bool HMDState::setFloatArray(const char* propertyName, float values[], unsigned arraySize)
{
if (!arraySize)
{
return false;
}
if (OVR_strcmp(propertyName, "DistortionClearColor") == 0)
{
CopyFloatArrayWithLimit(RenderState.ClearColor, 4, values, arraySize);
return true;
}
if (NetSessionCommon::IsServiceProperty(NetSessionCommon::ESetNumberValues, propertyName))
{
double* da = new double[arraySize];
for (int i = 0; i < (int)arraySize; ++i)
{
da[i] = values[i];
}
bool result = NetClient::GetInstance()->SetNumberValues(GetNetId(), propertyName, da, arraySize);
delete[] da;
return result;
}
return false;
}
float HMDState::getFloatValue(const char* propertyName, float defaultVal)
{
if (OVR_strcmp(propertyName, "LensSeparation") == 0)
{
return OurHMDInfo.LensSeparationInMeters;
}
else if (OVR_strcmp(propertyName, "VsyncToNextVsync") == 0)
{
return OurHMDInfo.Shutter.VsyncToNextVsync;
}
else if (OVR_strcmp(propertyName, "PixelPersistence") == 0)
{
return OurHMDInfo.Shutter.PixelPersistence;
}
else if (NetSessionCommon::IsServiceProperty(NetSessionCommon::EGetNumberValue, propertyName))
{
return (float)NetClient::GetInstance()->GetNumberValue(GetNetId(), propertyName, defaultVal);
}
else if (pProfile)
{
return pProfile->GetFloatValue(propertyName, defaultVal);
}
return defaultVal;
}
bool HMDState::setString(const char* propertyName, const char* value)
{
if (NetSessionCommon::IsServiceProperty(NetSessionCommon::ESetStringValue, propertyName))
{
return NetClient::GetInstance()->SetStringValue(GetNetId(), propertyName, value);
}
return false;
}
void HMDState::UpdateRenderProfile(Profile* profile)
{
// Apply the given profile to generate a render context
RenderState.OurProfileRenderInfo = GenerateProfileRenderInfoFromProfile(RenderState.OurHMDInfo, profile);
RenderState.RenderInfo = GenerateHmdRenderInfoFromHmdInfo(RenderState.OurHMDInfo, RenderState.OurProfileRenderInfo);
RenderState.Distortion[0] = CalculateDistortionRenderDesc(StereoEye_Left, RenderState.RenderInfo, 0);
RenderState.Distortion[1] = CalculateDistortionRenderDesc(StereoEye_Right, RenderState.RenderInfo, 0);
if (pClient)
{
// Center pupil depth
float centerPupilDepth = GetCenterPupilDepthFromRenderInfo(&RenderState.RenderInfo);
pClient->SetNumberValue(GetNetId(), "CenterPupilDepth", centerPupilDepth);
// Neck model
Vector3f neckModel = GetNeckModelFromProfile(profile);
double neckModelArray[3] = {
neckModel.x,
neckModel.y,
neckModel.z
};
pClient->SetNumberValues(GetNetId(), "NeckModelVector3f", neckModelArray, 3);
// Camera position
// OVR_KEY_CAMERA_POSITION is actually the *inverse* of a camera position.
Posed centeredFromWorld;
double values[7];
if (profile->GetDoubleValues(OVR_KEY_CAMERA_POSITION, values, 7) == 7)
{
centeredFromWorld = Posed::FromArray(values);
}
else
{
centeredFromWorld = TheTrackingStateReader.GetDefaultCenteredFromWorld();
}
// ComputeCenteredFromWorld wants a worldFromCpf pose, so invert it.
// FIXME: The stored centeredFromWorld doesn't have a neck model offset applied, but probably should.
