diff --git a/vrclient_x64/openvr_v1.11.11/ivrclientcore.h b/vrclient_x64/openvr_v1.11.11/ivrclientcore.h new file mode 100644 index 00000000..873bd600 --- /dev/null +++ b/vrclient_x64/openvr_v1.11.11/ivrclientcore.h @@ -0,0 +1,35 @@ +//========= Copyright Valve Corporation ============// +#include "openvr.h" + +namespace vr +{ + +class IVRClientCore +{ +public: + /** Initializes the system */ + virtual EVRInitError Init( vr::EVRApplicationType eApplicationType, const char *pStartupInfo ) = 0; + + /** cleans up everything in vrclient.dll and prepares the DLL to be unloaded */ + virtual void Cleanup() = 0; + + /** checks to see if the specified interface/version is supported in this vrclient.dll */ + virtual EVRInitError IsInterfaceVersionValid( const char *pchInterfaceVersion ) = 0; + + /** Retrieves any interface from vrclient.dll */ + virtual void *GetGenericInterface( const char *pchNameAndVersion, EVRInitError *peError ) = 0; + + /** Returns true if any driver has an HMD attached. Can be called outside of Init/Cleanup */ + virtual bool BIsHmdPresent() = 0; + + /** Returns an English error string from inside vrclient.dll which might be newer than the API DLL */ + virtual const char *GetEnglishStringForHmdError( vr::EVRInitError eError ) = 0; + + /** Returns an error symbol from inside vrclient.dll which might be newer than the API DLL */ + virtual const char *GetIDForVRInitError( vr::EVRInitError eError ) = 0; +}; + +static const char * const IVRClientCore_Version = "IVRClientCore_003"; + + +} diff --git a/vrclient_x64/openvr_v1.11.11/openvr.h b/vrclient_x64/openvr_v1.11.11/openvr.h new file mode 100644 index 00000000..a9145dd0 --- /dev/null +++ b/vrclient_x64/openvr_v1.11.11/openvr.h @@ -0,0 +1,5504 @@ + +// openvr.h +//========= Copyright Valve Corporation ============// +// Dynamically generated file. Do not modify this file directly. + +#ifndef _OPENVR_API +#define _OPENVR_API + +#include + + + +// version.h +namespace vr +{ + static const uint32_t k_nSteamVRVersionMajor = 1; + static const uint32_t k_nSteamVRVersionMinor = 11; + static const uint32_t k_nSteamVRVersionBuild = 11; +} // namespace vr + +// vrtypes.h +#ifndef _INCLUDE_VRTYPES_H +#define _INCLUDE_VRTYPES_H + +// Forward declarations to avoid requiring vulkan.h +struct VkDevice_T; +struct VkPhysicalDevice_T; +struct VkInstance_T; +struct VkQueue_T; + +// Forward declarations to avoid requiring d3d12.h +struct ID3D12Resource; +struct ID3D12CommandQueue; + +namespace vr +{ +#pragma pack( push, 8 ) + +/** A handle for a spatial anchor. This handle is only valid during the session it was created in. +* Anchors that live beyond one session should be saved by their string descriptors. */ +typedef uint32_t SpatialAnchorHandle_t; + +typedef void* glSharedTextureHandle_t; +typedef int32_t glInt_t; +typedef uint32_t glUInt_t; + +// right-handed system +// +y is up +// +x is to the right +// -z is forward +// Distance unit is meters +struct HmdMatrix34_t +{ + float m[3][4]; +}; + +struct HmdMatrix33_t +{ + float m[3][3]; +}; + +struct HmdMatrix44_t +{ + float m[4][4]; +}; + +struct HmdVector3_t +{ + float v[3]; +}; + +struct HmdVector4_t +{ + float v[4]; +}; + +struct HmdVector3d_t +{ + double v[3]; +}; + +struct HmdVector2_t +{ + float v[2]; +}; + +struct HmdQuaternion_t +{ + double w, x, y, z; +}; + +struct HmdQuaternionf_t +{ + float w, x, y, z; +}; + +struct HmdColor_t +{ + float r, g, b, a; +}; + +struct HmdQuad_t +{ + HmdVector3_t vCorners[ 4 ]; +}; + +struct HmdRect2_t +{ + HmdVector2_t vTopLeft; + HmdVector2_t vBottomRight; +}; + +/** Used to return the post-distortion UVs for each color channel. +* UVs range from 0 to 1 with 0,0 in the upper left corner of the +* source render target. The 0,0 to 1,1 range covers a single eye. */ +struct DistortionCoordinates_t +{ + float rfRed[2]; + float rfGreen[2]; + float rfBlue[2]; +}; + +enum EVREye +{ + Eye_Left = 0, + Eye_Right = 1 +}; + +enum ETextureType +{ + TextureType_Invalid = -1, // Handle has been invalidated + TextureType_DirectX = 0, // Handle is an ID3D11Texture + TextureType_OpenGL = 1, // Handle is an OpenGL texture name or an OpenGL render buffer name, depending on submit flags + TextureType_Vulkan = 2, // Handle is a pointer to a VRVulkanTextureData_t structure + TextureType_IOSurface = 3, // Handle is a macOS cross-process-sharable IOSurfaceRef, deprecated in favor of TextureType_Metal on supported platforms + TextureType_DirectX12 = 4, // Handle is a pointer to a D3D12TextureData_t structure + TextureType_DXGISharedHandle = 5, // Handle is a HANDLE DXGI share handle, only supported for Overlay render targets. + // this texture is used directly by our renderer, so only perform atomic (copyresource or resolve) on it + TextureType_Metal = 6, // Handle is a MTLTexture conforming to the MTLSharedTexture protocol. Textures submitted to IVRCompositor::Submit which + // are of type MTLTextureType2DArray assume layer 0 is the left eye texture (vr::EVREye::Eye_left), layer 1 is the right + // eye texture (vr::EVREye::Eye_Right) +}; + +enum EColorSpace +{ + ColorSpace_Auto = 0, // Assumes 'gamma' for 8-bit per component formats, otherwise 'linear'. This mirrors the DXGI formats which have _SRGB variants. + ColorSpace_Gamma = 1, // Texture data can be displayed directly on the display without any conversion (a.k.a. display native format). + ColorSpace_Linear = 2, // Same as gamma but has been converted to a linear representation using DXGI's sRGB conversion algorithm. +}; + +struct Texture_t +{ + void* handle; // See ETextureType definition above + ETextureType eType; + EColorSpace eColorSpace; +}; + +// Handle to a shared texture (HANDLE on Windows obtained using OpenSharedResource). +typedef uint64_t SharedTextureHandle_t; +#define INVALID_SHARED_TEXTURE_HANDLE ((vr::SharedTextureHandle_t)0) + +enum ETrackingResult +{ + TrackingResult_Uninitialized = 1, + + TrackingResult_Calibrating_InProgress = 100, + TrackingResult_Calibrating_OutOfRange = 101, + + TrackingResult_Running_OK = 200, + TrackingResult_Running_OutOfRange = 201, + + TrackingResult_Fallback_RotationOnly = 300, +}; + +typedef uint32_t DriverId_t; +static const uint32_t k_nDriverNone = 0xFFFFFFFF; + +static const uint32_t k_unMaxDriverDebugResponseSize = 32768; + +/** Used to pass device IDs to API calls */ +typedef uint32_t TrackedDeviceIndex_t; +static const uint32_t k_unTrackedDeviceIndex_Hmd = 0; +static const uint32_t k_unMaxTrackedDeviceCount = 64; +static const uint32_t k_unTrackedDeviceIndexOther = 0xFFFFFFFE; +static const uint32_t k_unTrackedDeviceIndexInvalid = 0xFFFFFFFF; + +/** Describes what kind of object is being tracked at a given ID */ +enum ETrackedDeviceClass +{ + TrackedDeviceClass_Invalid = 0, // the ID was not valid. + TrackedDeviceClass_HMD = 1, // Head-Mounted Displays + TrackedDeviceClass_Controller = 2, // Tracked controllers + TrackedDeviceClass_GenericTracker = 3, // Generic trackers, similar to controllers + TrackedDeviceClass_TrackingReference = 4, // Camera and base stations that serve as tracking reference points + TrackedDeviceClass_DisplayRedirect = 5, // Accessories that aren't necessarily tracked themselves, but may redirect video output from other tracked devices + + TrackedDeviceClass_Max +}; + + +/** Describes what specific role associated with a tracked device */ +enum ETrackedControllerRole +{ + TrackedControllerRole_Invalid = 0, // Invalid value for controller type + TrackedControllerRole_LeftHand = 1, // Tracked device associated with the left hand + TrackedControllerRole_RightHand = 2, // Tracked device associated with the right hand + TrackedControllerRole_OptOut = 3, // Tracked device is opting out of left/right hand selection + TrackedControllerRole_Treadmill = 4, // Tracked device is a treadmill or other locomotion device + TrackedControllerRole_Stylus = 5, // Tracked device is a stylus + TrackedControllerRole_Max = 5 +}; + + +/** Returns true if the tracked controller role is allowed to be a hand */ +inline bool IsRoleAllowedAsHand( ETrackedControllerRole eRole ) +{ + switch ( eRole ) + { + case TrackedControllerRole_Invalid: + case TrackedControllerRole_LeftHand: + case TrackedControllerRole_RightHand: + return true; + default: + return false; + } +} + + +/** describes a single pose for a tracked object */ +struct TrackedDevicePose_t +{ + HmdMatrix34_t mDeviceToAbsoluteTracking; + HmdVector3_t vVelocity; // velocity in tracker space in m/s + HmdVector3_t vAngularVelocity; // angular velocity in radians/s (?) + ETrackingResult eTrackingResult; + bool bPoseIsValid; + + // This indicates that there is a device connected for this spot in the pose array. + // It could go from true to false if the user unplugs the device. + bool bDeviceIsConnected; +}; + +/** Identifies which style of tracking origin the application wants to use +* for the poses it is requesting */ +enum ETrackingUniverseOrigin +{ + TrackingUniverseSeated = 0, // Poses are provided relative to the seated zero pose + TrackingUniverseStanding = 1, // Poses are provided relative to the safe bounds configured by the user + TrackingUniverseRawAndUncalibrated = 2, // Poses are provided in the coordinate system defined by the driver. It has Y up and is unified for devices of the same driver. You usually don't want this one. +}; + +enum EAdditionalRadioFeatures +{ + AdditionalRadioFeatures_None = 0x00000000, + AdditionalRadioFeatures_HTCLinkBox = 0x00000001, + AdditionalRadioFeatures_InternalDongle = 0x00000002, + AdditionalRadioFeatures_ExternalDongle = 0x00000004, +}; + +typedef uint64_t WebConsoleHandle_t; +#define INVALID_WEB_CONSOLE_HANDLE ((vr::WebConsoleHandle_t)0) + +// Refers to a single container of properties +typedef uint64_t PropertyContainerHandle_t; +typedef uint32_t PropertyTypeTag_t; + +static const PropertyContainerHandle_t k_ulInvalidPropertyContainer = 0; +static const PropertyTypeTag_t k_unInvalidPropertyTag = 0; + +typedef PropertyContainerHandle_t DriverHandle_t; +static const PropertyContainerHandle_t k_ulInvalidDriverHandle = 0; + +// Use these tags to set/get common types as struct properties +static const PropertyTypeTag_t k_unFloatPropertyTag = 1; +static const PropertyTypeTag_t k_unInt32PropertyTag = 2; +static const PropertyTypeTag_t k_unUint64PropertyTag = 3; +static const PropertyTypeTag_t k_unBoolPropertyTag = 4; +static const PropertyTypeTag_t k_unStringPropertyTag = 5; +static const PropertyTypeTag_t k_unErrorPropertyTag = 6; +static const PropertyTypeTag_t k_unDoublePropertyTag = 7; + +static const PropertyTypeTag_t k_unHmdMatrix34PropertyTag = 20; +static const PropertyTypeTag_t k_unHmdMatrix44PropertyTag = 21; +static const PropertyTypeTag_t k_unHmdVector3PropertyTag = 22; +static const PropertyTypeTag_t k_unHmdVector4PropertyTag = 23; +static const PropertyTypeTag_t k_unHmdVector2PropertyTag = 24; +static const PropertyTypeTag_t k_unHmdQuadPropertyTag = 25; + +static const PropertyTypeTag_t k_unHiddenAreaPropertyTag = 30; +static const PropertyTypeTag_t k_unPathHandleInfoTag = 31; +static const PropertyTypeTag_t k_unActionPropertyTag = 32; +static const PropertyTypeTag_t k_unInputValuePropertyTag = 33; +static const PropertyTypeTag_t k_unWildcardPropertyTag = 34; +static const PropertyTypeTag_t k_unHapticVibrationPropertyTag = 35; +static const PropertyTypeTag_t k_unSkeletonPropertyTag = 36; + +static const PropertyTypeTag_t k_unSpatialAnchorPosePropertyTag = 40; +static const PropertyTypeTag_t k_unJsonPropertyTag = 41; +static const PropertyTypeTag_t k_unActiveActionSetPropertyTag = 42; + +static const PropertyTypeTag_t k_unOpenVRInternalReserved_Start = 1000; +static const PropertyTypeTag_t k_unOpenVRInternalReserved_End = 10000; + + +/** Each entry in this enum represents a property that can be retrieved about a +* tracked device. Many fields are only valid for one ETrackedDeviceClass. */ +enum ETrackedDeviceProperty +{ + Prop_Invalid = 0, + + // general properties that apply to all device classes + Prop_TrackingSystemName_String = 1000, + Prop_ModelNumber_String = 1001, + Prop_SerialNumber_String = 1002, + Prop_RenderModelName_String = 1003, + Prop_WillDriftInYaw_Bool = 1004, + Prop_ManufacturerName_String = 1005, + Prop_TrackingFirmwareVersion_String = 1006, + Prop_HardwareRevision_String = 1007, + Prop_AllWirelessDongleDescriptions_String = 1008, + Prop_ConnectedWirelessDongle_String = 1009, + Prop_DeviceIsWireless_Bool = 1010, + Prop_DeviceIsCharging_Bool = 1011, + Prop_DeviceBatteryPercentage_Float = 1012, // 0 is empty, 1 is full + Prop_StatusDisplayTransform_Matrix34 = 1013, + Prop_Firmware_UpdateAvailable_Bool = 1014, + Prop_Firmware_ManualUpdate_Bool = 1015, + Prop_Firmware_ManualUpdateURL_String = 1016, + Prop_HardwareRevision_Uint64 = 1017, + Prop_FirmwareVersion_Uint64 = 1018, + Prop_FPGAVersion_Uint64 = 1019, + Prop_VRCVersion_Uint64 = 1020, + Prop_RadioVersion_Uint64 = 1021, + Prop_DongleVersion_Uint64 = 1022, + Prop_BlockServerShutdown_Bool = 1023, + Prop_CanUnifyCoordinateSystemWithHmd_Bool = 1024, + Prop_ContainsProximitySensor_Bool = 1025, + Prop_DeviceProvidesBatteryStatus_Bool = 1026, + Prop_DeviceCanPowerOff_Bool = 1027, + Prop_Firmware_ProgrammingTarget_String = 1028, + Prop_DeviceClass_Int32 = 1029, + Prop_HasCamera_Bool = 1030, + Prop_DriverVersion_String = 1031, + Prop_Firmware_ForceUpdateRequired_Bool = 1032, + Prop_ViveSystemButtonFixRequired_Bool = 1033, + Prop_ParentDriver_Uint64 = 1034, + Prop_ResourceRoot_String = 1035, + Prop_RegisteredDeviceType_String = 1036, + Prop_InputProfilePath_String = 1037, // input profile to use for this device in the input system. Will default to tracking system name if this isn't provided + Prop_NeverTracked_Bool = 1038, // Used for devices that will never have a valid pose by design + Prop_NumCameras_Int32 = 1039, + Prop_CameraFrameLayout_Int32 = 1040, // EVRTrackedCameraFrameLayout value + Prop_CameraStreamFormat_Int32 = 1041, // ECameraVideoStreamFormat value + Prop_AdditionalDeviceSettingsPath_String = 1042, // driver-relative path to additional device and global configuration settings + Prop_Identifiable_Bool = 1043, // Whether device supports being identified from vrmonitor (e.g. blink LED, vibrate haptics, etc) + Prop_BootloaderVersion_Uint64 = 1044, + Prop_AdditionalSystemReportData_String = 1045, // additional string to include in system reports about a tracked device + Prop_CompositeFirmwareVersion_String = 1046, // additional FW components from a device that gets propagated into reports + Prop_Firmware_RemindUpdate_Bool = 1047, + Prop_PeripheralApplicationVersion_Uint64 = 1048, + Prop_ManufacturerSerialNumber_String = 1049, + Prop_ComputedSerialNumber_String = 1050, + Prop_EstimatedDeviceFirstUseTime_Int32 = 1051, + + // Properties that are unique to TrackedDeviceClass_HMD + Prop_ReportsTimeSinceVSync_Bool = 2000, + Prop_SecondsFromVsyncToPhotons_Float = 2001, + Prop_DisplayFrequency_Float = 2002, + Prop_UserIpdMeters_Float = 2003, + Prop_CurrentUniverseId_Uint64 = 2004, + Prop_PreviousUniverseId_Uint64 = 2005, + Prop_DisplayFirmwareVersion_Uint64 = 2006, + Prop_IsOnDesktop_Bool = 2007, + Prop_DisplayMCType_Int32 = 2008, + Prop_DisplayMCOffset_Float = 2009, + Prop_DisplayMCScale_Float = 2010, + Prop_EdidVendorID_Int32 = 2011, + Prop_DisplayMCImageLeft_String = 2012, + Prop_DisplayMCImageRight_String = 2013, + Prop_DisplayGCBlackClamp_Float = 2014, + Prop_EdidProductID_Int32 = 2015, + Prop_CameraToHeadTransform_Matrix34 = 2016, + Prop_DisplayGCType_Int32 = 2017, + Prop_DisplayGCOffset_Float = 2018, + Prop_DisplayGCScale_Float = 2019, + Prop_DisplayGCPrescale_Float = 2020, + Prop_DisplayGCImage_String = 2021, + Prop_LensCenterLeftU_Float = 2022, + Prop_LensCenterLeftV_Float = 2023, + Prop_LensCenterRightU_Float = 2024, + Prop_LensCenterRightV_Float = 2025, + Prop_UserHeadToEyeDepthMeters_Float = 2026, + Prop_CameraFirmwareVersion_Uint64 = 2027, + Prop_CameraFirmwareDescription_String = 2028, + Prop_DisplayFPGAVersion_Uint64 = 2029, + Prop_DisplayBootloaderVersion_Uint64 = 2030, + Prop_DisplayHardwareVersion_Uint64 = 2031, + Prop_AudioFirmwareVersion_Uint64 = 2032, + Prop_CameraCompatibilityMode_Int32 = 2033, + Prop_ScreenshotHorizontalFieldOfViewDegrees_Float = 2034, + Prop_ScreenshotVerticalFieldOfViewDegrees_Float = 2035, + Prop_DisplaySuppressed_Bool = 2036, + Prop_DisplayAllowNightMode_Bool = 2037, + Prop_DisplayMCImageWidth_Int32 = 2038, + Prop_DisplayMCImageHeight_Int32 = 2039, + Prop_DisplayMCImageNumChannels_Int32 = 2040, + Prop_DisplayMCImageData_Binary = 2041, + Prop_SecondsFromPhotonsToVblank_Float = 2042, + Prop_DriverDirectModeSendsVsyncEvents_Bool = 2043, + Prop_DisplayDebugMode_Bool = 2044, + Prop_GraphicsAdapterLuid_Uint64 = 2045, + Prop_DriverProvidedChaperonePath_String = 2048, + Prop_ExpectedTrackingReferenceCount_Int32 = 2049, // expected number of sensors or basestations to reserve UI space for + Prop_ExpectedControllerCount_Int32 = 2050, // expected number of tracked controllers to reserve UI space for + Prop_NamedIconPathControllerLeftDeviceOff_String = 2051, // placeholder icon for "left" controller if not yet detected/loaded + Prop_NamedIconPathControllerRightDeviceOff_String = 2052, // placeholder icon for "right" controller if not yet detected/loaded + Prop_NamedIconPathTrackingReferenceDeviceOff_String = 2053, // placeholder icon for sensor/base if not yet detected/loaded + Prop_DoNotApplyPrediction_Bool = 2054, // currently no effect. was used to disable HMD pose prediction on MR, which is now done by MR driver setting velocity=0 + Prop_CameraToHeadTransforms_Matrix34_Array = 2055, + Prop_DistortionMeshResolution_Int32 = 2056, // custom resolution of compositor calls to IVRSystem::ComputeDistortion + Prop_DriverIsDrawingControllers_Bool = 2057, + Prop_DriverRequestsApplicationPause_Bool = 2058, + Prop_DriverRequestsReducedRendering_Bool = 2059, + Prop_MinimumIpdStepMeters_Float = 2060, + Prop_AudioBridgeFirmwareVersion_Uint64 = 2061, + Prop_ImageBridgeFirmwareVersion_Uint64 = 2062, + Prop_ImuToHeadTransform_Matrix34 = 2063, + Prop_ImuFactoryGyroBias_Vector3 = 2064, + Prop_ImuFactoryGyroScale_Vector3 = 2065, + Prop_ImuFactoryAccelerometerBias_Vector3 = 2066, + Prop_ImuFactoryAccelerometerScale_Vector3 = 2067, + // reserved 2068 + Prop_ConfigurationIncludesLighthouse20Features_Bool = 2069, + Prop_AdditionalRadioFeatures_Uint64 = 2070, + Prop_CameraWhiteBalance_Vector4_Array = 2071, // Prop_NumCameras_Int32-sized array of float[4] RGBG white balance calibration data (max size is vr::k_unMaxCameras) + Prop_CameraDistortionFunction_Int32_Array = 2072, // Prop_NumCameras_Int32-sized array of vr::EVRDistortionFunctionType values (max size is vr::k_unMaxCameras) + Prop_CameraDistortionCoefficients_Float_Array = 2073, // Prop_NumCameras_Int32-sized array of double[vr::k_unMaxDistortionFunctionParameters] (max size is vr::k_unMaxCameras) + Prop_ExpectedControllerType_String = 2074, + Prop_HmdTrackingStyle_Int32 = 2075, // one of EHmdTrackingStyle + Prop_DriverProvidedChaperoneVisibility_Bool = 2076, + Prop_HmdColumnCorrectionSettingPrefix_String = 2077, + Prop_CameraSupportsCompatibilityModes_Bool = 2078, + + Prop_DisplayAvailableFrameRates_Float_Array = 2080, // populated by compositor from actual EDID list when available from GPU driver + Prop_DisplaySupportsMultipleFramerates_Bool = 2081, // if this is true but Prop_DisplayAvailableFrameRates_Float_Array is empty, explain to user + Prop_DisplayColorMultLeft_Vector3 = 2082, + Prop_DisplayColorMultRight_Vector3 = 2083, + Prop_DisplaySupportsRuntimeFramerateChange_Bool = 2084, + Prop_DisplaySupportsAnalogGain_Bool = 2085, + Prop_DisplayMinAnalogGain_Float = 2086, + Prop_DisplayMaxAnalogGain_Float = 2087, + + // Prop_DashboardLayoutPathName_String = 2090, // DELETED + Prop_DashboardScale_Float = 2091, + Prop_IpdUIRangeMinMeters_Float = 2100, + Prop_IpdUIRangeMaxMeters_Float = 2101, + + // Driver requested mura correction properties + Prop_DriverRequestedMuraCorrectionMode_Int32 = 2200, + Prop_DriverRequestedMuraFeather_InnerLeft_Int32 = 2201, + Prop_DriverRequestedMuraFeather_InnerRight_Int32 = 2202, + Prop_DriverRequestedMuraFeather_InnerTop_Int32 = 2203, + Prop_DriverRequestedMuraFeather_InnerBottom_Int32 = 2204, + Prop_DriverRequestedMuraFeather_OuterLeft_Int32 = 2205, + Prop_DriverRequestedMuraFeather_OuterRight_Int32 = 2206, + Prop_DriverRequestedMuraFeather_OuterTop_Int32 = 2207, + Prop_DriverRequestedMuraFeather_OuterBottom_Int32 = 2208, + + Prop_Audio_DefaultPlaybackDeviceId_String = 2300, + Prop_Audio_DefaultRecordingDeviceId_String = 2301, + Prop_Audio_DefaultPlaybackDeviceVolume_Float = 2302, + + // Properties that are unique to TrackedDeviceClass_Controller + Prop_AttachedDeviceId_String = 3000, + Prop_SupportedButtons_Uint64 = 3001, + Prop_Axis0Type_Int32 = 3002, // Return value is of type EVRControllerAxisType + Prop_Axis1Type_Int32 = 3003, // Return value is of type EVRControllerAxisType + Prop_Axis2Type_Int32 = 3004, // Return value is of type EVRControllerAxisType + Prop_Axis3Type_Int32 = 3005, // Return value is of type EVRControllerAxisType + Prop_Axis4Type_Int32 = 3006, // Return value is of type EVRControllerAxisType + Prop_ControllerRoleHint_Int32 = 3007, // Return value is of type ETrackedControllerRole + + // Properties that are unique to TrackedDeviceClass_TrackingReference + Prop_FieldOfViewLeftDegrees_Float = 4000, + Prop_FieldOfViewRightDegrees_Float = 4001, + Prop_FieldOfViewTopDegrees_Float = 4002, + Prop_FieldOfViewBottomDegrees_Float = 4003, + Prop_TrackingRangeMinimumMeters_Float = 4004, + Prop_TrackingRangeMaximumMeters_Float = 4005, + Prop_ModeLabel_String = 4006, + Prop_CanWirelessIdentify_Bool = 4007, // volatile, based on radio presence and fw discovery + Prop_Nonce_Int32 = 4008, + + // Properties that are used for user interface like icons names + Prop_IconPathName_String = 5000, // DEPRECATED. Value not referenced. Now expected to be part of icon path properties. + Prop_NamedIconPathDeviceOff_String = 5001, // {driver}/icons/icon_filename - PNG for static icon, or GIF for animation, 50x32 for headsets and 32x32 for others + Prop_NamedIconPathDeviceSearching_String = 5002, // {driver}/icons/icon_filename - PNG for static icon, or GIF for animation, 50x32 for headsets and 32x32 for others + Prop_NamedIconPathDeviceSearchingAlert_String = 5003, // {driver}/icons/icon_filename - PNG for static icon, or GIF for animation, 50x32 for headsets and 32x32 for others + Prop_NamedIconPathDeviceReady_String = 5004, // {driver}/icons/icon_filename - PNG for static icon, or GIF for animation, 50x32 for headsets and 32x32 for others + Prop_NamedIconPathDeviceReadyAlert_String = 5005, // {driver}/icons/icon_filename - PNG for static icon, or GIF for animation, 50x32 for headsets and 32x32 for others + Prop_NamedIconPathDeviceNotReady_String = 5006, // {driver}/icons/icon_filename - PNG for static icon, or GIF for animation, 50x32 for headsets and 32x32 for others + Prop_NamedIconPathDeviceStandby_String = 5007, // {driver}/icons/icon_filename - PNG for static icon, or GIF for animation, 50x32 for headsets and 32x32 for others + Prop_NamedIconPathDeviceAlertLow_String = 5008, // {driver}/icons/icon_filename - PNG for static icon, or GIF for animation, 50x32 for headsets and 32x32 for others + Prop_NamedIconPathDeviceStandbyAlert_String = 5009, // {driver}/icons/icon_filename - PNG for static icon, or GIF for animation, 50x32 for headsets and 32x32 for others + + // Properties that are used by helpers, but are opaque to applications + Prop_DisplayHiddenArea_Binary_Start = 5100, + Prop_DisplayHiddenArea_Binary_End = 5150, + Prop_ParentContainer = 5151, + Prop_OverrideContainer_Uint64 = 5152, + + // Properties that are unique to drivers + Prop_UserConfigPath_String = 6000, + Prop_InstallPath_String = 6001, + Prop_HasDisplayComponent_Bool = 6002, + Prop_HasControllerComponent_Bool = 6003, + Prop_HasCameraComponent_Bool = 6004, + Prop_HasDriverDirectModeComponent_Bool = 6005, + Prop_HasVirtualDisplayComponent_Bool = 6006, + Prop_HasSpatialAnchorsSupport_Bool = 6007, + + // Properties that are set internally based on other information provided by drivers + Prop_ControllerType_String = 7000, + //Prop_LegacyInputProfile_String = 7001, // This is no longer used. See "legacy_binding" in the input profile instead. + Prop_ControllerHandSelectionPriority_Int32 = 7002, // Allows hand assignments to prefer some controllers over others. High numbers are selected over low numbers + + // Vendors are free to expose private debug data in this reserved region + Prop_VendorSpecific_Reserved_Start = 10000, + Prop_VendorSpecific_Reserved_End = 10999, + + Prop_TrackedDeviceProperty_Max = 1000000, +}; + +/** No string property will ever be longer than this length */ +static const uint32_t k_unMaxPropertyStringSize = 32 * 1024; + +/** Used to return errors that occur when reading properties. */ +enum ETrackedPropertyError +{ + TrackedProp_Success = 0, + TrackedProp_WrongDataType = 1, + TrackedProp_WrongDeviceClass = 2, + TrackedProp_BufferTooSmall = 3, + TrackedProp_UnknownProperty = 4, // Driver has not set the property (and may not ever). + TrackedProp_InvalidDevice = 5, + TrackedProp_CouldNotContactServer = 6, + TrackedProp_ValueNotProvidedByDevice = 7, + TrackedProp_StringExceedsMaximumLength = 8, + TrackedProp_NotYetAvailable = 9, // The property value isn't known yet, but is expected soon. Call again later. + TrackedProp_PermissionDenied = 10, + TrackedProp_InvalidOperation = 11, + TrackedProp_CannotWriteToWildcards = 12, + TrackedProp_IPCReadFailure = 13, + TrackedProp_OutOfMemory = 14, + TrackedProp_InvalidContainer = 15, +}; + +/** Used to drive certain text in the UI when talking about the tracking system for the HMD */ +enum EHmdTrackingStyle +{ + HmdTrackingStyle_Unknown = 0, + + HmdTrackingStyle_Lighthouse = 1, // base stations and lasers + HmdTrackingStyle_OutsideInCameras = 2, // Cameras and LED, Rift 1 style + HmdTrackingStyle_InsideOutCameras = 3, // Cameras on HMD looking at the world +}; + +typedef uint64_t VRActionHandle_t; +typedef uint64_t VRActionSetHandle_t; +typedef uint64_t VRInputValueHandle_t; + +static const VRActionHandle_t k_ulInvalidActionHandle = 0; +static const VRActionSetHandle_t k_ulInvalidActionSetHandle = 0; +static const VRInputValueHandle_t k_ulInvalidInputValueHandle = 0; + + +/** Allows the application to control what part of the provided texture will be used in the +* frame buffer. */ +struct VRTextureBounds_t +{ + float uMin, vMin; + float uMax, vMax; +}; + +/** Allows specifying pose used to render provided scene texture (if different from value returned by WaitGetPoses). */ +struct VRTextureWithPose_t : public Texture_t +{ + HmdMatrix34_t mDeviceToAbsoluteTracking; // Actual pose used to render scene textures. +}; + +struct VRTextureDepthInfo_t +{ + void* handle; // See ETextureType definition above + HmdMatrix44_t mProjection; + HmdVector2_t vRange; // 0..1 +}; + +struct VRTextureWithDepth_t : public Texture_t +{ + VRTextureDepthInfo_t depth; +}; + +struct VRTextureWithPoseAndDepth_t : public VRTextureWithPose_t +{ + VRTextureDepthInfo_t depth; +}; + +/** Allows the application to control how scene textures are used by the compositor when calling Submit. */ +enum EVRSubmitFlags +{ + // Simple render path. App submits rendered left and right eye images with no lens distortion correction applied. + Submit_Default = 0x00, + + // App submits final left and right eye images with lens distortion already applied (lens distortion makes the images appear + // barrel distorted with chromatic aberration correction applied). The app would have used the data returned by + // vr::IVRSystem::ComputeDistortion() to apply the correct distortion to the rendered images before calling Submit(). + Submit_LensDistortionAlreadyApplied = 0x01, + + // If the texture pointer passed in is actually a renderbuffer (e.g. for MSAA in OpenGL) then set this flag. + Submit_GlRenderBuffer = 0x02, + + // Do not use + Submit_Reserved = 0x04, + + // Set to indicate that pTexture is a pointer to a VRTextureWithPose_t. + // This flag can be combined with Submit_TextureWithDepth to pass a VRTextureWithPoseAndDepth_t. + Submit_TextureWithPose = 0x08, + + // Set to indicate that pTexture is a pointer to a VRTextureWithDepth_t. + // This flag can be combined with Submit_TextureWithPose to pass a VRTextureWithPoseAndDepth_t. + Submit_TextureWithDepth = 0x10, + + // Set to indicate a discontinuity between this and the last frame. + // This will prevent motion smoothing from attempting to extrapolate using the pair. + Submit_FrameDiscontinuty = 0x20, +}; + +/** Data required for passing Vulkan textures to IVRCompositor::Submit. +* Be sure to call OpenVR_Shutdown before destroying these resources. +* Please see https://github.com/ValveSoftware/openvr/wiki/Vulkan for Vulkan-specific documentation */ +struct VRVulkanTextureData_t +{ + uint64_t m_nImage; // VkImage + VkDevice_T *m_pDevice; + VkPhysicalDevice_T *m_pPhysicalDevice; + VkInstance_T *m_pInstance; + VkQueue_T *m_pQueue; + uint32_t m_nQueueFamilyIndex; + uint32_t m_nWidth, m_nHeight, m_nFormat, m_nSampleCount; +}; + +/** Data required for passing D3D12 textures to IVRCompositor::Submit. +* Be sure to call OpenVR_Shutdown before destroying these resources. */ +struct D3D12TextureData_t +{ + ID3D12Resource *m_pResource; + ID3D12CommandQueue *m_pCommandQueue; + uint32_t m_nNodeMask; +}; + +/** Status of the overall system or tracked objects */ +enum EVRState +{ + VRState_Undefined = -1, + VRState_Off = 0, + VRState_Searching = 1, + VRState_Searching_Alert = 2, + VRState_Ready = 3, + VRState_Ready_Alert = 4, + VRState_NotReady = 5, + VRState_Standby = 6, + VRState_Ready_Alert_Low = 7, +}; + +/** The types of events that could be posted (and what the parameters mean for each event type) */ +enum EVREventType +{ + VREvent_None = 0, + + VREvent_TrackedDeviceActivated = 100, + VREvent_TrackedDeviceDeactivated = 101, + VREvent_TrackedDeviceUpdated = 102, + VREvent_TrackedDeviceUserInteractionStarted = 103, + VREvent_TrackedDeviceUserInteractionEnded = 104, + VREvent_IpdChanged = 105, + VREvent_EnterStandbyMode = 106, + VREvent_LeaveStandbyMode = 107, + VREvent_TrackedDeviceRoleChanged = 108, + VREvent_WatchdogWakeUpRequested = 109, + VREvent_LensDistortionChanged = 110, + VREvent_PropertyChanged = 111, + VREvent_WirelessDisconnect = 112, + VREvent_WirelessReconnect = 113, + + VREvent_ButtonPress = 200, // data is controller + VREvent_ButtonUnpress = 201, // data is controller + VREvent_ButtonTouch = 202, // data is controller + VREvent_ButtonUntouch = 203, // data is controller + + // VREvent_DualAnalog_Press = 250, // No longer sent + // VREvent_DualAnalog_Unpress = 251, // No longer sent + // VREvent_DualAnalog_Touch = 252, // No longer sent + // VREvent_DualAnalog_Untouch = 253, // No longer sent + // VREvent_DualAnalog_Move = 254, // No longer sent + // VREvent_DualAnalog_ModeSwitch1 = 255, // No longer sent + // VREvent_DualAnalog_ModeSwitch2 = 256, // No longer sent + VREvent_Modal_Cancel = 257, // Sent to overlays with the + + VREvent_MouseMove = 300, // data is mouse + VREvent_MouseButtonDown = 301, // data is mouse + VREvent_MouseButtonUp = 302, // data is mouse + VREvent_FocusEnter = 303, // data is overlay + VREvent_FocusLeave = 304, // data is overlay + VREvent_ScrollDiscrete = 305, // data is scroll + VREvent_TouchPadMove = 306, // data is mouse + VREvent_OverlayFocusChanged = 307, // data is overlay, global event + VREvent_ReloadOverlays = 308, + VREvent_ScrollSmooth = 309, // data is scroll + VREvent_LockMousePosition = 310, + VREvent_UnlockMousePosition = 311, + + VREvent_InputFocusCaptured = 400, // data is process DEPRECATED + VREvent_InputFocusReleased = 401, // data is process DEPRECATED + // VREvent_SceneFocusLost = 402, // data is process + // VREvent_SceneFocusGained = 403, // data is process + VREvent_SceneApplicationChanged = 404, // data is process - The App actually drawing the scene changed (usually to or from the compositor) + VREvent_SceneFocusChanged = 405, // data is process - New app got access to draw the scene + VREvent_InputFocusChanged = 406, // data is process + // VREvent_SceneApplicationSecondaryRenderingStarted = 407, + VREvent_SceneApplicationUsingWrongGraphicsAdapter = 408, // data is process + VREvent_ActionBindingReloaded = 409, // data is process - The App that action binds reloaded for + + VREvent_HideRenderModels = 410, // Sent to the scene application to request hiding render models temporarily + VREvent_ShowRenderModels = 411, // Sent to the scene application to request restoring render model visibility + + VREvent_SceneApplicationStateChanged = 412, // No data; but query VRApplications()->GetSceneApplicationState(); + + VREvent_ConsoleOpened = 420, + VREvent_ConsoleClosed = 421, + + VREvent_OverlayShown = 500, + VREvent_OverlayHidden = 501, + VREvent_DashboardActivated = 502, + VREvent_DashboardDeactivated = 503, + //VREvent_DashboardThumbSelected = 504, // Sent to the overlay manager - data is overlay - No longer sent + VREvent_DashboardRequested = 505, // Sent to the overlay manager - data is overlay + VREvent_ResetDashboard = 506, // Send to the overlay manager + //VREvent_RenderToast = 507, // Send to the dashboard to render a toast - data is the notification ID -- no longer sent + VREvent_ImageLoaded = 508, // Sent to overlays when a SetOverlayRaw or SetOverlayFromFile call finishes loading + VREvent_ShowKeyboard = 509, // Sent to keyboard renderer in the dashboard to invoke it + VREvent_HideKeyboard = 510, // Sent to keyboard renderer in the dashboard to hide it + VREvent_OverlayGamepadFocusGained = 511, // Sent to an overlay when IVROverlay::SetFocusOverlay is called on it + VREvent_OverlayGamepadFocusLost = 512, // Send to an overlay when it previously had focus and IVROverlay::SetFocusOverlay is called on something else + VREvent_OverlaySharedTextureChanged = 513, + //VREvent_DashboardGuideButtonDown = 514, // These are no longer sent + //VREvent_DashboardGuideButtonUp = 515, + VREvent_ScreenshotTriggered = 516, // Screenshot button combo was pressed, Dashboard should request a screenshot + VREvent_ImageFailed = 517, // Sent to overlays when a SetOverlayRaw or SetOverlayfromFail fails to load + VREvent_DashboardOverlayCreated = 518, + VREvent_SwitchGamepadFocus = 519, + + // Screenshot API + VREvent_RequestScreenshot = 520, // Sent by vrclient application to compositor to take a screenshot + VREvent_ScreenshotTaken = 521, // Sent by compositor to the application that the screenshot has been taken + VREvent_ScreenshotFailed = 522, // Sent by compositor to the application that the screenshot failed to be taken + VREvent_SubmitScreenshotToDashboard = 523, // Sent by compositor to the dashboard that a completed screenshot was submitted + VREvent_ScreenshotProgressToDashboard = 524, // Sent by compositor to the dashboard that a completed screenshot was submitted + + VREvent_PrimaryDashboardDeviceChanged = 525, + VREvent_RoomViewShown = 526, // Sent by compositor whenever room-view is enabled + VREvent_RoomViewHidden = 527, // Sent by compositor whenever room-view is disabled + VREvent_ShowUI = 528, // data is showUi + VREvent_ShowDevTools = 529, // data is showDevTools + + VREvent_Notification_Shown = 600, + VREvent_Notification_Hidden = 601, + VREvent_Notification_BeginInteraction = 602, + VREvent_Notification_Destroyed = 603, + + VREvent_Quit = 700, // data is process + VREvent_ProcessQuit = 701, // data is process + //VREvent_QuitAborted_UserPrompt = 702, // data is process + VREvent_QuitAcknowledged = 703, // data is process + VREvent_DriverRequestedQuit = 704, // The driver has requested that SteamVR shut down + VREvent_RestartRequested = 705, // A driver or other component wants the user to restart SteamVR + + VREvent_ChaperoneDataHasChanged = 800, // this will never happen with the new chaperone system + VREvent_ChaperoneUniverseHasChanged = 801, + VREvent_ChaperoneTempDataHasChanged = 802, // this will never happen with the new chaperone system + VREvent_ChaperoneSettingsHaveChanged = 803, + VREvent_SeatedZeroPoseReset = 804, + VREvent_ChaperoneFlushCache = 805, // Sent when the process needs to reload any cached data it retrieved from VRChaperone() + VREvent_ChaperoneRoomSetupStarting = 806, // Triggered by CVRChaperoneClient::RoomSetupStarting + VREvent_ChaperoneRoomSetupFinished = 807, // Triggered by CVRChaperoneClient::CommitWorkingCopy + + VREvent_AudioSettingsHaveChanged = 820, + + VREvent_BackgroundSettingHasChanged = 850, + VREvent_CameraSettingsHaveChanged = 851, + VREvent_ReprojectionSettingHasChanged = 852, + VREvent_ModelSkinSettingsHaveChanged = 853, + VREvent_EnvironmentSettingsHaveChanged = 854, + VREvent_PowerSettingsHaveChanged = 855, + VREvent_EnableHomeAppSettingsHaveChanged = 856, + VREvent_SteamVRSectionSettingChanged = 857, + VREvent_LighthouseSectionSettingChanged = 858, + VREvent_NullSectionSettingChanged = 859, + VREvent_UserInterfaceSectionSettingChanged = 860, + VREvent_NotificationsSectionSettingChanged = 861, + VREvent_KeyboardSectionSettingChanged = 862, + VREvent_PerfSectionSettingChanged = 863, + VREvent_DashboardSectionSettingChanged = 864, + VREvent_WebInterfaceSectionSettingChanged = 865, + VREvent_TrackersSectionSettingChanged = 866, + VREvent_LastKnownSectionSettingChanged = 867, + VREvent_DismissedWarningsSectionSettingChanged = 868, + VREvent_GpuSpeedSectionSettingChanged = 869, + VREvent_WindowsMRSectionSettingChanged = 870, + VREvent_OtherSectionSettingChanged = 871, + + VREvent_StatusUpdate = 900, + + VREvent_WebInterface_InstallDriverCompleted = 950, + + VREvent_MCImageUpdated = 1000, + + VREvent_FirmwareUpdateStarted = 1100, + VREvent_FirmwareUpdateFinished = 1101, + + VREvent_KeyboardClosed = 1200, + VREvent_KeyboardCharInput = 1201, + VREvent_KeyboardDone = 1202, // Sent when DONE button clicked on keyboard + + //VREvent_ApplicationTransitionStarted = 1300, + //VREvent_ApplicationTransitionAborted = 1301, + //VREvent_ApplicationTransitionNewAppStarted = 1302, + VREvent_ApplicationListUpdated = 1303, + VREvent_ApplicationMimeTypeLoad = 1304, + // VREvent_ApplicationTransitionNewAppLaunchComplete = 1305, + VREvent_ProcessConnected = 1306, + VREvent_ProcessDisconnected = 1307, + + //VREvent_Compositor_MirrorWindowShown = 1400, // DEPRECATED + //VREvent_Compositor_MirrorWindowHidden = 1401, // DEPRECATED + VREvent_Compositor_ChaperoneBoundsShown = 1410, + VREvent_Compositor_ChaperoneBoundsHidden = 1411, + VREvent_Compositor_DisplayDisconnected = 1412, + VREvent_Compositor_DisplayReconnected = 1413, + VREvent_Compositor_HDCPError = 1414, // data is hdcpError + VREvent_Compositor_ApplicationNotResponding = 1415, + VREvent_Compositor_ApplicationResumed = 1416, + VREvent_Compositor_OutOfVideoMemory = 1417, + VREvent_Compositor_DisplayModeNotSupported = 1418, // k_pch_SteamVR_PreferredRefreshRate + VREvent_Compositor_StageOverrideReady = 1419, + + VREvent_TrackedCamera_StartVideoStream = 1500, + VREvent_TrackedCamera_StopVideoStream = 1501, + VREvent_TrackedCamera_PauseVideoStream = 1502, + VREvent_TrackedCamera_ResumeVideoStream = 1503, + VREvent_TrackedCamera_EditingSurface = 1550, + + VREvent_PerformanceTest_EnableCapture = 1600, + VREvent_PerformanceTest_DisableCapture = 1601, + VREvent_PerformanceTest_FidelityLevel = 1602, + + VREvent_MessageOverlay_Closed = 1650, + VREvent_MessageOverlayCloseRequested = 1651, + + VREvent_Input_HapticVibration = 1700, // data is hapticVibration + VREvent_Input_BindingLoadFailed = 1701, // data is inputBinding + VREvent_Input_BindingLoadSuccessful = 1702, // data is inputBinding + VREvent_Input_ActionManifestReloaded = 1703, // no data + VREvent_Input_ActionManifestLoadFailed = 1704, // data is actionManifest + VREvent_Input_ProgressUpdate = 1705, // data is progressUpdate + VREvent_Input_TrackerActivated = 1706, + VREvent_Input_BindingsUpdated = 1707, + VREvent_Input_BindingSubscriptionChanged = 1708, + + VREvent_SpatialAnchors_PoseUpdated = 1800, // data is spatialAnchor. broadcast + VREvent_SpatialAnchors_DescriptorUpdated = 1801, // data is spatialAnchor. broadcast + VREvent_SpatialAnchors_RequestPoseUpdate = 1802, // data is spatialAnchor. sent to specific driver + VREvent_SpatialAnchors_RequestDescriptorUpdate = 1803, // data is spatialAnchor. sent to specific driver + + VREvent_SystemReport_Started = 1900, // user or system initiated generation of a system report. broadcast + + VREvent_Monitor_ShowHeadsetView = 2000, // data is process + VREvent_Monitor_HideHeadsetView = 2001, // data is process + + // Vendors are free to expose private events in this reserved region + VREvent_VendorSpecific_Reserved_Start = 10000, + VREvent_VendorSpecific_Reserved_End = 19999, +}; + + +/** Level of Hmd activity */ +// UserInteraction_Timeout means the device is in the process of timing out. +// InUse = ( k_EDeviceActivityLevel_UserInteraction || k_EDeviceActivityLevel_UserInteraction_Timeout ) +// VREvent_TrackedDeviceUserInteractionStarted fires when the devices transitions from Standby -> UserInteraction or Idle -> UserInteraction. +// VREvent_TrackedDeviceUserInteractionEnded fires when the devices transitions from UserInteraction_Timeout -> Idle +enum EDeviceActivityLevel +{ + k_EDeviceActivityLevel_Unknown = -1, + k_EDeviceActivityLevel_Idle = 0, // No activity for the last 10 seconds + k_EDeviceActivityLevel_UserInteraction = 1, // Activity (movement or prox sensor) is happening now + k_EDeviceActivityLevel_UserInteraction_Timeout = 2, // No activity for the last 0.5 seconds + k_EDeviceActivityLevel_Standby = 3, // Idle for at least 5 seconds (configurable in Settings -> Power Management) + k_EDeviceActivityLevel_Idle_Timeout = 4, +}; + + +/** VR controller button and axis IDs */ +enum EVRButtonId +{ + k_EButton_System = 0, + k_EButton_ApplicationMenu = 1, + k_EButton_Grip = 2, + k_EButton_DPad_Left = 3, + k_EButton_DPad_Up = 4, + k_EButton_DPad_Right = 5, + k_EButton_DPad_Down = 6, + k_EButton_A = 7, + + k_EButton_ProximitySensor = 31, + + k_EButton_Axis0 = 32, + k_EButton_Axis1 = 33, + k_EButton_Axis2 = 34, + k_EButton_Axis3 = 35, + k_EButton_Axis4 = 36, + + // aliases for well known controllers + k_EButton_SteamVR_Touchpad = k_EButton_Axis0, + k_EButton_SteamVR_Trigger = k_EButton_Axis1, + + k_EButton_Dashboard_Back = k_EButton_Grip, + + k_EButton_IndexController_A = k_EButton_Grip, + k_EButton_IndexController_B = k_EButton_ApplicationMenu, + k_EButton_IndexController_JoyStick = k_EButton_Axis3, + + k_EButton_Max = 64 +}; + +inline uint64_t ButtonMaskFromId( EVRButtonId id ) { return 1ull << id; } + +/** used for controller button events */ +struct VREvent_Controller_t +{ + uint32_t button; // EVRButtonId enum +}; + + +/** used for simulated mouse events in overlay space */ +enum EVRMouseButton +{ + VRMouseButton_Left = 0x0001, + VRMouseButton_Right = 0x0002, + VRMouseButton_Middle = 0x0004, +}; + + +/** used for simulated mouse events in overlay space */ +struct VREvent_Mouse_t +{ + float x, y; // co-ords are in GL space, bottom left of the texture is 0,0 + uint32_t button; // EVRMouseButton enum +}; + +/** used for simulated mouse wheel scroll */ +struct VREvent_Scroll_t +{ + float xdelta, ydelta; + uint32_t unused; + float viewportscale; // For scrolling on an overlay with laser mouse, this is the overlay's vertical size relative to the overlay height. Range: [0,1] +}; + +/** when in mouse input mode you can receive data from the touchpad, these events are only sent if the users finger + is on the touchpad (or just released from it). These events are sent to overlays with the VROverlayFlags_SendVRTouchpadEvents + flag set. +**/ +struct VREvent_TouchPadMove_t +{ + // true if the users finger is detected on the touch pad + bool bFingerDown; + + // How long the finger has been down in seconds + float flSecondsFingerDown; + + // These values indicate the starting finger position (so you can do some basic swipe stuff) + float fValueXFirst; + float fValueYFirst; + + // This is the raw sampled coordinate without deadzoning + float fValueXRaw; + float fValueYRaw; +}; + +/** notification related events. Details will still change at this point */ +struct VREvent_Notification_t +{ + uint64_t ulUserValue; + uint32_t notificationId; +}; + +/** Used for events about processes */ +struct VREvent_Process_t +{ + uint32_t pid; + uint32_t oldPid; + bool bForced; + // If the associated event was triggered by a connection loss + bool bConnectionLost; +}; + + +/** Used for a few events about overlays */ +struct VREvent_Overlay_t +{ + uint64_t overlayHandle; + uint64_t devicePath; +}; + + +/** Used for a few events about overlays */ +struct VREvent_Status_t +{ + uint32_t statusState; // EVRState enum +}; + +/** Used for keyboard events **/ +struct VREvent_Keyboard_t +{ + char cNewInput[8]; // Up to 11 bytes of new input + uint64_t uUserValue; // Possible flags about the new input +}; + +struct VREvent_Ipd_t +{ + float ipdMeters; +}; + +struct VREvent_Chaperone_t +{ + uint64_t m_nPreviousUniverse; + uint64_t m_nCurrentUniverse; +}; + +/** Not actually used for any events */ +struct VREvent_Reserved_t +{ + uint64_t reserved0; + uint64_t reserved1; + uint64_t reserved2; + uint64_t reserved3; + uint64_t reserved4; + uint64_t reserved5; +}; + +struct VREvent_PerformanceTest_t +{ + uint32_t m_nFidelityLevel; +}; + +struct VREvent_SeatedZeroPoseReset_t +{ + bool bResetBySystemMenu; +}; + +struct VREvent_Screenshot_t +{ + uint32_t handle; + uint32_t type; +}; + +struct VREvent_ScreenshotProgress_t +{ + float progress; +}; + +struct VREvent_ApplicationLaunch_t +{ + uint32_t pid; + uint32_t unArgsHandle; +}; + +struct VREvent_EditingCameraSurface_t +{ + uint64_t overlayHandle; + uint32_t nVisualMode; +}; + +struct VREvent_MessageOverlay_t +{ + uint32_t unVRMessageOverlayResponse; // vr::VRMessageOverlayResponse enum +}; + +struct VREvent_Property_t +{ + PropertyContainerHandle_t container; + ETrackedDeviceProperty prop; +}; + +struct VREvent_HapticVibration_t +{ + uint64_t containerHandle; // property container handle of the device with the haptic component + uint64_t componentHandle; // Which haptic component needs to vibrate + float fDurationSeconds; + float fFrequency; + float fAmplitude; +}; + +struct VREvent_WebConsole_t +{ + WebConsoleHandle_t webConsoleHandle; +}; + +struct VREvent_InputBindingLoad_t +{ + vr::PropertyContainerHandle_t ulAppContainer; + uint64_t pathMessage; + uint64_t pathUrl; + uint64_t pathControllerType; +}; + +struct VREvent_InputActionManifestLoad_t +{ + uint64_t pathAppKey; + uint64_t pathMessage; + uint64_t pathMessageParam; + uint64_t pathManifestPath; +}; + +struct VREvent_SpatialAnchor_t +{ + SpatialAnchorHandle_t unHandle; +}; + +struct VREvent_ProgressUpdate_t +{ + uint64_t ulApplicationPropertyContainer; + uint64_t pathDevice; + uint64_t pathInputSource; + uint64_t pathProgressAction; + uint64_t pathIcon; + float fProgress; +}; + +enum EShowUIType +{ + ShowUI_ControllerBinding = 0, + ShowUI_ManageTrackers = 1, + // ShowUI_QuickStart = 2, // Deprecated + ShowUI_Pairing = 3, + ShowUI_Settings = 4, + ShowUI_DebugCommands = 5, + ShowUI_FullControllerBinding = 6, + ShowUI_ManageDrivers = 7, +}; + +struct VREvent_ShowUI_t +{ + EShowUIType eType; +}; + +struct VREvent_ShowDevTools_t +{ + int32_t nBrowserIdentifier; +}; + +enum EHDCPError +{ + HDCPError_None = 0, + HDCPError_LinkLost = 1, + HDCPError_Tampered = 2, + HDCPError_DeviceRevoked = 3, + HDCPError_Unknown = 4 +}; + +struct VREvent_HDCPError_t +{ + EHDCPError eCode; +}; + +typedef union +{ + VREvent_Reserved_t reserved; + VREvent_Controller_t controller; + VREvent_Mouse_t mouse; + VREvent_Scroll_t scroll; + VREvent_Process_t process; + VREvent_Notification_t notification; + VREvent_Overlay_t overlay; + VREvent_Status_t status; + VREvent_Keyboard_t keyboard; + VREvent_Ipd_t ipd; + VREvent_Chaperone_t chaperone; + VREvent_PerformanceTest_t performanceTest; + VREvent_TouchPadMove_t touchPadMove; + VREvent_SeatedZeroPoseReset_t seatedZeroPoseReset; + VREvent_Screenshot_t screenshot; + VREvent_ScreenshotProgress_t screenshotProgress; + VREvent_ApplicationLaunch_t applicationLaunch; + VREvent_EditingCameraSurface_t cameraSurface; + VREvent_MessageOverlay_t messageOverlay; + VREvent_Property_t property; + VREvent_HapticVibration_t hapticVibration; + VREvent_WebConsole_t webConsole; + VREvent_InputBindingLoad_t inputBinding; + VREvent_InputActionManifestLoad_t actionManifest; + VREvent_SpatialAnchor_t spatialAnchor; + VREvent_ProgressUpdate_t progressUpdate; + VREvent_ShowUI_t showUi; + VREvent_ShowDevTools_t showDevTools; + VREvent_HDCPError_t hdcpError; + /** NOTE!!! If you change this you MUST manually update openvr_interop.cs.py */ +} VREvent_Data_t; + + +#if defined(__linux__) || defined(__APPLE__) +// This structure was originally defined mis-packed on Linux, preserved for +// compatibility. +#pragma pack( push, 4 ) +#endif + +/** An event posted by the server to all running applications */ +struct VREvent_t +{ + uint32_t eventType; // EVREventType enum + TrackedDeviceIndex_t trackedDeviceIndex; + float eventAgeSeconds; + // event data must be the end of the struct as its size is variable + VREvent_Data_t data; +}; + +#if defined(__linux__) || defined(__APPLE__) +#pragma pack( pop ) +#endif + +typedef uint32_t VRComponentProperties; + +enum EVRComponentProperty +{ + VRComponentProperty_IsStatic = (1 << 0), + VRComponentProperty_IsVisible = (1 << 1), + VRComponentProperty_IsTouched = (1 << 2), + VRComponentProperty_IsPressed = (1 << 3), + VRComponentProperty_IsScrolled = (1 << 4), + VRComponentProperty_IsHighlighted = (1 << 5), +}; + + +/** Describes state information about a render-model component, including transforms and other dynamic properties */ +struct RenderModel_ComponentState_t +{ + HmdMatrix34_t mTrackingToComponentRenderModel; // Transform required when drawing the component render model + HmdMatrix34_t mTrackingToComponentLocal; // Transform available for attaching to a local component coordinate system (-Z out from surface ) + VRComponentProperties uProperties; +}; + + +enum EVRInputError +{ + VRInputError_None = 0, + VRInputError_NameNotFound = 1, + VRInputError_WrongType = 2, + VRInputError_InvalidHandle = 3, + VRInputError_InvalidParam = 4, + VRInputError_NoSteam = 5, + VRInputError_MaxCapacityReached = 6, + VRInputError_IPCError = 7, + VRInputError_NoActiveActionSet = 8, + VRInputError_InvalidDevice = 9, + VRInputError_InvalidSkeleton = 10, + VRInputError_InvalidBoneCount = 11, + VRInputError_InvalidCompressedData = 12, + VRInputError_NoData = 13, + VRInputError_BufferTooSmall = 14, + VRInputError_MismatchedActionManifest = 15, + VRInputError_MissingSkeletonData = 16, + VRInputError_InvalidBoneIndex = 17, + VRInputError_InvalidPriority = 18, + VRInputError_PermissionDenied = 19, + VRInputError_InvalidRenderModel = 20, +}; + +enum EVRSpatialAnchorError +{ + VRSpatialAnchorError_Success = 0, + VRSpatialAnchorError_Internal = 1, + VRSpatialAnchorError_UnknownHandle = 2, + VRSpatialAnchorError_ArrayTooSmall = 3, + VRSpatialAnchorError_InvalidDescriptorChar = 4, + VRSpatialAnchorError_NotYetAvailable = 5, + VRSpatialAnchorError_NotAvailableInThisUniverse = 6, + VRSpatialAnchorError_PermanentlyUnavailable = 7, + VRSpatialAnchorError_WrongDriver = 8, + VRSpatialAnchorError_DescriptorTooLong = 9, + VRSpatialAnchorError_Unknown = 10, + VRSpatialAnchorError_NoRoomCalibration = 11, + VRSpatialAnchorError_InvalidArgument = 12, + VRSpatialAnchorError_UnknownDriver = 13, +}; + +/** The mesh to draw into the stencil (or depth) buffer to perform +* early stencil (or depth) kills of pixels that will never appear on the HMD. +* This mesh draws on all the pixels that will be hidden after distortion. +* +* If the HMD does not provide a visible area mesh pVertexData will be +* NULL and unTriangleCount will be 0. */ +struct HiddenAreaMesh_t +{ + const HmdVector2_t *pVertexData; + uint32_t unTriangleCount; +}; + + +enum EHiddenAreaMeshType +{ + k_eHiddenAreaMesh_Standard = 0, + k_eHiddenAreaMesh_Inverse = 1, + k_eHiddenAreaMesh_LineLoop = 2, + + k_eHiddenAreaMesh_Max = 3, +}; + + +/** Identifies what kind of axis is on the controller at index n. Read this type +* with pVRSystem->Get( nControllerDeviceIndex, Prop_Axis0Type_Int32 + n ); +*/ +enum EVRControllerAxisType +{ + k_eControllerAxis_None = 0, + k_eControllerAxis_TrackPad = 1, + k_eControllerAxis_Joystick = 2, + k_eControllerAxis_Trigger = 3, // Analog trigger data is in the X axis +}; + + +/** contains information about one axis on the controller */ +struct VRControllerAxis_t +{ + float x; // Ranges from -1.0 to 1.0 for joysticks and track pads. Ranges from 0.0 to 1.0 for triggers were 0 is fully released. + float y; // Ranges from -1.0 to 1.0 for joysticks and track pads. Is always 0.0 for triggers. +}; + + +/** the number of axes in the controller state */ +static const uint32_t k_unControllerStateAxisCount = 5; + + +#if defined(__linux__) || defined(__APPLE__) +// This structure was originally defined mis-packed on Linux, preserved for +// compatibility. +#pragma pack( push, 4 ) +#endif + +/** Holds all the state of a controller at one moment in time. */ +struct VRControllerState001_t +{ + // If packet num matches that on your prior call, then the controller state hasn't been changed since + // your last call and there is no need to process it + uint32_t unPacketNum; + + // bit flags for each of the buttons. Use ButtonMaskFromId to turn an ID into a mask + uint64_t ulButtonPressed; + uint64_t ulButtonTouched; + + // Axis data for the controller's analog inputs + VRControllerAxis_t rAxis[ k_unControllerStateAxisCount ]; +}; +#if defined(__linux__) || defined(__APPLE__) +#pragma pack( pop ) +#endif + + +typedef VRControllerState001_t VRControllerState_t; + + +/** determines how to provide output to the application of various event processing functions. */ +enum EVRControllerEventOutputType +{ + ControllerEventOutput_OSEvents = 0, + ControllerEventOutput_VREvents = 1, +}; + + + +/** Collision Bounds Style */ +enum ECollisionBoundsStyle +{ + COLLISION_BOUNDS_STYLE_BEGINNER = 0, + COLLISION_BOUNDS_STYLE_INTERMEDIATE, + COLLISION_BOUNDS_STYLE_SQUARES, + COLLISION_BOUNDS_STYLE_ADVANCED, + COLLISION_BOUNDS_STYLE_NONE, + + COLLISION_BOUNDS_STYLE_COUNT +}; + +/** used to refer to a single VR overlay */ +typedef uint64_t VROverlayHandle_t; + +static const VROverlayHandle_t k_ulOverlayHandleInvalid = 0; + +/** Errors that can occur around VR overlays */ +enum EVROverlayError +{ + VROverlayError_None = 0, + + VROverlayError_UnknownOverlay = 10, + VROverlayError_InvalidHandle = 11, + VROverlayError_PermissionDenied = 12, + VROverlayError_OverlayLimitExceeded = 13, // No more overlays could be created because the maximum number already exist + VROverlayError_WrongVisibilityType = 14, + VROverlayError_KeyTooLong = 15, + VROverlayError_NameTooLong = 16, + VROverlayError_KeyInUse = 17, + VROverlayError_WrongTransformType = 18, + VROverlayError_InvalidTrackedDevice = 19, + VROverlayError_InvalidParameter = 20, + VROverlayError_ThumbnailCantBeDestroyed = 21, + VROverlayError_ArrayTooSmall = 22, + VROverlayError_RequestFailed = 23, + VROverlayError_InvalidTexture = 24, + VROverlayError_UnableToLoadFile = 25, + VROverlayError_KeyboardAlreadyInUse = 26, + VROverlayError_NoNeighbor = 27, + VROverlayError_TooManyMaskPrimitives = 29, + VROverlayError_BadMaskPrimitive = 30, + VROverlayError_TextureAlreadyLocked = 31, + VROverlayError_TextureLockCapacityReached = 32, + VROverlayError_TextureNotLocked = 33, +}; + +/** enum values to pass in to VR_Init to identify whether the application will +* draw a 3D scene. */ +enum EVRApplicationType +{ + VRApplication_Other = 0, // Some other kind of application that isn't covered by the other entries + VRApplication_Scene = 1, // Application will submit 3D frames + VRApplication_Overlay = 2, // Application only interacts with overlays + VRApplication_Background = 3, // Application should not start SteamVR if it's not already running, and should not + // keep it running if everything else quits. + VRApplication_Utility = 4, // Init should not try to load any drivers. The application needs access to utility + // interfaces (like IVRSettings and IVRApplications) but not hardware. + VRApplication_VRMonitor = 5, // Reserved for vrmonitor + VRApplication_SteamWatchdog = 6,// Reserved for Steam + VRApplication_Bootstrapper = 7, // reserved for vrstartup + VRApplication_WebHelper = 8, // reserved for vrwebhelper + + VRApplication_Max +}; + + +/** error codes for firmware */ +enum EVRFirmwareError +{ + VRFirmwareError_None = 0, + VRFirmwareError_Success = 1, + VRFirmwareError_Fail = 2, +}; + + +/** error codes for notifications */ +enum EVRNotificationError +{ + VRNotificationError_OK = 0, + VRNotificationError_InvalidNotificationId = 100, + VRNotificationError_NotificationQueueFull = 101, + VRNotificationError_InvalidOverlayHandle = 102, + VRNotificationError_SystemWithUserValueAlreadyExists = 103, +}; + + +enum EVRSkeletalMotionRange +{ + // The range of motion of the skeleton takes into account any physical limits imposed by + // the controller itself. This will tend to be the most accurate pose compared to the user's + // actual hand pose, but might not allow a closed fist for example + VRSkeletalMotionRange_WithController = 0, + + // Retarget the range of motion provided by the input device to make the hand appear to move + // as if it was not holding a controller. eg: map "hand grasping controller" to "closed fist" + VRSkeletalMotionRange_WithoutController = 1, +}; + +enum EVRSkeletalTrackingLevel +{ + // body part location can't be directly determined by the device. Any skeletal pose provided by + // the device is estimated by assuming the position required to active buttons, triggers, joysticks, + // or other input sensors. + // E.g. Vive Controller, Gamepad + VRSkeletalTracking_Estimated = 0, + + // body part location can be measured directly but with fewer degrees of freedom than the actual body + // part. Certain body part positions may be unmeasured by the device and estimated from other input data. + // E.g. Index Controllers, gloves that only measure finger curl + VRSkeletalTracking_Partial = 1, + + // Body part location can be measured directly throughout the entire range of motion of the body part. + // E.g. Mocap suit for the full body, gloves that measure rotation of each finger segment + VRSkeletalTracking_Full = 2, + + VRSkeletalTrackingLevel_Count, + VRSkeletalTrackingLevel_Max = VRSkeletalTrackingLevel_Count - 1 +}; + + + +/** Holds the transform for a single bone */ +struct VRBoneTransform_t +{ + HmdVector4_t position; + HmdQuaternionf_t orientation; +}; + +/** Type used for referring to bones by their index */ +typedef int32_t BoneIndex_t; +const BoneIndex_t k_unInvalidBoneIndex = -1; + + +/** error codes returned by Vr_Init */ + +// Please add adequate error description to https://developer.valvesoftware.com/w/index.php?title=Category:SteamVRHelp +enum EVRInitError +{ + VRInitError_None = 0, + VRInitError_Unknown = 1, + + VRInitError_Init_InstallationNotFound = 100, + VRInitError_Init_InstallationCorrupt = 101, + VRInitError_Init_VRClientDLLNotFound = 102, + VRInitError_Init_FileNotFound = 103, + VRInitError_Init_FactoryNotFound = 104, + VRInitError_Init_InterfaceNotFound = 105, + VRInitError_Init_InvalidInterface = 106, + VRInitError_Init_UserConfigDirectoryInvalid = 107, + VRInitError_Init_HmdNotFound = 108, + VRInitError_Init_NotInitialized = 109, + VRInitError_Init_PathRegistryNotFound = 110, + VRInitError_Init_NoConfigPath = 111, + VRInitError_Init_NoLogPath = 112, + VRInitError_Init_PathRegistryNotWritable = 113, + VRInitError_Init_AppInfoInitFailed = 114, + VRInitError_Init_Retry = 115, // Used internally to cause retries to vrserver + VRInitError_Init_InitCanceledByUser = 116, // The calling application should silently exit. The user canceled app startup + VRInitError_Init_AnotherAppLaunching = 117, + VRInitError_Init_SettingsInitFailed = 118, + VRInitError_Init_ShuttingDown = 119, + VRInitError_Init_TooManyObjects = 120, + VRInitError_Init_NoServerForBackgroundApp = 121, + VRInitError_Init_NotSupportedWithCompositor = 122, + VRInitError_Init_NotAvailableToUtilityApps = 123, + VRInitError_Init_Internal = 124, + VRInitError_Init_HmdDriverIdIsNone = 125, + VRInitError_Init_HmdNotFoundPresenceFailed = 126, + VRInitError_Init_VRMonitorNotFound = 127, + VRInitError_Init_VRMonitorStartupFailed = 128, + VRInitError_Init_LowPowerWatchdogNotSupported = 129, + VRInitError_Init_InvalidApplicationType = 130, + VRInitError_Init_NotAvailableToWatchdogApps = 131, + VRInitError_Init_WatchdogDisabledInSettings = 132, + VRInitError_Init_VRDashboardNotFound = 133, + VRInitError_Init_VRDashboardStartupFailed = 134, + VRInitError_Init_VRHomeNotFound = 135, + VRInitError_Init_VRHomeStartupFailed = 136, + VRInitError_Init_RebootingBusy = 137, + VRInitError_Init_FirmwareUpdateBusy = 138, + VRInitError_Init_FirmwareRecoveryBusy = 139, + VRInitError_Init_USBServiceBusy = 140, + VRInitError_Init_VRWebHelperStartupFailed = 141, + VRInitError_Init_TrackerManagerInitFailed = 142, + VRInitError_Init_AlreadyRunning = 143, + VRInitError_Init_FailedForVrMonitor = 144, + VRInitError_Init_PropertyManagerInitFailed = 145, + VRInitError_Init_WebServerFailed = 146, + + VRInitError_Driver_Failed = 200, + VRInitError_Driver_Unknown = 201, + VRInitError_Driver_HmdUnknown = 202, + VRInitError_Driver_NotLoaded = 203, + VRInitError_Driver_RuntimeOutOfDate = 204, + VRInitError_Driver_HmdInUse = 205, + VRInitError_Driver_NotCalibrated = 206, + VRInitError_Driver_CalibrationInvalid = 207, + VRInitError_Driver_HmdDisplayNotFound = 208, + VRInitError_Driver_TrackedDeviceInterfaceUnknown = 209, + // VRInitError_Driver_HmdDisplayNotFoundAfterFix = 210, // not needed: here for historic reasons + VRInitError_Driver_HmdDriverIdOutOfBounds = 211, + VRInitError_Driver_HmdDisplayMirrored = 212, + VRInitError_Driver_HmdDisplayNotFoundLaptop = 213, + // Never make error 259 because we return it from main and it would conflict with STILL_ACTIVE + + VRInitError_IPC_ServerInitFailed = 300, + VRInitError_IPC_ConnectFailed = 301, + VRInitError_IPC_SharedStateInitFailed = 302, + VRInitError_IPC_CompositorInitFailed = 303, + VRInitError_IPC_MutexInitFailed = 304, + VRInitError_IPC_Failed = 305, + VRInitError_IPC_CompositorConnectFailed = 306, + VRInitError_IPC_CompositorInvalidConnectResponse = 307, + VRInitError_IPC_ConnectFailedAfterMultipleAttempts = 308, + VRInitError_IPC_ConnectFailedAfterTargetExited = 309, + VRInitError_IPC_NamespaceUnavailable = 310, + + VRInitError_Compositor_Failed = 400, + VRInitError_Compositor_D3D11HardwareRequired = 401, + VRInitError_Compositor_FirmwareRequiresUpdate = 402, + VRInitError_Compositor_OverlayInitFailed = 403, + VRInitError_Compositor_ScreenshotsInitFailed = 404, + VRInitError_Compositor_UnableToCreateDevice = 405, + VRInitError_Compositor_SharedStateIsNull = 406, + VRInitError_Compositor_NotificationManagerIsNull = 407, + VRInitError_Compositor_ResourceManagerClientIsNull = 408, + VRInitError_Compositor_MessageOverlaySharedStateInitFailure = 409, + VRInitError_Compositor_PropertiesInterfaceIsNull = 410, + VRInitError_Compositor_CreateFullscreenWindowFailed = 411, + VRInitError_Compositor_SettingsInterfaceIsNull = 412, + VRInitError_Compositor_FailedToShowWindow = 413, + VRInitError_Compositor_DistortInterfaceIsNull = 414, + VRInitError_Compositor_DisplayFrequencyFailure = 415, + VRInitError_Compositor_RendererInitializationFailed = 416, + VRInitError_Compositor_DXGIFactoryInterfaceIsNull = 417, + VRInitError_Compositor_DXGIFactoryCreateFailed = 418, + VRInitError_Compositor_DXGIFactoryQueryFailed = 419, + VRInitError_Compositor_InvalidAdapterDesktop = 420, + VRInitError_Compositor_InvalidHmdAttachment = 421, + VRInitError_Compositor_InvalidOutputDesktop = 422, + VRInitError_Compositor_InvalidDeviceProvided = 423, + VRInitError_Compositor_D3D11RendererInitializationFailed = 424, + VRInitError_Compositor_FailedToFindDisplayMode = 425, + VRInitError_Compositor_FailedToCreateSwapChain = 426, + VRInitError_Compositor_FailedToGetBackBuffer = 427, + VRInitError_Compositor_FailedToCreateRenderTarget = 428, + VRInitError_Compositor_FailedToCreateDXGI2SwapChain = 429, + VRInitError_Compositor_FailedtoGetDXGI2BackBuffer = 430, + VRInitError_Compositor_FailedToCreateDXGI2RenderTarget = 431, + VRInitError_Compositor_FailedToGetDXGIDeviceInterface = 432, + VRInitError_Compositor_SelectDisplayMode = 433, + VRInitError_Compositor_FailedToCreateNvAPIRenderTargets = 434, + VRInitError_Compositor_NvAPISetDisplayMode = 435, + VRInitError_Compositor_FailedToCreateDirectModeDisplay = 436, + VRInitError_Compositor_InvalidHmdPropertyContainer = 437, + VRInitError_Compositor_UpdateDisplayFrequency = 438, + VRInitError_Compositor_CreateRasterizerState = 439, + VRInitError_Compositor_CreateWireframeRasterizerState = 440, + VRInitError_Compositor_CreateSamplerState = 441, + VRInitError_Compositor_CreateClampToBorderSamplerState = 442, + VRInitError_Compositor_CreateAnisoSamplerState = 443, + VRInitError_Compositor_CreateOverlaySamplerState = 444, + VRInitError_Compositor_CreatePanoramaSamplerState = 445, + VRInitError_Compositor_CreateFontSamplerState = 446, + VRInitError_Compositor_CreateNoBlendState = 447, + VRInitError_Compositor_CreateBlendState = 448, + VRInitError_Compositor_CreateAlphaBlendState = 449, + VRInitError_Compositor_CreateBlendStateMaskR = 450, + VRInitError_Compositor_CreateBlendStateMaskG = 451, + VRInitError_Compositor_CreateBlendStateMaskB = 452, + VRInitError_Compositor_CreateDepthStencilState = 453, + VRInitError_Compositor_CreateDepthStencilStateNoWrite = 454, + VRInitError_Compositor_CreateDepthStencilStateNoDepth = 455, + VRInitError_Compositor_CreateFlushTexture = 456, + VRInitError_Compositor_CreateDistortionSurfaces = 457, + VRInitError_Compositor_CreateConstantBuffer = 458, + VRInitError_Compositor_CreateHmdPoseConstantBuffer = 459, + VRInitError_Compositor_CreateHmdPoseStagingConstantBuffer = 460, + VRInitError_Compositor_CreateSharedFrameInfoConstantBuffer = 461, + VRInitError_Compositor_CreateOverlayConstantBuffer = 462, + VRInitError_Compositor_CreateSceneTextureIndexConstantBuffer = 463, + VRInitError_Compositor_CreateReadableSceneTextureIndexConstantBuffer = 464, + VRInitError_Compositor_CreateLayerGraphicsTextureIndexConstantBuffer = 465, + VRInitError_Compositor_CreateLayerComputeTextureIndexConstantBuffer = 466, + VRInitError_Compositor_CreateLayerComputeSceneTextureIndexConstantBuffer = 467, + VRInitError_Compositor_CreateComputeHmdPoseConstantBuffer = 468, + VRInitError_Compositor_CreateGeomConstantBuffer = 469, + VRInitError_Compositor_CreatePanelMaskConstantBuffer = 470, + VRInitError_Compositor_CreatePixelSimUBO = 471, + VRInitError_Compositor_CreateMSAARenderTextures = 472, + VRInitError_Compositor_CreateResolveRenderTextures = 473, + VRInitError_Compositor_CreateComputeResolveRenderTextures = 474, + VRInitError_Compositor_CreateDriverDirectModeResolveTextures = 475, + VRInitError_Compositor_OpenDriverDirectModeResolveTextures = 476, + VRInitError_Compositor_CreateFallbackSyncTexture = 477, + VRInitError_Compositor_ShareFallbackSyncTexture = 478, + VRInitError_Compositor_CreateOverlayIndexBuffer = 479, + VRInitError_Compositor_CreateOverlayVertexBuffer = 480, + VRInitError_Compositor_CreateTextVertexBuffer = 481, + VRInitError_Compositor_CreateTextIndexBuffer = 482, + VRInitError_Compositor_CreateMirrorTextures = 483, + VRInitError_Compositor_CreateLastFrameRenderTexture = 484, + VRInitError_Compositor_CreateMirrorOverlay = 485, + VRInitError_Compositor_FailedToCreateVirtualDisplayBackbuffer = 486, + VRInitError_Compositor_DisplayModeNotSupported = 487, + VRInitError_Compositor_CreateOverlayInvalidCall = 488, + VRInitError_Compositor_CreateOverlayAlreadyInitialized = 489, + VRInitError_Compositor_FailedToCreateMailbox = 490, + + VRInitError_VendorSpecific_UnableToConnectToOculusRuntime = 1000, + VRInitError_VendorSpecific_WindowsNotInDevMode = 1001, + + VRInitError_VendorSpecific_HmdFound_CantOpenDevice = 1101, + VRInitError_VendorSpecific_HmdFound_UnableToRequestConfigStart = 1102, + VRInitError_VendorSpecific_HmdFound_NoStoredConfig = 1103, + VRInitError_VendorSpecific_HmdFound_ConfigTooBig = 1104, + VRInitError_VendorSpecific_HmdFound_ConfigTooSmall = 1105, + VRInitError_VendorSpecific_HmdFound_UnableToInitZLib = 1106, + VRInitError_VendorSpecific_HmdFound_CantReadFirmwareVersion = 1107, + VRInitError_VendorSpecific_HmdFound_UnableToSendUserDataStart = 1108, + VRInitError_VendorSpecific_HmdFound_UnableToGetUserDataStart = 1109, + VRInitError_VendorSpecific_HmdFound_UnableToGetUserDataNext = 1110, + VRInitError_VendorSpecific_HmdFound_UserDataAddressRange = 1111, + VRInitError_VendorSpecific_HmdFound_UserDataError = 1112, + VRInitError_VendorSpecific_HmdFound_ConfigFailedSanityCheck = 1113, + VRInitError_VendorSpecific_OculusRuntimeBadInstall = 1114, + + VRInitError_Steam_SteamInstallationNotFound = 2000, + + // Strictly a placeholder + VRInitError_LastError +}; + +enum EVRScreenshotType +{ + VRScreenshotType_None = 0, + VRScreenshotType_Mono = 1, // left eye only + VRScreenshotType_Stereo = 2, + VRScreenshotType_Cubemap = 3, + VRScreenshotType_MonoPanorama = 4, + VRScreenshotType_StereoPanorama = 5 +}; + +enum EVRScreenshotPropertyFilenames +{ + VRScreenshotPropertyFilenames_Preview = 0, + VRScreenshotPropertyFilenames_VR = 1, +}; + +enum EVRTrackedCameraError +{ + VRTrackedCameraError_None = 0, + VRTrackedCameraError_OperationFailed = 100, + VRTrackedCameraError_InvalidHandle = 101, + VRTrackedCameraError_InvalidFrameHeaderVersion = 102, + VRTrackedCameraError_OutOfHandles = 103, + VRTrackedCameraError_IPCFailure = 104, + VRTrackedCameraError_NotSupportedForThisDevice = 105, + VRTrackedCameraError_SharedMemoryFailure = 106, + VRTrackedCameraError_FrameBufferingFailure = 107, + VRTrackedCameraError_StreamSetupFailure = 108, + VRTrackedCameraError_InvalidGLTextureId = 109, + VRTrackedCameraError_InvalidSharedTextureHandle = 110, + VRTrackedCameraError_FailedToGetGLTextureId = 111, + VRTrackedCameraError_SharedTextureFailure = 112, + VRTrackedCameraError_NoFrameAvailable = 113, + VRTrackedCameraError_InvalidArgument = 114, + VRTrackedCameraError_InvalidFrameBufferSize = 115, +}; + +enum EVRTrackedCameraFrameLayout +{ + EVRTrackedCameraFrameLayout_Mono = 0x0001, + EVRTrackedCameraFrameLayout_Stereo = 0x0002, + EVRTrackedCameraFrameLayout_VerticalLayout = 0x0010, // Stereo frames are Top/Bottom (left/right) + EVRTrackedCameraFrameLayout_HorizontalLayout = 0x0020, // Stereo frames are Left/Right +}; + +enum EVRTrackedCameraFrameType +{ + VRTrackedCameraFrameType_Distorted = 0, // This is the camera video frame size in pixels, still distorted. + VRTrackedCameraFrameType_Undistorted, // In pixels, an undistorted inscribed rectangle region without invalid regions. This size is subject to changes shortly. + VRTrackedCameraFrameType_MaximumUndistorted, // In pixels, maximum undistorted with invalid regions. Non zero alpha component identifies valid regions. + MAX_CAMERA_FRAME_TYPES +}; + +enum EVRDistortionFunctionType +{ + VRDistortionFunctionType_None, + VRDistortionFunctionType_FTheta, + VRDistortionFunctionType_Extended_FTheta, + MAX_DISTORTION_FUNCTION_TYPES, +}; + +static const uint32_t k_unMaxDistortionFunctionParameters = 8; + +typedef uint64_t TrackedCameraHandle_t; +#define INVALID_TRACKED_CAMERA_HANDLE ((vr::TrackedCameraHandle_t)0) + +struct CameraVideoStreamFrameHeader_t +{ + EVRTrackedCameraFrameType eFrameType; + + uint32_t nWidth; + uint32_t nHeight; + uint32_t nBytesPerPixel; + + uint32_t nFrameSequence; + + TrackedDevicePose_t trackedDevicePose; + + uint64_t ulFrameExposureTime; // mid-point of the exposure of the image in host system ticks +}; + +// Screenshot types +typedef uint32_t ScreenshotHandle_t; + +static const uint32_t k_unScreenshotHandleInvalid = 0; + +/** Compositor frame timing reprojection flags. */ +const uint32_t VRCompositor_ReprojectionReason_Cpu = 0x01; +const uint32_t VRCompositor_ReprojectionReason_Gpu = 0x02; +const uint32_t VRCompositor_ReprojectionAsync = 0x04; // This flag indicates the async reprojection mode is active, + // but does not indicate if reprojection actually happened or not. + // Use the ReprojectionReason flags above to check if reprojection + // was actually applied (i.e. scene texture was reused). + // NumFramePresents > 1 also indicates the scene texture was reused, + // and also the number of times that it was presented in total. + +const uint32_t VRCompositor_ReprojectionMotion = 0x08; // This flag indicates whether or not motion smoothing was triggered for this frame + +const uint32_t VRCompositor_PredictionMask = 0x30; // The runtime may predict more than one frame (up to four) ahead if + // it detects the application is taking too long to render. These two + // bits will contain the count of additional frames (normally zero). + // Use the VR_COMPOSITOR_ADDITIONAL_PREDICTED_FRAMES macro to read from + // the latest frame timing entry. + +const uint32_t VRCompositor_ThrottleMask = 0xC0; // Number of frames the compositor is throttling the application. + // Use the VR_COMPOSITOR_NUMBER_OF_THROTTLED_FRAMES macro to read from + // the latest frame timing entry. + +#define VR_COMPOSITOR_ADDITIONAL_PREDICTED_FRAMES( timing ) ( ( ( timing ).m_nReprojectionFlags & vr::VRCompositor_PredictionMask ) >> 4 ) +#define VR_COMPOSITOR_NUMBER_OF_THROTTLED_FRAMES( timing ) ( ( ( timing ).m_nReprojectionFlags & vr::VRCompositor_ThrottleMask ) >> 6 ) + +/** Provides a single frame's timing information to the app */ +struct Compositor_FrameTiming +{ + uint32_t m_nSize; // Set to sizeof( Compositor_FrameTiming ) + uint32_t m_nFrameIndex; + uint32_t m_nNumFramePresents; // number of times this frame was presented + uint32_t m_nNumMisPresented; // number of times this frame was presented on a vsync other than it was originally predicted to + uint32_t m_nNumDroppedFrames; // number of additional times previous frame was scanned out + uint32_t m_nReprojectionFlags; + + /** Absolute time reference for comparing frames. This aligns with the vsync that running start is relative to. */ + double m_flSystemTimeInSeconds; + + /** These times may include work from other processes due to OS scheduling. + * The fewer packets of work these are broken up into, the less likely this will happen. + * GPU work can be broken up by calling Flush. This can sometimes be useful to get the GPU started + * processing that work earlier in the frame. */ + float m_flPreSubmitGpuMs; // time spent rendering the scene (gpu work submitted between WaitGetPoses and second Submit) + float m_flPostSubmitGpuMs; // additional time spent rendering by application (e.g. companion window) + float m_flTotalRenderGpuMs; // time between work submitted immediately after present (ideally vsync) until the end of compositor submitted work + float m_flCompositorRenderGpuMs; // time spend performing distortion correction, rendering chaperone, overlays, etc. + float m_flCompositorRenderCpuMs; // time spent on cpu submitting the above work for this frame + float m_flCompositorIdleCpuMs; // time spent waiting for running start (application could have used this much more time) + + /** Miscellaneous measured intervals. */ + float m_flClientFrameIntervalMs; // time between calls to WaitGetPoses + float m_flPresentCallCpuMs; // time blocked on call to present (usually 0.0, but can go long) + float m_flWaitForPresentCpuMs; // time spent spin-waiting for frame index to change (not near-zero indicates wait object failure) + float m_flSubmitFrameMs; // time spent in IVRCompositor::Submit (not near-zero indicates driver issue) + + /** The following are all relative to this frame's SystemTimeInSeconds */ + float m_flWaitGetPosesCalledMs; + float m_flNewPosesReadyMs; + float m_flNewFrameReadyMs; // second call to IVRCompositor::Submit + float m_flCompositorUpdateStartMs; + float m_flCompositorUpdateEndMs; + float m_flCompositorRenderStartMs; + + vr::TrackedDevicePose_t m_HmdPose; // pose used by app to render this frame + + uint32_t m_nNumVSyncsReadyForUse; + uint32_t m_nNumVSyncsToFirstView; +}; + +/** Provides compositor benchmark results to the app */ +struct Compositor_BenchmarkResults +{ + float m_flMegaPixelsPerSecond; // Measurement of GPU MP/s performed by compositor benchmark + float m_flHmdRecommendedMegaPixelsPerSecond; // Recommended default MP/s given the HMD resolution, refresh, and panel mask. +}; + +/** Frame timing data provided by direct mode drivers. */ +struct DriverDirectMode_FrameTiming +{ + uint32_t m_nSize; // Set to sizeof( DriverDirectMode_FrameTiming ) + uint32_t m_nNumFramePresents; // number of times frame was presented + uint32_t m_nNumMisPresented; // number of times frame was presented on a vsync other than it was originally predicted to + uint32_t m_nNumDroppedFrames; // number of additional times previous frame was scanned out (i.e. compositor missed vsync) + uint32_t m_nReprojectionFlags; +}; + +/** These flags will be set on DriverDirectMode_FrameTiming::m_nReprojectionFlags when IVRDriverDirectModeComponent::GetFrameTiming is called for drivers to optionally respond to. */ +const uint32_t VRCompositor_ReprojectionMotion_Enabled = 0x100; // Motion Smoothing is enabled in the UI for the currently running application +const uint32_t VRCompositor_ReprojectionMotion_ForcedOn = 0x200; // Motion Smoothing is forced on in the UI for the currently running application +const uint32_t VRCompositor_ReprojectionMotion_AppThrottled = 0x400; // Application is requesting throttling via ForceInterleavedReprojectionOn + + +enum EVSync +{ + VSync_None, + VSync_WaitRender, // block following render work until vsync + VSync_NoWaitRender, // do not block following render work (allow to get started early) +}; + +enum EVRMuraCorrectionMode +{ + EVRMuraCorrectionMode_Default = 0, + EVRMuraCorrectionMode_NoCorrection +}; + +/** raw IMU data provided by IVRIOBuffer from paths to tracked devices with IMUs */ +enum Imu_OffScaleFlags +{ + OffScale_AccelX = 0x01, + OffScale_AccelY = 0x02, + OffScale_AccelZ = 0x04, + OffScale_GyroX = 0x08, + OffScale_GyroY = 0x10, + OffScale_GyroZ = 0x20, +}; + +struct ImuSample_t +{ + double fSampleTime; + HmdVector3d_t vAccel; + HmdVector3d_t vGyro; + uint32_t unOffScaleFlags; +}; + +#pragma pack( pop ) + +// figure out how to import from the VR API dll +#if defined(_WIN32) + + #if !defined(OPENVR_BUILD_STATIC) + #ifdef VR_API_EXPORT + #define VR_INTERFACE extern "C" __declspec( dllexport ) + #else + #define VR_INTERFACE extern "C" __declspec( dllimport ) + #endif + #else + #define VR_INTERFACE extern "C" + #endif + +#elif defined(__GNUC__) || defined(COMPILER_GCC) || defined(__APPLE__) + +#ifdef VR_API_EXPORT + #define VR_INTERFACE extern "C" __attribute__((visibility("default"))) +#else + #define VR_INTERFACE extern "C" +#endif + +#else + #error "Unsupported Platform." +#endif + + +#if defined( _WIN32 ) + #define VR_CALLTYPE __cdecl +#else + #define VR_CALLTYPE +#endif + +} // namespace vr + +#endif // _INCLUDE_VRTYPES_H + + +// vrannotation.h +#ifdef API_GEN +# define VR_CLANG_ATTR(ATTR) __attribute__((annotate( ATTR ))) +#else +# define VR_CLANG_ATTR(ATTR) +#endif + +#define VR_METHOD_DESC(DESC) VR_CLANG_ATTR( "desc:" #DESC ";" ) +#define VR_IGNOREATTR() VR_CLANG_ATTR( "ignore" ) +#define VR_OUT_STRUCT() VR_CLANG_ATTR( "out_struct: ;" ) +#define VR_OUT_STRING() VR_CLANG_ATTR( "out_string: ;" ) +#define VR_OUT_ARRAY_CALL(COUNTER,FUNCTION,PARAMS) VR_CLANG_ATTR( "out_array_call:" #COUNTER "," #FUNCTION "," #PARAMS ";" ) +#define VR_OUT_ARRAY_COUNT(COUNTER) VR_CLANG_ATTR( "out_array_count:" #COUNTER ";" ) +#define VR_ARRAY_COUNT(COUNTER) VR_CLANG_ATTR( "array_count:" #COUNTER ";" ) +#define VR_ARRAY_COUNT_D(COUNTER, DESC) VR_CLANG_ATTR( "array_count:" #COUNTER ";desc:" #DESC ) +#define VR_BUFFER_COUNT(COUNTER) VR_CLANG_ATTR( "buffer_count:" #COUNTER ";" ) +#define VR_OUT_BUFFER_COUNT(COUNTER) VR_CLANG_ATTR( "out_buffer_count:" #COUNTER ";" ) +#define VR_OUT_STRING_COUNT(COUNTER) VR_CLANG_ATTR( "out_string_count:" #COUNTER ";" ) + +// ivrsystem.h +namespace vr +{ + +class IVRSystem +{ +public: + + + // ------------------------------------ + // Display Methods + // ------------------------------------ + + /** Suggested size for the intermediate render target that the distortion pulls from. */ + virtual void GetRecommendedRenderTargetSize( uint32_t *pnWidth, uint32_t *pnHeight ) = 0; + + /** The projection matrix for the specified eye */ + virtual HmdMatrix44_t GetProjectionMatrix( EVREye eEye, float fNearZ, float fFarZ ) = 0; + + /** The components necessary to build your own projection matrix in case your + * application is doing something fancy like infinite Z */ + virtual void GetProjectionRaw( EVREye eEye, float *pfLeft, float *pfRight, float *pfTop, float *pfBottom ) = 0; + + /** Gets the result of the distortion function for the specified eye and input UVs. UVs go from 0,0 in + * the upper left of that eye's viewport and 1,1 in the lower right of that eye's viewport. + * Returns true for success. Otherwise, returns false, and distortion coordinates are not suitable. */ + virtual bool ComputeDistortion( EVREye eEye, float fU, float fV, DistortionCoordinates_t *pDistortionCoordinates ) = 0; + + /** Returns the transform from eye space to the head space. Eye space is the per-eye flavor of head + * space that provides stereo disparity. Instead of Model * View * Projection the sequence is Model * View * Eye^-1 * Projection. + * Normally View and Eye^-1 will be multiplied together and treated as View in your application. + */ + virtual HmdMatrix34_t GetEyeToHeadTransform( EVREye eEye ) = 0; + + /** Returns the number of elapsed seconds since the last recorded vsync event. This + * will come from a vsync timer event in the timer if possible or from the application-reported + * time if that is not available. If no vsync times are available the function will + * return zero for vsync time and frame counter and return false from the method. */ + virtual bool GetTimeSinceLastVsync( float *pfSecondsSinceLastVsync, uint64_t *pulFrameCounter ) = 0; + + /** [D3D9 Only] + * Returns the adapter index that the user should pass into CreateDevice to set up D3D9 in such + * a way that it can go full screen exclusive on the HMD. Returns -1 if there was an error. + */ + virtual int32_t GetD3D9AdapterIndex() = 0; + + /** [D3D10/11 Only] + * Returns the adapter index that the user should pass into EnumAdapters to create the device + * and swap chain in DX10 and DX11. If an error occurs the index will be set to -1. + */ + virtual void GetDXGIOutputInfo( int32_t *pnAdapterIndex ) = 0; + + /** + * Returns platform- and texture-type specific adapter identification so that applications and the + * compositor are creating textures and swap chains on the same GPU. If an error occurs the device + * will be set to 0. + * pInstance is an optional parameter that is required only when textureType is TextureType_Vulkan. + * [D3D10/11/12 Only (D3D9 Not Supported)] + * Returns the adapter LUID that identifies the GPU attached to the HMD. The user should + * enumerate all adapters using IDXGIFactory::EnumAdapters and IDXGIAdapter::GetDesc to find + * the adapter with the matching LUID, or use IDXGIFactory4::EnumAdapterByLuid. + * The discovered IDXGIAdapter should be used to create the device and swap chain. + * [Vulkan Only] + * Returns the VkPhysicalDevice that should be used by the application. + * pInstance must be the instance the application will use to query for the VkPhysicalDevice. The application + * must create the VkInstance with extensions returned by IVRCompositor::GetVulkanInstanceExtensionsRequired enabled. + * [macOS Only] + * For TextureType_IOSurface returns the id that should be used by the application. + * On 10.13+ for TextureType_OpenGL returns the 'registryId' of the renderer which should be used + * by the application. See Apple Technical Q&A QA1168 for information on enumerating GL Renderers, and the + * new kCGLRPRegistryIDLow and kCGLRPRegistryIDHigh CGLRendererProperty values in the 10.13 SDK. + * Pre 10.13 for TextureType_OpenGL returns 0, as there is no dependable way to correlate the HMDs MTLDevice + * with a GL Renderer. + */ + virtual void GetOutputDevice( uint64_t *pnDevice, ETextureType textureType, VkInstance_T *pInstance = nullptr ) = 0; + + // ------------------------------------ + // Display Mode methods + // ------------------------------------ + + /** Use to determine if the headset display is part of the desktop (i.e. extended) or hidden (i.e. direct mode). */ + virtual bool IsDisplayOnDesktop() = 0; + + /** Set the display visibility (true = extended, false = direct mode). Return value of true indicates that the change was successful. */ + virtual bool SetDisplayVisibility( bool bIsVisibleOnDesktop ) = 0; + + // ------------------------------------ + // Tracking Methods + // ------------------------------------ + + /** The pose that the tracker thinks that the HMD will be in at the specified number of seconds into the + * future. Pass 0 to get the state at the instant the method is called. Most of the time the application should + * calculate the time until the photons will be emitted from the display and pass that time into the method. + * + * This is roughly analogous to the inverse of the view matrix in most applications, though + * many games will need to do some additional rotation or translation on top of the rotation + * and translation provided by the head pose. + * + * For devices where bPoseIsValid is true the application can use the pose to position the device + * in question. The provided array can be any size up to k_unMaxTrackedDeviceCount. + * + * Seated experiences should call this method with TrackingUniverseSeated and receive poses relative + * to the seated zero pose. Standing experiences should call this method with TrackingUniverseStanding + * and receive poses relative to the Chaperone Play Area. TrackingUniverseRawAndUncalibrated should + * probably not be used unless the application is the Chaperone calibration tool itself, but will provide + * poses relative to the hardware-specific coordinate system in the driver. + */ + virtual void GetDeviceToAbsoluteTrackingPose( ETrackingUniverseOrigin eOrigin, float fPredictedSecondsToPhotonsFromNow, VR_ARRAY_COUNT(unTrackedDevicePoseArrayCount) TrackedDevicePose_t *pTrackedDevicePoseArray, uint32_t unTrackedDevicePoseArrayCount ) = 0; + + /** Sets the zero pose for the seated tracker coordinate system to the current position and yaw of the HMD. After + * ResetSeatedZeroPose all GetDeviceToAbsoluteTrackingPose calls that pass TrackingUniverseSeated as the origin + * will be relative to this new zero pose. The new zero coordinate system will not change the fact that the Y axis + * is up in the real world, so the next pose returned from GetDeviceToAbsoluteTrackingPose after a call to + * ResetSeatedZeroPose may not be exactly an identity matrix. + * + * NOTE: This function overrides the user's previously saved seated zero pose and should only be called as the result of a user action. + * Users are also able to set their seated zero pose via the OpenVR Dashboard. + **/ + virtual void ResetSeatedZeroPose() = 0; + + /** Returns the transform from the seated zero pose to the standing absolute tracking system. This allows + * applications to represent the seated origin to used or transform object positions from one coordinate + * system to the other. + * + * The seated origin may or may not be inside the Play Area or Collision Bounds returned by IVRChaperone. Its position + * depends on what the user has set from the Dashboard settings and previous calls to ResetSeatedZeroPose. */ + virtual HmdMatrix34_t GetSeatedZeroPoseToStandingAbsoluteTrackingPose() = 0; + + /** Returns the transform from the tracking origin to the standing absolute tracking system. This allows + * applications to convert from raw tracking space to the calibrated standing coordinate system. */ + virtual HmdMatrix34_t GetRawZeroPoseToStandingAbsoluteTrackingPose() = 0; + + /** Get a sorted array of device indices of a given class of tracked devices (e.g. controllers). Devices are sorted right to left + * relative to the specified tracked device (default: hmd -- pass in -1 for absolute tracking space). Returns the number of devices + * in the list, or the size of the array needed if not large enough. */ + virtual uint32_t GetSortedTrackedDeviceIndicesOfClass( ETrackedDeviceClass eTrackedDeviceClass, VR_ARRAY_COUNT(unTrackedDeviceIndexArrayCount) vr::TrackedDeviceIndex_t *punTrackedDeviceIndexArray, uint32_t unTrackedDeviceIndexArrayCount, vr::TrackedDeviceIndex_t unRelativeToTrackedDeviceIndex = k_unTrackedDeviceIndex_Hmd ) = 0; + + /** Returns the level of activity on the device. */ + virtual EDeviceActivityLevel GetTrackedDeviceActivityLevel( vr::TrackedDeviceIndex_t unDeviceId ) = 0; + + /** Convenience utility to apply the specified transform to the specified pose. + * This properly transforms all pose components, including velocity and angular velocity + */ + virtual void ApplyTransform( TrackedDevicePose_t *pOutputPose, const TrackedDevicePose_t *pTrackedDevicePose, const HmdMatrix34_t *pTransform ) = 0; + + /** Returns the device index associated with a specific role, for example the left hand or the right hand. This function is deprecated in favor of the new IVRInput system. */ + virtual vr::TrackedDeviceIndex_t GetTrackedDeviceIndexForControllerRole( vr::ETrackedControllerRole unDeviceType ) = 0; + + /** Returns the controller type associated with a device index. This function is deprecated in favor of the new IVRInput system. */ + virtual vr::ETrackedControllerRole GetControllerRoleForTrackedDeviceIndex( vr::TrackedDeviceIndex_t unDeviceIndex ) = 0; + + // ------------------------------------ + // Property methods + // ------------------------------------ + + /** Returns the device class of a tracked device. If there has not been a device connected in this slot + * since the application started this function will return TrackedDevice_Invalid. For previous detected + * devices the function will return the previously observed device class. + * + * To determine which devices exist on the system, just loop from 0 to k_unMaxTrackedDeviceCount and check + * the device class. Every device with something other than TrackedDevice_Invalid is associated with an + * actual tracked device. */ + virtual ETrackedDeviceClass GetTrackedDeviceClass( vr::TrackedDeviceIndex_t unDeviceIndex ) = 0; + + /** Returns true if there is a device connected in this slot. */ + virtual bool IsTrackedDeviceConnected( vr::TrackedDeviceIndex_t unDeviceIndex ) = 0; + + /** Returns a bool property. If the device index is not valid or the property is not a bool type this function will return false. */ + virtual bool GetBoolTrackedDeviceProperty( vr::TrackedDeviceIndex_t unDeviceIndex, ETrackedDeviceProperty prop, ETrackedPropertyError *pError = 0L ) = 0; + + /** Returns a float property. If the device index is not valid or the property is not a float type this function will return 0. */ + virtual float GetFloatTrackedDeviceProperty( vr::TrackedDeviceIndex_t unDeviceIndex, ETrackedDeviceProperty prop, ETrackedPropertyError *pError = 0L ) = 0; + + /** Returns an int property. If the device index is not valid or the property is not a int type this function will return 0. */ + virtual int32_t GetInt32TrackedDeviceProperty( vr::TrackedDeviceIndex_t unDeviceIndex, ETrackedDeviceProperty prop, ETrackedPropertyError *pError = 0L ) = 0; + + /** Returns a uint64 property. If the device index is not valid or the property is not a uint64 type this function will return 0. */ + virtual uint64_t GetUint64TrackedDeviceProperty( vr::TrackedDeviceIndex_t unDeviceIndex, ETrackedDeviceProperty prop, ETrackedPropertyError *pError = 0L ) = 0; + + /** Returns a matrix property. If the device index is not valid or the property is not a matrix type, this function will return identity. */ + virtual HmdMatrix34_t GetMatrix34TrackedDeviceProperty( vr::TrackedDeviceIndex_t unDeviceIndex, ETrackedDeviceProperty prop, ETrackedPropertyError *pError = 0L ) = 0; + + /** Returns an array of one type of property. If the device index is not valid or the property is not a single value or an array of the specified type, + * this function will return 0. Otherwise it returns the number of bytes necessary to hold the array of properties. If unBufferSize is + * greater than the returned size and pBuffer is non-NULL, pBuffer is filled with the contents of array of properties. */ + virtual uint32_t GetArrayTrackedDeviceProperty( vr::TrackedDeviceIndex_t unDeviceIndex, ETrackedDeviceProperty prop, PropertyTypeTag_t propType, void *pBuffer, uint32_t unBufferSize, ETrackedPropertyError *pError = 0L ) = 0; + + /** Returns a string property. If the device index is not valid or the property is not a string type this function will + * return 0. Otherwise it returns the length of the number of bytes necessary to hold this string including the trailing + * null. Strings will always fit in buffers of k_unMaxPropertyStringSize characters. */ + virtual uint32_t GetStringTrackedDeviceProperty( vr::TrackedDeviceIndex_t unDeviceIndex, ETrackedDeviceProperty prop, VR_OUT_STRING() char *pchValue, uint32_t unBufferSize, ETrackedPropertyError *pError = 0L ) = 0; + + /** returns a string that corresponds with the specified property error. The string will be the name + * of the error enum value for all valid error codes */ + virtual const char *GetPropErrorNameFromEnum( ETrackedPropertyError error ) = 0; + + // ------------------------------------ + // Event methods + // ------------------------------------ + + /** Returns true and fills the event with the next event on the queue if there is one. If there are no events + * this method returns false. uncbVREvent should be the size in bytes of the VREvent_t struct */ + virtual bool PollNextEvent( VREvent_t *pEvent, uint32_t uncbVREvent ) = 0; + + /** Returns true and fills the event with the next event on the queue if there is one. If there are no events + * this method returns false. Fills in the pose of the associated tracked device in the provided pose struct. + * This pose will always be older than the call to this function and should not be used to render the device. + uncbVREvent should be the size in bytes of the VREvent_t struct */ + virtual bool PollNextEventWithPose( ETrackingUniverseOrigin eOrigin, VREvent_t *pEvent, uint32_t uncbVREvent, vr::TrackedDevicePose_t *pTrackedDevicePose ) = 0; + + /** returns the name of an EVREvent enum value */ + virtual const char *GetEventTypeNameFromEnum( EVREventType eType ) = 0; + + // ------------------------------------ + // Rendering helper methods + // ------------------------------------ + + /** Returns the hidden area mesh for the current HMD. The pixels covered by this mesh will never be seen by the user after the lens distortion is + * applied based on visibility to the panels. If this HMD does not have a hidden area mesh, the vertex data and count will be NULL and 0 respectively. + * This mesh is meant to be rendered into the stencil buffer (or into the depth buffer setting nearz) before rendering each eye's view. + * This will improve performance by letting the GPU early-reject pixels the user will never see before running the pixel shader. + * NOTE: Render this mesh with backface culling disabled since the winding order of the vertices can be different per-HMD or per-eye. + * Setting the bInverse argument to true will produce the visible area mesh that is commonly used in place of full-screen quads. The visible area mesh covers all of the pixels the hidden area mesh does not cover. + * Setting the bLineLoop argument will return a line loop of vertices in HiddenAreaMesh_t->pVertexData with HiddenAreaMesh_t->unTriangleCount set to the number of vertices. + */ + virtual HiddenAreaMesh_t GetHiddenAreaMesh( EVREye eEye, EHiddenAreaMeshType type = k_eHiddenAreaMesh_Standard ) = 0; + + // ------------------------------------ + // Controller methods + // ------------------------------------ + + /** Fills the supplied struct with the current state of the controller. Returns false if the controller index + * is invalid. This function is deprecated in favor of the new IVRInput system. */ + virtual bool GetControllerState( vr::TrackedDeviceIndex_t unControllerDeviceIndex, vr::VRControllerState_t *pControllerState, uint32_t unControllerStateSize ) = 0; + + /** fills the supplied struct with the current state of the controller and the provided pose with the pose of + * the controller when the controller state was updated most recently. Use this form if you need a precise controller + * pose as input to your application when the user presses or releases a button. This function is deprecated in favor of the new IVRInput system. */ + virtual bool GetControllerStateWithPose( ETrackingUniverseOrigin eOrigin, vr::TrackedDeviceIndex_t unControllerDeviceIndex, vr::VRControllerState_t *pControllerState, uint32_t unControllerStateSize, TrackedDevicePose_t *pTrackedDevicePose ) = 0; + + /** Trigger a single haptic pulse on a controller. After this call the application may not trigger another haptic pulse on this controller + * and axis combination for 5ms. This function is deprecated in favor of the new IVRInput system. */ + virtual void TriggerHapticPulse( vr::TrackedDeviceIndex_t unControllerDeviceIndex, uint32_t unAxisId, unsigned short usDurationMicroSec ) = 0; + + /** returns the name of an EVRButtonId enum value. This function is deprecated in favor of the new IVRInput system. */ + virtual const char *GetButtonIdNameFromEnum( EVRButtonId eButtonId ) = 0; + + /** returns the name of an EVRControllerAxisType enum value. This function is deprecated in favor of the new IVRInput system. */ + virtual const char *GetControllerAxisTypeNameFromEnum( EVRControllerAxisType eAxisType ) = 0; + + /** Returns true if this application is receiving input from the system. This would return false if + * system-related functionality is consuming the input stream. */ + virtual bool IsInputAvailable() = 0; + + /** Returns true SteamVR is drawing controllers on top of the application. Applications should consider + * not drawing anything attached to the user's hands in this case. */ + virtual bool IsSteamVRDrawingControllers() = 0; + + /** Returns true if the user has put SteamVR into a mode that is distracting them from the application. + * For applications where this is appropriate, the application should pause ongoing activity. */ + virtual bool ShouldApplicationPause() = 0; + + /** Returns true if SteamVR is doing significant rendering work and the game should do what it can to reduce + * its own workload. One common way to do this is to reduce the size of the render target provided for each eye. */ + virtual bool ShouldApplicationReduceRenderingWork() = 0; + + // ------------------------------------ + // Firmware methods + // ------------------------------------ + + /** Performs the actual firmware update if applicable. + * The following events will be sent, if VRFirmwareError_None was returned: VREvent_FirmwareUpdateStarted, VREvent_FirmwareUpdateFinished + * Use the properties Prop_Firmware_UpdateAvailable_Bool, Prop_Firmware_ManualUpdate_Bool, and