Yucom/vrclient_x64/cppIVRSystem_IVRSystem_004.cpp
2018-01-18 13:29:49 -06:00

210 lines
10 KiB
C++

#include "vrclient_private.h"
#include "vrclient_defs.h"
#include "openvr_0.9.2/openvr.h"
using namespace vr;
extern "C" {
#include "struct_converters.h"
}
#include "cppIVRSystem_IVRSystem_004.h"
#ifdef __cplusplus
extern "C" {
#endif
void cppIVRSystem_IVRSystem_004_GetWindowBounds(void *linux_side, int32_t * pnX, int32_t * pnY, uint32_t * pnWidth, uint32_t * pnHeight)
{
((IVRSystem*)linux_side)->GetWindowBounds((int32_t *)pnX, (int32_t *)pnY, (uint32_t *)pnWidth, (uint32_t *)pnHeight);
}
void cppIVRSystem_IVRSystem_004_GetRecommendedRenderTargetSize(void *linux_side, uint32_t * pnWidth, uint32_t * pnHeight)
{
((IVRSystem*)linux_side)->GetRecommendedRenderTargetSize((uint32_t *)pnWidth, (uint32_t *)pnHeight);
}
void cppIVRSystem_IVRSystem_004_GetEyeOutputViewport(void *linux_side, Hmd_Eye eEye, uint32_t * pnX, uint32_t * pnY, uint32_t * pnWidth, uint32_t * pnHeight)
{
((IVRSystem*)linux_side)->GetEyeOutputViewport((vr::Hmd_Eye)eEye, (uint32_t *)pnX, (uint32_t *)pnY, (uint32_t *)pnWidth, (uint32_t *)pnHeight);
}
vr::HmdMatrix44_t cppIVRSystem_IVRSystem_004_GetProjectionMatrix(void *linux_side, Hmd_Eye eEye, float fNearZ, float fFarZ, GraphicsAPIConvention eProjType)
{
return ((IVRSystem*)linux_side)->GetProjectionMatrix((vr::Hmd_Eye)eEye, (float)fNearZ, (float)fFarZ, (vr::GraphicsAPIConvention)eProjType);
}
void cppIVRSystem_IVRSystem_004_GetProjectionRaw(void *linux_side, Hmd_Eye eEye, float * pfLeft, float * pfRight, float * pfTop, float * pfBottom)
{
((IVRSystem*)linux_side)->GetProjectionRaw((vr::Hmd_Eye)eEye, (float *)pfLeft, (float *)pfRight, (float *)pfTop, (float *)pfBottom);
}
vr::DistortionCoordinates_t cppIVRSystem_IVRSystem_004_ComputeDistortion(void *linux_side, Hmd_Eye eEye, float fU, float fV)
{
return ((IVRSystem*)linux_side)->ComputeDistortion((vr::Hmd_Eye)eEye, (float)fU, (float)fV);
}
vr::HmdMatrix34_t cppIVRSystem_IVRSystem_004_GetEyeToHeadTransform(void *linux_side, Hmd_Eye eEye)
{
return ((IVRSystem*)linux_side)->GetEyeToHeadTransform((vr::Hmd_Eye)eEye);
}
bool cppIVRSystem_IVRSystem_004_GetTimeSinceLastVsync(void *linux_side, float * pfSecondsSinceLastVsync, uint64_t * pulFrameCounter)
{
return ((IVRSystem*)linux_side)->GetTimeSinceLastVsync((float *)pfSecondsSinceLastVsync, (uint64_t *)pulFrameCounter);
}
int32_t cppIVRSystem_IVRSystem_004_GetD3D9AdapterIndex(void *linux_side)
{
return ((IVRSystem*)linux_side)->GetD3D9AdapterIndex();
}
void cppIVRSystem_IVRSystem_004_GetDXGIOutputInfo(void *linux_side, int32_t * pnAdapterIndex, int32_t * pnAdapterOutputIndex)
{
((IVRSystem*)linux_side)->GetDXGIOutputInfo((int32_t *)pnAdapterIndex, (int32_t *)pnAdapterOutputIndex);
}
bool cppIVRSystem_IVRSystem_004_AttachToWindow(void *linux_side, void * hWnd)
{
return ((IVRSystem*)linux_side)->AttachToWindow((void *)hWnd);
}
void cppIVRSystem_IVRSystem_004_GetDeviceToAbsoluteTrackingPose(void *linux_side, TrackingUniverseOrigin eOrigin, float fPredictedSecondsToPhotonsFromNow, TrackedDevicePose_t * pTrackedDevicePoseArray, uint32_t unTrackedDevicePoseArrayCount)
{
((IVRSystem*)linux_side)->GetDeviceToAbsoluteTrackingPose((vr::TrackingUniverseOrigin)eOrigin, (float)fPredictedSecondsToPhotonsFromNow, (vr::TrackedDevicePose_t *)pTrackedDevicePoseArray, (uint32_t)unTrackedDevicePoseArrayCount);
}
