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/**
* \ file stereo_ovr . cpp
* \ brief CStereoOVR
* \ date 2014 - 08 - 04 16 : 21 GMT
* \ author Jan Boon ( Kaetemi )
* CStereoOVR
*/
/*
* Copyright ( C ) 2014 by authors
*
* This file is part of NL3D .
* NL3D is free software : you can redistribute it and / or modify it
* under the terms of the GNU Affero General Public License as
* published by the Free Software Foundation , either version 3 of the
* License , or ( at your option ) any later version .
*
* NL3D is distributed in the hope that it will be useful , but WITHOUT
* ANY WARRANTY ; without even the implied warranty of MERCHANTABILITY
* or FITNESS FOR A PARTICULAR PURPOSE . See the GNU Affero General
* Public License for more details .
*
* You should have received a copy of the GNU Affero General Public
* License along with NL3D . If not , see
* < http : //www.gnu.org/licenses/>.
*
* Linking this library statically or dynamically with other modules
* is making a combined work based on this library . Thus , the terms
* and conditions of the GNU General Public License cover the whole
* combination .
*
* As a special exception , the copyright holders of this library give
* you permission to link this library with the Oculus SDK to produce
* an executable , regardless of the license terms of the Oculus SDK ,
* and distribute linked combinations including the two , provided that
* you also meet the terms and conditions of the license of the Oculus
* SDK . You must obey the GNU General Public License in all respects
* for all of the code used other than the Oculus SDK . If you modify
* this file , you may extend this exception to your version of the
* file , but you are not obligated to do so . If you do not wish to do
* so , delete this exception statement from your version .
*/
# ifdef HAVE_LIBOVR
# include "std3d.h"
# include <nel/3d/stereo_ovr_04.h>
// STL includes
# include <sstream>
// External includes
# define OVR_NO_STDINT
# include <OVR.h>
// NeL includes
// #include <nel/misc/debug.h>
# include <nel/3d/u_camera.h>
# include <nel/3d/u_driver.h>
# include <nel/3d/material.h>
# include <nel/3d/texture_bloom.h>
# include <nel/3d/texture_user.h>
# include <nel/3d/driver_user.h>
# include <nel/3d/u_texture.h>
// Project includes
using namespace std ;
// using namespace NLMISC;
namespace NL3D {
namespace {
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# include "stereo_ovr_04_program.h"
class CStereoOVRSystem
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{
public :
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CStereoOVRSystem ( ) : m_InitOk ( false )
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{
}
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~ CStereoOVRSystem ( )
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{
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if ( m_InitOk )
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{
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nlwarning ( " OVR: Not all resources were released before exit " ) ;
Release ( ) ;
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}
}
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bool Init ( )
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{
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if ( ! m_InitOk )
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{
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nldebug ( " OVR: Initialize " ) ;
m_InitOk = ovr_Initialize ( ) ;
nlassert ( m_InitOk ) ;
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}
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return m_InitOk ;
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}
void Release ( )
{
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if ( m_InitOk )
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{
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nldebug ( " OVR: Release " ) ;
ovr_Shutdown ( ) ;
m_InitOk = false ;
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}
}
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private :
bool m_InitOk ;
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} ;
CStereoOVRSystem s_StereoOVRSystem ;
sint s_DeviceCounter = 0 ;
