaultUnityAppKeyTemplate = "application.generated.unity.{0}.exe"; public const string defaultAppKeyTemplate = "application.generated.{0}"; public static string GenerateAppKey() { string productName = GenerateCleanProductName(); return string.Format(defaultUnityAppKeyTemplate, productName); } public static string GenerateCleanProductName() { string productName = Application.productName; if (string.IsNullOrEmpty(productName)) productName = "unnamed_product"; else { productName = System.Text.RegularExpressions.Regex.Replace(Application.productName, "[^\\w\\._]", ""); productName = productName.ToLower(); } return productName; } private static string GetManifestFile() { string currentPath = Application.dataPath; int lastIndex = currentPath.LastIndexOf('/'); currentPath = currentPath.Remove(lastIndex, currentPath.Length - lastIndex); string fullPath = Path.Combine(currentPath, "unityProject.vrmanifest"); FileInfo fullManifestPath = new FileInfo(SteamVR_Input.GetActionsFilePath()); if (File.Exists(fullPath)) { string jsonText = File.ReadAllText(fullPath); SteamVR_Input_ManifestFile existingFile = Valve.Newtonsoft.Json.JsonConvert.DeserializeObject(jsonText); if (existingFile != null && existingFile.applications != null && existingFile.applications.Count > 0 && existingFile.applications[0].app_key != SteamVR_Settings.instance.editorAppKey) { Debug.Log("[SteamVR] Deleting existing VRManifest because it has a different app key."); FileInfo existingInfo = new FileInfo(fullPath); if (existingInfo.IsReadOnly) existingInfo.IsReadOnly = false; existingInfo.Delete(); } if (existingFile != null && existingFile.applications != null && existingFile.applications.Count > 0 && existingFile.applications[0].action_manifest_path != fullManifestPath.FullName) { Debug.Log("[SteamVR] Deleting existing VRManifest because it has a different action manifest path:" + "\nExisting:" + existingFile.applications[0].action_manifest_path + "\nNew: " + fullManifestPath.FullName); FileInfo existingInfo = new FileInfo(fullPath); if (existingInfo.IsReadOnly) existingInfo.IsReadOnly = false; existingInfo.Delete(); } } if (File.Exists(fullPath) == false) { SteamVR_Input_ManifestFile manifestFile = new SteamVR_Input_ManifestFile(); manifestFile.source = "Unity"; SteamVR_Input_ManifestFile_Application manifestApplication = new SteamVR_Input_ManifestFile_Application(); manifestApplication.app_key = SteamVR_Settings.instance.editorAppKey; manifestApplication.action_manifest_path = fullManifestPath.FullName; manifestApplication.launch_type = "url"; //manifestApplication.binary_path_windows = SteamVR_Utils.ConvertToForwardSlashes(System.Diagnostics.Process.GetCurrentProcess().MainModule.FileName); //manifestApplication.binary_path_linux = SteamVR_Utils.ConvertToForwardSlashes(System.Diagnostics.Process.GetCurrentProcess().MainModule.FileName); //manifestApplication.binary_path_osx = SteamVR_Utils.ConvertToForwardSlashes(System.Diagnostics.Process.GetCurrentProcess().MainModule.FileName); manifestApplication.url = "steam://launch/"; manifestApplication.strings.Add("en_us", new SteamVR_Input_ManifestFile_ApplicationString() { name = string.Format("{0} [Testing]", Application.productName) }); /* var bindings = new System.Collections.Generic.List(); SteamVR_Input.InitializeFile(); if (SteamVR_Input.actionFile != null) { string[] bindingFiles = SteamVR_Input.actionFile.GetFilesToCopy(true); if (bindingFiles.Length == SteamVR_Input.actionFile.default_bindings.Count) { for (int bindingIndex = 0; bindingIndex < bindingFiles.Length; bindingIndex++) { SteamVR_Input_ManifestFile_Application_Binding binding = new SteamVR_Input_ManifestFile_Application_Binding(); binding.binding_url = bindingFiles[bindingIndex]; binding.controller_type = SteamVR_Input.actionFile.default_bindings[bindingIndex].controller_type; bindings.Add(binding); } manifestApplication.bindings = bindings; } else { Debug.LogError("[SteamVR] Mismatch in available binding files."); } } else { Debug.LogError("[SteamVR] Could not load actions file."); } */ manifestFile.applications = new System.Collections.Generic.List(); manifestFile.applications.Add(manifestApplication); string json = Valve.Newtonsoft.Json.JsonConvert.SerializeObject(manifestFile, Valve.Newtonsoft.Json.Formatting.Indented, new Valve.Newtonsoft.Json.JsonSerializerSettings { NullValueHandling = Valve.Newtonsoft.Json.NullValueHandling.Ignore }); File.WriteAllText(fullPath, json); } return fullPath; } private static void IdentifyEditorApplication(bool showLogs = true) { //bool isInstalled = OpenVR.Applications.IsApplicationInstalled(SteamVR_Settings.instance.editorAppKey); if (string.IsNullOrEmpty(SteamVR_Settings.instance.editorAppKey)) { Debug.LogError("[SteamVR] Critical Error identifying application. EditorAppKey is null or empty. Input may not work."); return; } string manifestPath = GetManifestFile(); EVRApplicationError addManifestErr = OpenVR.Applications.AddApplicationManifest(manifestPath, true); if (addManifestErr != EVRApplicationError.None) Debug.LogError("[SteamVR] Error adding vr manifest file: " + addManifestErr.ToString()); else { if (showLogs) Debug.Log("[SteamVR] Successfully added VR manifest to SteamVR"); } int processId = System.Diagnostics.Process.GetCurrentProcess().Id; EVRApplicationError applicationIdentifyErr = OpenVR.Applications.IdentifyApplication((uint)processId, SteamVR_Settings.instance.editorAppKey); if (applicationIdentifyErr != EVRApplicationError.None) Debug.LogError("[SteamVR] Error identifying application: " + applicationIdentifyErr.ToString()); else { if (showLogs) Debug.Log(string.Format("[SteamVR] Successfully identified process as editor project to SteamVR ({0})", SteamVR_Settings.instance.editorAppKey)); } } #region Event callbacks private void OnInitializing(bool initializing) { SteamVR.initializing = initializing; } private void OnCalibrating(bool calibrating) { SteamVR.calibrating = calibrating; } private void OnOutOfRange(bool outOfRange) { SteamVR.outOfRange = outOfRange; } private void OnDeviceConnected(int i, bool connected) { SteamVR.connected[i] = connected; } private void OnNewPoses(TrackedDevicePose_t[] poses) { // Update eye offsets to account for IPD changes. eyes[0] = new SteamVR_Utils.RigidTransform(hmd.GetEyeToHeadTransform(EVREye.Eye_Left)); eyes[1] = new SteamVR_Utils.RigidTransform(hmd.GetEyeToHeadTransform(EVREye.Eye_Right)); for (int i = 0; i < poses.Length; i++) { var connected = poses[i].bDeviceIsConnected; if (connected != SteamVR.connected[i]) { SteamVR_Events.DeviceConnected.Send(i, connected); } } if (poses.Length > OpenVR.k_unTrackedDeviceIndex_Hmd) { var result = poses[OpenVR.k_unTrackedDeviceIndex_Hmd].eTrackingResult; var initializing = result == ETrackingResult.Uninitialized; if (initializing != SteamVR.initializing) { SteamVR_Events.Initializing.Send(initializing); } var calibrating = result == ETrackingResult.Calibrating_InProgress || result == ETrackingResult.Calibrating_OutOfRange; if (calibrating != SteamVR.calibrating) { SteamVR_Events.Calibrating.Send(calibrating); } var