void cppIVRSystem_IVRSystem_004_ResetSeatedZeroPose(void *linux_side)
{
((IVRSystem*)linux_side)->ResetSeatedZeroPose();
}
vr::HmdMatrix34_t cppIVRSystem_IVRSystem_004_GetSeatedZeroPoseToStandingAbsoluteTrackingPose(void *linux_side)
{
return ((IVRSystem*)linux_side)->GetSeatedZeroPoseToStandingAbsoluteTrackingPose();
}
vr::TrackedDeviceClass cppIVRSystem_IVRSystem_004_GetTrackedDeviceClass(void *linux_side, TrackedDeviceIndex_t unDeviceIndex)
{
return ((IVRSystem*)linux_side)->GetTrackedDeviceClass((vr::TrackedDeviceIndex_t)unDeviceIndex);
}
bool cppIVRSystem_IVRSystem_004_IsTrackedDeviceConnected(void *linux_side, TrackedDeviceIndex_t unDeviceIndex)
{
return ((IVRSystem*)linux_side)->IsTrackedDeviceConnected((vr::TrackedDeviceIndex_t)unDeviceIndex);
}
bool cppIVRSystem_IVRSystem_004_GetBoolTrackedDeviceProperty(void *linux_side, TrackedDeviceIndex_t unDeviceIndex, TrackedDeviceProperty prop, TrackedPropertyError * pError)
{
return ((IVRSystem*)linux_side)->GetBoolTrackedDeviceProperty((vr::TrackedDeviceIndex_t)unDeviceIndex, (vr::TrackedDeviceProperty)prop, (vr::TrackedPropertyError *)pError);
}
float cppIVRSystem_IVRSystem_004_GetFloatTrackedDeviceProperty(void *linux_side, TrackedDeviceIndex_t unDeviceIndex, TrackedDeviceProperty prop, TrackedPropertyError * pError)
{
return ((IVRSystem*)linux_side)->GetFloatTrackedDeviceProperty((vr::TrackedDeviceIndex_t)unDeviceIndex, (vr::TrackedDeviceProperty)prop, (vr::TrackedPropertyError *)pError);
}
int32_t cppIVRSystem_IVRSystem_004_GetInt32TrackedDeviceProperty(void *linux_side, TrackedDeviceIndex_t unDeviceIndex, TrackedDeviceProperty prop, TrackedPropertyError * pError)
{
return ((IVRSystem*)linux_side)->GetInt32TrackedDeviceProperty((vr::TrackedDeviceIndex_t)unDeviceIndex, (vr::TrackedDeviceProperty)prop, (vr::TrackedPropertyError *)pError);
}
uint64_t cppIVRSystem_IVRSystem_004_GetUint64TrackedDeviceProperty(void *linux_side, TrackedDeviceIndex_t unDeviceIndex, TrackedDeviceProperty prop, TrackedPropertyError * pError)
{
return ((IVRSystem*)linux_side)->GetUint64TrackedDeviceProperty((vr::TrackedDeviceIndex_t)unDeviceIndex, (vr::TrackedDeviceProperty)prop, (vr::TrackedPropertyError *)pError);
}
vr::HmdMatrix34_t cppIVRSystem_IVRSystem_004_GetMatrix34TrackedDeviceProperty(void *linux_side, TrackedDeviceIndex_t unDeviceIndex, TrackedDeviceProperty prop, TrackedPropertyError * pError)
{
return ((IVRSystem*)linux_side)->GetMatrix34TrackedDeviceProperty((vr::TrackedDeviceIndex_t)unDeviceIndex, (vr::TrackedDeviceProperty)prop, (vr::TrackedPropertyError *)pError);
}
uint32_t cppIVRSystem_IVRSystem_004_GetStringTrackedDeviceProperty(void *linux_side, TrackedDeviceIndex_t unDeviceIndex, TrackedDeviceProperty prop, char * pchValue, uint32_t unBufferSize, TrackedPropertyError * pError)
{
return ((IVRSystem*)linux_side)->GetStringTrackedDeviceProperty((vr::TrackedDeviceIndex_t)unDeviceIndex, (vr::TrackedDeviceProperty)prop, (char *)pchValue, (uint32_t)unBufferSize, (vr::TrackedPropertyError *)pError);
}
const char * cppIVRSystem_IVRSystem_004_GetPropErrorNameFromEnum(void *linux_side, TrackedPropertyError error)
{
return ((IVRSystem*)linux_side)->GetPropErrorNameFromEnum((vr::TrackedPropertyError)error);
}
bool cppIVRSystem_IVRSystem_004_PollNextEvent(void *linux_side, winVREvent_t_092 * pEvent)
{
VREvent_t lin;
bool _ret;
_ret = ((IVRSystem*)linux_side)->PollNextEvent(&lin);
