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/************************************************************************************
Filename : CAPI_HMDState.h
Content : State associated with a single HMD
Created : January 24, 2014
Authors : Michael Antonov
Copyright : Copyright 2014 Oculus VR, LLC All Rights reserved.
Licensed under the Oculus VR Rift SDK License Version 3.2 (the "License");
you may not use the Oculus VR Rift SDK except in compliance with the License,
which is provided at the time of installation or download, or which
otherwise accompanies this software in either electronic or hard copy form.
You may obtain a copy of the License at
http://www.oculusvr.com/licenses/LICENSE-3.2
Unless required by applicable law or agreed to in writing, the Oculus VR SDK
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
************************************************************************************/
#ifndef OVR_CAPI_HMDState_h
#define OVR_CAPI_HMDState_h
#include "../Kernel/OVR_Math.h"
#include "../Kernel/OVR_List.h"
#include "../Kernel/OVR_Log.h"
#include "../OVR_CAPI.h"
#include "CAPI_FrameTimeManager.h"
#include "CAPI_LatencyStatistics.h"
#include "CAPI_HMDRenderState.h"
#include "CAPI_DistortionRenderer.h"
#include "CAPI_HSWDisplay.h"
#include "../Service/Service_NetClient.h"
#include "../Net/OVR_NetworkTypes.h"
#include "../Util/Util_LatencyTest2Reader.h"
struct ovrHmdStruct { };
namespace OVR { namespace CAPI {
using namespace OVR::Util::Render;
using namespace OVR::Service;
using namespace OVR::Net;
//-------------------------------------------------------------------------------------
// ***** ThreadChecker
// This helper class is used to verify that the API is used according to supported
// thread safety constraints (is not re-entrant for this and related functions).
class ThreadChecker
{
public:
#ifndef OVR_BUILD_DEBUG
// In release build, thread checks are disabled.
ThreadChecker() { }
void Begin(const char* functionName) { OVR_UNUSED1(functionName); }
void End() { }
// Add thread-re-entrancy check for function scope
struct Scope
{
Scope(ThreadChecker*, const char *) { }
~Scope() { }
};
#else // OVR_BUILD_DEBUG
ThreadChecker() : pFunctionName(0), FirstThread(0)
{ }
void Begin(const char* functionName)
{
if (!pFunctionName)
{
pFunctionName = functionName;
FirstThread = GetCurrentThreadId();
}
else
{
// pFunctionName may be not null here if function is called internally on the same thread.
OVR_ASSERT_LOG((FirstThread == GetCurrentThreadId()),
("%s (threadId=%p) called at the same times as %s (threadId=%p)\n",
functionName, GetCurrentThreadId(), pFunctionName, FirstThread) );
}
}
void End()
{
pFunctionName = 0;
FirstThread = 0;
}
// Add thread-reentrancy check for function scope.
struct Scope
{
Scope(ThreadChecker* threadChecker, const char *functionName) : pChecker(threadChecker)
{ pChecker->Begin(functionName); }
~Scope()
{ pChecker->End(); }
private:
ThreadChecker* pChecker;
};
private:
// If not 0, contains the name of the function that first entered the scope.
const char * pFunctionName;
ThreadId FirstThread;
#endif // OVR_BUILD_DEBUG
};
//-------------------------------------------------------------------------------------
// ***** HMDState
// Describes a single HMD.
class HMDState : public ListNode<HMDState>,
public ovrHmdStruct, public NewOverrideBase
{
void operator=(const HMDState&) { } // Quiet warning.
protected:
HMDState(const OVR::Service::HMDNetworkInfo& netInfo,
const OVR::HMDInfo& hmdInfo,
Profile* profile,
Service::NetClient* client);
HMDState(const HMDInfo& src, Profile* profile);
public:
virtual ~HMDState();
static HMDState* CreateHMDState(Service::NetClient* client, const HMDNetworkInfo& netInfo);
static HMDState* CreateHMDState(ovrHmdType hmdType); // Used for debug mode
static const OVR::List<HMDState>& GetHMDStateList();
// *** Sensor Setup
bool ConfigureTracking(unsigned supportedCaps, unsigned requiredCaps);
void ResetTracking();
void RecenterPose();
ovrTrackingState PredictedTrackingState(double absTime);
// Changes HMD Caps.
// Capability bits that are not directly or logically tied to one system (such as sensor)
// are grouped here. ovrHmdCap_VSync, for example, affects rendering and timing.
void SetEnabledHmdCaps(unsigned caps);
unsigned SetEnabledHmdCaps();
bool ProcessLatencyTest(unsigned char rgbColorOut[3]);
// *** Rendering Setup
bool ConfigureRendering(ovrEyeRenderDesc eyeRenderDescOut[2],
const ovrFovPort eyeFovIn[2],
const ovrRenderAPIConfig* apiConfig,
unsigned distortionCaps);
void UpdateRenderProfile(Profile* profile);
void SubmitEyeTextures(const ovrPosef renderPose[2],
const ovrTexture eyeTexture[2]);
void sharedInit ( Profile *profile );
void applyProfileToSensorFusion();
// INlines so that they can be easily compiled out.
