Proton/lsteamclient/steamworks_sdk_128x/steamvr.h

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#pragma once
#include <stdint.h>
namespace vr
{
#if defined(__linux__) || defined(__APPLE__)
// The 32-bit version of gcc has the alignment requirement for uint64 and double set to
// 4 meaning that even with #pragma pack(8) these types will only be four-byte aligned.
// The 64-bit version of gcc has the alignment requirement for these types set to
// 8 meaning that unless we use #pragma pack(4) our structures will get bigger.
// The 64-bit structure packing has to match the 32-bit structure packing for each platform.
#pragma pack( push, 4 )
#else
#pragma pack( push, 8 )
#endif
// right-handed system
// +y is up
// +x is to the right
// -z is going away from you
// Distance unit is meters
struct HmdMatrix34_t
{
float m[3][4];
};
struct HmdMatrix44_t
{
float m[4][4];
};
/** 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 Hmd_Eye
{
Eye_Left = 0,
Eye_Right = 1
};
enum GraphicsAPIConvention
{
API_DirectX = 0, // Normalized Z goes from 0 at the viewer to 1 at the far clip plane
API_OpenGL = 1, // Normalized Z goes from 1 at the viewer to -1 at the far clip plane
};
enum HmdTrackingResult
{
TrackingResult_Uninitialized = 1,
TrackingResult_Calibrating_InProgress = 100,
TrackingResult_Calibrating_OutOfRange = 101,
TrackingResult_Running_OK = 200,
TrackingResult_Running_OutOfRange = 201,
};
class IHmd
{
public:
// ------------------------------------
// Display Methods
// ------------------------------------
/** 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;
/** Suggested size for the intermediate render target that the distortion pulls from. */
virtual void GetRecommendedRenderTargetSize( 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( Hmd_Eye eEye, uint32_t *pnX, uint32_t *pnY, uint32_t *pnWidth, uint32_t *pnHeight ) = 0;
/** The projection matrix for the specified eye */
virtual HmdMatrix44_t GetProjectionMatrix( Hmd_Eye eEye, float fNearZ, float fFarZ, GraphicsAPIConvention eProjType ) = 0;
/** The components necessary to build your own projection matrix in case your
* application is doing something fancy like infinite Z */
virtual void GetProjectionRaw( Hmd_Eye eEye, float *pfLeft, float *pfRight, float *pfTop, float *pfBottom ) = 0;
/** Returns 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. */
virtual DistortionCoordinates_t ComputeDistortion( Hmd_Eye eEye, float fU, float fV ) = 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 GetHeadFromEyePose( Hmd_Eye eEye ) = 0;
/** For use in simple VR apps, this method returns the concatenation of the
* tracking pose and the eye matrix to get a full view matrix for each eye.
* This is ( GetEyeMatrix() ) * (GetWorldFromHeadPose() ^ -1 ) */
virtual bool GetViewMatrix( float fSecondsFromNow, HmdMatrix44_t *pMatLeftView, HmdMatrix44_t *pMatRightView, HmdTrackingResult *peResult ) = 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 and output index that the user should pass into EnumAdapters adn 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;
// ------------------------------------
// 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 current state.
*
* 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.
*
* If this function returns true the pose has been populated with a pose that can be used by the application.
* Check peResult for details about the pose, including messages that should be displayed to the user.
*/
virtual bool GetTrackerFromHeadPose( float fPredictedSecondsFromNow, HmdMatrix34_t *pmPose, HmdTrackingResult *peResult ) = 0;
/** Passes back the pose matrix from the last successful call to GetWorldFromHeadPose(). Returns true if that matrix is
* valid (because there has been a previous successful pose.) */
virtual bool GetLastTrackerFromHeadPose( HmdMatrix34_t *pmPose ) = 0;
/** Returns true if the tracker for this HMD will drift the Yaw component of its pose over time regardless of
* actual head motion. This is true for gyro-based trackers with no ground truth. */
virtual bool WillDriftInYaw() = 0;
/** Sets the zero pose for the tracker coordinate system. After this call all WorldFromHead poses will be relative
* to the pose whenever this was called. 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 GetWorldFromHeadPose after a call to ZeroTracker may not be
* exactly an identity matrix. */
virtual void ZeroTracker() = 0;
/** Returns the zero pose for the tracker coordinate system. If the tracker has never had a valid pose, this
* will be an identity matrix. */
virtual HmdMatrix34_t GetTrackerZeroPose() = 0;
// ------------------------------------
// Administrative methods
// ------------------------------------
/** The ID of the driver this HMD uses as a UTF-8 string. Returns the length of the ID in bytes. If
* the buffer is not large enough to fit the ID an empty string will be returned. In general, 128 bytes
* will be enough to fit any ID. */
virtual uint32_t GetDriverId( char *pchBuffer, uint32_t unBufferLen ) = 0;
/** The ID of this display within its driver this HMD uses as a UTF-8 string. Returns the length of the ID in bytes. If
* the buffer is not large enough to fit the ID an empty string will be returned. In general, 128 bytes
* will be enough to fit any ID. */
virtual uint32_t GetDisplayId( char *pchBuffer, uint32_t unBufferLen ) = 0;
};
static const char * const IHmd_Version = "IHmd_004";
/** error codes returned by Vr_Init */
enum HmdError
{
HmdError_None = 0,
HmdError_Init_InstallationNotFound = 100,
HmdError_Init_InstallationCorrupt = 101,
HmdError_Init_VRClientDLLNotFound = 102,
HmdError_Init_FileNotFound = 103,
HmdError_Init_FactoryNotFound = 104,
HmdError_Init_InterfaceNotFound = 105,
HmdError_Init_InvalidInterface = 106,
HmdError_Init_UserConfigDirectoryInvalid = 107,
HmdError_Init_HmdNotFound = 108,
HmdError_Init_NotInitialized = 109,
HmdError_Driver_Failed = 200,
HmdError_IPC_ServerInitFailed = 300,
HmdError_IPC_ConnectFailed = 301,
HmdError_IPC_SharedStateInitFailed = 302,
};
// figure out how to import from the VR API dll
#if defined(_WIN32)
#ifdef VR_API_EXPORT
#define VR_INTERFACE extern "C" __declspec( dllexport )
#else
#define VR_INTERFACE extern "C" __declspec( dllimport )
#endif
#elif defined(GNUC) || defined(COMPILER_GCC)
#ifdef VR_API_EXPORT
#define VR_INTERFACE extern "C" __attribute__((visibility("default")))
#else
#define VR_INTERFACE extern "C"
#endif
#else
#error "Unsupported Platform."
#endif
/** Finds the active installation of the VR API and initializes it. The priority for figuring
* out where to load vrclient from are:
* 1. The convar "VR_OVERRIDE", which should contain an absolute path to the root of
* an vr API directory.
* 2. The pchVROverride argument. This should be an absolute path or a path relative to
* the current executable.
* 3. The path "./vr" relative to the current executable's path.
*
* Each of these paths are 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.
*/
VR_INTERFACE IHmd *VR_Init( HmdError *peError );
/** unloads vrclient.dll. Any interface pointers from the interface are
* invalid after this point */
VR_INTERFACE void VR_Shutdown( );
#pragma pack( pop )
}