TheTrackingStateReader.ComputeCenteredFromWorld(centeredFromWorld.Inverted(), Vector3d(0, 0, 0));
}
}
int HMDState::getIntValue(const char* propertyName, int defaultVal)
{
if (NetSessionCommon::IsServiceProperty(NetSessionCommon::EGetIntValue, propertyName))
{
return NetClient::GetInstance()->GetIntValue(GetNetId(), propertyName, defaultVal);
}
else if (pProfile)
{
return pProfile->GetIntValue(propertyName, defaultVal);
}
return defaultVal;
}
void HMDState::UpdateRenderProfile(Profile* profile)
{
// Apply the given profile to generate a render context
RenderState.RenderInfo = GenerateHmdRenderInfoFromHmdInfo(RenderState.OurHMDInfo, profile);
RenderState.Distortion[0] = CalculateDistortionRenderDesc(StereoEye_Left, RenderState.RenderInfo, 0);
RenderState.Distortion[1] = CalculateDistortionRenderDesc(StereoEye_Right, RenderState.RenderInfo, 0);
if (pClient)
{
// Center pupil depth
float centerPupilDepth = GetCenterPupilDepthFromRenderInfo(&RenderState.RenderInfo);
pClient->SetNumberValue(GetNetId(), "CenterPupilDepth", centerPupilDepth);
// Neck model
Vector3f neckModel = GetNeckModelFromProfile(profile);
double neckModelArray[3] = {
neckModel.x,
neckModel.y,
neckModel.z
};
pClient->SetNumberValues(GetNetId(), "NeckModelVector3f", neckModelArray, 3);
double camerastate[7];
if (profile->GetDoubleValues(OVR_KEY_CAMERA_POSITION, camerastate, 7) == 0)
{
//there is no value, so we load the default
for (int i = 0; i < 7; i++) camerastate[i] = 0;
camerastate[3] = 1;//no offset. by default, give the quaternion w component value 1
}
else
TheSensorStateReader.setCenteredFromWorld(OVR::Posed::FromArray(camerastate));
}
}
const char* HMDState::getString(const char* propertyName, const char* defaultVal)
{
if (NetSessionCommon::IsServiceProperty(NetSessionCommon::EGetStringValue, propertyName))
{
return NetClient::GetInstance()->GetStringValue(GetNetId(), propertyName, defaultVal);
}
if (pProfile)
{
LastGetStringValue[0] = 0;
if (pProfile->GetValue(propertyName, LastGetStringValue, sizeof(LastGetStringValue)))
{
return LastGetStringValue;
}
}
return defaultVal;
}
unsigned HMDState::getFloatArray(const char* propertyName, float values[], unsigned arraySize)
{
if (arraySize)
{
if (OVR_strcmp(propertyName, "ScreenSize") == 0)
{
float data[2] = { OurHMDInfo.ScreenSizeInMeters.w, OurHMDInfo.ScreenSizeInMeters.h };
return CopyFloatArrayWithLimit(values, arraySize, data, 2);
}
else if (OVR_strcmp(propertyName, "DistortionClearColor") == 0)
{
return CopyFloatArrayWithLimit(values, arraySize, RenderState.ClearColor, 4);
}
else if (OVR_strcmp(propertyName, "DK2Latency") == 0)
{
if (OurHMDInfo.HmdType != HmdType_DK2)
{
return 0;
}
union {
struct X {
float latencyRender, latencyTimewarp, latencyPostPresent;
} x;
float data[3];
} m;
static_assert(sizeof(m.x)==sizeof(m.data), "sizeof(struct X) failure");
TimeManager.GetLatencyTimings(m.x.latencyRender, m.x.latencyTimewarp, m.x.latencyPostPresent);
return CopyFloatArrayWithLimit(values, arraySize, m.data, 3);
}
else if (NetSessionCommon::IsServiceProperty(NetSessionCommon::EGetNumberValues, propertyName))
{
// Convert floats to doubles
double* da = new double[arraySize];
for (int i = 0; i < (int)arraySize; ++i)
{
da[i] = values[i];
}
int count = NetClient::GetInstance()->GetNumberValues(GetNetId(), propertyName, da, (int)arraySize);
for (int i = 0; i < count; ++i)
{
values[i] = (float)da[i];
}
delete[] da;
return count;
}
else if (pProfile)
{
// TBD: Not quite right. Should update profile interface, so that
// we can return 0 in all conditions if property doesn't exist.
return pProfile->GetFloatValues(propertyName, values, arraySize);
}
}
return 0;
}
bool HMDState::ConfigureRendering(ovrEyeRenderDesc eyeRenderDescOut[2],
const ovrFovPort eyeFovIn[2],
const ovrRenderAPIConfig* apiConfig,
unsigned distortionCaps)
{
ThreadChecker::Scope checkScope(&RenderAPIThreadChecker, "ovrHmd_ConfigureRendering");
// null -> shut down.