// Does debug ASSERT checks for functions that require BeginFrame.
// Also verifies that we are on the right thread.
void checkBeginFrameScope(const char* functionName)
{
OVR_UNUSED1(functionName); // for Release build.
OVR_ASSERT_LOG(BeginFrameCalled == true,
("%s called outside ovrHmd_BeginFrame.", functionName));
OVR_DEBUG_LOG_COND(BeginFrameThreadId != OVR::GetCurrentThreadId(),
("%s called on a different thread then ovrHmd_BeginFrame.", functionName));
}
void checkRenderingConfigured(const char* functionName)
{
OVR_UNUSED1(functionName); // for Release build.
OVR_ASSERT_LOG(RenderingConfigured == true,
("%s called without ovrHmd_ConfigureRendering.", functionName));
}
void checkBeginFrameTimingScope(const char* functionName)
{
OVR_UNUSED1(functionName); // for Release build.
OVR_ASSERT_LOG(BeginFrameTimingCalled == true,
("%s called outside ovrHmd_BeginFrameTiming.", functionName));
}
// Get properties by name.
bool getBoolValue(const char* propertyName, bool defaultVal);
bool setBoolValue(const char* propertyName, bool value);
int getIntValue(const char* propertyName, int defaultVal);
bool setIntValue(const char* propertyName, int value);
float getFloatValue(const char* propertyName, float defaultVal);
bool setFloatValue(const char* propertyName, float value);
unsigned getFloatArray(const char* propertyName, float values[], unsigned arraySize);
bool setFloatArray(const char* propertyName, float values[], unsigned arraySize);
const char* getString(const char* propertyName, const char* defaultVal);
bool setString(const char* propertyName, const char* value);
VirtualHmdId GetNetId() { return NetId; }
public:
Ptr<Profile> pProfile;
// Descriptor that gets allocated and returned to the user as ovrHmd.
ovrHmdDesc* pHmdDesc;
// Window handle passed in AttachWindow.
void* pWindow;
// Network
Service::NetClient* pClient;
VirtualHmdId NetId;
HMDNetworkInfo NetInfo;
// HMDInfo shouldn't change, as its string pointers are passed out.
HMDInfo OurHMDInfo;
const char* pLastError;
// Caps enabled for the HMD.
unsigned EnabledHmdCaps;
// Caps actually sent to the Sensor Service
unsigned EnabledServiceHmdCaps;
// These are the flags actually applied to the Sensor device,
// used to track whether SetDisplayReport calls are necessary.
//unsigned HmdCapsAppliedToSensor;
// *** Sensor
Tracking::CombinedSharedStateReader SharedStateReader;
Tracking::SensorStateReader TheSensorStateReader;
Util::RecordStateReader TheLatencyTestStateReader;
bool LatencyTestActive;
unsigned char LatencyTestDrawColor[3];
bool LatencyTest2Active;
unsigned char LatencyTest2DrawColor[3];
// Rendering part
FrameTimeManager TimeManager;
LagStatsCalculator LagStats;
LatencyStatisticsCSV LagStatsCSV;
HMDRenderState RenderState;
Ptr<DistortionRenderer> pRenderer;
// Health and Safety Warning display.
Ptr<HSWDisplay> pHSWDisplay;
// Last timing value reported by BeginFrame.
double LastFrameTimeSeconds;
// Last timing value reported by GetFrameTime. These are separate since the intended
// use is from different threads. TBD: Move to FrameTimeManager? Make atomic?
double LastGetFrameTimeSeconds;
// Last cached value returned by ovrHmd_GetString/ovrHmd_GetStringArray.
char LastGetStringValue[256];
// Debug flag set after ovrHmd_ConfigureRendering succeeds.
bool RenderingConfigured;
// Set after BeginFrame succeeds, and its corresponding thread id for debug checks.
bool BeginFrameCalled;
ThreadId BeginFrameThreadId;
// Graphics functions are not re-entrant from other threads.
ThreadChecker RenderAPIThreadChecker;
//
bool BeginFrameTimingCalled;
};
//I appreciate this isn't an idea place for this function prototype, but needed
//to be seen by OVR_CAPI.cpp and the various SDK renderers of CAPI,
//and have everything defined. Please move to a better place if you know of one.
ovrBool ovrHmd_CreateDistortionMeshInternal( ovrHmdStruct * hmd,
ovrEyeType eyeType, ovrFovPort fov,
unsigned int distortionCaps,
ovrDistortionMesh *meshData,
float overrideEyeReliefIfNonZero=0 );
}} // namespace OVR::CAPI
#endif // OVR_CAPI_HMDState_h
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