outOfRange = result == ETrackingResult.Running_OutOfRange || result == ETrackingResult.Calibrating_OutOfRange; if (outOfRange != SteamVR.outOfRange) { SteamVR_Events.OutOfRange.Send(outOfRange); } } } #endregion private SteamVR() { hmd = OpenVR.System; Debug.Log("[SteamVR] Initialized. Connected to " + hmd_TrackingSystemName + ":" + hmd_SerialNumber); compositor = OpenVR.Compositor; overlay = OpenVR.Overlay; // Setup render values uint w = 0, h = 0; hmd.GetRecommendedRenderTargetSize(ref w, ref h); sceneWidth = (float)w; sceneHeight = (float)h; float l_left = 0.0f, l_right = 0.0f, l_top = 0.0f, l_bottom = 0.0f; hmd.GetProjectionRaw(EVREye.Eye_Left, ref l_left, ref l_right, ref l_top, ref l_bottom); float r_left = 0.0f, r_right = 0.0f, r_top = 0.0f, r_bottom = 0.0f; hmd.GetProjectionRaw(EVREye.Eye_Right, ref r_left, ref r_right, ref r_top, ref r_bottom); tanHalfFov = new Vector2( Mathf.Max(-l_left, l_right, -r_left, r_right), Mathf.Max(-l_top, l_bottom, -r_top, r_bottom)); textureBounds = new VRTextureBounds_t[2]; textureBounds[0].uMin = 0.5f + 0.5f * l_left / tanHalfFov.x; textureBounds[0].uMax = 0.5f + 0.5f * l_right / tanHalfFov.x; textureBounds[0].vMin = 0.5f - 0.5f * l_bottom / tanHalfFov.y; textureBounds[0].vMax = 0.5f - 0.5f * l_top / tanHalfFov.y; textureBounds[1].uMin = 0.5f + 0.5f * r_left / tanHalfFov.x; textureBounds[1].uMax = 0.5f + 0.5f * r_right / tanHalfFov.x; textureBounds[1].vMin = 0.5f - 0.5f * r_bottom / tanHalfFov.y; textureBounds[1].vMax = 0.5f - 0.5f * r_top / tanHalfFov.y; // Grow the recommended size to account for the overlapping fov sceneWidth = sceneWidth / Mathf.Max(textureBounds[0].uMax - textureBounds[0].uMin, textureBounds[1].uMax - textureBounds[1].uMin); sceneHeight = sceneHeight / Mathf.Max(textureBounds[0].vMax - textureBounds[0].vMin, textureBounds[1].vMax - textureBounds[1].vMin); aspect = tanHalfFov.x / tanHalfFov.y; fieldOfView = 2.0f * Mathf.Atan(tanHalfFov.y) * Mathf.Rad2Deg; eyes = new SteamVR_Utils.RigidTransform[] { new SteamVR_Utils.RigidTransform(hmd.GetEyeToHeadTransform(EVREye.Eye_Left)), new SteamVR_Utils.RigidTransform(hmd.GetEyeToHeadTransform(EVREye.Eye_Right)) }; switch (SystemInfo.graphicsDeviceType) { #if (UNITY_5_4) case UnityEngine.Rendering.GraphicsDeviceType.OpenGL2: #endif case UnityEngine.Rendering.GraphicsDeviceType.OpenGLCore: case UnityEngine.Rendering.GraphicsDeviceType.OpenGLES2: case UnityEngine.Rendering.GraphicsDeviceType.OpenGLES3: textureType = ETextureType.OpenGL; break; #if !(UNITY_5_4) case UnityEngine.Rendering.GraphicsDeviceType.Vulkan: textureType = ETextureType.Vulkan; break; #endif default: textureType = ETextureType.DirectX; break; } SteamVR_Events.Initializing.Listen(OnInitializing); SteamVR_Events.Calibrating.Listen(OnCalibrating); SteamVR_Events.OutOfRange.Listen(OnOutOfRange); SteamVR_Events.DeviceConnected.Listen(OnDeviceConnected); SteamVR_Events.NewPoses.Listen(OnNewPoses); } ~SteamVR() { Dispose(false); } public void Dispose() { Dispose(true); System.GC.SuppressFinalize(this); } private void Dispose(bool disposing) { SteamVR_Events.Initializing.Remove(OnInitializing); SteamVR_Events.Calibrating.Remove(OnCalibrating); SteamVR_Events.OutOfRange.Remove(OnOutOfRange); SteamVR_Events.DeviceConnected.Remove(OnDeviceConnected); SteamVR_Events.NewPoses.Remove(OnNewPoses); _instance = null; } // Use this interface to avoid accidentally creating the instance in the process of attempting to dispose of it. public static void SafeDispose() { if (_instance != null) _instance.Dispose(); } } }