virtual void onKey(int key, int scancode, int action, int mods) {
if (GLFW_PRESS != action) {
return;
}
switch (key) {
case GLFW_KEY_R:
ovrSensorFusion.Reset();
return;
case GLFW_KEY_UP:
ovrSensorFusion.SetPrediction(ovrSensorFusion.GetPredictionDelta() * 1.5f, true);
return;
case GLFW_KEY_DOWN:
ovrSensorFusion.SetPrediction(ovrSensorFusion.GetPredictionDelta() / 1.5f, true);
return;
}
GlfwApp::onKey(key, scancode, action, mods);
}
void initRift() {
OVR::System::Init(OVR::Log::ConfigureDefaultLog(OVR::LogMask_All));
pManager = *OVR::DeviceManager::Create();
//pManager->SetMessageHandler(this);
pHMD = *pManager->EnumerateDevices<OVR::HMDDevice>().CreateDevice();
if (pHMD)
{
pSensor = *pHMD->GetSensor();
InfoLoaded = pHMD->GetDeviceInfo(&Info);
strncpy(Info.DisplayDeviceName, RiftMonitorName, 32);
RiftDisplayId = Info.DisplayId;
EyeDistance = Info.InterpupillaryDistance;
DistortionK[0] = Info.DistortionK[0];
DistortionK[1] = Info.DistortionK[1];
DistortionK[2] = Info.DistortionK[2];
DistortionK[3] = Info.DistortionK[3];
}
else
{
pSensor = *pManager->EnumerateDevices<OVR::SensorDevice>().CreateDevice();
}
if (pSensor)
{
FusionResult.AttachToSensor(pSensor);
FusionResult.SetPredictionEnabled(true);
float motionPred = FusionResult.GetPredictionDelta(); // adjust in 0.01 increments
if(motionPred < 0) motionPred = 0;
FusionResult.SetPrediction(motionPred);
if(InfoLoaded) {
riftConnected = true;
riftX = Info.DesktopX;
riftY = Info.DesktopY;
riftResolutionX = Info.HResolution;
riftResolutionY = Info.VResolution;
}
}
#ifdef WIN32
getRiftDisplay();
#endif
}