if (!apiConfig)
{
#if !defined(HEADLESS_APP)
if (pHSWDisplay)
{
pHSWDisplay->Shutdown();
pHSWDisplay.Clear();
}
#endif /* !defined(HEADLESS_APP) */
if (pRenderer)
pRenderer.Clear();
RenderingConfigured = false;
return true;
}
if (pRenderer &&
(apiConfig->Header.API != pRenderer->GetRenderAPI()))
{
// Shutdown old renderer.
#if !defined(HEADLESS_APP)
if (pHSWDisplay)
{
pHSWDisplay->Shutdown();
pHSWDisplay.Clear();
}
#endif /* !defined(HEADLESS_APP) */
if (pRenderer)
pRenderer.Clear();
}
distortionCaps = distortionCaps & pHmdDesc->DistortionCaps;
// Step 1: do basic setup configuration
RenderState.EnabledHmdCaps = EnabledHmdCaps; // This is a copy... Any cleaner way?
RenderState.DistortionCaps = distortionCaps;
RenderState.EyeRenderDesc[0] = RenderState.CalcRenderDesc(ovrEye_Left, eyeFovIn[0]);
RenderState.EyeRenderDesc[1] = RenderState.CalcRenderDesc(ovrEye_Right, eyeFovIn[1]);
eyeRenderDescOut[0] = RenderState.EyeRenderDesc[0];
eyeRenderDescOut[1] = RenderState.EyeRenderDesc[1];
// Set RenderingConfigured early to avoid ASSERTs in renderer initialization.
RenderingConfigured = true;
if (!pRenderer)
{
#if !defined(HEADLESS_APP)
pRenderer = *DistortionRenderer::APICreateRegistry
[apiConfig->Header.API]();
#endif /* !defined(HEADLESS_APP) */
}
if (!pRenderer
#if !defined(HEADLESS_APP)
|| !pRenderer->Initialize(apiConfig, &TheTrackingStateReader,
&TimewarpTimer, &RenderState)
#endif /* !defined(HEADLESS_APP) */
)
{
RenderingConfigured = false;
return false;
}
#if !defined(HEADLESS_APP)
// Setup the Health and Safety Warning display system.
if(pHSWDisplay && (pHSWDisplay->GetRenderAPIType() != apiConfig->Header.API)) // If we need to reconstruct the HSWDisplay for a different graphics API type, delete the existing display.
{
pHSWDisplay->Shutdown();
pHSWDisplay.Clear();
}
if(!pHSWDisplay) // Use * below because that for of operator= causes it to inherit the refcount the factory gave the object.
{
pHSWDisplay = *OVR::CAPI::HSWDisplay::Factory(apiConfig->Header.API, pHmdDesc, RenderState);
}
if (pHSWDisplay)
{
pHSWDisplay->Initialize(apiConfig); // This is potentially re-initializing it with a new config.
}
#ifdef OVR_OS_WIN32
if (!pWindow)
{
// We can automatically populate the window to attach to by
// pulling that information off the swap chain that the
// application provides. If the application later calls the
// ovrHmd_AttachToWindow() function these will get harmlessly
// overwritten. The check above verifies that the window is
// not set yet, and it insures that this default doesn't
// overwrite the application setting.