struct_VREvent_t_092_lin_to_win(&lin, pEvent);
return _ret;
}
bool cppIVRSystem_IVRSystem_004_PollNextEventWithPose(void *linux_side, TrackingUniverseOrigin eOrigin, winVREvent_t_092 * pEvent, TrackedDevicePose_t * pTrackedDevicePose)
{
VREvent_t lin;
bool _ret;
_ret = ((IVRSystem*)linux_side)->PollNextEventWithPose((vr::TrackingUniverseOrigin)eOrigin, &lin, (vr::TrackedDevicePose_t *)pTrackedDevicePose);
struct_VREvent_t_092_lin_to_win(&lin, pEvent);
return _ret;
}
const char * cppIVRSystem_IVRSystem_004_GetEventTypeNameFromEnum(void *linux_side, EVREventType eType)
{
return ((IVRSystem*)linux_side)->GetEventTypeNameFromEnum((vr::EVREventType)eType);
}
vr::HiddenAreaMesh_t cppIVRSystem_IVRSystem_004_GetHiddenAreaMesh(void *linux_side, Hmd_Eye eEye)
{
return ((IVRSystem*)linux_side)->GetHiddenAreaMesh((vr::Hmd_Eye)eEye);
}
bool cppIVRSystem_IVRSystem_004_GetControllerState(void *linux_side, TrackedDeviceIndex_t unControllerDeviceIndex, winVRControllerState001_t_092 * pControllerState)
{
VRControllerState001_t lin;
bool _ret;
_ret = ((IVRSystem*)linux_side)->GetControllerState((vr::TrackedDeviceIndex_t)unControllerDeviceIndex, &lin);
struct_VRControllerState001_t_092_lin_to_win(&lin, pControllerState);
return _ret;
}
bool cppIVRSystem_IVRSystem_004_GetControllerStateWithPose(void *linux_side, TrackingUniverseOrigin eOrigin, TrackedDeviceIndex_t unControllerDeviceIndex, winVRControllerState001_t_092 * pControllerState, TrackedDevicePose_t * pTrackedDevicePose)
{
VRControllerState001_t lin;
bool _ret;
_ret = ((IVRSystem*)linux_side)->GetControllerStateWithPose((vr::TrackingUniverseOrigin)eOrigin, (vr::TrackedDeviceIndex_t)unControllerDeviceIndex, &lin, (vr::TrackedDevicePose_t *)pTrackedDevicePose);
struct_VRControllerState001_t_092_lin_to_win(&lin, pControllerState);
return _ret;
}
void cppIVRSystem_IVRSystem_004_TriggerHapticPulse(void *linux_side, TrackedDeviceIndex_t unControllerDeviceIndex, uint32_t unAxisId, unsigned short usDurationMicroSec)
{
((IVRSystem*)linux_side)->TriggerHapticPulse((vr::TrackedDeviceIndex_t)unControllerDeviceIndex, (uint32_t)unAxisId, (unsigned short)usDurationMicroSec);
}
const char * cppIVRSystem_IVRSystem_004_GetButtonIdNameFromEnum(void *linux_side, EVRButtonId eButtonId)
{
return ((IVRSystem*)linux_side)->GetButtonIdNameFromEnum((vr::EVRButtonId)eButtonId);
}
const char * cppIVRSystem_IVRSystem_004_GetControllerAxisTypeNameFromEnum(void *linux_side, EVRControllerAxisType eAxisType)
{
return ((IVRSystem*)linux_side)->GetControllerAxisTypeNameFromEnum((vr::EVRControllerAxisType)eAxisType);
}
bool cppIVRSystem_IVRSystem_004_CaptureInputFocus(void *linux_side)
{
return ((IVRSystem*)linux_side)->CaptureInputFocus();
}
void cppIVRSystem_IVRSystem_004_ReleaseInputFocus(void *linux_side)
{
((IVRSystem*)linux_side)->ReleaseInputFocus();
}
bool cppIVRSystem_IVRSystem_004_IsInputFocusCapturedByAnotherProcess(void *linux_side)
{
return ((IVRSystem*)linux_side)->IsInputFocusCapturedByAnotherProcess();
}
uint32_t cppIVRSystem_IVRSystem_004_DriverDebugRequest(void *linux_side, TrackedDeviceIndex_t unDeviceIndex, const char * pchRequest, char * pchResponseBuffer, uint32_t unResponseBufferSize)
{
return ((IVRSystem*)linux_side)->DriverDebugRequest((vr::TrackedDeviceIndex_t)unDeviceIndex, (const char *)pchRequest, (char *)pchResponseBuffer, (uint32_t)unResponseBufferSize);
}
#ifdef __cplusplus
}
#endif