Prop_Firmware_ManualUpdateURL_String + * to figure our whether a firmware update is available, and to figure out whether its a manual update + * Prop_Firmware_ManualUpdateURL_String should point to an URL describing the manual update process */ + virtual vr::EVRFirmwareError PerformFirmwareUpdate( vr::TrackedDeviceIndex_t unDeviceIndex ) = 0; + + // ------------------------------------ + // Application life cycle methods + // ------------------------------------ + + /** Call this to acknowledge to the system that VREvent_Quit has been received and that the process is exiting. + * This extends the timeout until the process is killed. */ + virtual void AcknowledgeQuit_Exiting() = 0; + + // ------------------------------------- + // App container sandbox methods + // ------------------------------------- + + /** Retrieves a null-terminated, semicolon-delimited list of UTF8 file paths that an application + * must have read access to when running inside of an app container. Returns the number of bytes + * needed to hold the list. */ + virtual uint32_t GetAppContainerFilePaths( VR_OUT_STRING() char *pchBuffer, uint32_t unBufferSize ) = 0; + + // ------------------------------------- + // System methods + // ------------------------------------- + + /** Returns the current version of the SteamVR runtime. The returned string will remain valid until VR_Shutdown is called. + * + * NOTE: Is it not appropriate to use this version to test for the presence of any SteamVR feature. Only use this version + * number for logging or showing to a user, and not to try to detect anything at runtime. When appropriate, feature-specific + * presence information is provided by other APIs. */ + virtual const char *GetRuntimeVersion() = 0; + +}; + +static const char * const IVRSystem_Version = "IVRSystem_021"; + +} + + +// ivrapplications.h +namespace vr +{ + + /** Used for all errors reported by the IVRApplications interface */ + enum EVRApplicationError + { + VRApplicationError_None = 0, + + VRApplicationError_AppKeyAlreadyExists = 100, // Only one application can use any given key + VRApplicationError_NoManifest = 101, // the running application does not have a manifest + VRApplicationError_NoApplication = 102, // No application is running + VRApplicationError_InvalidIndex = 103, + VRApplicationError_UnknownApplication = 104, // the application could not be found + VRApplicationError_IPCFailed = 105, // An IPC failure caused the request to fail + VRApplicationError_ApplicationAlreadyRunning = 106, + VRApplicationError_InvalidManifest = 107, + VRApplicationError_InvalidApplication = 108, + VRApplicationError_LaunchFailed = 109, // the process didn't start + VRApplicationError_ApplicationAlreadyStarting = 110, // the system was already starting the same application + VRApplicationError_LaunchInProgress = 111, // The system was already starting a different application + VRApplicationError_OldApplicationQuitting = 112, + VRApplicationError_TransitionAborted = 113, + VRApplicationError_IsTemplate = 114, // error when you try to call LaunchApplication() on a template type app (use LaunchTemplateApplication) + VRApplicationError_SteamVRIsExiting = 115, + + VRApplicationError_BufferTooSmall = 200, // The provided buffer was too small to fit the requested data + VRApplicationError_PropertyNotSet = 201, // The requested property was not set + VRApplicationError_UnknownProperty = 202, + VRApplicationError_InvalidParameter = 203, + }; + + /** The maximum length of an application key */ + static const uint32_t k_unMaxApplicationKeyLength = 128; + + /** these are the properties available on applications. */ + enum EVRApplicationProperty + { + VRApplicationProperty_Name_String = 0, + + VRApplicationProperty_LaunchType_String = 11, + VRApplicationProperty_WorkingDirectory_String = 12, + VRApplicationProperty_BinaryPath_String = 13, + VRApplicationProperty_Arguments_String = 14, + VRApplicationProperty_URL_String = 15, + + VRApplicationProperty_Description_String = 50, + VRApplicationProperty_NewsURL_String = 51, + VRApplicationProperty_ImagePath_String = 52, + VRApplicationProperty_Source_String = 53, + VRApplicationProperty_ActionManifestURL_String = 54, + + VRApplicationProperty_IsDashboardOverlay_Bool = 60, + VRApplicationProperty_IsTemplate_Bool = 61, + VRApplicationProperty_IsInstanced_Bool = 62, + VRApplicationProperty_IsInternal_Bool = 63, + VRApplicationProperty_WantsCompositorPauseInStandby_Bool = 64, + VRApplicationProperty_IsHidden_Bool = 65, + + VRApplicationProperty_LastLaunchTime_Uint64 = 70, + }; + + enum EVRSceneApplicationState + { + EVRSceneApplicationState_None = 0, // Scene Application is not running + EVRSceneApplicationState_Starting = 1, // Scene Application is starting + EVRSceneApplicationState_Quitting = 2, // Scene Application is quitting + EVRSceneApplicationState_Running = 3, // Scene Application is running, and submitting frames, a custom skybox, or a visible overlay + EVRSceneApplicationState_Waiting = 4, // Scene Application is running, but not drawing anything + }; + + struct AppOverrideKeys_t + { + const char *pchKey; + const char *pchValue; + }; + + /** Currently recognized mime types */ + static const char * const k_pch_MimeType_HomeApp = "vr/home"; + static const char * const k_pch_MimeType_GameTheater = "vr/game_theater"; + + class IVRApplications + { + public: + + // --------------- Application management --------------- // + + /** Adds an application manifest to the list to load when building the list of installed applications. + * Temporary manifests are not automatically loaded */ + virtual EVRApplicationError AddApplicationManifest( const char *pchApplicationManifestFullPath, bool bTemporary = false ) = 0; + + /** Removes an application manifest from the list to load when building the list of installed applications. */ + virtual EVRApplicationError RemoveApplicationManifest( const char *pchApplicationManifestFullPath ) = 0; + + /** Returns true if an application is installed */ + virtual bool IsApplicationInstalled( const char *pchAppKey ) = 0; + + /** Returns the number of applications available in the list */ + virtual uint32_t GetApplicationCount() = 0; + + /** Returns the key of the specified application. The index is at least 0 and is less than the return + * value of GetApplicationCount(). The buffer should be at least k_unMaxApplicationKeyLength in order to + * fit the key. */ + virtual EVRApplicationError GetApplicationKeyByIndex( uint32_t unApplicationIndex, VR_OUT_STRING() char *pchAppKeyBuffer, uint32_t unAppKeyBufferLen ) = 0; + + /** Returns the key of the application for the specified Process Id. The buffer should be at least + * k_unMaxApplicationKeyLength in order to fit the key. */ + virtual EVRApplicationError GetApplicationKeyByProcessId( uint32_t unProcessId, VR_OUT_STRING() char *pchAppKeyBuffer, uint32_t unAppKeyBufferLen ) = 0; + + /** Launches the application. The existing scene application will exit and then the new application will start. + * This call is not valid for dashboard overlay applications. */ + virtual EVRApplicationError LaunchApplication( const char *pchAppKey ) = 0; + + /** Launches an instance of an application of type template, with its app key being pchNewAppKey (which must be unique) and optionally override sections + * from the manifest file via AppOverrideKeys_t + */ + virtual EVRApplicationError LaunchTemplateApplication( const char *pchTemplateAppKey, const char *pchNewAppKey, VR_ARRAY_COUNT( unKeys ) const AppOverrideKeys_t *pKeys, uint32_t unKeys ) = 0; + + /** launches the application currently associated with this mime type and passes it the option args, typically the filename or object name of the item being launched */ + virtual vr::EVRApplicationError LaunchApplicationFromMimeType( const char *pchMimeType, const char *pchArgs ) = 0; + + /** Launches the dashboard overlay application if it is not already running. This call is only valid for + * dashboard overlay applications. */ + virtual EVRApplicationError LaunchDashboardOverlay( const char *pchAppKey ) = 0; + + /** Cancel a pending launch for an application */ + virtual bool CancelApplicationLaunch( const char *pchAppKey ) = 0; + + /** Identifies a running application. OpenVR can't always tell which process started in response + * to a URL. This function allows a URL handler (or the process itself) to identify the app key + * for the now running application. Passing a process ID of 0 identifies the calling process. + * The application must be one that's known to the system via a call to AddApplicationManifest. */ + virtual EVRApplicationError IdentifyApplication( uint32_t unProcessId, const char *pchAppKey ) = 0; + + /** Returns the process ID for an application. Return 0 if the application was not found or is not running. */ + virtual uint32_t GetApplicationProcessId( const char *pchAppKey ) = 0; + + /** Returns a string for an applications error */ + virtual const char *GetApplicationsErrorNameFromEnum( EVRApplicationError error ) = 0; + + // --------------- Application properties --------------- // + + /** Returns a value for an application property. The required buffer size to fit this value will be returned. */ + virtual uint32_t GetApplicationPropertyString( const char *pchAppKey, EVRApplicationProperty eProperty, VR_OUT_STRING() char *pchPropertyValueBuffer, uint32_t unPropertyValueBufferLen, EVRApplicationError *peError = nullptr ) = 0; + + /** Returns a bool value for an application property. Returns false in all error cases. */ + virtual bool GetApplicationPropertyBool( const char *pchAppKey, EVRApplicationProperty eProperty, EVRApplicationError *peError = nullptr ) = 0; + + /** Returns a uint64 value for an application property. Returns 0 in all error cases. */ + virtual uint64_t GetApplicationPropertyUint64( const char *pchAppKey, EVRApplicationProperty eProperty, EVRApplicationError *peError = nullptr ) = 0; + + /** Sets the application auto-launch flag. This is only valid for applications which return true for VRApplicationProperty_IsDashboardOverlay_Bool. */ + virtual EVRApplicationError SetApplicationAutoLaunch( const char *pchAppKey, bool bAutoLaunch ) = 0; + + /** Gets the application auto-launch flag. This is only valid for applications which return true for VRApplicationProperty_IsDashboardOverlay_Bool. */ + virtual bool GetApplicationAutoLaunch( const char *pchAppKey ) = 0; + + /** Adds this mime-type to the list of supported mime types for this application*/ + virtual EVRApplicationError SetDefaultApplicationForMimeType( const char *pchAppKey, const char *pchMimeType ) = 0; + + /** return the app key that will open this mime type */ + virtual bool GetDefaultApplicationForMimeType( const char *pchMimeType, VR_OUT_STRING() char *pchAppKeyBuffer, uint32_t unAppKeyBufferLen ) = 0; + + /** Get the list of supported mime types for this application, comma-delimited */ + virtual bool GetApplicationSupportedMimeTypes( const char *pchAppKey, VR_OUT_STRING() char *pchMimeTypesBuffer, uint32_t unMimeTypesBuffer ) = 0; + + /** Get the list of app-keys that support this mime type, comma-delimited, the return value is number of bytes you need to return the full string */ + virtual uint32_t GetApplicationsThatSupportMimeType( const char *pchMimeType, VR_OUT_STRING() char *pchAppKeysThatSupportBuffer, uint32_t unAppKeysThatSupportBuffer ) = 0; + + /** Get the args list from an app launch that had the process already running, you call this when you get a VREvent_ApplicationMimeTypeLoad */ + virtual uint32_t GetApplicationLaunchArguments( uint32_t unHandle, VR_OUT_STRING() char *pchArgs, uint32_t unArgs ) = 0; + + // --------------- Transition methods --------------- // + + /** Returns the app key for the application that is starting up */ + virtual EVRApplicationError GetStartingApplication( VR_OUT_STRING() char *pchAppKeyBuffer, uint32_t unAppKeyBufferLen ) = 0; + + /** Returns the application transition state */ + virtual EVRSceneApplicationState GetSceneApplicationState() = 0; + + /** Returns errors that would prevent the specified application from launching immediately. Calling this function will + * cause the current scene application to quit, so only call it when you are actually about to launch something else. + * What the caller should do about these failures depends on the failure: + * VRApplicationError_OldApplicationQuitting - An existing application has been told to quit. Wait for a VREvent_ProcessQuit + * and try again. + * VRApplicationError_ApplicationAlreadyStarting - This application is already starting. This is a permanent failure. + * VRApplicationError_LaunchInProgress - A different application is already starting. This is a permanent failure. + * VRApplicationError_None - Go ahead and launch. Everything is clear. + */ + virtual EVRApplicationError PerformApplicationPrelaunchCheck( const char *pchAppKey ) = 0; + + /** Returns a string for an application transition state */ + virtual const char *GetSceneApplicationStateNameFromEnum( EVRSceneApplicationState state ) = 0; + + /** Starts a subprocess within the calling application. This + * suppresses all application transition UI and automatically identifies the new executable + * as part of the same application. On success the calling process should exit immediately. + * If working directory is NULL or "" the directory portion of the binary path will be + * the working directory. */ + virtual EVRApplicationError LaunchInternalProcess( const char *pchBinaryPath, const char *pchArguments, const char *pchWorkingDirectory ) = 0; + + /** Returns the current scene process ID according to the application system. A scene process will get scene + * focus once it starts rendering, but it will appear here once it calls VR_Init with the Scene application + * type. */ + virtual uint32_t GetCurrentSceneProcessId() = 0; + }; + + static const char * const IVRApplications_Version = "IVRApplications_007"; + +} // namespace vr + +// ivrsettings.h +#include + +namespace vr +{ + enum EVRSettingsError + { + VRSettingsError_None = 0, + VRSettingsError_IPCFailed = 1, + VRSettingsError_WriteFailed = 2, + VRSettingsError_ReadFailed = 3, + VRSettingsError_JsonParseFailed = 4, + VRSettingsError_UnsetSettingHasNoDefault = 5, // This will be returned if the setting does not appear in the appropriate default file and has not been set + }; + + // The maximum length of a settings key + static const uint32_t k_unMaxSettingsKeyLength = 128; + + class IVRSettings + { + public: + virtual const char *GetSettingsErrorNameFromEnum( EVRSettingsError eError ) = 0; + + virtual void SetBool( const char *pchSection, const char *pchSettingsKey, bool bValue, EVRSettingsError *peError = nullptr ) = 0; + virtual void SetInt32( const char *pchSection, const char *pchSettingsKey, int32_t nValue, EVRSettingsError *peError = nullptr ) = 0; + virtual void SetFloat( const char *pchSection, const char *pchSettingsKey, float flValue, EVRSettingsError *peError = nullptr ) = 0; + virtual void SetString( const char *pchSection, const char *pchSettingsKey, const char *pchValue, EVRSettingsError *peError = nullptr ) = 0; + + // Users of the system need to provide a proper default in default.vrsettings in the resources/settings/ directory + // of either the runtime or the driver_xxx directory. Otherwise the default will be false, 0, 0.0 or "" + virtual bool GetBool( const char *pchSection, const char *pchSettingsKey, EVRSettingsError *peError = nullptr ) = 0; + virtual int32_t GetInt32( const char *pchSection, const char *pchSettingsKey, EVRSettingsError *peError = nullptr ) = 0; + virtual float GetFloat( const char *pchSection, const char *pchSettingsKey, EVRSettingsError *peError = nullptr ) = 0; + virtual void GetString( const char *pchSection, const char *pchSettingsKey, VR_OUT_STRING() char *pchValue, uint32_t unValueLen, EVRSettingsError *peError = nullptr ) = 0; + + virtual void RemoveSection( const char *pchSection, EVRSettingsError *peError = nullptr ) = 0; + virtual void RemoveKeyInSection( const char *pchSection, const char *pchSettingsKey, EVRSettingsError *peError = nullptr ) = 0; + }; + + //----------------------------------------------------------------------------- + static const char * const IVRSettings_Version = "IVRSettings_003"; + + class CVRSettingHelper + { + IVRSettings *m_pSettings; + public: + CVRSettingHelper( IVRSettings *pSettings ) + { + m_pSettings = pSettings; + } + + const char *GetSettingsErrorNameFromEnum( EVRSettingsError eError ) + { + return m_pSettings->GetSettingsErrorNameFromEnum( eError ); + } + + void SetBool( const char *pchSection, const char *pchSettingsKey, bool bValue, EVRSettingsError *peError = nullptr ) + { + m_pSettings->SetBool( pchSection, pchSettingsKey, bValue, peError ); + } + + void SetInt32( const char *pchSection, const char *pchSettingsKey, int32_t nValue, EVRSettingsError *peError = nullptr ) + { + m_pSettings->SetInt32( pchSection, pchSettingsKey, nValue, peError ); + } + void SetFloat( const char *pchSection, const char *pchSettingsKey, float flValue, EVRSettingsError *peError = nullptr ) + { + m_pSettings->SetFloat( pchSection, pchSettingsKey, flValue, peError ); + } + void SetString( const char *pchSection, const char *pchSettingsKey, const char *pchValue, EVRSettingsError *peError = nullptr ) + { + m_pSettings->SetString( pchSection, pchSettingsKey, pchValue, peError ); + } + void SetString( const std::string & sSection, const std::string & sSettingsKey, const std::string & sValue, EVRSettingsError *peError = nullptr ) + { + m_pSettings->SetString( sSection.c_str(), sSettingsKey.c_str(), sValue.c_str(), peError ); + } + + bool GetBool( const char *pchSection, const char *pchSettingsKey, EVRSettingsError *peError = nullptr ) + { + return m_pSettings->GetBool( pchSection, pchSettingsKey, peError ); + } + int32_t GetInt32( const char *pchSection, const char *pchSettingsKey, EVRSettingsError *peError = nullptr ) + { + return m_pSettings->GetInt32( pchSection, pchSettingsKey, peError ); + } + float GetFloat( const char *pchSection, const char *pchSettingsKey, EVRSettingsError *peError = nullptr ) + { + return m_pSettings->GetFloat( pchSection, pchSettingsKey, peError ); + } + void GetString( const char *pchSection, const char *pchSettingsKey, VR_OUT_STRING() char *pchValue, uint32_t unValueLen, EVRSettingsError *peError = nullptr ) + { + m_pSettings->GetString( pchSection, pchSettingsKey, pchValue, unValueLen, peError ); + } + std::string GetString( const std::string & sSection, const std::string & sSettingsKey, EVRSettingsError *peError = nullptr ) + { + char buf[4096]; + vr::EVRSettingsError eError; + m_pSettings->GetString( sSection.c_str(), sSettingsKey.c_str(), buf, sizeof( buf ), &eError ); + if ( peError ) + *peError = eError; + if ( eError == vr::VRSettingsError_None ) + return buf; + else + return ""; + } + + void RemoveSection( const char *pchSection, EVRSettingsError *peError = nullptr ) + { + m_pSettings->RemoveSection( pchSection, peError ); + } + void RemoveKeyInSection( const char *pchSection, const char *pchSettingsKey, EVRSettingsError *peError = nullptr ) + { + m_pSettings->RemoveKeyInSection( pchSection, pchSettingsKey, peError ); + } + }; + + + //----------------------------------------------------------------------------- + // steamvr keys + static const char * const k_pch_SteamVR_Section = "steamvr"; + static const char * const k_pch_SteamVR_RequireHmd_String = "requireHmd"; + static const char * const k_pch_SteamVR_ForcedDriverKey_String = "forcedDriver"; + static const char * const k_pch_SteamVR_ForcedHmdKey_String = "forcedHmd"; + static const char * const k_pch_SteamVR_DisplayDebug_Bool = "displayDebug"; + static const char * const k_pch_SteamVR_DebugProcessPipe_String = "debugProcessPipe"; + static const char * const k_pch_SteamVR_DisplayDebugX_Int32 = "displayDebugX"; + static const char * const k_pch_SteamVR_DisplayDebugY_Int32 = "displayDebugY"; + static const char * const k_pch_SteamVR_SendSystemButtonToAllApps_Bool= "sendSystemButtonToAllApps"; + static const char * const k_pch_SteamVR_LogLevel_Int32 = "loglevel"; + static const char * const k_pch_SteamVR_IPD_Float = "ipd"; + static const char * const k_pch_SteamVR_Background_String = "background"; + static const char * const k_pch_SteamVR_BackgroundUseDomeProjection_Bool = "backgroundUseDomeProjection"; + static const char * const k_pch_SteamVR_BackgroundCameraHeight_Float = "backgroundCameraHeight"; + static const char * const k_pch_SteamVR_BackgroundDomeRadius_Float = "backgroundDomeRadius"; + static const char * const k_pch_SteamVR_GridColor_String = "gridColor"; + static const char * const k_pch_SteamVR_PlayAreaColor_String = "playAreaColor"; + static const char * const k_pch_SteamVR_TrackingLossColor_String = "trackingLossColor"; + static const char * const k_pch_SteamVR_ShowStage_Bool = "showStage"; + static const char * const k_pch_SteamVR_ActivateMultipleDrivers_Bool = "activateMultipleDrivers"; + static const char * const k_pch_SteamVR_UsingSpeakers_Bool = "usingSpeakers"; + static const char * const k_pch_SteamVR_SpeakersForwardYawOffsetDegrees_Float = "speakersForwardYawOffsetDegrees"; + static const char * const k_pch_SteamVR_BaseStationPowerManagement_Int32 = "basestationPowerManagement"; + static const char * const k_pch_SteamVR_ShowBaseStationPowerManagementTip_Int32 = "ShowBaseStationPowerManagementTip"; + static const char * const k_pch_SteamVR_NeverKillProcesses_Bool = "neverKillProcesses"; + static const char * const k_pch_SteamVR_SupersampleScale_Float = "supersampleScale"; + static const char * const k_pch_SteamVR_MaxRecommendedResolution_Int32 = "maxRecommendedResolution"; + static const char * const k_pch_SteamVR_MotionSmoothing_Bool = "motionSmoothing"; + static const char * const k_pch_SteamVR_MotionSmoothingOverride_Int32 = "motionSmoothingOverride"; + static const char * const k_pch_SteamVR_DisableAsyncReprojection_Bool = "disableAsync"; + static const char * const k_pch_SteamVR_ForceFadeOnBadTracking_Bool = "forceFadeOnBadTracking"; + static const char * const k_pch_SteamVR_DefaultMirrorView_Int32 = "mirrorView"; + static const char * const k_pch_SteamVR_ShowLegacyMirrorView_Bool = "showLegacyMirrorView"; + static const char * const k_pch_SteamVR_MirrorViewVisibility_Bool = "showMirrorView"; + static const char * const k_pch_SteamVR_MirrorViewDisplayMode_Int32 = "mirrorViewDisplayMode"; + static const char * const k_pch_SteamVR_MirrorViewEye_Int32 = "mirrorViewEye"; + static const char * const k_pch_SteamVR_MirrorViewGeometry_String = "mirrorViewGeometry"; + static const char * const k_pch_SteamVR_MirrorViewGeometryMaximized_String = "mirrorViewGeometryMaximized"; + static const char * const k_pch_SteamVR_PerfGraphVisibility_Bool = "showPerfGraph"; + static const char * const k_pch_SteamVR_StartMonitorFromAppLaunch = "startMonitorFromAppLaunch"; + static const char * const k_pch_SteamVR_StartCompositorFromAppLaunch_Bool = "startCompositorFromAppLaunch"; + static const char * const k_pch_SteamVR_StartDashboardFromAppLaunch_Bool = "startDashboardFromAppLaunch"; + static const char * const k_pch_SteamVR_StartOverlayAppsFromDashboard_Bool = "startOverlayAppsFromDashboard"; + static const char * const k_pch_SteamVR_EnableHomeApp = "enableHomeApp"; + static const char * const k_pch_SteamVR_CycleBackgroundImageTimeSec_Int32 = "CycleBackgroundImageTimeSec"; + static const char * const k_pch_SteamVR_RetailDemo_Bool = "retailDemo"; + static const char * const k_pch_SteamVR_IpdOffset_Float = "ipdOffset"; + static const char * const k_pch_SteamVR_AllowSupersampleFiltering_Bool = "allowSupersampleFiltering"; + static const char * const k_pch_SteamVR_SupersampleManualOverride_Bool = "supersampleManualOverride"; + static const char * const k_pch_SteamVR_EnableLinuxVulkanAsync_Bool = "enableLinuxVulkanAsync"; + static const char * const k_pch_SteamVR_AllowDisplayLockedMode_Bool = "allowDisplayLockedMode"; + static const char * const k_pch_SteamVR_HaveStartedTutorialForNativeChaperoneDriver_Bool = "haveStartedTutorialForNativeChaperoneDriver"; + static const char * const k_pch_SteamVR_ForceWindows32bitVRMonitor = "forceWindows32BitVRMonitor"; + static const char * const k_pch_SteamVR_DebugInputBinding = "debugInputBinding"; + static const char * const k_pch_SteamVR_DoNotFadeToGrid = "doNotFadeToGrid"; + static const char * const k_pch_SteamVR_RenderCameraMode = "renderCameraMode"; + static const char * const k_pch_SteamVR_EnableSharedResourceJournaling = "enableSharedResourceJournaling"; + static const char * const k_pch_SteamVR_EnableSafeMode = "enableSafeMode"; + static const char * const k_pch_SteamVR_PreferredRefreshRate = "preferredRefreshRate"; + static const char * const k_pch_SteamVR_LastVersionNotice = "lastVersionNotice"; + static const char * const k_pch_SteamVR_LastVersionNoticeDate = "lastVersionNoticeDate"; + static const char * const k_pch_SteamVR_HmdDisplayColorGainR_Float = "hmdDisplayColorGainR"; + static const char * const k_pch_SteamVR_HmdDisplayColorGainG_Float = "hmdDisplayColorGainG"; + static const char * const k_pch_SteamVR_HmdDisplayColorGainB_Float = "hmdDisplayColorGainB"; + static const char * const k_pch_SteamVR_CustomIconStyle_String = "customIconStyle"; + static const char * const k_pch_SteamVR_CustomOffIconStyle_String = "customOffIconStyle"; + static const char * const k_pch_SteamVR_CustomIconForceUpdate_String = "customIconForceUpdate"; + static const char * const k_pch_SteamVR_AllowGlobalActionSetPriority = "globalActionSetPriority"; + static const char * const k_pch_SteamVR_OverlayRenderQuality = "overlayRenderQuality_2"; + + //----------------------------------------------------------------------------- + // direct mode keys + static const char * const k_pch_DirectMode_Section = "direct_mode"; + static const char * const k_pch_DirectMode_Enable_Bool = "enable"; + static const char * const k_pch_DirectMode_Count_Int32 = "count"; + static const char * const k_pch_DirectMode_EdidVid_Int32 = "edidVid"; + static const char * const k_pch_DirectMode_EdidPid_Int32 = "edidPid"; + + //----------------------------------------------------------------------------- + // lighthouse keys + static const char * const k_pch_Lighthouse_Section = "driver_lighthouse"; + static const char * const k_pch_Lighthouse_DisableIMU_Bool = "disableimu"; + static const char * const k_pch_Lighthouse_DisableIMUExceptHMD_Bool = "disableimuexcepthmd"; + static const char * const k_pch_Lighthouse_UseDisambiguation_String = "usedisambiguation"; + static const char * const k_pch_Lighthouse_DisambiguationDebug_Int32 = "disambiguationdebug"; + static const char * const k_pch_Lighthouse_PrimaryBasestation_Int32 = "primarybasestation"; + static const char * const k_pch_Lighthouse_DBHistory_Bool = "dbhistory"; + static const char * const k_pch_Lighthouse_EnableBluetooth_Bool = "enableBluetooth"; + static const char * const k_pch_Lighthouse_PowerManagedBaseStations_String = "PowerManagedBaseStations"; + static const char * const k_pch_Lighthouse_PowerManagedBaseStations2_String = "PowerManagedBaseStations2"; + static const char * const k_pch_Lighthouse_InactivityTimeoutForBaseStations_Int32 = "InactivityTimeoutForBaseStations"; + static const char * const k_pch_Lighthouse_EnableImuFallback_Bool = "enableImuFallback"; + + //----------------------------------------------------------------------------- + // null keys + static const char * const k_pch_Null_Section = "driver_null"; + static const char * const k_pch_Null_SerialNumber_String = "serialNumber"; + static const char * const k_pch_Null_ModelNumber_String = "modelNumber"; + static const char * const k_pch_Null_WindowX_Int32 = "windowX"; + static const char * const k_pch_Null_WindowY_Int32 = "windowY"; + static const char * const k_pch_Null_WindowWidth_Int32 = "windowWidth"; + static const char * const k_pch_Null_WindowHeight_Int32 = "windowHeight"; + static const char * const k_pch_Null_RenderWidth_Int32 = "renderWidth"; + static const char * const k_pch_Null_RenderHeight_Int32 = "renderHeight"; + static const char * const k_pch_Null_SecondsFromVsyncToPhotons_Float = "secondsFromVsyncToPhotons"; + static const char * const k_pch_Null_DisplayFrequency_Float = "displayFrequency"; + + //----------------------------------------------------------------------------- + // Windows MR keys + static const char * const k_pch_WindowsMR_Section = "driver_holographic"; + + //----------------------------------------------------------------------------- + // user interface keys + static const char * const k_pch_UserInterface_Section = "userinterface"; + static const char * const k_pch_UserInterface_StatusAlwaysOnTop_Bool = "StatusAlwaysOnTop"; + static const char * const k_pch_UserInterface_MinimizeToTray_Bool = "MinimizeToTray"; + static const char * const k_pch_UserInterface_HidePopupsWhenStatusMinimized_Bool = "HidePopupsWhenStatusMinimized"; + static const char * const k_pch_UserInterface_Screenshots_Bool = "screenshots"; + static const char * const k_pch_UserInterface_ScreenshotType_Int = "screenshotType"; + + //----------------------------------------------------------------------------- + // notification keys + static const char * const k_pch_Notifications_Section = "notifications"; + static const char * const k_pch_Notifications_DoNotDisturb_Bool = "DoNotDisturb"; + + //----------------------------------------------------------------------------- + // keyboard keys + static const char * const k_pch_Keyboard_Section = "keyboard"; + static const char * const k_pch_Keyboard_TutorialCompletions = "TutorialCompletions"; + static const char * const k_pch_Keyboard_ScaleX = "ScaleX"; + static const char * const k_pch_Keyboard_ScaleY = "ScaleY"; + static const char * const k_pch_Keyboard_OffsetLeftX = "OffsetLeftX"; + static const char * const k_pch_Keyboard_OffsetRightX = "OffsetRightX"; + static const char * const k_pch_Keyboard_OffsetY = "OffsetY"; + static const char * const k_pch_Keyboard_Smoothing = "Smoothing"; + + //----------------------------------------------------------------------------- + // perf keys + static const char * const k_pch_Perf_Section = "perfcheck"; + static const char * const k_pch_Perf_PerfGraphInHMD_Bool = "perfGraphInHMD"; + static const char * const k_pch_Perf_AllowTimingStore_Bool = "allowTimingStore"; + static const char * const k_pch_Perf_SaveTimingsOnExit_Bool = "saveTimingsOnExit"; + static const char * const k_pch_Perf_TestData_Float = "perfTestData"; + static const char * const k_pch_Perf_GPUProfiling_Bool = "GPUProfiling"; + + //----------------------------------------------------------------------------- + // collision bounds keys + static const char * const k_pch_CollisionBounds_Section = "collisionBounds"; + static const char * const k_pch_CollisionBounds_Style_Int32 = "CollisionBoundsStyle"; + static const char * const k_pch_CollisionBounds_GroundPerimeterOn_Bool = "CollisionBoundsGroundPerimeterOn"; + static const char * const k_pch_CollisionBounds_CenterMarkerOn_Bool = "CollisionBoundsCenterMarkerOn"; + static const char * const k_pch_CollisionBounds_PlaySpaceOn_Bool = "CollisionBoundsPlaySpaceOn"; + static const char * const k_pch_CollisionBounds_FadeDistance_Float = "CollisionBoundsFadeDistance"; + static const char * const k_pch_CollisionBounds_WallHeight_Float = "CollisionBoundsWallHeight"; + static const char * const k_pch_CollisionBounds_ColorGammaR_Int32 = "CollisionBoundsColorGammaR"; + static const char * const k_pch_CollisionBounds_ColorGammaG_Int32 = "CollisionBoundsColorGammaG"; + static const char * const k_pch_CollisionBounds_ColorGammaB_Int32 = "CollisionBoundsColorGammaB"; + static const char * const k_pch_CollisionBounds_ColorGammaA_Int32 = "CollisionBoundsColorGammaA"; + static const char * const k_pch_CollisionBounds_EnableDriverImport = "enableDriverBoundsImport"; + + //----------------------------------------------------------------------------- + // camera keys + static const char * const k_pch_Camera_Section = "camera"; + static const char * const k_pch_Camera_EnableCamera_Bool = "enableCamera"; + static const char * const k_pch_Camera_EnableCameraInDashboard_Bool = "enableCameraInDashboard"; + static const char * const k_pch_Camera_EnableCameraForCollisionBounds_Bool = "enableCameraForCollisionBounds"; + static const char * const k_pch_Camera_EnableCameraForRoomView_Bool = "enableCameraForRoomView"; + static const char * const k_pch_Camera_BoundsColorGammaR_Int32 = "cameraBoundsColorGammaR"; + static const char * const k_pch_Camera_BoundsColorGammaG_Int32 = "cameraBoundsColorGammaG"; + static const char * const k_pch_Camera_BoundsColorGammaB_Int32 = "cameraBoundsColorGammaB"; + static const char * const k_pch_Camera_BoundsColorGammaA_Int32 = "cameraBoundsColorGammaA"; + static const char * const k_pch_Camera_BoundsStrength_Int32 = "cameraBoundsStrength"; + static const char * const k_pch_Camera_RoomViewMode_Int32 = "cameraRoomViewMode"; + + //----------------------------------------------------------------------------- + // audio keys + static const char * const k_pch_audio_Section = "audio"; + static const char * const