if (apiConfig->Header.API == ovrRenderAPI_D3D11)
{
ovrD3D11Config* d3d11Config = (ovrD3D11Config*)apiConfig;
if (d3d11Config->D3D11.pSwapChain)
{
DXGI_SWAP_CHAIN_DESC desc = {};
HRESULT hr = d3d11Config->D3D11.pSwapChain->GetDesc(&desc);
if (SUCCEEDED(hr))
{
pWindow = (void*)desc.OutputWindow;
}
}
}
else if (apiConfig->Header.API == ovrRenderAPI_OpenGL)
{
ovrGLConfig* glConfig = (ovrGLConfig*)apiConfig;
pWindow = (void*)glConfig->OGL.Window;
}
OVR_DISABLE_MSVC_WARNING(4996) // Disable deprecation warning
else if (apiConfig->Header.API == ovrRenderAPI_D3D9)
{
ovrD3D9Config* dx9Config = (ovrD3D9Config*)apiConfig;
if (dx9Config->D3D9.pDevice)
{
D3DDEVICE_CREATION_PARAMETERS params = {};
HRESULT hr = dx9Config->D3D9.pDevice->GetCreationParameters(¶ms);
if (SUCCEEDED(hr))
{
pWindow = (void*)params.hFocusWindow;
}
}
}
OVR_RESTORE_MSVC_WARNING()
// If a window handle was implied by render configuration,
if (pWindow)
{
// This is the same logic as ovrHmd_AttachToWindow() on Windows:
if (pClient)
pClient->Hmd_AttachToWindow(GetNetId(), pWindow);
Win32::DisplayShim::GetInstance().hWindow = (HWND)pWindow;
// On the server side it is updating the association of connection
// to window handle. This is perfectly safe to update later to
// a new window handle (verified). Also verified that if this
// handle is garbage that it doesn't crash anything.
}
}
#endif
#endif /* !defined(HEADLESS_APP) */
return true;
}
unsigned HMDState::getFloatArray(const char* propertyName, float values[], unsigned arraySize)
{
if (arraySize)
{
if (OVR_strcmp(propertyName, "ScreenSize") == 0)
{
float data[2] = { OurHMDInfo.ScreenSizeInMeters.w, OurHMDInfo.ScreenSizeInMeters.h };
return CopyFloatArrayWithLimit(values, arraySize, data, 2);
}
else if (OVR_strcmp(propertyName, "DistortionClearColor") == 0)
{
return CopyFloatArrayWithLimit(values, arraySize, RenderState.ClearColor, 4);
}
else if (OVR_strcmp(propertyName, "DK2Latency") == 0)
{
if (OurHMDInfo.HmdType < HmdType_DK2)
{
return 0;
}
OutputLatencyTimings timings;
ScreenLatencyTracker.GetLatencyTimings(timings);
if (arraySize > 0)
{
switch (arraySize)
{
default: values[4] = (float)timings.ErrorTimewarp; // Fall-thru
case 4: values[3] = (float)timings.ErrorRender; // Fall-thru
case 3: values[2] = (float)timings.LatencyPostPresent; // Fall-thru
case 2: values[1] = (float)timings.LatencyTimewarp; // Fall-thru
case 1: values[0] = (float)timings.LatencyRender;
}
}
return arraySize > 5 ? 5 : arraySize;
}
else if (OVR_strcmp(propertyName, "NeckModelVector3f") == 0)
{
// Query the service to grab the HNM.
double hnm[3] = {};
int count = NetClient::GetInstance()->GetNumberValues(GetNetId(), propertyName, hnm, (int)arraySize);
// If the service is unavailable or returns zero data,
if (count < 3 ||
(hnm[0] == 0.0 && hnm[1] == 0.0 && hnm[2] == 0.0))
{
// These are the default values used if the server does not return any data, due to not
// being reachable or other errors.
OVR_ASSERT(pProfile.GetPtr());
if (pProfile.GetPtr())
{
Vector3f neckModel = GetNeckModelFromProfile(pProfile);
hnm[0] = neckModel.x;
hnm[1] = neckModel.y;
hnm[2] = neckModel.z;
}
}
for (unsigned i = 0; i < 3 && i < arraySize; ++i)
{
values[i] = (float)hnm[i];
}
return arraySize > 3 ? 3 : arraySize;
}
else if (NetSessionCommon::IsServiceProperty(NetSessionCommon::EGetNumberValues, propertyName))
{
// Convert floats to doubles
double* da = new double[arraySize];
for (int i = 0; i < (int)arraySize; ++i)
{
da[i] = values[i];
}
int count = NetClient::GetInstance()->GetNumberValues(GetNetId(), propertyName, da, (int)arraySize);
for (int i = 0; i < count; ++i)
{
values[i] = (float)da[i];
}
delete[] da;
return count;
}
else if (pProfile)
{
// TBD: Not quite right. Should update profile interface, so that
// we can return 0 in all conditions if property doesn't exist.
return pProfile->GetFloatValues(propertyName, values, arraySize);
}
}
return 0;
}