k_pch_audio_SetOsDefaultPlaybackDevice_Bool = "setOsDefaultPlaybackDevice"; + static const char * const k_pch_audio_EnablePlaybackDeviceOverride_Bool = "enablePlaybackDeviceOverride"; + static const char * const k_pch_audio_PlaybackDeviceOverride_String = "playbackDeviceOverride"; + static const char * const k_pch_audio_PlaybackDeviceOverrideName_String = "playbackDeviceOverrideName"; + static const char * const k_pch_audio_SetOsDefaultRecordingDevice_Bool = "setOsDefaultRecordingDevice"; + static const char * const k_pch_audio_EnableRecordingDeviceOverride_Bool = "enableRecordingDeviceOverride"; + static const char * const k_pch_audio_RecordingDeviceOverride_String = "recordingDeviceOverride"; + static const char * const k_pch_audio_RecordingDeviceOverrideName_String = "recordingDeviceOverrideName"; + static const char * const k_pch_audio_EnablePlaybackMirror_Bool = "enablePlaybackMirror"; + static const char * const k_pch_audio_PlaybackMirrorDevice_String = "playbackMirrorDevice"; + static const char * const k_pch_audio_PlaybackMirrorDeviceName_String = "playbackMirrorDeviceName"; + static const char * const k_pch_audio_OldPlaybackMirrorDevice_String = "onPlaybackMirrorDevice"; + static const char * const k_pch_audio_ActiveMirrorDevice_String = "activePlaybackMirrorDevice"; + static const char * const k_pch_audio_EnablePlaybackMirrorIndependentVolume_Bool = "enablePlaybackMirrorIndependentVolume"; + static const char * const k_pch_audio_LastHmdPlaybackDeviceId_String = "lastHmdPlaybackDeviceId"; + static const char * const k_pch_audio_VIVEHDMIGain = "viveHDMIGain"; + + //----------------------------------------------------------------------------- + // power management keys + static const char * const k_pch_Power_Section = "power"; + static const char * const k_pch_Power_PowerOffOnExit_Bool = "powerOffOnExit"; + static const char * const k_pch_Power_TurnOffScreensTimeout_Float = "turnOffScreensTimeout"; + static const char * const k_pch_Power_TurnOffControllersTimeout_Float = "turnOffControllersTimeout"; + static const char * const k_pch_Power_ReturnToWatchdogTimeout_Float = "returnToWatchdogTimeout"; + static const char * const k_pch_Power_AutoLaunchSteamVROnButtonPress = "autoLaunchSteamVROnButtonPress"; + static const char * const k_pch_Power_PauseCompositorOnStandby_Bool = "pauseCompositorOnStandby"; + + //----------------------------------------------------------------------------- + // dashboard keys + static const char * const k_pch_Dashboard_Section = "dashboard"; + static const char * const k_pch_Dashboard_EnableDashboard_Bool = "enableDashboard"; + static const char * const k_pch_Dashboard_ArcadeMode_Bool = "arcadeMode"; + static const char * const k_pch_Dashboard_Position = "position"; + static const char * const k_pch_Dashboard_DesktopScale = "desktopScale"; + static const char * const k_pch_Dashboard_DashboardScale = "dashboardScale"; + + //----------------------------------------------------------------------------- + // model skin keys + static const char * const k_pch_modelskin_Section = "modelskins"; + + //----------------------------------------------------------------------------- + // driver keys - These could be checked in any driver_ section + static const char * const k_pch_Driver_Enable_Bool = "enable"; + static const char * const k_pch_Driver_BlockedBySafemode_Bool = "blocked_by_safe_mode"; + static const char * const k_pch_Driver_LoadPriority_Int32 = "loadPriority"; + + //----------------------------------------------------------------------------- + // web interface keys + static const char* const k_pch_WebInterface_Section = "WebInterface"; + + //----------------------------------------------------------------------------- + // vrwebhelper keys + static const char* const k_pch_VRWebHelper_Section = "VRWebHelper"; + static const char* const k_pch_VRWebHelper_DebuggerEnabled_Bool = "DebuggerEnabled"; + static const char* const k_pch_VRWebHelper_DebuggerPort_Int32 = "DebuggerPort"; + + //----------------------------------------------------------------------------- + // tracking overrides - keys are device paths, values are the device paths their + // tracking/pose information overrides + static const char* const k_pch_TrackingOverride_Section = "TrackingOverrides"; + + //----------------------------------------------------------------------------- + // per-app keys - the section name for these is the app key itself. Some of these are prefixed by the controller type + static const char* const k_pch_App_BindingAutosaveURLSuffix_String = "AutosaveURL"; + static const char* const k_pch_App_BindingLegacyAPISuffix_String = "_legacy"; + static const char* const k_pch_App_BindingSteamVRInputAPISuffix_String = "_steamvrinput"; + static const char* const k_pch_App_BindingCurrentURLSuffix_String = "CurrentURL"; + static const char* const k_pch_App_BindingPreviousURLSuffix_String = "PreviousURL"; + static const char* const k_pch_App_NeedToUpdateAutosaveSuffix_Bool = "NeedToUpdateAutosave"; + static const char* const k_pch_App_DominantHand_Int32 = "DominantHand"; + + //----------------------------------------------------------------------------- + // configuration for trackers + static const char * const k_pch_Trackers_Section = "trackers"; + + //----------------------------------------------------------------------------- + // configuration for desktop UI windows + static const char * const k_pch_DesktopUI_Section = "DesktopUI"; + + //----------------------------------------------------------------------------- + // Last known keys for righting recovery + static const char * const k_pch_LastKnown_Section = "LastKnown"; + static const char* const k_pch_LastKnown_HMDManufacturer_String = "HMDManufacturer"; + static const char* const k_pch_LastKnown_HMDModel_String = "HMDModel"; + + //----------------------------------------------------------------------------- + // Dismissed warnings + static const char * const k_pch_DismissedWarnings_Section = "DismissedWarnings"; + + //----------------------------------------------------------------------------- + // Input Settings + static const char * const k_pch_Input_Section = "input"; + static const char* const k_pch_Input_LeftThumbstickRotation_Float = "leftThumbstickRotation"; + static const char* const k_pch_Input_RightThumbstickRotation_Float = "rightThumbstickRotation"; + static const char* const k_pch_Input_ThumbstickDeadzone_Float = "thumbstickDeadzone"; + + //----------------------------------------------------------------------------- + // Log of GPU performance + static const char * const k_pch_GpuSpeed_Section = "GpuSpeed"; + +} // namespace vr + +// ivrchaperone.h +namespace vr +{ + +#pragma pack( push, 8 ) + +enum ChaperoneCalibrationState +{ + // OK! + ChaperoneCalibrationState_OK = 1, // Chaperone is fully calibrated and working correctly + + // Warnings + ChaperoneCalibrationState_Warning = 100, + ChaperoneCalibrationState_Warning_BaseStationMayHaveMoved = 101, // A base station thinks that it might have moved + ChaperoneCalibrationState_Warning_BaseStationRemoved = 102, // There are less base stations than when calibrated + ChaperoneCalibrationState_Warning_SeatedBoundsInvalid = 103, // Seated bounds haven't been calibrated for the current tracking center + + // Errors + ChaperoneCalibrationState_Error = 200, // The UniverseID is invalid + ChaperoneCalibrationState_Error_BaseStationUninitialized = 201, // Tracking center hasn't be calibrated for at least one of the base stations + ChaperoneCalibrationState_Error_BaseStationConflict = 202, // Tracking center is calibrated, but base stations disagree on the tracking space + ChaperoneCalibrationState_Error_PlayAreaInvalid = 203, // Play Area hasn't been calibrated for the current tracking center + ChaperoneCalibrationState_Error_CollisionBoundsInvalid = 204, // Collision Bounds haven't been calibrated for the current tracking center +}; + + +/** HIGH LEVEL TRACKING SPACE ASSUMPTIONS: +* 0,0,0 is the preferred standing area center. +* 0Y is the floor height. +* -Z is the preferred forward facing direction. */ +class IVRChaperone +{ +public: + + /** Get the current state of Chaperone calibration. This state can change at any time during a session due to physical base station changes. **/ + virtual ChaperoneCalibrationState GetCalibrationState() = 0; + + /** Returns the width and depth of the Play Area (formerly named Soft Bounds) in X and Z. + * Tracking space center (0,0,0) is the center of the Play Area. **/ + virtual bool GetPlayAreaSize( float *pSizeX, float *pSizeZ ) = 0; + + /** Returns the 4 corner positions of the Play Area (formerly named Soft Bounds). + * Corners are in counter-clockwise order. + * Standing center (0,0,0) is the center of the Play Area. + * It's a rectangle. + * 2 sides are parallel to the X axis and 2 sides are parallel to the Z axis. + * Height of every corner is 0Y (on the floor). **/ + virtual bool GetPlayAreaRect( HmdQuad_t *rect ) = 0; + + /** Reload Chaperone data from the .vrchap file on disk. */ + virtual void ReloadInfo( void ) = 0; + + /** Optionally give the chaperone system a hit about the color and brightness in the scene **/ + virtual void SetSceneColor( HmdColor_t color ) = 0; + + /** Get the current chaperone bounds draw color and brightness **/ + virtual void GetBoundsColor( HmdColor_t *pOutputColorArray, int nNumOutputColors, float flCollisionBoundsFadeDistance, HmdColor_t *pOutputCameraColor ) = 0; + + /** Determine whether the bounds are showing right now **/ + virtual bool AreBoundsVisible() = 0; + + /** Force the bounds to show, mostly for utilities **/ + virtual void ForceBoundsVisible( bool bForce ) = 0; +}; + +static const char * const IVRChaperone_Version = "IVRChaperone_003"; + +#pragma pack( pop ) + +} + +// ivrchaperonesetup.h +namespace vr +{ + +enum EChaperoneConfigFile +{ + EChaperoneConfigFile_Live = 1, // The live chaperone config, used by most applications and games + EChaperoneConfigFile_Temp = 2, // The temporary chaperone config, used to live-preview collision bounds in room setup +}; + +enum EChaperoneImportFlags +{ + EChaperoneImport_BoundsOnly = 0x0001, +}; + +/** Manages the working copy of the chaperone info. By default this will be the same as the +* live copy. Any changes made with this interface will stay in the working copy until +* CommitWorkingCopy() is called, at which point the working copy and the live copy will be +* the same again. */ +class IVRChaperoneSetup +{ +public: + + /** Saves the current working copy to disk */ + virtual bool CommitWorkingCopy( EChaperoneConfigFile configFile ) = 0; + + /** Reverts the working copy to match the live chaperone calibration. + * To modify existing data this MUST be do WHILE getting a non-error ChaperoneCalibrationStatus. + * Only after this should you do gets and sets on the existing data. */ + virtual void RevertWorkingCopy() = 0; + + /** Returns the width and depth of the Play Area (formerly named Soft Bounds) in X and Z from the working copy. + * Tracking space center (0,0,0) is the center of the Play Area. */ + virtual bool GetWorkingPlayAreaSize( float *pSizeX, float *pSizeZ ) = 0; + + /** Returns the 4 corner positions of the Play Area (formerly named Soft Bounds) from the working copy. + * Corners are in clockwise order. + * Tracking space center (0,0,0) is the center of the Play Area. + * It's a rectangle. + * 2 sides are parallel to the X axis and 2 sides are parallel to the Z axis. + * Height of every corner is 0Y (on the floor). **/ + virtual bool GetWorkingPlayAreaRect( HmdQuad_t *rect ) = 0; + + /** Returns the number of Quads if the buffer points to null. Otherwise it returns Quads + * into the buffer up to the max specified from the working copy. */ + virtual bool GetWorkingCollisionBoundsInfo( VR_OUT_ARRAY_COUNT(punQuadsCount) HmdQuad_t *pQuadsBuffer, uint32_t* punQuadsCount ) = 0; + + /** Returns the number of Quads if the buffer points to null. Otherwise it returns Quads + * into the buffer up to the max specified. */ + virtual bool GetLiveCollisionBoundsInfo( VR_OUT_ARRAY_COUNT(punQuadsCount) HmdQuad_t *pQuadsBuffer, uint32_t* punQuadsCount ) = 0; + + /** Returns the preferred seated position from the working copy. */ + virtual bool GetWorkingSeatedZeroPoseToRawTrackingPose( HmdMatrix34_t *pmatSeatedZeroPoseToRawTrackingPose ) = 0; + + /** Returns the standing origin from the working copy. */ + virtual bool GetWorkingStandingZeroPoseToRawTrackingPose( HmdMatrix34_t *pmatStandingZeroPoseToRawTrackingPose ) = 0; + + /** Sets the Play Area in the working copy. */ + virtual void SetWorkingPlayAreaSize( float sizeX, float sizeZ ) = 0; + + /** Sets the Collision Bounds in the working copy. Note: ceiling height is ignored. */ + virtual void SetWorkingCollisionBoundsInfo( VR_ARRAY_COUNT(unQuadsCount) HmdQuad_t *pQuadsBuffer, uint32_t unQuadsCount ) = 0; + + /** Sets the Collision Bounds in the working copy. */ + virtual void SetWorkingPerimeter( VR_ARRAY_COUNT( unPointCount ) HmdVector2_t *pPointBuffer, uint32_t unPointCount ) = 0; + + /** Sets the preferred seated position in the working copy. */ + virtual void SetWorkingSeatedZeroPoseToRawTrackingPose( const HmdMatrix34_t *pMatSeatedZeroPoseToRawTrackingPose ) = 0; + + /** Sets the preferred standing position in the working copy. */ + virtual void SetWorkingStandingZeroPoseToRawTrackingPose( const HmdMatrix34_t *pMatStandingZeroPoseToRawTrackingPose ) = 0; + + /** Tear everything down and reload it from the file on disk */ + virtual void ReloadFromDisk( EChaperoneConfigFile configFile ) = 0; + + /** Returns the preferred seated position. */ + virtual bool GetLiveSeatedZeroPoseToRawTrackingPose( HmdMatrix34_t *pmatSeatedZeroPoseToRawTrackingPose ) = 0; + + virtual bool ExportLiveToBuffer( VR_OUT_STRING() char *pBuffer, uint32_t *pnBufferLength ) = 0; + virtual bool ImportFromBufferToWorking( const char *pBuffer, uint32_t nImportFlags ) = 0; + + /** Shows the chaperone data in the working set to preview in the compositor.*/ + virtual void ShowWorkingSetPreview() = 0; + + /** Hides the chaperone data in the working set to preview in the compositor (if it was visible).*/ + virtual void HideWorkingSetPreview() = 0; + + /** Fire an event that the tracking system can use to know room setup is about to begin. This lets the tracking + * system make any last minute adjustments that should be incorporated into the new setup. If the user is adjusting + * live in HMD using a tweak tool, keep in mind that calling this might cause the user to see the room jump. */ + virtual void RoomSetupStarting() = 0; +}; + +static const char * const IVRChaperoneSetup_Version = "IVRChaperoneSetup_006"; + + +} + +// ivrcompositor.h +namespace vr +{ + +#pragma pack( push, 8 ) + +/** Errors that can occur with the VR compositor */ +enum EVRCompositorError +{ + VRCompositorError_None = 0, + VRCompositorError_RequestFailed = 1, + VRCompositorError_IncompatibleVersion = 100, + VRCompositorError_DoNotHaveFocus = 101, + VRCompositorError_InvalidTexture = 102, + VRCompositorError_IsNotSceneApplication = 103, + VRCompositorError_TextureIsOnWrongDevice = 104, + VRCompositorError_TextureUsesUnsupportedFormat = 105, + VRCompositorError_SharedTexturesNotSupported = 106, + VRCompositorError_IndexOutOfRange = 107, + VRCompositorError_AlreadySubmitted = 108, + VRCompositorError_InvalidBounds = 109, + VRCompositorError_AlreadySet = 110, +}; + +/** Timing mode passed to SetExplicitTimingMode(); see that function for documentation */ +enum EVRCompositorTimingMode +{ + VRCompositorTimingMode_Implicit = 0, + VRCompositorTimingMode_Explicit_RuntimePerformsPostPresentHandoff = 1, + VRCompositorTimingMode_Explicit_ApplicationPerformsPostPresentHandoff = 2, +}; + +/** Cumulative stats for current application. These are not cleared until a new app connects, +* but they do stop accumulating once the associated app disconnects. */ +struct Compositor_CumulativeStats +{ + uint32_t m_nPid; // Process id associated with these stats (may no longer be running). + uint32_t m_nNumFramePresents; // total number of times we called present (includes reprojected frames) + uint32_t m_nNumDroppedFrames; // total number of times an old frame was re-scanned out (without reprojection) + uint32_t m_nNumReprojectedFrames; // total number of times a frame was scanned out a second time (with reprojection) + + /** Values recorded at startup before application has fully faded in the first time. */ + uint32_t m_nNumFramePresentsOnStartup; + uint32_t m_nNumDroppedFramesOnStartup; + uint32_t m_nNumReprojectedFramesOnStartup; + + /** Applications may explicitly fade to the compositor. This is usually to handle level transitions, and loading often causes + * system wide hitches. The following stats are collected during this period. Does not include values recorded during startup. */ + uint32_t m_nNumLoading; + uint32_t m_nNumFramePresentsLoading; + uint32_t m_nNumDroppedFramesLoading; + uint32_t m_nNumReprojectedFramesLoading; + + /** If we don't get a new frame from the app in less than 2.5 frames, then we assume the app has hung and start + * fading back to the compositor. The following stats are a result of this, and are a subset of those recorded above. + * Does not include values recorded during start up or loading. */ + uint32_t m_nNumTimedOut; + uint32_t m_nNumFramePresentsTimedOut; + uint32_t m_nNumDroppedFramesTimedOut; + uint32_t m_nNumReprojectedFramesTimedOut; +}; + +struct Compositor_StageRenderSettings +{ + /** Primary color is applied as a tint to (i.e. multiplied with) the model's texture */ + HmdColor_t m_PrimaryColor; + HmdColor_t m_SecondaryColor; + + /** Vignette radius is in meters and is used to fade to the specified secondary solid color over + * that 3D distance from the origin of the playspace. */ + float m_flVignetteInnerRadius; + float m_flVignetteOuterRadius; + + /** Fades to the secondary color based on view incidence. This variable controls the linearity + * of the effect. It is mutually exclusive with vignette. Additionally, it treats the mesh as faceted. */ + float m_flFresnelStrength; + + /** Controls backface culling. */ + bool m_bBackfaceCulling; + + /** Converts the render model's texture to luma and applies to rgb equally. This is useful to + * combat compression artifacts that can occur on desaturated source material. */ + bool m_bGreyscale; + + /** Renders mesh as a wireframe. */ + bool m_bWireframe; +}; + +static inline Compositor_StageRenderSettings DefaultStageRenderSettings() +{ + Compositor_StageRenderSettings settings; + settings.m_PrimaryColor.r = 1.0f; + settings.m_PrimaryColor.g = 1.0f; + settings.m_PrimaryColor.b = 1.0f; + settings.m_PrimaryColor.a = 1.0f; + settings.m_SecondaryColor.r = 1.0f; + settings.m_SecondaryColor.g = 1.0f; + settings.m_SecondaryColor.b = 1.0f; + settings.m_SecondaryColor.a = 1.0f; + settings.m_flVignetteInnerRadius = 0.0f; + settings.m_flVignetteOuterRadius = 0.0f; + settings.m_flFresnelStrength = 0.0f; + settings.m_bBackfaceCulling = false; + settings.m_bGreyscale = false; + settings.m_bWireframe = false; + return settings; +} + +#pragma pack( pop ) + +/** Allows the application to interact with the compositor */ +class IVRCompositor +{ +public: + /** Sets tracking space returned by WaitGetPoses */ + virtual void SetTrackingSpace( ETrackingUniverseOrigin eOrigin ) = 0; + + /** Gets current tracking space returned by WaitGetPoses */ + virtual ETrackingUniverseOrigin GetTrackingSpace() = 0; + + /** Scene applications should call this function to get poses to render with (and optionally poses predicted an additional frame out to use for gameplay). + * This function will block until "running start" milliseconds before the start of the frame, and should be called at the last moment before needing to + * start rendering. + * + * Return codes: + * - IsNotSceneApplication (make sure to call VR_Init with VRApplicaiton_Scene) + * - DoNotHaveFocus (some other app has taken focus - this will throttle the call to 10hz to reduce the impact on that app) + */ + virtual EVRCompositorError WaitGetPoses( VR_ARRAY_COUNT( unRenderPoseArrayCount ) TrackedDevicePose_t* pRenderPoseArray, uint32_t unRenderPoseArrayCount, + VR_ARRAY_COUNT( unGamePoseArrayCount ) TrackedDevicePose_t* pGamePoseArray, uint32_t unGamePoseArrayCount ) = 0; + + /** Get the last set of poses returned by WaitGetPoses. */ + virtual EVRCompositorError GetLastPoses( VR_ARRAY_COUNT( unRenderPoseArrayCount ) TrackedDevicePose_t* pRenderPoseArray, uint32_t unRenderPoseArrayCount, + VR_ARRAY_COUNT( unGamePoseArrayCount ) TrackedDevicePose_t* pGamePoseArray, uint32_t unGamePoseArrayCount ) = 0; + + /** Interface for accessing last set of poses returned by WaitGetPoses one at a time. + * Returns VRCompositorError_IndexOutOfRange if unDeviceIndex not less than k_unMaxTrackedDeviceCount otherwise VRCompositorError_None. + * It is okay to pass NULL for either pose if you only want one of the values. */ + virtual EVRCompositorError GetLastPoseForTrackedDeviceIndex( TrackedDeviceIndex_t unDeviceIndex, TrackedDevicePose_t *pOutputPose, TrackedDevicePose_t *pOutputGamePose ) = 0; + + /** Updated scene texture to display. If pBounds is NULL the entire texture will be used. If called from an OpenGL app, consider adding a glFlush after + * Submitting both frames to signal the driver to start processing, otherwise it may wait until the command buffer fills up, causing the app to miss frames. + * + * OpenGL dirty state: + * glBindTexture + * + * Return codes: + * - IsNotSceneApplication (make sure to call VR_Init with VRApplicaiton_Scene) + * - DoNotHaveFocus (some other app has taken focus) + * - TextureIsOnWrongDevice (application did not use proper AdapterIndex - see IVRSystem.GetDXGIOutputInfo) + * - SharedTexturesNotSupported (application needs to call CreateDXGIFactory1 or later before creating DX device) + * - TextureUsesUnsupportedFormat (scene textures must be compatible with DXGI sharing rules - e.g. uncompressed, no mips, etc.) + * - InvalidTexture (usually means bad arguments passed in) + * - AlreadySubmitted (app has submitted two left textures or two right textures in a single frame - i.e. before calling WaitGetPoses again) + */ + virtual EVRCompositorError Submit( EVREye eEye, const Texture_t *pTexture, const VRTextureBounds_t* pBounds = 0, EVRSubmitFlags nSubmitFlags = Submit_Default ) = 0; + + /** Clears the frame that was sent with the last call to Submit. This will cause the + * compositor to show the grid until Submit is called again. */ + virtual void ClearLastSubmittedFrame() = 0; + + /** Call immediately after presenting your app's window (i.e. companion window) to unblock the compositor. + * This is an optional call, which only needs to be used if you can't instead call WaitGetPoses immediately after Present. + * For example, if your engine's render and game loop are not on separate threads, or blocking the render thread until 3ms before the next vsync would + * introduce a deadlock of some sort. This function tells the compositor that you have finished all rendering after having Submitted buffers for both + * eyes, and it is free to start its rendering work. This should only be called from the same thread you are rendering on. */ + virtual void PostPresentHandoff() = 0; + + /** Returns true if timing data is filled it. Sets oldest timing info if nFramesAgo is larger than the stored history. + * Be sure to set timing.size = sizeof(Compositor_FrameTiming) on struct passed in before calling this function. */ + virtual bool GetFrameTiming( Compositor_FrameTiming *pTiming, uint32_t unFramesAgo = 0 ) = 0; + + /** Interface for copying a range of timing data. Frames are returned in ascending order (oldest to newest) with the last being the most recent frame. + * Only the first entry's m_nSize needs to be set, as the rest will be inferred from that. Returns total number of entries filled out. */ + virtual uint32_t GetFrameTimings( VR_ARRAY_COUNT( nFrames ) Compositor_FrameTiming *pTiming, uint32_t nFrames ) = 0; + + /** Returns the time in seconds left in the current (as identified by FrameTiming's frameIndex) frame. + * Due to "running start", this value may roll over to the next frame before ever reaching 0.0. */ + virtual float GetFrameTimeRemaining() = 0; + + /** Fills out stats accumulated for the last connected application. Pass in sizeof( Compositor_CumulativeStats ) as second parameter. */ + virtual void GetCumulativeStats( Compositor_CumulativeStats *pStats, uint32_t nStatsSizeInBytes ) = 0; + + /** Fades the view on the HMD to the specified color. The fade will take fSeconds, and the color values are between + * 0.0 and 1.0. This color is faded on top of the scene based on the alpha parameter. Removing the fade color instantly + * would be FadeToColor( 0.0, 0.0, 0.0, 0.0, 0.0 ). Values are in un-premultiplied alpha space. */ + virtual void FadeToColor( float fSeconds, float fRed, float fGreen, float fBlue, float fAlpha, bool bBackground = false ) = 0; + + /** Get current fade color value. */ + virtual HmdColor_t GetCurrentFadeColor( bool bBackground = false ) = 0; + + /** Fading the Grid in or out in fSeconds */ + virtual void FadeGrid( float fSeconds, bool bFadeIn ) = 0; + + /** Get current alpha value of grid. */ + virtual float GetCurrentGridAlpha() = 0; + + /** Override the skybox used in the compositor (e.g. for during level loads when the app can't feed scene images fast enough) + * Order is Front, Back, Left, Right, Top, Bottom. If only a single texture is passed, it is assumed in lat-long format. + * If two are passed, it is assumed a lat-long stereo pair. */ + virtual EVRCompositorError SetSkyboxOverride( VR_ARRAY_COUNT( unTextureCount ) const Texture_t *pTextures, uint32_t unTextureCount ) = 0; + + /** Resets compositor skybox back to defaults. */ + virtual void ClearSkyboxOverride() = 0; + + /** Brings the compositor window to the front. This is useful for covering any other window that may be on the HMD + * and is obscuring the compositor window. */ + virtual void CompositorBringToFront() = 0; + + /** Pushes the compositor window to the back. This is useful for allowing other applications to draw directly to the HMD. */ + virtual void CompositorGoToBack() = 0; + + /** Tells the compositor process to clean up and exit. You do not need to call this function at shutdown. Under normal + * circumstances the compositor will manage its own life cycle based on what applications are running. */ + virtual void CompositorQuit() = 0; + + /** Return whether the compositor is fullscreen */ + virtual bool IsFullscreen() = 0; + + /** Returns the process ID of the process that is currently rendering the scene */ + virtual uint32_t GetCurrentSceneFocusProcess() = 0; + + /** Returns the process ID of the process that rendered the last frame (or 0 if the compositor itself rendered the frame.) + * Returns 0 when fading out from an app and the app's process Id when fading into an app. */ + virtual uint32_t GetLastFrameRenderer() = 0; + + /** Returns true if the current process has the scene focus */ + virtual bool CanRenderScene() = 0; + + /** DEPRECATED: Opens the headset view (as either a window or docked widget depending on user's preferences) that displays what the user + * sees in the headset. */ + virtual void ShowMirrorWindow() = 0; + + /** DEPRECATED: Closes the headset view, either as a window or docked widget. */ + virtual void HideMirrorWindow() = 0; + + /** DEPRECATED: Returns true if the headset view (either as a window or docked widget) is shown. */ + virtual bool IsMirrorWindowVisible() = 0; + + /** Writes back buffer and stereo left/right pair from the application to a 'screenshots' folder in the SteamVR runtime root. */ + virtual void CompositorDumpImages() = 0; + + /** Let an app know it should be rendering with low resources. */ + virtual bool ShouldAppRenderWithLowResources() = 0; + + /** Override interleaved reprojection logic to force on. */ + virtual void ForceInterleavedReprojectionOn( bool bOverride ) = 0; + + /** Force reconnecting to the compositor process. */ + virtual void ForceReconnectProcess() = 0; + + /** Temporarily suspends rendering (useful for finer control over scene transitions). */ + virtual void SuspendRendering( bool bSuspend ) = 0; + + /** Opens a shared D3D11 texture with the undistorted composited image for each eye. Use ReleaseMirrorTextureD3D11 when finished + * instead of calling Release on the resource itself. */ + virtual vr::EVRCompositorError GetMirrorTextureD3D11( vr::EVREye eEye, void *pD3D11DeviceOrResource, void **ppD3D11ShaderResourceView ) = 0; + virtual void ReleaseMirrorTextureD3D11( void *pD3D11ShaderResourceView ) = 0; + + /** Access to mirror textures from OpenGL. */ + virtual vr::EVRCompositorError GetMirrorTextureGL( vr::EVREye eEye, vr::glUInt_t *pglTextureId, vr::glSharedTextureHandle_t *pglSharedTextureHandle ) = 0; + virtual bool ReleaseSharedGLTexture( vr::glUInt_t glTextureId, vr::glSharedTextureHandle_t glSharedTextureHandle ) = 0; + virtual void LockGLSharedTextureForAccess( vr::glSharedTextureHandle_t glSharedTextureHandle ) = 0; + virtual void UnlockGLSharedTextureForAccess( vr::glSharedTextureHandle_t glSharedTextureHandle ) = 0; + + /** [Vulkan Only] + * return 0. Otherwise it returns the length of the number of bytes necessary to hold this string including the trailing + * null. The string will be a space separated list of-required instance extensions to enable in VkCreateInstance */ + virtual uint32_t GetVulkanInstanceExtensionsRequired( VR_OUT_STRING() char *pchValue, uint32_t unBufferSize ) = 0; + + /** [Vulkan only] + * return 0. Otherwise it returns the length of the number of bytes necessary to hold this string including the trailing + * null. The string will be a space separated list of required device extensions to enable in VkCreateDevice */ + virtual uint32_t GetVulkanDeviceExtensionsRequired( VkPhysicalDevice_T *pPhysicalDevice, VR_OUT_STRING() char *pchValue, uint32_t unBufferSize ) = 0; + + /** [ Vulkan/D3D12 Only ] + * There are two purposes for SetExplicitTimingMode: + * 1. To get a more accurate GPU timestamp for when the frame begins in Vulkan/D3D12 applications. + * 2. (Optional) To avoid having WaitGetPoses access the Vulkan queue so that the queue can be accessed from + * another thread while WaitGetPoses is executing. + * + * More accurate GPU timestamp for the start of the frame is achieved by the application calling + * SubmitExplicitTimingData immediately before its first submission to the Vulkan/D3D12 queue. + * This is more accurate because normally this GPU timestamp is recorded during WaitGetPoses. In D3D11, + * WaitGetPoses queues a GPU timestamp write, but it does not actually get submitted to the GPU until the + * application flushes. By using SubmitExplicitTimingData, the timestamp is recorded at the same place for + * Vulkan/D3D12 as it is for D3D11, resulting in a more accurate GPU time measurement for the frame. + * + * Avoiding WaitGetPoses accessing the Vulkan queue can be achieved using SetExplicitTimingMode as well. If this is desired, + * the application should set the timing mode to Explicit_ApplicationPerformsPostPresentHandoff and *MUST* call PostPresentHandoff + * itself. If these conditions are met, then WaitGetPoses is guaranteed not to access the queue. Note that PostPresentHandoff + * and SubmitExplicitTimingData will access the queue, so only WaitGetPoses becomes safe for accessing the queue from another + * thread. */ + virtual void SetExplicitTimingMode( EVRCompositorTimingMode eTimingMode ) = 0; + + /** [ Vulkan/D3D12 Only ] + * Submit explicit timing data. When SetExplicitTimingMode is true, this must be called immediately before + * the application's first vkQueueSubmit (Vulkan) or ID3D12CommandQueue::ExecuteCommandLists (D3D12) of each frame. + * This function will insert a GPU timestamp write just before the application starts its rendering. This function + * will perform a vkQueueSubmit on Vulkan so must not be done simultaneously with VkQueue operations on another thread. + * Returns VRCompositorError_RequestFailed if SetExplicitTimingMode is not enabled. */ + virtual EVRCompositorError SubmitExplicitTimingData() = 0; + + /** Indicates whether or not motion smoothing is enabled by the user settings. + * If you want to know if motion smoothing actually triggered due to a late frame, check Compositor_FrameTiming + * m_nReprojectionFlags & VRCompositor_ReprojectionMotion instead. */ + virtual bool IsMotionSmoothingEnabled() = 0; + + /** Indicates whether or not motion smoothing is supported by the current hardware. */ + virtual bool IsMotionSmoothingSupported() = 0; + + /** Indicates whether or not the current scene focus app is currently loading. This is inferred from its use of FadeGrid to + * explicitly fade to the compositor to cover up the fact that it cannot render at a sustained full framerate during this time. */ + virtual bool IsCurrentSceneFocusAppLoading() = 0; + + /** Override the stage model used in the compositor to replace the grid. RenderModelPath is a full path the an OBJ file to load. + * This file will be loaded asynchronously from disk and uploaded to the gpu by the runtime. Once ready for rendering, the + * VREvent StageOverrideReady will be sent. Use FadeToGrid to reveal. Call ClearStageOverride to free the associated resources when finished. */ + virtual EVRCompositorError SetStageOverride_Async( const char *pchRenderModelPath, const HmdMatrix34_t *pTransform = 0, + const Compositor_StageRenderSettings *pRenderSettings = 0, uint32_t nSizeOfRenderSettings = 0 ) = 0; + + /** Resets the stage to its default user specified setting. */ + virtual void ClearStageOverride() = 0; + + /** Returns true if pBenchmarkResults is filled it. Sets pBenchmarkResults with the result of the compositor benchmark. + * nSizeOfBenchmarkResults should be set to sizeof(Compositor_BenchmarkResults) */ + virtual bool GetCompositorBenchmarkResults( Compositor_BenchmarkResults *pBenchmarkResults, uint32_t nSizeOfBenchmarkResults ) = 0; + + /** Returns the frame id associated with the poses last returned by WaitGetPoses. Deltas between IDs correspond to number of headset vsync intervals. */ + virtual EVRCompositorError GetLastPosePredictionIDs( uint32_t *pRenderPosePredictionID, uint32_t *pGamePosePredictionID ) = 0; + + /** Get the most up-to-date predicted (or recorded - up to 100ms old) set of poses for a given frame id. */ + virtual EVRCompositorError GetPosesForFrame( uint32_t unPosePredictionID, VR_ARRAY_COUNT( unPoseArrayCount ) TrackedDevicePose_t* pPoseArray, uint32_t unPoseArrayCount ) = 0; +}; + +static const char * const IVRCompositor_Version = "IVRCompositor_026"; + +} // namespace vr + + + +// ivrheadsetview.h +namespace vr +{ + enum HeadsetViewMode_t + { + HeadsetViewMode_Left = 0, + HeadsetViewMode_Right, + HeadsetViewMode_Both + }; + + class IVRHeadsetView + { + public: + /** Sets the resolution in pixels to render the headset view. These values are clamped to k_unHeadsetViewMaxWidth + * and k_unHeadsetViewMaxHeight respectively. For cropped views, the rendered output will be fit to aspect ratio + * defined by the the specified dimensions. For uncropped views, the caller should use GetHeadsetViewAspectRation + * to adjust the requested render size to avoid squashing or stretching, and then apply letterboxing to compensate + * when displaying the results. */ + virtual void SetHeadsetViewSize( uint32_t nWidth, uint32_t nHeight ) = 0; + + /** Gets the current resolution used to render the headset view. */ + virtual void GetHeadsetViewSize( uint32_t *pnWidth, uint32_t *pnHeight ) = 0; + + /** Set the mode used to render the headset view. */ + virtual void SetHeadsetViewMode( HeadsetViewMode_t eHeadsetViewMode ) = 0; + + /** Get the current mode used to render the headset view. */ + virtual HeadsetViewMode_t GetHeadsetViewMode() = 0; + + /** Set whether or not the headset view should be rendered cropped to hide the hidden area mesh or not. */ + virtual void SetHeadsetViewCropped( bool bCropped ) = 0; + + /** Get the current cropping status of the headset view. */ + virtual bool GetHeadsetViewCropped() = 0; + + /** Get the aspect ratio (width:height) of the uncropped headset view (accounting for the current set mode). */ + virtual float GetHeadsetViewAspectRatio() = 0; + + /** Set the range [0..1] that the headset view blends across the stereo overlapped area in cropped both mode. */ + virtual void SetHeadsetViewBlendRange( float flStartPct, float flEndPct ) = 0; + + /** Get the current range [0..1] that the headset view blends across the stereo overlapped area in cropped both mode. */ + virtual void GetHeadsetViewBlendRange( float *pStartPct, float *pEndPct ) = 0; + }; + + static const uint32_t k_unHeadsetViewMaxWidth = 3840; + static const uint32_t k_unHeadsetViewMaxHeight = 2160; + static const char * const k_pchHeadsetViewOverlayKey = "system.HeadsetView"; + + static const char * const IVRHeadsetView_Version = "IVRHeadsetView_001"; + + /** Returns the current IVRHeadsetView pointer or NULL the interface could not be found. */ + VR_INTERFACE vr::IVRHeadsetView *VR_CALLTYPE VRHeadsetView(); + +} // namespace vr + + +// ivrnotifications.h +namespace vr +{ + +#pragma pack( push, 8 ) + +// Used for passing graphic data +struct NotificationBitmap_t +{ + NotificationBitmap_t() + : m_pImageData( nullptr ) + , m_nWidth( 0 ) + , m_nHeight( 0 ) + , m_nBytesPerPixel( 0 ) + { + } + + void *m_pImageData; + int32_t m_nWidth; + int32_t m_nHeight; + int32_t m_nBytesPerPixel; +}; + + +/** Be aware that the notification type is used as 'priority' to pick the next notification */ +enum EVRNotificationType +{ + /** Transient notifications are automatically hidden after a period of time set by the user. + * They are used for things like information and chat messages that do not require user interaction. */ + EVRNotificationType_Transient = 0, + + /** Persistent notifications are shown to the user until they are hidden by calling RemoveNotification(). + * They are used for things like phone calls and alarms that require user interaction. */ + EVRNotificationType_Persistent = 1, + + /** System notifications are shown no matter what. It is expected, that the ulUserValue is used as ID. + * If there is already a system notification in the queue with that ID it is not accepted into the queue + * to prevent spamming with system notification */ + EVRNotificationType_Transient_SystemWithUserValue = 2, +}; + +enum EVRNotificationStyle +{ + /** Creates a notification with minimal external styling. */ + EVRNotificationStyle_None = 0, + + /** Used for notifications about overlay-level status. In Steam this is used for events like downloads completing. */ + EVRNotificationStyle_Application = 100, + + /** Used for notifications about contacts that are unknown or not available. In Steam this is used for friend invitations and offline friends. */ + EVRNotificationStyle_Contact_Disabled = 200, + + /** Used for notifications about contacts that are available but inactive. In Steam this is used for friends that are online but not playing a game. */ + EVRNotificationStyle_Contact_Enabled = 201, + + /** Used for notifications about contacts that are available and active. In Steam this is used for friends that are online and currently running a game. */ + EVRNotificationStyle_Contact_Active = 202, +}; + +static const uint32_t k_unNotificationTextMaxSize = 256; + +typedef uint32_t VRNotificationId; + + + +#pragma pack( pop ) + +/** Allows notification sources to interact with the VR system + This current interface is not yet implemented. Do not use yet. */ +class IVRNotifications +{ +public: + /** Create a notification and enqueue it to be shown to the user. + * An overlay handle is required to create a notification, as otherwise it would be impossible for a user to act on it. + * To create a two-line notification, use a line break ('\n') to split the text into two lines. + * The pImage argument may be NULL, in which case the specified overlay's icon will be used instead. */ + virtual EVRNotificationError CreateNotification( VROverlayHandle_t ulOverlayHandle, uint64_t ulUserValue, EVRNotificationType type, const char *pchText, EVRNotificationStyle style, const NotificationBitmap_t *pImage, /* out */ VRNotificationId *pNotificationId ) = 0; + + /** Destroy a notification, hiding it first if it currently shown to the user. */ + virtual EVRNotificationError RemoveNotification( VRNotificationId notificationId ) = 0; + +}; + +static const char * const IVRNotifications_Version = "IVRNotifications_002"; + +} // namespace vr + + + +// ivroverlay.h +namespace vr +{ + + /** The maximum length of an overlay key in bytes, counting the terminating null character. */ + static const uint32_t k_unVROverlayMaxKeyLength = 128; + + /** The maximum length of an overlay name in bytes, counting the terminating null character. */ + static const uint32_t k_unVROverlayMaxNameLength = 128; + + /** The maximum number of overlays that can exist in the system at one time. */ + static const uint32_t k_unMaxOverlayCount = 128; + + /** The maximum number of overlay intersection mask primitives per overlay */ + static const uint32_t k_unMaxOverlayIntersectionMaskPrimitivesCount = 32; + + /** Types of input supported by VR Overlays */ + enum VROverlayInputMethod + { + VROverlayInputMethod_None = 0, // No input events will be generated automatically for this overlay + VROverlayInputMethod_Mouse = 1, // Tracked controllers will get mouse events automatically + // VROverlayInputMethod_DualAnalog = 2, // No longer supported + }; + + /** Allows the caller to figure out which overlay transform getter to call. */ + enum VROverlayTransformType + { + VROverlayTransform_Invalid = -1, + VROverlayTransform_Absolute = 0, + VROverlayTransform_TrackedDeviceRelative = 1, + VROverlayTransform_SystemOverlay = 2, + VROverlayTransform_TrackedComponent = 3, + VROverlayTransform_Cursor = 4, + VROverlayTransform_DashboardTab = 5, + VROverlayTransform_DashboardThumb = 6, + VROverlayTransform_Mountable = 7, + }; + + /** Overlay control settings */ + enum VROverlayFlags + { + // Set this flag on a dashboard overlay to prevent a tab from showing up for that overlay + VROverlayFlags_NoDashboardTab = 1 << 3, + + // When this is set the overlay will receive VREvent_ScrollDiscrete events like a mouse wheel. + // Requires mouse input mode. + VROverlayFlags_SendVRDiscreteScrollEvents = 1 << 6, + + // Indicates that the overlay would like to receive + VROverlayFlags_SendVRTouchpadEvents = 1 << 7, + + // If set this will render a vertical scroll wheel on the primary controller, + // only needed if not using VROverlayFlags_SendVRScrollEvents but you still want to represent a scroll wheel + VROverlayFlags_ShowTouchPadScrollWheel = 1 << 8, + + // If this is set ownership and render access to the overlay are transferred + // to the new scene process on a call to IVRApplications::LaunchInternalProcess + VROverlayFlags_TransferOwnershipToInternalProcess = 1 << 9, + + // If set, renders 50% of the texture in each eye, side by side + VROverlayFlags_SideBySide_Parallel = 1 << 10, // Texture is left/right + VROverlayFlags_SideBySide_Crossed = 1 << 11, // Texture is crossed and right/left + + VROverlayFlags_Panorama = 1 << 12, // Texture is a panorama + VROverlayFlags_StereoPanorama = 1 << 13, // Texture is a stereo panorama + + // If this is set on an overlay owned by the scene application that overlay + // will be sorted with the "Other" overlays on top of all other scene overlays + VROverlayFlags_SortWithNonSceneOverlays = 1 << 14, + + // If set, the overlay will be shown in the dashboard, otherwise it will be hidden. + VROverlayFlags_VisibleInDashboard = 1 << 15, + + // If this is set and the overlay's input method is not none, the system-wide laser mouse + // mode will be activated whenever this overlay is visible. + VROverlayFlags_MakeOverlaysInteractiveIfVisible = 1 << 16, + + // If this is set the overlay will receive smooth VREvent_ScrollSmooth that emulate trackpad scrolling. + // Requires mouse input mode. + VROverlayFlags_SendVRSmoothScrollEvents = 1 << 17, + + // If this is set, the overlay texture will be protected content, preventing unauthorized reads. + VROverlayFlags_ProtectedContent = 1 << 18, + + // If this is set, the laser mouse splat will not be drawn over this overlay. The overlay will + // be responsible for drawing its own "cursor". + VROverlayFlags_HideLaserIntersection = 1 << 19, + + // If this is set, clicking away from the overlay will cause it to receive a VREvent_Modal_Cancel event. + // This is ignored for dashboard overlays. + VROverlayFlags_WantsModalBehavior = 1 << 20, + + // If this is set, alpha composition assumes the texture is pre-multiplied + VROverlayFlags_IsPremultiplied = 1 << 21, + }; + + enum VRMessageOverlayResponse + { + VRMessageOverlayResponse_ButtonPress_0 = 0, + VRMessageOverlayResponse_ButtonPress_1 = 1, + VRMessageOverlayResponse_ButtonPress_2 = 2, + VRMessageOverlayResponse_ButtonPress_3 = 3, + VRMessageOverlayResponse_CouldntFindSystemOverlay = 4, + VRMessageOverlayResponse_CouldntFindOrCreateClientOverlay= 5, + VRMessageOverlayResponse_ApplicationQuit = 6 + }; + + struct VROverlayIntersectionParams_t + { + HmdVector3_t vSource; + HmdVector3_t vDirection; + ETrackingUniverseOrigin eOrigin; + }; + + struct VROverlayIntersectionResults_t + { + HmdVector3_t vPoint; + HmdVector3_t vNormal; + HmdVector2_t vUVs; + float fDistance; + }; + + // Input modes for the Big Picture gamepad text entry + enum EGamepadTextInputMode + { + k_EGamepadTextInputModeNormal = 0, + k_EGamepadTextInputModePassword = 1, + k_EGamepadTextInputModeSubmit = 2, + }; + + // Controls number of allowed lines for the Big Picture gamepad text entry + enum EGamepadTextInputLineMode + { + k_EGamepadTextInputLineModeSingleLine = 0, + k_EGamepadTextInputLineModeMultipleLines = 1 + }; + + enum EVROverlayIntersectionMaskPrimitiveType + { + OverlayIntersectionPrimitiveType_Rectangle, + OverlayIntersectionPrimitiveType_Circle, + }; + + struct IntersectionMaskRectangle_t + { + float m_flTopLeftX; + float m_flTopLeftY; + float m_flWidth; + float m_flHeight; + }; + + struct IntersectionMaskCircle_t + { + float m_flCenterX; + float m_flCenterY; + float m_flRadius; + }; + + /** NOTE!!! If you change this you MUST manually update openvr_interop.cs.py and openvr_api_flat.h.py */ + typedef union + { + IntersectionMaskRectangle_t m_Rectangle; + IntersectionMaskCircle_t m_Circle; + } VROverlayIntersectionMaskPrimitive_Data_t; + + struct VROverlayIntersectionMaskPrimitive_t + { + EVROverlayIntersectionMaskPrimitiveType m_nPrimitiveType; + VROverlayIntersectionMaskPrimitive_Data_t m_Primitive; + }; + + enum EKeyboardFlags + { + KeyboardFlag_Minimal = 1 << 0, // makes the keyboard send key events immediately instead of accumulating a buffer + KeyboardFlag_Modal = 2 << 0, // makes the keyboard take all focus and dismiss when clicking off the panel + }; + + + class IVROverlay + { + public: + + // --------------------------------------------- + // Overlay management methods + // --------------------------------------------- + + /** Finds an existing overlay with the specified key. */ + virtual EVROverlayError FindOverlay( const char *pchOverlayKey, VROverlayHandle_t * pOverlayHandle ) = 0; + + /** Creates a new named overlay. All overlays start hidden and with default settings. */ + virtual EVROverlayError CreateOverlay( const char *pchOverlayKey, const char *pchOverlayName, VROverlayHandle_t * pOverlayHandle ) = 0; + + /** Destroys the specified overlay. When an application calls VR_Shutdown all overlays created by that app are + * automatically destroyed. */ + virtual EVROverlayError DestroyOverlay( VROverlayHandle_t ulOverlayHandle ) = 0; + + /** Fills the provided buffer with the string key of the overlay. Returns the size of buffer required to store the key, including + * the terminating null character. k_unVROverlayMaxKeyLength will be enough bytes to fit the string. */ + virtual uint32_t GetOverlayKey( VROverlayHandle_t ulOverlayHandle, VR_OUT_STRING() char *pchValue, uint32_t unBufferSize, EVROverlayError *pError = 0L ) = 0; + + /** Fills the provided buffer with the friendly name of the overlay. Returns the size of buffer required to store the key, including + * the terminating null character. k_unVROverlayMaxNameLength will be enough bytes to fit the string. */ + virtual uint32_t GetOverlayName( VROverlayHandle_t ulOverlayHandle, VR_OUT_STRING() char *pchValue, uint32_t unBufferSize, EVROverlayError *pError = 0L ) = 0; + + /** set the name to use for this overlay */ + virtual EVROverlayError SetOverlayName( VROverlayHandle_t ulOverlayHandle, const char *pchName ) = 0; + + /** Gets the raw image data from an overlay. Overlay image data is always returned as RGBA data, 4 bytes per pixel. If the buffer is not large enough, width and height + * will be set and VROverlayError_ArrayTooSmall is returned. */ + virtual EVROverlayError GetOverlayImageData( VROverlayHandle_t ulOverlayHandle, void *pvBuffer, uint32_t unBufferSize, uint32_t *punWidth, uint32_t *punHeight ) = 0; + + /** returns a string that corresponds with the specified overlay error. The string will be the name + * of the error enum value for all valid error codes */ + virtual const char *GetOverlayErrorNameFromEnum( EVROverlayError error ) = 0; + + // --------------------------------------------- + // Overlay rendering methods + // --------------------------------------------- + + /** Sets the pid that is allowed to render to this overlay (the creator pid is always allow to render), + * by default this is the pid of the process that made the overlay */ + virtual EVROverlayError SetOverlayRenderingPid( VROverlayHandle_t ulOverlayHandle, uint32_t unPID ) = 0; + + /** Gets the pid that is allowed to render to this overlay */ + virtual uint32_t GetOverlayRenderingPid( VROverlayHandle_t ulOverlayHandle ) = 0; + + /** Specify flag setting for a given overlay */ + virtual EVROverlayError SetOverlayFlag( VROverlayHandle_t ulOverlayHandle, VROverlayFlags eOverlayFlag, bool bEnabled ) = 0; + + /** Sets flag setting for a given overlay */ + virtual EVROverlayError GetOverlayFlag( VROverlayHandle_t ulOverlayHandle, VROverlayFlags eOverlayFlag, bool *pbEnabled ) = 0; + + /** Gets all the flags for a given overlay */ + virtual EVROverlayError GetOverlayFlags( VROverlayHandle_t ulOverlayHandle, uint32_t *pFlags ) = 0; + + /** Sets the color tint of the overlay quad. Use 0.0 to 1.0 per channel. */ + virtual EVROverlayError SetOverlayColor( VROverlayHandle_t ulOverlayHandle, float fRed, float fGreen, float fBlue ) = 0; + + /** Gets the color tint of the overlay quad. */ + virtual EVROverlayError GetOverlayColor( VROverlayHandle_t ulOverlayHandle, float *pfRed, float *pfGreen, float *pfBlue ) = 0; + + /** Sets the alpha of the overlay quad. Use 1.0 for 100 percent opacity to 0.0 for 0 percent opacity. */ + virtual EVROverlayError SetOverlayAlpha( VROverlayHandle_t ulOverlayHandle, float fAlpha ) = 0; + + /** Gets the alpha of the overlay quad. By default overlays are rendering at 100 percent alpha (1.0). */ + virtual EVROverlayError GetOverlayAlpha( VROverlayHandle_t ulOverlayHandle, float *pfAlpha ) = 0; + + /** Sets the aspect ratio of the texels in the overlay. 1.0 means the texels are square. 2.0 means the texels + * are twice as wide as they are tall. Defaults to 1.0. */ + virtual EVROverlayError SetOverlayTexelAspect( VROverlayHandle_t ulOverlayHandle, float fTexelAspect ) = 0; + + /** Gets the aspect ratio of the texels in the overlay. Defaults to 1.0 */ + virtual EVROverlayError GetOverlayTexelAspect( VROverlayHandle_t ulOverlayHandle, float *pfTexelAspect ) = 0; + + /** Sets the rendering sort order for the overlay. Overlays are rendered this order: + * Overlays owned by the scene application + * Overlays owned by some other application + * + * Within a category overlays are rendered lowest sort order to highest sort order. Overlays with the same + * sort order are rendered back to front base on distance from the HMD. + * + * Sort order defaults to 0. */ + virtual EVROverlayError SetOverlaySortOrder( VROverlayHandle_t ulOverlayHandle, uint32_t unSortOrder ) = 0; + + /** Gets the sort order of the overlay. See SetOverlaySortOrder for how this works. */ + virtual EVROverlayError GetOverlaySortOrder( VROverlayHandle_t ulOverlayHandle, uint32_t *punSortOrder ) = 0; + + /** Sets the width of the overlay quad in meters. By default overlays are rendered on a quad that is 1 meter across */ + virtual EVROverlayError SetOverlayWidthInMeters( VROverlayHandle_t ulOverlayHandle, float fWidthInMeters ) = 0; + + /** Returns the width of the overlay quad in meters. By default overlays are rendered on a quad that is 1 meter across */ + virtual EVROverlayError GetOverlayWidthInMeters( VROverlayHandle_t ulOverlayHandle, float *pfWidthInMeters ) = 0; + + /** Use to draw overlay as a curved surface. Curvature is a percentage from (0..1] where 1 is a fully closed cylinder. + * For a specific radius, curvature can be computed as: overlay.width / (2 PI r). */ + virtual EVROverlayError SetOverlayCurvature( VROverlayHandle_t ulOverlayHandle, float fCurvature ) = 0; + + /** Returns the curvature of the overlay as a percentage from (0..1] where 1 is a fully closed cylinder. */ + virtual EVROverlayError GetOverlayCurvature( VROverlayHandle_t ulOverlayHandle, float *pfCurvature ) = 0; + + /** Sets the colorspace the overlay texture's data is in. Defaults to 'auto'. + * If the texture needs to be resolved, you should call SetOverlayTexture with the appropriate colorspace instead. */ + virtual EVROverlayError SetOverlayTextureColorSpace( VROverlayHandle_t ulOverlayHandle, EColorSpace eTextureColorSpace ) = 0; + + /** Gets the overlay's current colorspace setting. */ + virtual EVROverlayError GetOverlayTextureColorSpace( VROverlayHandle_t ulOverlayHandle, EColorSpace *peTextureColorSpace ) = 0; + + /** Sets the part of the texture to use for the overlay. UV Min is the upper left corner and UV Max is the lower right corner. */ + virtual EVROverlayError SetOverlayTextureBounds( VROverlayHandle_t ulOverlayHandle, const VRTextureBounds_t *pOverlayTextureBounds ) = 0; + + /** Gets the part of the texture to use for the overlay. UV Min is the upper left corner and UV Max is the lower right corner. */ + virtual EVROverlayError GetOverlayTextureBounds( VROverlayHandle_t ulOverlayHandle, VRTextureBounds_t *pOverlayTextureBounds ) = 0; + + /** Returns the transform type of this overlay. */ + virtual EVROverlayError GetOverlayTransformType( VROverlayHandle_t ulOverlayHandle, VROverlayTransformType *peTransformType ) = 0; + + /** Sets the transform to absolute tracking origin. */ + virtual EVROverlayError SetOverlayTransformAbsolute( VROverlayHandle_t ulOverlayHandle, ETrackingUniverseOrigin eTrackingOrigin, const HmdMatrix34_t *pmatTrackingOriginToOverlayTransform ) = 0; + + /** Gets the transform if it is absolute. Returns an error if the transform is some other type. */ + virtual EVROverlayError GetOverlayTransformAbsolute( VROverlayHandle_t ulOverlayHandle, ETrackingUniverseOrigin *peTrackingOrigin, HmdMatrix34_t *pmatTrackingOriginToOverlayTransform ) = 0; + + /** Sets the transform to relative to the transform of the specified tracked device. */ + virtual EVROverlayError SetOverlayTransformTrackedDeviceRelative( VROverlayHandle_t ulOverlayHandle, TrackedDeviceIndex_t unTrackedDevice, const HmdMatrix34_t *pmatTrackedDeviceToOverlayTransform ) = 0; + + /** Gets the transform if it is relative to a tracked device. Returns an error if the transform is some other type. */ + virtual EVROverlayError GetOverlayTransformTrackedDeviceRelative( VROverlayHandle_t ulOverlayHandle, TrackedDeviceIndex_t *punTrackedDevice, HmdMatrix34_t *pmatTrackedDeviceToOverlayTransform ) = 0; + + /** Sets the transform to draw the overlay on a rendermodel component mesh instead of a quad. This will only draw when the system is + * drawing the device. Overlays with this transform type cannot receive mouse events. */ + virtual EVROverlayError SetOverlayTransformTrackedDeviceComponent( VROverlayHandle_t ulOverlayHandle, TrackedDeviceIndex_t unDeviceIndex, const char *pchComponentName ) = 0; + + /** Gets the transform information when the overlay is rendering on a component. */ + virtual EVROverlayError GetOverlayTransformTrackedDeviceComponent( VROverlayHandle_t ulOverlayHandle, TrackedDeviceIndex_t *punDeviceIndex, VR_OUT_STRING() char *pchComponentName, uint32_t unComponentNameSize ) = 0; + + /** Gets the transform if it is relative to another overlay. Returns an error if the transform is some other type. */ + virtual vr::EVROverlayError GetOverlayTransformOverlayRelative( VROverlayHandle_t ulOverlayHandle, VROverlayHandle_t *ulOverlayHandleParent, HmdMatrix34_t *pmatParentOverlayToOverlayTransform ) = 0; + + /** Sets the transform to relative to the transform of the specified overlay. This overlays visibility will also track the parents visibility */ + virtual vr::EVROverlayError SetOverlayTransformOverlayRelative( VROverlayHandle_t ulOverlayHandle, VROverlayHandle_t ulOverlayHandleParent, const HmdMatrix34_t *pmatParentOverlayToOverlayTransform ) = 0; + + /** Sets the hotspot for the specified overlay when that overlay is used as a cursor. These are in texture space with 0,0 in the upper left corner of + * the texture and 1,1 in the lower right corner of the texture. */ + virtual EVROverlayError SetOverlayTransformCursor( VROverlayHandle_t ulCursorOverlayHandle, const HmdVector2_t *pvHotspot ) = 0; + + /** Gets cursor hotspot/transform for the specified overlay */ + virtual vr::EVROverlayError GetOverlayTransformCursor( VROverlayHandle_t ulOverlayHandle, HmdVector2_t *pvHotspot ) = 0; + + /** Shows the VR overlay. For dashboard overlays, only the Dashboard Manager is allowed to call this. */ + virtual EVROverlayError ShowOverlay( VROverlayHandle_t ulOverlayHandle ) = 0; + + /** Hides the VR overlay. For dashboard overlays, only the Dashboard Manager is allowed to call this. */ + virtual EVROverlayError HideOverlay( VROverlayHandle_t ulOverlayHandle ) = 0; + + /** Returns true if the overlay is visible. */ + virtual bool IsOverlayVisible( VROverlayHandle_t ulOverlayHandle ) = 0; + + /** Get the transform in 3d space associated with a specific 2d point in the overlay's coordinate space (where 0,0 is the lower left). -Z points out of the overlay */ + virtual EVROverlayError GetTransformForOverlayCoordinates( VROverlayHandle_t ulOverlayHandle, ETrackingUniverseOrigin eTrackingOrigin, HmdVector2_t coordinatesInOverlay, HmdMatrix34_t *pmatTransform ) = 0; + + // --------------------------------------------- + // Overlay input methods + // --------------------------------------------- + + /** Returns true and fills the event with the next event on the overlay's event queue, if there is one. + * If there are no events this method returns false. uncbVREvent should be the size in bytes of the VREvent_t struct */ + virtual bool PollNextOverlayEvent( VROverlayHandle_t ulOverlayHandle, VREvent_t *pEvent, uint32_t uncbVREvent ) = 0; + + /** Returns the current input settings for the specified overlay. */ + virtual EVROverlayError GetOverlayInputMethod( VROverlayHandle_t ulOverlayHandle, VROverlayInputMethod *peInputMethod ) = 0; + + /** Sets the input settings for the specified overlay. */ + virtual EVROverlayError SetOverlayInputMethod( VROverlayHandle_t ulOverlayHandle, VROverlayInputMethod eInputMethod ) = 0; + + /** Gets the mouse scaling factor that is used for mouse events. The actual texture may be a different size, but this is + * typically the size of the underlying UI in pixels. */ + virtual EVROverlayError GetOverlayMouseScale( VROverlayHandle_t ulOverlayHandle, HmdVector2_t *pvecMouseScale ) = 0; + + /** Sets the mouse scaling factor that is used for mouse events. The actual texture may be a different size, but this is + * typically the size of the underlying UI in pixels (not in world space). */ + virtual EVROverlayError SetOverlayMouseScale( VROverlayHandle_t ulOverlayHandle, const HmdVector2_t *pvecMouseScale ) = 0; + + /** Computes the overlay-space pixel coordinates of where the ray intersects the overlay with the + * specified settings. Returns false if there is no intersection. */ + virtual bool ComputeOverlayIntersection( VROverlayHandle_t ulOverlayHandle, const VROverlayIntersectionParams_t *pParams, VROverlayIntersectionResults_t *pResults ) = 0; + + /** Returns true if the specified overlay is the hover target. An overlay is the hover target when it is the last overlay "moused over" + * by the virtual mouse pointer */ + virtual bool IsHoverTargetOverlay( VROverlayHandle_t ulOverlayHandle ) = 0; + + /** Sets a list of primitives to be used for controller ray intersection + * typically the size of the underlying UI in pixels (not in world space). */ + virtual EVROverlayError SetOverlayIntersectionMask( VROverlayHandle_t ulOverlayHandle, VROverlayIntersectionMaskPrimitive_t *pMaskPrimitives, uint32_t unNumMaskPrimitives, uint32_t unPrimitiveSize = sizeof( VROverlayIntersectionMaskPrimitive_t ) ) = 0; + + /** Triggers a haptic event on the laser mouse controller for the specified overlay */ + virtual EVROverlayError TriggerLaserMouseHapticVibration( VROverlayHandle_t ulOverlayHandle, float fDurationSeconds, float fFrequency, float fAmplitude ) = 0; + + /** Sets the cursor to use for the specified overlay. This will be drawn instead of the generic blob when the laser mouse is pointed at the specified overlay */ + virtual EVROverlayError SetOverlayCursor( VROverlayHandle_t ulOverlayHandle, VROverlayHandle_t ulCursorHandle ) = 0; + + /** Sets the override cursor position to use for this overlay in overlay mouse coordinates. This position will be used to draw the cursor + * instead of whatever the laser mouse cursor position is. */ + virtual EVROverlayError SetOverlayCursorPositionOverride( VROverlayHandle_t ulOverlayHandle, const HmdVector2_t *pvCursor ) = 0; + + /** Clears the override cursor position for this overlay */ + virtual EVROverlayError ClearOverlayCursorPositionOverride( VROverlayHandle_t ulOverlayHandle ) = 0; + + // --------------------------------------------- + // Overlay texture methods + // --------------------------------------------- + + /** Texture to draw for the overlay. This function can only be called by the overlay's creator or renderer process (see SetOverlayRenderingPid) . + * + * OpenGL dirty state: + * glBindTexture + */ + virtual EVROverlayError SetOverlayTexture( VROverlayHandle_t ulOverlayHandle, const Texture_t *pTexture ) = 0; + + /** Use this to tell the overlay system to release the texture set for this overlay. */ + virtual EVROverlayError ClearOverlayTexture( VROverlayHandle_t ulOverlayHandle ) = 0; + + /** Separate interface for providing the data as a stream of bytes, but there is an upper bound on data + * that can be sent. This function can only be called by the overlay's renderer process. */ + virtual EVROverlayError SetOverlayRaw( VROverlayHandle_t ulOverlayHandle, void *pvBuffer, uint32_t unWidth, uint32_t unHeight, uint32_t unBytesPerPixel ) = 0; + + /** Separate interface for providing the image through a filename: can be png or jpg, and should not be bigger than 1920x1080. + * This function can only be called by the overlay's renderer process */ + virtual EVROverlayError SetOverlayFromFile( VROverlayHandle_t ulOverlayHandle, const char *pchFilePath ) = 0; + + /** Get the native texture handle/device for an overlay you have created. + * On windows this handle will be a ID3D11ShaderResourceView with a ID3D11Texture2D bound. + * + * The texture will always be sized to match the backing texture you supplied in SetOverlayTexture above. + * + * You MUST call ReleaseNativeOverlayHandle() with pNativeTextureHandle once you are done with this texture. + * + * pNativeTextureHandle is an OUTPUT, it will be a pointer to a ID3D11ShaderResourceView *. + * pNativeTextureRef is an INPUT and should be a ID3D11Resource *. The device used by pNativeTextureRef will be used to bind pNativeTextureHandle. + */ + virtual EVROverlayError GetOverlayTexture( VROverlayHandle_t ulOverlayHandle, void **pNativeTextureHandle, void *pNativeTextureRef, uint32_t *pWidth, uint32_t *pHeight, uint32_t *pNativeFormat, ETextureType *pAPIType, EColorSpace *pColorSpace, VRTextureBounds_t *pTextureBounds ) = 0; + + /** Release the pNativeTextureHandle provided from the GetOverlayTexture call, this allows the system to free the underlying GPU resources for this object, + * so only do it once you stop rendering this texture. + */ + virtual EVROverlayError ReleaseNativeOverlayHandle( VROverlayHandle_t ulOverlayHandle, void *pNativeTextureHandle ) = 0; + + /** Get the size of the overlay texture */ + virtual EVROverlayError GetOverlayTextureSize( VROverlayHandle_t ulOverlayHandle, uint32_t *pWidth, uint32_t *pHeight ) = 0; + + // ---------------------------------------------- + // Dashboard Overlay Methods + // ---------------------------------------------- + + /** Creates a dashboard overlay and returns its handle */ + virtual EVROverlayError CreateDashboardOverlay( const char *pchOverlayKey, const char *pchOverlayFriendlyName, VROverlayHandle_t * pMainHandle, VROverlayHandle_t *pThumbnailHandle ) = 0; + + /** Returns true if the dashboard is visible */ + virtual bool IsDashboardVisible() = 0; + + /** returns true if the dashboard is visible and the specified overlay is the active system Overlay */ + virtual bool IsActiveDashboardOverlay( VROverlayHandle_t ulOverlayHandle ) = 0; + + /** Sets the dashboard overlay to only appear when the specified process ID has scene focus */ + virtual EVROverlayError SetDashboardOverlaySceneProcess( VROverlayHandle_t ulOverlayHandle, uint32_t unProcessId ) = 0; + + /** Gets the process ID that this dashboard overlay requires to have scene focus */ + virtual EVROverlayError GetDashboardOverlaySceneProcess( VROverlayHandle_t ulOverlayHandle, uint32_t *punProcessId ) = 0; + + /** Shows the dashboard. */ + virtual void ShowDashboard( const char *pchOverlayToShow ) = 0; + + /** Returns the tracked device that has the laser pointer in the dashboard */ + virtual vr::TrackedDeviceIndex_t GetPrimaryDashboardDevice() = 0; + + // --------------------------------------------- + // Keyboard methods + // --------------------------------------------- + + /** Show the virtual keyboard to accept input. In most cases, you should pass KeyboardFlag_Modal to enable modal overlay + * behavior on the keyboard itself. See EKeyboardFlags for more. */ + virtual EVROverlayError ShowKeyboard( EGamepadTextInputMode eInputMode, EGamepadTextInputLineMode eLineInputMode, uint32_t unFlags, + const char *pchDescription, uint32_t unCharMax, const char *pchExistingText, uint64_t uUserValue ) = 0; + + /** Show the virtual keyboard to accept input for an overlay. In most cases, you should pass KeyboardFlag_Modal to enable modal + * overlay behavior on the keyboard itself. See EKeyboardFlags for more. */ + virtual EVROverlayError ShowKeyboardForOverlay( VROverlayHandle_t ulOverlayHandle, EGamepadTextInputMode eInputMode, + EGamepadTextInputLineMode eLineInputMode, uint32_t unFlags, const char *pchDescription, uint32_t unCharMax, + const char *pchExistingText, uint64_t uUserValue ) = 0; + + /** Get the text that was entered into the text input **/ + virtual uint32_t GetKeyboardText( VR_OUT_STRING() char *pchText, uint32_t cchText ) = 0; + + /** Hide the virtual keyboard **/ + virtual void HideKeyboard() = 0; + + /** Set the position of the keyboard in world space **/ + virtual void SetKeyboardTransformAbsolute( ETrackingUniverseOrigin eTrackingOrigin, const HmdMatrix34_t *pmatTrackingOriginToKeyboardTransform ) = 0; + + /** Set the position of the keyboard in overlay space by telling it to avoid a rectangle in the overlay. Rectangle coords have (0,0) in the bottom left **/ + virtual void SetKeyboardPositionForOverlay( VROverlayHandle_t ulOverlayHandle, HmdRect2_t avoidRect ) = 0; + + // --------------------------------------------- + // Message box methods + // --------------------------------------------- + + /** Show the message overlay. This will block and return you a result. **/ + virtual VRMessageOverlayResponse ShowMessageOverlay( const char* pchText, const char* pchCaption, const char* pchButton0Text, const char* pchButton1Text = nullptr, const char* pchButton2Text = nullptr, const char* pchButton3Text = nullptr ) = 0; + + /** If the calling process owns the overlay and it's open, this will close it. **/ + virtual void CloseMessageOverlay() = 0; + }; + + static const char * const IVROverlay_Version = "IVROverlay_024"; + +} // namespace vr + +// ivroverlayview.h +namespace vr +{ + struct VROverlayView_t + { + VROverlayHandle_t overlayHandle; + Texture_t texture; + VRTextureBounds_t textureBounds; + }; + + enum EDeviceType + { + DeviceType_Invalid = -1, // Invalid handle + DeviceType_DirectX11 = 0, // Handle is an ID3D11Device + DeviceType_Vulkan = 1, // Handle is a pointer to a VRVulkanDevice_t structure + }; + + struct VRVulkanDevice_t + { + VkInstance_T *m_pInstance; + VkDevice_T *m_pDevice; + VkPhysicalDevice_T *m_pPhysicalDevice; + VkQueue_T *m_pQueue; + uint32_t m_uQueueFamilyIndex; + }; + + struct VRNativeDevice_t + { + void *handle; // See EDeviceType definition above + EDeviceType eType; + }; + + class IVROverlayView + { + public: + /** Acquire an OverlayView_t from an overlay handle + * + * The overlay view can be used to sample the contents directly by a native API. The + * contents of the OverlayView_t will remain unchanged through the lifetime of the + * OverlayView_t. + * + * The caller acquires read privileges over the OverlayView_t, but should not + * write to it. + * + * AcquireOverlayView() may be called on the same ulOverlayHandle multiple times to + * refresh the image contents. In this case the caller is strongly encouraged to re-use + * the same pOverlayView for all re-acquisition calls. + * + * If the producer has not yet queued an image, AcquireOverlayView will return success, + * and the Texture_t will have the expected ETextureType. However, the Texture_t->handle + * will be nullptr. Once the producer generates the first overlay frame, Texture_t->handle + * will become a valid handle. + */ + virtual EVROverlayError AcquireOverlayView(VROverlayHandle_t ulOverlayHandle, VRNativeDevice_t *pNativeDevice, VROverlayView_t *pOverlayView, uint32_t unOverlayViewSize ) = 0; + + /** Release an acquired OverlayView_t + * + * Denotes that pOverlayView will no longer require access to the resources it acquired in + * all previous calls to AcquireOverlayView(). + * + * All OverlayView_t*'s provided to AcquireOverlayView() as pOverlayViews must be + * passed into ReleaseOverlayView() in order for the underlying GPU resources to be freed. + */ + virtual EVROverlayError ReleaseOverlayView(VROverlayView_t *pOverlayView) = 0; + + /** Posts an overlay event */ + virtual void PostOverlayEvent(VROverlayHandle_t ulOverlayHandle, const VREvent_t *pvrEvent) = 0; + + /** Determines whether this process is permitted to view an overlay's content. */ + virtual bool IsViewingPermitted( VROverlayHandle_t ulOverlayHandle ) = 0; + + }; + + static const char * const IVROverlayView_Version = "IVROverlayView_003"; + +} + +// ivrrendermodels.h +namespace vr +{ + +static const char * const k_pch_Controller_Component_GDC2015 = "gdc2015"; // Canonical coordinate system of the gdc 2015 wired controller, provided for backwards compatibility +static const char * const k_pch_Controller_Component_Base = "base"; // For controllers with an unambiguous 'base'. +static const char * const k_pch_Controller_Component_Tip = "tip"; // For controllers with an unambiguous 'tip' (used for 'laser-pointing') +static const char * const k_pch_Controller_Component_HandGrip = "handgrip"; // Neutral, ambidextrous hand-pose when holding controller. On plane between neutrally posed index finger and thumb +static const char * const k_pch_Controller_Component_Status = "status"; // 1:1 aspect ratio status area, with canonical [0,1] uv mapping + +#pragma pack( push, 8 ) + +/** Errors that can occur with the VR compositor */ +enum EVRRenderModelError +{ + VRRenderModelError_None = 0, + VRRenderModelError_Loading = 100, + VRRenderModelError_NotSupported = 200, + VRRenderModelError_InvalidArg = 300, + VRRenderModelError_InvalidModel = 301, + VRRenderModelError_NoShapes = 302, + VRRenderModelError_MultipleShapes = 303, + VRRenderModelError_TooManyVertices = 304, + VRRenderModelError_MultipleTextures = 305, + VRRenderModelError_BufferTooSmall = 306, + VRRenderModelError_NotEnoughNormals = 307, + VRRenderModelError_NotEnoughTexCoords = 308, + + VRRenderModelError_InvalidTexture = 400, +}; + +enum EVRRenderModelTextureFormat +{ + VRRenderModelTextureFormat_RGBA8_SRGB = 0, // RGBA with 8 bits per channel per pixel. Data size is width * height * 4ub + VRRenderModelTextureFormat_BC2, + VRRenderModelTextureFormat_BC4, + VRRenderModelTextureFormat_BC7, + VRRenderModelTextureFormat_BC7_SRGB +}; + +/** A single vertex in a render model */ +struct RenderModel_Vertex_t +{ + HmdVector3_t vPosition; // position in meters in device space + HmdVector3_t vNormal; + float rfTextureCoord[2]; +}; + +/** A texture map for use on a render model */ +#if defined(__linux__) || defined(__APPLE__) +// This structure was originally defined mis-packed on Linux, preserved for +// compatibility. +#pragma pack( push, 4 ) +#endif + +struct RenderModel_TextureMap_t +{ + uint16_t unWidth, unHeight; // width and height of the texture map in pixels + const uint8_t *rubTextureMapData; // Map texture data. + EVRRenderModelTextureFormat format; // Refer to EVRRenderModelTextureFormat +}; +#if defined(__linux__) || defined(__APPLE__) +#pragma pack( pop ) +#endif + +/** Session unique texture identifier. Rendermodels which share the same texture will have the same id. +IDs <0 denote the texture is not present */ + +typedef int32_t TextureID_t; + +const TextureID_t INVALID_TEXTURE_ID = -1; + +#if defined(__linux__) || defined(__APPLE__) +// This structure was originally defined mis-packed on Linux, preserved for +// compatibility. +#pragma pack( push, 4 ) +#endif + +struct RenderModel_t +{ + const RenderModel_Vertex_t *rVertexData; // Vertex data for the mesh + uint32_t unVertexCount; // Number of vertices in the vertex data + const uint16_t *rIndexData; // Indices into the vertex data for each triangle + uint32_t unTriangleCount; // Number of triangles in the mesh. Index count is 3 * TriangleCount + TextureID_t diffuseTextureId; // Session unique texture identifier. Rendermodels which share the same texture will have the same id. <0 == texture not present +}; +#if defined(__linux__) || defined(__APPLE__) +#pragma pack( pop ) +#endif + + +struct RenderModel_ControllerMode_State_t +{ + bool bScrollWheelVisible; // is this controller currently set to be in a scroll wheel mode +}; + +#pragma pack( pop ) + +class IVRRenderModels +{ +public: + + /** Loads and returns a render model for use in the application. pchRenderModelName should be a render model name + * from the Prop_RenderModelName_String property or an absolute path name to a render model on disk. + * + * The resulting render model is valid until VR_Shutdown() is called or until FreeRenderModel() is called. When the + * application is finished with the render model it should call FreeRenderModel() to free the memory associated + * with the model. + * + * The method returns VRRenderModelError_Loading while the render model is still being loaded. + * The method returns VRRenderModelError_None once loaded successfully, otherwise will return an error. */ + virtual EVRRenderModelError LoadRenderModel_Async( const char *pchRenderModelName, RenderModel_t **ppRenderModel ) = 0; + + /** Frees a previously returned render model + * It is safe to call this on a null ptr. */ + virtual void FreeRenderModel( RenderModel_t *pRenderModel ) = 0; + + /** Loads and returns a texture for use in the application. */ + virtual EVRRenderModelError LoadTexture_Async( TextureID_t textureId, RenderModel_TextureMap_t **ppTexture ) = 0; + + /** Frees a previously returned texture + * It is safe to call this on a null ptr. */ + virtual void FreeTexture( RenderModel_TextureMap_t *pTexture ) = 0; + + /** Creates a D3D11 texture and loads data into it. */ + virtual EVRRenderModelError LoadTextureD3D11_Async( TextureID_t textureId, void *pD3D11Device, void **ppD3D11Texture2D ) = 0; + + /** Helper function to copy the bits into an existing texture. */ + virtual EVRRenderModelError LoadIntoTextureD3D11_Async( TextureID_t textureId, void *pDstTexture ) = 0; + + /** Use this to free textures created with LoadTextureD3D11_Async instead of calling Release on them. */ + virtual void FreeTextureD3D11( void *pD3D11Texture2D ) = 0; + + /** Use this to get the names of available render models. Index does not correlate to a tracked device index, but + * is only used for iterating over all available render models. If the index is out of range, this function will return 0. + * Otherwise, it will return the size of the buffer required for the name. */ + virtual uint32_t GetRenderModelName( uint32_t unRenderModelIndex, VR_OUT_STRING() char *pchRenderModelName, uint32_t unRenderModelNameLen ) = 0; + + /** Returns the number of available render models. */ + virtual uint32_t GetRenderModelCount() = 0; + + + /** Returns the number of components of the specified render model. + * Components are useful when client application wish to draw, label, or otherwise interact with components of tracked objects. + * Examples controller components: + * renderable things such as triggers, buttons + * non-renderable things which include coordinate systems such as 'tip', 'base', a neutral controller agnostic hand-pose + * If all controller components are enumerated and rendered, it will be equivalent to drawing the traditional render model + * Returns 0 if components not supported, >0 otherwise */ + virtual uint32_t GetComponentCount( const char *pchRenderModelName ) = 0; + + /** Use this to get the names of available components. Index does not correlate to a tracked device index, but + * is only used for iterating over all available components. If the index is out of range, this function will return 0. + * Otherwise, it will return the size of the buffer required for the name. */ + virtual uint32_t GetComponentName( const char *pchRenderModelName, uint32_t unComponentIndex, VR_OUT_STRING( ) char *pchComponentName, uint32_t unComponentNameLen ) = 0; + + /** Get the button mask for all buttons associated with this component + * If no buttons (or axes) are associated with this component, return 0 + * Note: multiple components may be associated with the same button. Ex: two grip buttons on a single controller. + * Note: A single component may be associated with multiple buttons. Ex: A trackpad which also provides "D-pad" functionality */ + virtual uint64_t GetComponentButtonMask( const char *pchRenderModelName, const char *pchComponentName ) = 0; + + /** Use this to get the render model name for the specified rendermode/component combination, to be passed to LoadRenderModel. + * If the component name is out of range, this function will return 0. + * Otherwise, it will return the size of the buffer required for the name. */ + virtual uint32_t GetComponentRenderModelName( const char *pchRenderModelName, const char *pchComponentName, VR_OUT_STRING( ) char *pchComponentRenderModelName, uint32_t unComponentRenderModelNameLen ) = 0; + + /** Use this to query information about the component, as a function of the controller state. + * + * For dynamic controller components (ex: trigger) values will reflect component motions + * For static components this will return a consistent value independent of the VRControllerState_t + * + * If the pchRenderModelName or pchComponentName is invalid, this will return false (and transforms will be set to identity). + * Otherwise, return true + * Note: For dynamic objects, visibility may be dynamic. (I.e., true/false will be returned based on controller state and controller mode state ) */ + virtual bool GetComponentStateForDevicePath( const char *pchRenderModelName, const char *pchComponentName, vr::VRInputValueHandle_t devicePath, const vr::RenderModel_ControllerMode_State_t *pState, vr::RenderModel_ComponentState_t *pComponentState ) = 0; + + /** This version of GetComponentState takes a controller state block instead of an action origin. This function is deprecated. You should use the new input system and GetComponentStateForDevicePath instead. */ + virtual bool GetComponentState( const char *pchRenderModelName, const char *pchComponentName, const vr::VRControllerState_t *pControllerState, const RenderModel_ControllerMode_State_t *pState, RenderModel_ComponentState_t *pComponentState ) = 0; + + /** Returns true if the render model has a component with the specified name */ + virtual bool RenderModelHasComponent( const char *pchRenderModelName, const char *pchComponentName ) = 0; + + /** Returns the URL of the thumbnail image for this rendermodel */ + virtual uint32_t GetRenderModelThumbnailURL( const char *pchRenderModelName, VR_OUT_STRING() char *pchThumbnailURL, uint32_t unThumbnailURLLen, vr::EVRRenderModelError *peError ) = 0; + + /** Provides a render model path that will load the unskinned model if the model name provided has been replace by the user. If the model + * hasn't been replaced the path value will still be a valid path to load the model. Pass this to LoadRenderModel_Async, etc. to load the + * model. */ + virtual uint32_t GetRenderModelOriginalPath( const char *pchRenderModelName, VR_OUT_STRING() char *pchOriginalPath, uint32_t unOriginalPathLen, vr::EVRRenderModelError *peError ) = 0; + + /** Returns a string for a render model error */ + virtual const char *GetRenderModelErrorNameFromEnum( vr::EVRRenderModelError error ) = 0; +}; + +static const char * const IVRRenderModels_Version = "IVRRenderModels_006"; + +} + + +// ivrextendeddisplay.h +namespace vr +{ + + /** NOTE: Use of this interface is not recommended in production applications. It will not work for displays which use + * direct-to-display mode. Creating our own window is also incompatible with the VR compositor and is not available when the compositor is running. */ + class IVRExtendedDisplay + { + public: + + /** Size and position that the window needs to be on the VR display. */ + virtual void GetWindowBounds( int32_t *pnX, int32_t *pnY, uint32_t *pnWidth, uint32_t *pnHeight ) = 0; + + /** Gets the viewport in the frame buffer to draw the output of the distortion into */ + virtual void GetEyeOutputViewport( EVREye eEye, uint32_t *pnX, uint32_t *pnY, uint32_t *pnWidth, uint32_t *pnHeight ) = 0; + + /** [D3D10/11 Only] + * Returns the adapter index and output index that the user should pass into EnumAdapters and EnumOutputs + * to create the device and swap chain in DX10 and DX11. If an error occurs both indices will be set to -1. + */ + virtual void GetDXGIOutputInfo( int32_t *pnAdapterIndex, int32_t *pnAdapterOutputIndex ) = 0; + + }; + + static const char * const IVRExtendedDisplay_Version = "IVRExtendedDisplay_001"; + +} + + +// ivrtrackedcamera.h +namespace vr +{ + +class IVRTrackedCamera +{ +public: + /** Returns a string for an error */ + virtual const char *GetCameraErrorNameFromEnum( vr::EVRTrackedCameraError eCameraError ) = 0; + + /** For convenience, same as tracked property request Prop_HasCamera_Bool */ + virtual vr::EVRTrackedCameraError HasCamera( vr::TrackedDeviceIndex_t nDeviceIndex, bool *pHasCamera ) = 0; + + /** Gets size of the image frame. */ + virtual vr::EVRTrackedCameraError GetCameraFrameSize( vr::TrackedDeviceIndex_t nDeviceIndex, vr::EVRTrackedCameraFrameType eFrameType, uint32_t *pnWidth, uint32_t *pnHeight, uint32_t *pnFrameBufferSize ) = 0; + + virtual vr::EVRTrackedCameraError GetCameraIntrinsics( vr::TrackedDeviceIndex_t nDeviceIndex, uint32_t nCameraIndex, vr::EVRTrackedCameraFrameType eFrameType, vr::HmdVector2_t *pFocalLength, vr::HmdVector2_t *pCenter ) = 0; + + virtual vr::EVRTrackedCameraError GetCameraProjection( vr::TrackedDeviceIndex_t nDeviceIndex, uint32_t nCameraIndex, vr::EVRTrackedCameraFrameType eFrameType, float flZNear, float flZFar, vr::HmdMatrix44_t *pProjection ) = 0; + + /** Acquiring streaming service permits video streaming for the caller. Releasing hints the system that video services do not need to be maintained for this client. + * If the camera has not already been activated, a one time spin up may incur some auto exposure as well as initial streaming frame delays. + * The camera should be considered a global resource accessible for shared consumption but not exclusive to any caller. + * The camera may go inactive due to lack of active consumers or headset idleness. */ + virtual vr::EVRTrackedCameraError AcquireVideoStreamingService( vr::TrackedDeviceIndex_t nDeviceIndex, vr::TrackedCameraHandle_t *pHandle ) = 0; + virtual vr::EVRTrackedCameraError ReleaseVideoStreamingService( vr::TrackedCameraHandle_t hTrackedCamera ) = 0; + + /** Copies the image frame into a caller's provided buffer. The image data is currently provided as RGBA data, 4 bytes per pixel. + * A caller can provide null for the framebuffer or frameheader if not desired. Requesting the frame header first, followed by the frame buffer allows + * the caller to determine if the frame as advanced per the frame header sequence. + * If there is no frame available yet, due to initial camera spinup or re-activation, the error will be VRTrackedCameraError_NoFrameAvailable. + * Ideally a caller should be polling at ~16ms intervals */ + virtual vr::EVRTrackedCameraError GetVideoStreamFrameBuffer( vr::TrackedCameraHandle_t hTrackedCamera, vr::EVRTrackedCameraFrameType eFrameType, void *pFrameBuffer, uint32_t nFrameBufferSize, vr::CameraVideoStreamFrameHeader_t *pFrameHeader, uint32_t nFrameHeaderSize ) = 0; + + /** Gets size of the image frame. */ + virtual vr::EVRTrackedCameraError GetVideoStreamTextureSize( vr::TrackedDeviceIndex_t nDeviceIndex, vr::EVRTrackedCameraFrameType eFrameType, vr::VRTextureBounds_t *pTextureBounds, uint32_t *pnWidth, uint32_t *pnHeight ) = 0; + + /** Access a shared D3D11 texture for the specified tracked camera stream. + * The camera frame type VRTrackedCameraFrameType_Undistorted is not supported directly as a shared texture. It is an interior subregion of the shared texture VRTrackedCameraFrameType_MaximumUndistorted. + * Instead, use GetVideoStreamTextureSize() with VRTrackedCameraFrameType_Undistorted to determine the proper interior subregion bounds along with GetVideoStreamTextureD3D11() with + * VRTrackedCameraFrameType_MaximumUndistorted to provide the texture. The VRTrackedCameraFrameType_MaximumUndistorted will yield an image where the invalid regions are decoded + * by the alpha channel having a zero component. The valid regions all have a non-zero alpha component. The subregion as described by VRTrackedCameraFrameType_Undistorted + * guarantees a rectangle where all pixels are valid. */ + virtual vr::EVRTrackedCameraError GetVideoStreamTextureD3D11( vr::TrackedCameraHandle_t hTrackedCamera, vr::EVRTrackedCameraFrameType eFrameType, void *pD3D11DeviceOrResource, void **ppD3D11ShaderResourceView, vr::CameraVideoStreamFrameHeader_t *pFrameHeader, uint32_t nFrameHeaderSize ) = 0; + + /** Access a shared GL texture for the specified tracked camera stream */ + virtual vr::EVRTrackedCameraError GetVideoStreamTextureGL( vr::TrackedCameraHandle_t hTrackedCamera, vr::EVRTrackedCameraFrameType eFrameType, vr::glUInt_t *pglTextureId, vr::CameraVideoStreamFrameHeader_t *pFrameHeader, uint32_t nFrameHeaderSize ) = 0; + virtual vr::EVRTrackedCameraError ReleaseVideoStreamTextureGL( vr::TrackedCameraHandle_t hTrackedCamera, vr::glUInt_t glTextureId ) = 0; + virtual void SetCameraTrackingSpace( vr::ETrackingUniverseOrigin eUniverse ) = 0; + virtual vr::ETrackingUniverseOrigin GetCameraTrackingSpace( ) = 0; +}; + +static const char * const IVRTrackedCamera_Version = "IVRTrackedCamera_006"; + +} // namespace vr + + +// ivrscreenshots.h +namespace vr +{ + +/** Errors that can occur with the VR compositor */ +enum EVRScreenshotError +{ + VRScreenshotError_None = 0, + VRScreenshotError_RequestFailed = 1, + VRScreenshotError_IncompatibleVersion = 100, + VRScreenshotError_NotFound = 101, + VRScreenshotError_BufferTooSmall = 102, + VRScreenshotError_ScreenshotAlreadyInProgress = 108, +}; + +/** Allows the application to generate screenshots */ +class IVRScreenshots +{ +public: + /** Request a screenshot of the requested type. + * A request of the VRScreenshotType_Stereo type will always + * work. Other types will depend on the underlying application + * support. + * The first file name is for the preview image and should be a + * regular screenshot (ideally from the left eye). The second + * is the VR screenshot in the correct format. They should be + * in the same aspect ratio. Formats per type: + * VRScreenshotType_Mono: the VR filename is ignored (can be + * nullptr), this is a normal flat single shot. + * VRScreenshotType_Stereo: The VR image should be a + * side-by-side with the left eye image on the left. + * VRScreenshotType_Cubemap: The VR image should be six square + * images composited horizontally. + * VRScreenshotType_StereoPanorama: above/below with left eye + * panorama being the above image. Image is typically square + * with the panorama being 2x horizontal. + * + * Note that the VR dashboard will call this function when + * the user presses the screenshot binding (currently System + * Button + Trigger). If Steam is running, the destination + * file names will be in %TEMP% and will be copied into + * Steam's screenshot library for the running application + * once SubmitScreenshot() is called. + * If Steam is not running, the paths will be in the user's + * documents folder under Documents\SteamVR\Screenshots. + * Other VR applications can call this to initiate a + * screenshot outside of user control. + * The destination file names do not need an extension, + * will be replaced with the correct one for the format + * which is currently .png. */ + virtual vr::EVRScreenshotError RequestScreenshot( vr::ScreenshotHandle_t *pOutScreenshotHandle, vr::EVRScreenshotType type, const char *pchPreviewFilename, const char *pchVRFilename ) = 0; + + /** Called by the running VR application to indicate that it + * wishes to be in charge of screenshots. If the + * application does not call this, the Compositor will only + * support VRScreenshotType_Stereo screenshots that will be + * captured without notification to the running app. + * Once hooked your application will receive a + * VREvent_RequestScreenshot event when the user presses the + * buttons to take a screenshot. */ + virtual vr::EVRScreenshotError HookScreenshot( VR_ARRAY_COUNT( numTypes ) const vr::EVRScreenshotType *pSupportedTypes, int numTypes ) = 0; + + /** When your application receives a + * VREvent_RequestScreenshot event, call these functions to get + * the details of the screenshot request. */ + virtual vr::EVRScreenshotType GetScreenshotPropertyType( vr::ScreenshotHandle_t screenshotHandle, vr::EVRScreenshotError *pError ) = 0; + + /** Get the filename for the preview or vr image (see + * vr::EScreenshotPropertyFilenames). The return value is + * the size of the string. */ + virtual uint32_t GetScreenshotPropertyFilename( vr::ScreenshotHandle_t screenshotHandle, vr::EVRScreenshotPropertyFilenames filenameType, VR_OUT_STRING() char *pchFilename, uint32_t cchFilename, vr::EVRScreenshotError *pError ) = 0; + + /** Call this if the application is taking the screen shot + * will take more than a few ms processing. This will result + * in an overlay being presented that shows a completion + * bar. */ + virtual vr::EVRScreenshotError UpdateScreenshotProgress( vr::ScreenshotHandle_t screenshotHandle, float flProgress ) = 0; + + /** Tells the compositor to take an internal screenshot of + * type VRScreenshotType_Stereo. It will take the current + * submitted scene textures of the running application and + * write them into the preview image and a side-by-side file + * for the VR image. + * This is similar to request screenshot, but doesn't ever + * talk to the application, just takes the shot and submits. */ + virtual vr::EVRScreenshotError TakeStereoScreenshot( vr::ScreenshotHandle_t *pOutScreenshotHandle, const char *pchPreviewFilename, const char *pchVRFilename ) = 0; + + /** Submit the completed screenshot. If Steam is running + * this will call into the Steam client and upload the + * screenshot to the screenshots section of the library for + * the running application. If Steam is not running, this + * function will display a notification to the user that the + * screenshot was taken. The paths should be full paths with + * extensions. + * File paths should be absolute including extensions. + * screenshotHandle can be k_unScreenshotHandleInvalid if this + * was a new shot taking by the app to be saved and not + * initiated by a user (achievement earned or something) */ + virtual vr::EVRScreenshotError SubmitScreenshot( vr::ScreenshotHandle_t screenshotHandle, vr::EVRScreenshotType type, const char *pchSourcePreviewFilename, const char *pchSourceVRFilename ) = 0; +}; + +static const char * const IVRScreenshots_Version = "IVRScreenshots_001"; + +} // namespace vr + + + +// ivrresources.h +namespace vr +{ + +class IVRResources +{ +public: + + // ------------------------------------ + // Shared Resource Methods + // ------------------------------------ + + /** Loads the specified resource into the provided buffer if large enough. + * Returns the size in bytes of the buffer required to hold the specified resource. */ + virtual uint32_t LoadSharedResource( const char *pchResourceName, char *pchBuffer, uint32_t unBufferLen ) = 0; + + /** Provides the full path to the specified resource. Resource names can include named directories for + * drivers and other things, and this resolves all of those and returns the actual physical path. + * pchResourceTypeDirectory is the subdirectory of resources to look in. */ + virtual uint32_t GetResourceFullPath( const char *pchResourceName, const char *pchResourceTypeDirectory, VR_OUT_STRING() char *pchPathBuffer, uint32_t unBufferLen ) = 0; +}; + +static const char * const IVRResources_Version = "IVRResources_001"; + + +} +// ivrdrivermanager.h +namespace vr +{ + +class IVRDriverManager +{ +public: + virtual uint32_t GetDriverCount() const = 0; + + /** Returns the length of the number of bytes necessary to hold this string including the trailing null. */ + virtual uint32_t GetDriverName( vr::DriverId_t nDriver, VR_OUT_STRING() char *pchValue, uint32_t unBufferSize ) = 0; + + virtual DriverHandle_t GetDriverHandle( const char *pchDriverName ) = 0; + + virtual bool IsEnabled( vr::DriverId_t nDriver ) const = 0; +}; + +static const char * const IVRDriverManager_Version = "IVRDriverManager_001"; + +} // namespace vr + + + +// ivrinput.h +namespace vr +{ + // Maximum number of characters in an action name, including the trailing null + static const uint32_t k_unMaxActionNameLength = 64; + + // Maximum number of characters in an action set name, including the trailing null + static const uint32_t k_unMaxActionSetNameLength = 64; + + // Maximum number of origins for an action + static const uint32_t k_unMaxActionOriginCount = 16; + + // Maximum number of characters in a bone name, including the trailing null + static const uint32_t k_unMaxBoneNameLength = 32; + + enum EVRSkeletalTransformSpace + { + VRSkeletalTransformSpace_Model = 0, + VRSkeletalTransformSpace_Parent = 1 + }; + + enum EVRSkeletalReferencePose + { + VRSkeletalReferencePose_BindPose = 0, + VRSkeletalReferencePose_OpenHand, + VRSkeletalReferencePose_Fist, + VRSkeletalReferencePose_GripLimit + }; + + enum EVRFinger + { + VRFinger_Thumb = 0, + VRFinger_Index, + VRFinger_Middle, + VRFinger_Ring, + VRFinger_Pinky, + VRFinger_Count + }; + + enum EVRFingerSplay + { + VRFingerSplay_Thumb_Index = 0, + VRFingerSplay_Index_Middle, + VRFingerSplay_Middle_Ring, + VRFingerSplay_Ring_Pinky, + VRFingerSplay_Count + }; + + enum EVRSummaryType + { + // The skeletal summary data will match the animated bone transforms for the action. + VRSummaryType_FromAnimation = 0, + + // The skeletal summary data will include unprocessed data directly from the device when available. + // This data is generally less latent than the data that is computed from the animations. + VRSummaryType_FromDevice = 1, + }; + + enum EVRInputFilterCancelType + { + VRInputFilterCancel_Timers = 0, + VRInputFilterCancel_Momentum = 1, + }; + + enum EVRInputStringBits + { + VRInputString_Hand = 0x01, + VRInputString_ControllerType = 0x02, + VRInputString_InputSource = 0x04, + + VRInputString_All = 0xFFFFFFFF + }; + + struct InputAnalogActionData_t + { + /** Whether or not this action is currently available to be bound in the active action set */ + bool bActive; + + /** The origin that caused this action's current state */ + VRInputValueHandle_t activeOrigin; + + /** The current state of this action; will be delta updates for mouse actions */ + float x, y, z; + + /** Deltas since the previous call to UpdateActionState() */ + float deltaX, deltaY, deltaZ; + + /** Time relative to now when this event happened. Will be negative to indicate a past time. */ + float fUpdateTime; + }; + + struct InputDigitalActionData_t + { + /** Whether or not this action is currently available to be bound in the active action set */ + bool bActive; + + /** The origin that caused this action's current state */ + VRInputValueHandle_t activeOrigin; + + /** The current state of this action; will be true if currently pressed */ + bool bState; + + /** This is true if the state has changed since the last frame */ + bool bChanged; + + /** Time relative to now when this event happened. Will be negative to indicate a past time. */ + float fUpdateTime; + }; + + struct InputPoseActionData_t + { + /** Whether or not this action is currently available to be bound in the active action set */ + bool bActive; + + /** The origin that caused this action's current state */ + VRInputValueHandle_t activeOrigin; + + /** The current state of this action */ + TrackedDevicePose_t pose; + }; + + struct InputSkeletalActionData_t + { + /** Whether or not this action is currently available to be bound in the active action set */ + bool bActive; + + /** The origin that caused this action's current state */ + VRInputValueHandle_t activeOrigin; + }; + + struct InputOriginInfo_t + { + VRInputValueHandle_t devicePath; + TrackedDeviceIndex_t trackedDeviceIndex; + char rchRenderModelComponentName[128]; + }; + + struct InputBindingInfo_t + { + char rchDevicePathName[128]; + char rchInputPathName[128]; + char rchModeName[128]; + char rchSlotName[128]; + char rchInputSourceType[ 32 ]; + }; + + // * Experimental global action set priority * + // These constants are part of the experimental support in SteamVR for overlay + // apps selectively overriding input in the base scene application. This may be + // useful for overlay applications that need to use part or all of a controller + // without taking away all input to the game. This system must be enabled by the + // "Experimental overlay input overrides" setting in the developer section of + // SteamVR settings. + // + // To use this system, set the nPriority field of an action set to any number in + // this range. + static const int32_t k_nActionSetOverlayGlobalPriorityMin = 0x01000000; + static const int32_t k_nActionSetOverlayGlobalPriorityMax = 0x01FFFFFF; + + static const int32_t k_nActionSetPriorityReservedMin = 0x02000000; + + struct VRActiveActionSet_t + { + /** This is the handle of the action set to activate for this frame. */ + VRActionSetHandle_t ulActionSet; + + /** This is the handle of a device path that this action set should be active for. To + * activate for all devices, set this to k_ulInvalidInputValueHandle. */ + VRInputValueHandle_t ulRestrictedToDevice; + + /** The action set to activate for all devices other than ulRestrictedDevice. If + * ulRestrictedToDevice is set to k_ulInvalidInputValueHandle, this parameter is + * ignored. */ + VRActionSetHandle_t ulSecondaryActionSet; + + // This field is ignored + uint32_t unPadding; + + /** The priority of this action set relative to other action sets. Any inputs + * bound to a source (e.g. trackpad, joystick, trigger) will disable bindings in + * other active action sets with a smaller priority. + * + * Overlay applications (i.e. ApplicationType_Overlay) may set their action set priority + * to a value between k_nActionSetOverlayGlobalPriorityMin and k_nActionSetOverlayGlobalPriorityMax + * to cause any inputs bound to a source used by that action set to be disabled in scene applications. + * + * No action set priority may value may be larger than k_nActionSetPriorityReservedMin + */ + int32_t nPriority; + }; + + /** Contains summary information about the current skeletal pose */ + struct VRSkeletalSummaryData_t + { + /** The amount that each finger is 'curled' inwards towards the palm. In the case of the thumb, + * this represents how much the thumb is wrapped around the fist. + * 0 means straight, 1 means fully curled */ + float flFingerCurl[ VRFinger_Count ]; + + /** The amount that each pair of adjacent fingers are separated. + * 0 means the digits are touching, 1 means they are fully separated. + */ + float flFingerSplay[ VRFingerSplay_Count ]; + }; + + + class IVRInput + { + public: + + // --------------- Handle management --------------- // + + /** Sets the path to the action manifest JSON file that is used by this application. If this information + * was set on the Steam partner site, calls to this function are ignored. If the Steam partner site + * setting and the path provided by this call are different, VRInputError_MismatchedActionManifest is returned. + * This call must be made before the first call to UpdateActionState or IVRSystem::PollNextEvent. */ + virtual EVRInputError SetActionManifestPath( const char *pchActionManifestPath ) = 0; + + /** Returns a handle for an action set. This handle is used for all performance-sensitive calls. */ + virtual EVRInputError GetActionSetHandle( const char *pchActionSetName, VRActionSetHandle_t *pHandle ) = 0; + + /** Returns a handle for an action. This handle is used for all performance-sensitive calls. */ + virtual EVRInputError GetActionHandle( const char *pchActionName, VRActionHandle_t *pHandle ) = 0; + + /** Returns a handle for any path in the input system. E.g. /user/hand/right */ + virtual EVRInputError GetInputSourceHandle( const char *pchInputSourcePath, VRInputValueHandle_t *pHandle ) = 0; + + + + // --------------- Reading action state ------------------- // + + /** Reads the current state into all actions. After this call, the results of Get*Action calls + * will be the same until the next call to UpdateActionState. */ + virtual EVRInputError UpdateActionState( VR_ARRAY_COUNT( unSetCount ) VRActiveActionSet_t *pSets, uint32_t unSizeOfVRSelectedActionSet_t, uint32_t unSetCount ) = 0; + + /** Reads the state of a digital action given its handle. This will return VRInputError_WrongType if the type of + * action is something other than digital */ + virtual EVRInputError GetDigitalActionData( VRActionHandle_t action, InputDigitalActionData_t *pActionData, uint32_t unActionDataSize, VRInputValueHandle_t ulRestrictToDevice ) = 0; + + /** Reads the state of an analog action given its handle. This will return VRInputError_WrongType if the type of + * action is something other than analog */ + virtual EVRInputError GetAnalogActionData( VRActionHandle_t action, InputAnalogActionData_t *pActionData, uint32_t unActionDataSize, VRInputValueHandle_t ulRestrictToDevice ) = 0; + + /** Reads the state of a pose action given its handle for the number of seconds relative to now. This + * will generally be called with negative times from the fUpdateTime fields in other actions. */ + virtual EVRInputError GetPoseActionDataRelativeToNow( VRActionHandle_t action, ETrackingUniverseOrigin eOrigin, float fPredictedSecondsFromNow, InputPoseActionData_t *pActionData, uint32_t unActionDataSize, VRInputValueHandle_t ulRestrictToDevice ) = 0; + + /** Reads the state of a pose action given its handle. The returned values will match the values returned + * by the last call to IVRCompositor::WaitGetPoses(). */ + virtual EVRInputError GetPoseActionDataForNextFrame( VRActionHandle_t action, ETrackingUniverseOrigin eOrigin, InputPoseActionData_t *pActionData, uint32_t unActionDataSize, VRInputValueHandle_t ulRestrictToDevice ) = 0; + + /** Reads the state of a skeletal action given its handle. */ + virtual EVRInputError GetSkeletalActionData( VRActionHandle_t action, InputSkeletalActionData_t *pActionData, uint32_t unActionDataSize ) = 0; + + /** Returns the current dominant hand for the user for this application. This function will only return success for applications + * which include "supports_dominant_hand_setting": true in their action manifests. The dominant hand will only change after + * a call to UpdateActionState, and the action data returned after that point will use the new dominant hand. */ + virtual EVRInputError GetDominantHand( ETrackedControllerRole *peDominantHand ) = 0; + + /** Sets the dominant hand for the user for this application. */ + virtual EVRInputError SetDominantHand( ETrackedControllerRole eDominantHand ) = 0; + + // --------------- Static Skeletal Data ------------------- // + + /** Reads the number of bones in skeleton associated with the given action */ + virtual EVRInputError GetBoneCount( VRActionHandle_t action, uint32_t* pBoneCount ) = 0; + + /** Fills the given array with the index of each bone's parent in the skeleton associated with the given action */ + virtual EVRInputError GetBoneHierarchy( VRActionHandle_t action, VR_ARRAY_COUNT( unIndexArayCount ) BoneIndex_t* pParentIndices, uint32_t unIndexArayCount ) = 0; + + /** Fills the given buffer with the name of the bone at the given index in the skeleton associated with the given action */ + virtual EVRInputError GetBoneName( VRActionHandle_t action, BoneIndex_t nBoneIndex, VR_OUT_STRING() char* pchBoneName, uint32_t unNameBufferSize ) = 0; + + /** Fills the given buffer with the transforms for a specific static skeletal reference pose */ + virtual EVRInputError GetSkeletalReferenceTransforms( VRActionHandle_t action, EVRSkeletalTransformSpace eTransformSpace, EVRSkeletalReferencePose eReferencePose, VR_ARRAY_COUNT( unTransformArrayCount ) VRBoneTransform_t *pTransformArray, uint32_t unTransformArrayCount ) = 0; + + /** Reads the level of accuracy to which the controller is able to track the user to recreate a skeletal pose */ + virtual EVRInputError GetSkeletalTrackingLevel( VRActionHandle_t action, EVRSkeletalTrackingLevel* pSkeletalTrackingLevel ) = 0; + + // --------------- Dynamic Skeletal Data ------------------- // + + /** Reads the state of the skeletal bone data associated with this action and copies it into the given buffer. */ + virtual EVRInputError GetSkeletalBoneData( VRActionHandle_t action, EVRSkeletalTransformSpace eTransformSpace, EVRSkeletalMotionRange eMotionRange, VR_ARRAY_COUNT( unTransformArrayCount ) VRBoneTransform_t *pTransformArray, uint32_t unTransformArrayCount ) = 0; + + /** Reads summary information about the current pose of the skeleton associated with the given action. */ + virtual EVRInputError GetSkeletalSummaryData( VRActionHandle_t action, EVRSummaryType eSummaryType, VRSkeletalSummaryData_t * pSkeletalSummaryData ) = 0; + + /** Reads the state of the skeletal bone data in a compressed form that is suitable for + * sending over the network. The required buffer size will never exceed ( sizeof(VR_BoneTransform_t)*boneCount + 2). + * Usually the size will be much smaller. */ + virtual EVRInputError GetSkeletalBoneDataCompressed( VRActionHandle_t action, EVRSkeletalMotionRange eMotionRange, VR_OUT_BUFFER_COUNT( unCompressedSize ) void *pvCompressedData, uint32_t unCompressedSize, uint32_t *punRequiredCompressedSize ) = 0; + + /** Turns a compressed buffer from GetSkeletalBoneDataCompressed and turns it back into a bone transform array. */ + virtual EVRInputError DecompressSkeletalBoneData( const void *pvCompressedBuffer, uint32_t unCompressedBufferSize, EVRSkeletalTransformSpace eTransformSpace, VR_ARRAY_COUNT( unTransformArrayCount ) VRBoneTransform_t *pTransformArray, uint32_t unTransformArrayCount ) = 0; + + // --------------- Haptics ------------------- // + + /** Triggers a haptic event as described by the specified action */ + virtual EVRInputError TriggerHapticVibrationAction( VRActionHandle_t action, float fStartSecondsFromNow, float fDurationSeconds, float fFrequency, float fAmplitude, VRInputValueHandle_t ulRestrictToDevice ) = 0; + + // --------------- Action Origins ---------------- // + + /** Retrieve origin handles for an action */ + virtual EVRInputError GetActionOrigins( VRActionSetHandle_t actionSetHandle, VRActionHandle_t digitalActionHandle, VR_ARRAY_COUNT( originOutCount ) VRInputValueHandle_t *originsOut, uint32_t originOutCount ) = 0; + + /** Retrieves the name of the origin in the current language. unStringSectionsToInclude is a bitfield of values in EVRInputStringBits that allows the + application to specify which parts of the origin's information it wants a string for. */ + virtual EVRInputError GetOriginLocalizedName( VRInputValueHandle_t origin, VR_OUT_STRING() char *pchNameArray, uint32_t unNameArraySize, int32_t unStringSectionsToInclude ) = 0; + + /** Retrieves useful information for the origin of this action */ + virtual EVRInputError GetOriginTrackedDeviceInfo( VRInputValueHandle_t origin, InputOriginInfo_t *pOriginInfo, uint32_t unOriginInfoSize ) = 0; + + /** Retrieves useful information about the bindings for an action */ + virtual EVRInputError GetActionBindingInfo( VRActionHandle_t action, InputBindingInfo_t *pOriginInfo, uint32_t unBindingInfoSize, uint32_t unBindingInfoCount, uint32_t *punReturnedBindingInfoCount ) = 0; + + /** Shows the current binding for the action in-headset */ + virtual EVRInputError ShowActionOrigins( VRActionSetHandle_t actionSetHandle, VRActionHandle_t ulActionHandle ) = 0; + + /** Shows the current binding all the actions in the specified action sets */ + virtual EVRInputError ShowBindingsForActionSet( VR_ARRAY_COUNT( unSetCount ) VRActiveActionSet_t *pSets, uint32_t unSizeOfVRSelectedActionSet_t, uint32_t unSetCount, VRInputValueHandle_t originToHighlight ) = 0; + + /** Use this to query what action on the component returned by GetOriginTrackedDeviceInfo would trigger this binding. */ + virtual EVRInputError GetComponentStateForBinding( const char *pchRenderModelName, const char *pchComponentName, + const InputBindingInfo_t *pOriginInfo, uint32_t unBindingInfoSize, uint32_t unBindingInfoCount, + vr::RenderModel_ComponentState_t *pComponentState ) = 0; + + + // --------------- Legacy Input ------------------- // + virtual bool IsUsingLegacyInput() = 0; + + + // --------------- Utilities ------------------- // + + /** Opens the binding user interface. If no app key is provided it will use the key from the calling process. + * If no set is provided it will open to the root of the app binding page. */ + virtual EVRInputError OpenBindingUI( const char* pchAppKey, VRActionSetHandle_t ulActionSetHandle, VRInputValueHandle_t ulDeviceHandle, bool bShowOnDesktop ) = 0; + + /** Returns the variant set in the current bindings. If the binding doesn't include a variant setting, this function + * will return an empty string */ + virtual EVRInputError GetBindingVariant( vr::VRInputValueHandle_t ulDevicePath, + VR_OUT_STRING() char *pchVariantArray, uint32_t unVariantArraySize ) = 0; + + }; + + static const char * const IVRInput_Version = "IVRInput_010"; + +} // namespace vr + +// ivriobuffer.h +namespace vr +{ + +typedef uint64_t IOBufferHandle_t; +static const uint64_t k_ulInvalidIOBufferHandle = 0; + + enum EIOBufferError + { + IOBuffer_Success = 0, + IOBuffer_OperationFailed = 100, + IOBuffer_InvalidHandle = 101, + IOBuffer_InvalidArgument = 102, + IOBuffer_PathExists = 103, + IOBuffer_PathDoesNotExist = 104, + IOBuffer_Permission = 105, + }; + + enum EIOBufferMode + { + IOBufferMode_Read = 0x0001, + IOBufferMode_Write = 0x0002, + IOBufferMode_Create = 0x0200, + }; + + // ---------------------------------------------------------------------------------------------- + // Purpose: + // ---------------------------------------------------------------------------------------------- + class IVRIOBuffer + { + public: + /** opens an existing or creates a new IOBuffer of unSize bytes */ + virtual vr::EIOBufferError Open( const char *pchPath, vr::EIOBufferMode mode, uint32_t unElementSize, uint32_t unElements, vr::IOBufferHandle_t *pulBuffer ) = 0; + + /** closes a previously opened or created buffer */ + virtual vr::EIOBufferError Close( vr::IOBufferHandle_t ulBuffer ) = 0; + + /** reads up to unBytes from buffer into *pDst, returning number of bytes read in *punRead */ + virtual vr::EIOBufferError Read( vr::IOBufferHandle_t ulBuffer, void *pDst, uint32_t unBytes, uint32_t *punRead ) = 0; + + /** writes unBytes of data from *pSrc into a buffer. */ + virtual vr::EIOBufferError Write( vr::IOBufferHandle_t ulBuffer, void *pSrc, uint32_t unBytes ) = 0; + + /** retrieves the property container of an buffer. */ + virtual vr::PropertyContainerHandle_t PropertyContainer( vr::IOBufferHandle_t ulBuffer ) = 0; + + /** inexpensively checks for readers to allow writers to fast-fail potentially expensive copies and writes. */ + virtual bool HasReaders( vr::IOBufferHandle_t ulBuffer ) = 0; + }; + + static const char *IVRIOBuffer_Version = "IVRIOBuffer_002"; +} + +// ivrspatialanchors.h +namespace vr +{ + static const SpatialAnchorHandle_t k_ulInvalidSpatialAnchorHandle = 0; + + struct SpatialAnchorPose_t + { + HmdMatrix34_t mAnchorToAbsoluteTracking; + }; + + class IVRSpatialAnchors + { + public: + + /** Returns a handle for an spatial anchor described by "descriptor". On success, pHandle + * will contain a handle valid for this session. Caller can wait for an event or occasionally + * poll GetSpatialAnchorPose() to find the virtual coordinate associated with this anchor. */ + virtual EVRSpatialAnchorError CreateSpatialAnchorFromDescriptor( const char *pchDescriptor, SpatialAnchorHandle_t *pHandleOut ) = 0; + + /** Returns a handle for an new spatial anchor at pPose. On success, pHandle + * will contain a handle valid for this session. Caller can wait for an event or occasionally + * poll GetSpatialAnchorDescriptor() to find the permanent descriptor for this pose. + * The result of GetSpatialAnchorPose() may evolve from this initial position if the driver chooses + * to update it. + * The anchor will be associated with the driver that provides unDeviceIndex, and the driver may use that specific + * device as a hint for how to best create the anchor. + * The eOrigin must match whatever tracking origin you are working in (seated/standing/raw). + * This should be called when the user is close to (and ideally looking at/interacting with) the target physical + * location. At that moment, the driver will have the most information about how to recover that physical point + * in the future, and the quality of the anchor (when the descriptor is re-used) will be highest. + * The caller may decide to apply offsets from this initial pose, but is advised to stay relatively close to the + * original pose location for highest fidelity. */ + virtual EVRSpatialAnchorError CreateSpatialAnchorFromPose( TrackedDeviceIndex_t unDeviceIndex, ETrackingUniverseOrigin eOrigin, SpatialAnchorPose_t *pPose, SpatialAnchorHandle_t *pHandleOut ) = 0; + + /** Get the pose for a given handle. This is intended to be cheap enough to call every frame (or fairly often) + * so that the driver can refine this position when it has more information available. */ + virtual EVRSpatialAnchorError GetSpatialAnchorPose( SpatialAnchorHandle_t unHandle, ETrackingUniverseOrigin eOrigin, SpatialAnchorPose_t *pPoseOut ) = 0; + + /** Get the descriptor for a given handle. This will be empty for handles where the driver has not + * yet built a descriptor. It will be the application-supplied descriptor for previously saved anchors + * that the application is requesting poses for. If the driver has called UpdateSpatialAnchorDescriptor() + * already in this session, it will be the descriptor provided by the driver. + * Returns true if the descriptor fits into the buffer, else false. Buffer size should be at least + * k_unMaxSpatialAnchorDescriptorSize. */ + virtual EVRSpatialAnchorError GetSpatialAnchorDescriptor( SpatialAnchorHandle_t unHandle, VR_OUT_STRING() char *pchDescriptorOut, uint32_t *punDescriptorBufferLenInOut ) = 0; + + }; + + static const char * const IVRSpatialAnchors_Version = "IVRSpatialAnchors_001"; + +} // namespace vr + +// ivrdebug.h +namespace vr +{ + enum EVRDebugError + { + VRDebugError_Success = 0, + VRDebugError_BadParameter + }; + + /** Handle for vr profiler events */ + typedef uint64_t VrProfilerEventHandle_t; + + class IVRDebug + { + public: + + /** Create a vr profiler discrete event (point) + * The event will be associated with the message provided in pchMessage, and the current + * time will be used as the event timestamp. */ + virtual EVRDebugError EmitVrProfilerEvent( const char *pchMessage ) = 0; + + /** Create an vr profiler duration event (line) + * The current time will be used as the timestamp for the start of the line. + * On success, pHandleOut will contain a handle valid for terminating this event. */ + virtual EVRDebugError BeginVrProfilerEvent( VrProfilerEventHandle_t *pHandleOut ) = 0; + + /** Terminate a vr profiler event + * The event associated with hHandle will be considered completed when this method is called. + * The current time will be used assocaited to the termination time of the event, and + * pchMessage will be used as the event title. */ + virtual EVRDebugError FinishVrProfilerEvent( VrProfilerEventHandle_t hHandle, const char *pchMessage ) = 0; + + /** Sends a request to the driver for the specified device and returns the response. The maximum response size is 32k, + * but this method can be called with a smaller buffer. If the response exceeds the size of the buffer, it is truncated. + * The size of the response including its terminating null is returned. */ + virtual uint32_t DriverDebugRequest( vr::TrackedDeviceIndex_t unDeviceIndex, const char *pchRequest, VR_OUT_STRING() char *pchResponseBuffer, uint32_t unResponseBufferSize ) = 0; + + }; + + static const char * const IVRDebug_Version = "IVRDebug_001"; + +} // namespace vr +// End + +#endif // _OPENVR_API + + + +namespace vr +{ +#if !defined( OPENVR_INTERFACE_INTERNAL ) + + /** Finds the active installation of the VR API and initializes it. The provided path must be absolute + * or relative to the current working directory. These are the local install versions of the equivalent + * functions in steamvr.h and will work without a local Steam install. + * + * This path is to the "root" of the VR API install. That's the directory with + * the "drivers" directory and a platform (i.e. "win32") directory in it, not the directory with the DLL itself. + * + * pStartupInfo is reserved for future use. + */ + inline IVRSystem *VR_Init( EVRInitError *peError, EVRApplicationType eApplicationType, const char *pStartupInfo = nullptr ); + + /** unloads vrclient.dll. Any interface pointers from the interface are + * invalid after this point */ + inline void VR_Shutdown(); + + /** Returns true if there is an HMD attached. This check is as lightweight as possible and + * can be called outside of VR_Init/VR_Shutdown. It should be used when an application wants + * to know if initializing VR is a possibility but isn't ready to take that step yet. + */ + VR_INTERFACE bool VR_CALLTYPE VR_IsHmdPresent(); + + /** Returns true if the OpenVR runtime is installed. */ + VR_INTERFACE bool VR_CALLTYPE VR_IsRuntimeInstalled(); + + /** Returns where the OpenVR runtime is installed. */ + VR_INTERFACE bool VR_GetRuntimePath( VR_OUT_STRING() char *pchPathBuffer, uint32_t unBufferSize, uint32_t *punRequiredBufferSize ); + + /** Returns the name of the enum value for an EVRInitError. This function may be called outside of VR_Init()/VR_Shutdown(). */ + VR_INTERFACE const char *VR_CALLTYPE VR_GetVRInitErrorAsSymbol( EVRInitError error ); + + /** Returns an English string for an EVRInitError. Applications should call VR_GetVRInitErrorAsSymbol instead and + * use that as a key to look up their own localized error message. This function may be called outside of VR_Init()/VR_Shutdown(). */ + VR_INTERFACE const char *VR_CALLTYPE VR_GetVRInitErrorAsEnglishDescription( EVRInitError error ); + + /** Returns the interface of the specified version. This method must be called after VR_Init. The + * pointer returned is valid until VR_Shutdown is called. + */ + VR_INTERFACE void *VR_CALLTYPE VR_GetGenericInterface( const char *pchInterfaceVersion, EVRInitError *peError ); + + /** Returns whether the interface of the specified version exists. + */ + VR_INTERFACE bool VR_CALLTYPE VR_IsInterfaceVersionValid( const char *pchInterfaceVersion ); + + /** Returns a token that represents whether the VR interface handles need to be reloaded */ + VR_INTERFACE uint32_t VR_CALLTYPE VR_GetInitToken(); + + // These typedefs allow old enum names from SDK 0.9.11 to be used in applications. + // They will go away in the future. + typedef EVRInitError HmdError; + typedef EVREye Hmd_Eye; + typedef EColorSpace ColorSpace; + typedef ETrackingResult HmdTrackingResult; + typedef ETrackedDeviceClass TrackedDeviceClass; + typedef ETrackingUniverseOrigin TrackingUniverseOrigin; + typedef ETrackedDeviceProperty TrackedDeviceProperty; + typedef ETrackedPropertyError TrackedPropertyError; + typedef EVRSubmitFlags VRSubmitFlags_t; + typedef EVRState VRState_t; + typedef ECollisionBoundsStyle CollisionBoundsStyle_t; + typedef EVROverlayError VROverlayError; + typedef EVRFirmwareError VRFirmwareError; + typedef EVRCompositorError VRCompositorError; + typedef EVRScreenshotError VRScreenshotsError; + + inline uint32_t &VRToken() + { + static uint32_t token; + return token; + } + + class COpenVRContext + { + public: + COpenVRContext() { Clear(); } + void Clear(); + + inline void CheckClear() + { + if ( VRToken() != VR_GetInitToken() ) + { + Clear(); + VRToken() = VR_GetInitToken(); + } + } + + IVRSystem *VRSystem() + { + CheckClear(); + if ( m_pVRSystem == nullptr ) + { + EVRInitError eError; + m_pVRSystem = ( IVRSystem * )VR_GetGenericInterface( IVRSystem_Version, &eError ); + } + return m_pVRSystem; + } + IVRChaperone *VRChaperone() + { + CheckClear(); + if ( m_pVRChaperone == nullptr ) + { + EVRInitError eError; + m_pVRChaperone = ( IVRChaperone * )VR_GetGenericInterface( IVRChaperone_Version, &eError ); + } + return m_pVRChaperone; + } + + IVRChaperoneSetup *VRChaperoneSetup() + { + CheckClear(); + if ( m_pVRChaperoneSetup == nullptr ) + { + EVRInitError eError; + m_pVRChaperoneSetup = ( IVRChaperoneSetup * )VR_GetGenericInterface( IVRChaperoneSetup_Version, &eError ); + } + return m_pVRChaperoneSetup; + } + + IVRCompositor *VRCompositor() + { + CheckClear(); + if ( m_pVRCompositor == nullptr ) + { + EVRInitError eError; + m_pVRCompositor = ( IVRCompositor * )VR_GetGenericInterface( IVRCompositor_Version, &eError ); + } + return m_pVRCompositor; + } + + IVROverlay *VROverlay() + { + CheckClear(); + if ( m_pVROverlay == nullptr ) + { + EVRInitError eError; + m_pVROverlay = ( IVROverlay * )VR_GetGenericInterface( IVROverlay_Version, &eError ); + } + return m_pVROverlay; + } + + IVROverlayView *VROverlayView() + { + CheckClear(); + if ( m_pVROverlayView == nullptr ) + { + EVRInitError eError; + m_pVROverlayView = ( IVROverlayView * ) VR_GetGenericInterface( IVROverlayView_Version, &eError ); + } + return m_pVROverlayView; + } + + IVRHeadsetView *VRHeadsetView() + { + CheckClear(); + if ( m_pVRHeadsetView == nullptr ) + { + EVRInitError eError; + m_pVRHeadsetView = ( IVRHeadsetView * ) VR_GetGenericInterface( IVRHeadsetView_Version, &eError ); + } + return m_pVRHeadsetView; + } + + IVRResources *VRResources() + { + CheckClear(); + if ( m_pVRResources == nullptr ) + { + EVRInitError eError; + m_pVRResources = (IVRResources *)VR_GetGenericInterface( IVRResources_Version, &eError ); + } + return m_pVRResources; + } + + IVRScreenshots *VRScreenshots() + { + CheckClear(); + if ( m_pVRScreenshots == nullptr ) + { + EVRInitError eError; + m_pVRScreenshots = ( IVRScreenshots * )VR_GetGenericInterface( IVRScreenshots_Version, &eError ); + } + return m_pVRScreenshots; + } + + IVRRenderModels *VRRenderModels() + { + CheckClear(); + if ( m_pVRRenderModels == nullptr ) + { + EVRInitError eError; + m_pVRRenderModels = ( IVRRenderModels * )VR_GetGenericInterface( IVRRenderModels_Version, &eError ); + } + return m_pVRRenderModels; + } + + IVRExtendedDisplay *VRExtendedDisplay() + { + CheckClear(); + if ( m_pVRExtendedDisplay == nullptr ) + { + EVRInitError eError; + m_pVRExtendedDisplay = ( IVRExtendedDisplay * )VR_GetGenericInterface( IVRExtendedDisplay_Version, &eError ); + } + return m_pVRExtendedDisplay; + } + + IVRSettings *VRSettings() + { + CheckClear(); + if ( m_pVRSettings == nullptr ) + { + EVRInitError eError; + m_pVRSettings = ( IVRSettings * )VR_GetGenericInterface( IVRSettings_Version, &eError ); + } + return m_pVRSettings; + } + + IVRApplications *VRApplications() + { + CheckClear(); + if ( m_pVRApplications == nullptr ) + { + EVRInitError eError; + m_pVRApplications = ( IVRApplications * )VR_GetGenericInterface( IVRApplications_Version, &eError ); + } + return m_pVRApplications; + } + + IVRTrackedCamera *VRTrackedCamera() + { + CheckClear(); + if ( m_pVRTrackedCamera == nullptr ) + { + EVRInitError eError; + m_pVRTrackedCamera = ( IVRTrackedCamera * )VR_GetGenericInterface( IVRTrackedCamera_Version, &eError ); + } + return m_pVRTrackedCamera; + } + + IVRDriverManager *VRDriverManager() + { + CheckClear(); + if ( !m_pVRDriverManager ) + { + EVRInitError eError; + m_pVRDriverManager = ( IVRDriverManager * )VR_GetGenericInterface( IVRDriverManager_Version, &eError ); + } + return m_pVRDriverManager; + } + + IVRInput *VRInput() + { + CheckClear(); + if ( !m_pVRInput ) + { + EVRInitError eError; + m_pVRInput = (IVRInput *)VR_GetGenericInterface( IVRInput_Version, &eError ); + } + return m_pVRInput; + } + + IVRIOBuffer *VRIOBuffer() + { + if ( !m_pVRIOBuffer ) + { + EVRInitError eError; + m_pVRIOBuffer = ( IVRIOBuffer * )VR_GetGenericInterface( IVRIOBuffer_Version, &eError ); + } + return m_pVRIOBuffer; + } + + IVRSpatialAnchors *VRSpatialAnchors() + { + CheckClear(); + if ( !m_pVRSpatialAnchors ) + { + EVRInitError eError; + m_pVRSpatialAnchors = (IVRSpatialAnchors *)VR_GetGenericInterface( IVRSpatialAnchors_Version, &eError ); + } + return m_pVRSpatialAnchors; + } + + IVRDebug *VRDebug() + { + CheckClear(); + if ( !m_pVRDebug ) + { + EVRInitError eError; + m_pVRDebug = (IVRDebug *)VR_GetGenericInterface( IVRDebug_Version, &eError ); + } + return m_pVRDebug; + } + + IVRNotifications *VRNotifications() + { + CheckClear(); + if ( !m_pVRNotifications ) + { + EVRInitError eError; + m_pVRNotifications = ( IVRNotifications * )VR_GetGenericInterface( IVRNotifications_Version, &eError ); + } + return m_pVRNotifications; + } + + private: + IVRSystem *m_pVRSystem; + IVRChaperone *m_pVRChaperone; + IVRChaperoneSetup *m_pVRChaperoneSetup; + IVRCompositor *m_pVRCompositor; + IVRHeadsetView *m_pVRHeadsetView; + IVROverlay *m_pVROverlay; + IVROverlayView *m_pVROverlayView; + IVRResources *m_pVRResources; + IVRRenderModels *m_pVRRenderModels; + IVRExtendedDisplay *m_pVRExtendedDisplay; + IVRSettings *m_pVRSettings; + IVRApplications *m_pVRApplications; + IVRTrackedCamera *m_pVRTrackedCamera; + IVRScreenshots *m_pVRScreenshots; + IVRDriverManager *m_pVRDriverManager; + IVRInput *m_pVRInput; + IVRIOBuffer *m_pVRIOBuffer; + IVRSpatialAnchors *m_pVRSpatialAnchors; + IVRDebug *m_pVRDebug; + IVRNotifications *m_pVRNotifications; + }; + + inline COpenVRContext &OpenVRInternal_ModuleContext() + { + static void *ctx[ sizeof( COpenVRContext ) / sizeof( void * ) ]; + return *( COpenVRContext * )ctx; // bypass zero-init constructor + } + + inline IVRSystem *VR_CALLTYPE VRSystem() { return OpenVRInternal_ModuleContext().VRSystem(); } + inline IVRChaperone *VR_CALLTYPE VRChaperone() { return OpenVRInternal_ModuleContext().VRChaperone(); } + inline IVRChaperoneSetup *VR_CALLTYPE VRChaperoneSetup() { return OpenVRInternal_ModuleContext().VRChaperoneSetup(); } + inline IVRCompositor *VR_CALLTYPE VRCompositor() { return OpenVRInternal_ModuleContext().VRCompositor(); } + inline IVROverlay *VR_CALLTYPE VROverlay() { return OpenVRInternal_ModuleContext().VROverlay(); } + inline IVROverlayView *VR_CALLTYPE VROverlayView() { return OpenVRInternal_ModuleContext().VROverlayView(); } + inline IVRHeadsetView *VR_CALLTYPE VRHeadsetView() { return OpenVRInternal_ModuleContext().VRHeadsetView(); } + inline IVRScreenshots *VR_CALLTYPE VRScreenshots() { return OpenVRInternal_ModuleContext().VRScreenshots(); } + inline IVRRenderModels *VR_CALLTYPE VRRenderModels() { return OpenVRInternal_ModuleContext().VRRenderModels(); } + inline IVRApplications *VR_CALLTYPE VRApplications() { return OpenVRInternal_ModuleContext().VRApplications(); } + inline IVRSettings *VR_CALLTYPE VRSettings() { return OpenVRInternal_ModuleContext().VRSettings(); } + inline IVRResources *VR_CALLTYPE VRResources() { return OpenVRInternal_ModuleContext().VRResources(); } + inline IVRExtendedDisplay *VR_CALLTYPE VRExtendedDisplay() { return OpenVRInternal_ModuleContext().VRExtendedDisplay(); } + inline IVRTrackedCamera *VR_CALLTYPE VRTrackedCamera() { return OpenVRInternal_ModuleContext().VRTrackedCamera(); } + inline IVRDriverManager *VR_CALLTYPE VRDriverManager() { return OpenVRInternal_ModuleContext().VRDriverManager(); } + inline IVRInput *VR_CALLTYPE VRInput() { return OpenVRInternal_ModuleContext().VRInput(); } + inline IVRIOBuffer *VR_CALLTYPE VRIOBuffer() { return OpenVRInternal_ModuleContext().VRIOBuffer(); } + inline IVRSpatialAnchors *VR_CALLTYPE VRSpatialAnchors() { return OpenVRInternal_ModuleContext().VRSpatialAnchors(); } + inline IVRNotifications *VR_CALLTYPE VRNotifications() { return OpenVRInternal_ModuleContext().VRNotifications(); } + inline IVRDebug *VR_CALLTYPE VRDebug() { return OpenVRInternal_ModuleContext().VRDebug(); } + + inline void COpenVRContext::Clear() + { + m_pVRSystem = nullptr; + m_pVRChaperone = nullptr; + m_pVRChaperoneSetup = nullptr; + m_pVRCompositor = nullptr; + m_pVROverlay = nullptr; + m_pVROverlayView = nullptr; + m_pVRHeadsetView = nullptr; + m_pVRRenderModels = nullptr; + m_pVRExtendedDisplay = nullptr; + m_pVRSettings = nullptr; + m_pVRApplications = nullptr; + m_pVRTrackedCamera = nullptr; + m_pVRResources = nullptr; + m_pVRScreenshots = nullptr; + m_pVRDriverManager = nullptr; + m_pVRInput = nullptr; + m_pVRIOBuffer = nullptr; + m_pVRSpatialAnchors = nullptr; + m_pVRNotifications = nullptr; + m_pVRDebug = nullptr; + } + + VR_INTERFACE uint32_t VR_CALLTYPE VR_InitInternal2( EVRInitError *peError, EVRApplicationType eApplicationType, const char *pStartupInfo ); + VR_INTERFACE void VR_CALLTYPE VR_ShutdownInternal(); + + /** Finds the active installation of vrclient.dll and initializes it */ + inline IVRSystem *VR_Init( EVRInitError *peError, EVRApplicationType eApplicationType, const char *pStartupInfo ) + { + IVRSystem *pVRSystem = nullptr; + + EVRInitError eError; + VRToken() = VR_InitInternal2( &eError, eApplicationType, pStartupInfo ); + COpenVRContext &ctx = OpenVRInternal_ModuleContext(); + ctx.Clear(); + + if ( eError == VRInitError_None ) + { + if ( VR_IsInterfaceVersionValid( IVRSystem_Version ) ) + { + pVRSystem = VRSystem(); + } + else + { + VR_ShutdownInternal(); + eError = VRInitError_Init_InterfaceNotFound; + } + } + + if ( peError ) + *peError = eError; + return pVRSystem; + } + + /** unloads vrclient.dll. Any interface pointers from the interface are + * invalid after this point */ + inline void VR_Shutdown() + { + VR_ShutdownInternal(); + } + +#endif // OPENVR_INTERFACE_INTERNAL +}