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uint s_DetectId = 0 ;
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}
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class CStereoOVRDeviceFactory : public IStereoDeviceFactory
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{
public :
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uint DeviceIndex ;
uint DetectId ;
bool DebugDevice ;
ovrHmdType DebugDeviceType ;
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IStereoDisplay * createDevice ( ) const
{
CStereoOVR * stereo = new CStereoOVR ( this ) ;
if ( stereo - > isDeviceCreated ( ) )
return stereo ;
delete stereo ;
return NULL ;
}
} ;
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/*
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class CStereoOVRDevicePtr
{
public :
OVR : : Ptr < OVR : : HMDDevice > HMDDevice ;
OVR : : Ptr < OVR : : SensorDevice > SensorDevice ;
OVR : : SensorFusion SensorFusion ;
OVR : : HMDInfo HMDInfo ;
} ;
*/
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CStereoOVR : : CStereoOVR ( const CStereoOVRDeviceFactory * handle ) : m_Stage ( 0 ) , m_SubStage ( 0 ) , m_OrientationCached ( false ) , m_Driver ( NULL ) , /*m_SceneTexture(NULL),*/ m_GUITexture ( NULL ) , /*m_PixelProgram(NULL),*/ m_EyePosition ( 0.0f , 0.09f , 0.15f ) , m_Scale ( 1.0f )
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{
/*++s_DeviceCounter;
m_DevicePtr = new CStereoOVRDevicePtr ( ) ;
OVR : : DeviceEnumerator < OVR : : HMDDevice > dh = handle - > DeviceHandle ;
m_DevicePtr - > HMDDevice = dh . CreateDevice ( ) ;
if ( m_DevicePtr - > HMDDevice )
{
m_DevicePtr - > HMDDevice - > GetDeviceInfo ( & m_DevicePtr - > HMDInfo ) ;
nldebug ( " OVR: HScreenSize: %f, VScreenSize: %f " , m_DevicePtr - > HMDInfo . HScreenSize , m_DevicePtr - > HMDInfo . VScreenSize ) ;
nldebug ( " OVR: VScreenCenter: %f " , m_DevicePtr - > HMDInfo . VScreenCenter ) ;
nldebug ( " OVR: EyeToScreenDistance: %f " , m_DevicePtr - > HMDInfo . EyeToScreenDistance ) ;
nldebug ( " OVR: LensSeparationDistance: %f " , m_DevicePtr - > HMDInfo . LensSeparationDistance ) ;
nldebug ( " OVR: InterpupillaryDistance: %f " , m_DevicePtr - > HMDInfo . InterpupillaryDistance ) ;
nldebug ( " OVR: HResolution: %i, VResolution: %i " , m_DevicePtr - > HMDInfo . HResolution , m_DevicePtr - > HMDInfo . VResolution ) ;
nldebug ( " OVR: DistortionK[0]: %f, DistortionK[1]: %f " , m_DevicePtr - > HMDInfo . DistortionK [ 0 ] , m_DevicePtr - > HMDInfo . DistortionK [ 1 ] ) ;
nldebug ( " OVR: DistortionK[2]: %f, DistortionK[3]: %f " , m_DevicePtr - > HMDInfo . DistortionK [ 2 ] , m_DevicePtr - > HMDInfo . DistortionK [ 3 ] ) ;
//2013/06/26 05:31:51 DBG 17a0 snowballs_client.exe stereo_ovr.cpp 160 NL3D::CStereoOVR::CStereoOVR : OVR: HScreenSize: 0.149760, VScreenSize: 0.093600
//2013/06/26 05:31:51 DBG 17a0 snowballs_client.exe stereo_ovr.cpp 161 NL3D::CStereoOVR::CStereoOVR : OVR: VScreenCenter: 0.046800
//2013/06/26 05:31:51 DBG 17a0 snowballs_client.exe stereo_ovr.cpp 162 NL3D::CStereoOVR::CStereoOVR : OVR: EyeToScreenDistance: 0.041000
//2013/06/26 05:31:51 DBG 17a0 snowballs_client.exe stereo_ovr.cpp 163 NL3D::CStereoOVR::CStereoOVR : OVR: LensSeparationDistance: 0.063500
//2013/06/26 05:31:51 DBG 17a0 snowballs_client.exe stereo_ovr.cpp 164 NL3D::CStereoOVR::CStereoOVR : OVR: InterpupillaryDistance: 0.064000
//2013/06/26 05:31:51 DBG 17a0 snowballs_client.exe stereo_ovr.cpp 165 NL3D::CStereoOVR::CStereoOVR : OVR: HResolution: 1280, VResolution: 800
//2013/06/26 05:31:51 DBG 17a0 snowballs_client.exe stereo_ovr.cpp 166 NL3D::CStereoOVR::CStereoOVR : OVR: DistortionK[0]: 1.000000, DistortionK[1]: 0.220000
//2013/06/26 05:31:51 DBG 17a0 snowballs_client.exe stereo_ovr.cpp 167 NL3D::CStereoOVR::CStereoOVR : OVR: DistortionK[2]: 0.240000, DistortionK[3]: 0.000000
m_DevicePtr - > SensorDevice = m_DevicePtr - > HMDDevice - > GetSensor ( ) ;
m_DevicePtr - > SensorFusion . AttachToSensor ( m_DevicePtr - > SensorDevice ) ;
m_DevicePtr - > SensorFusion . SetGravityEnabled ( true ) ;
m_DevicePtr - > SensorFusion . SetPredictionEnabled ( true ) ;
m_DevicePtr - > SensorFusion . SetYawCorrectionEnabled ( true ) ;
m_LeftViewport . init ( 0.f , 0.f , 0.5f , 1.0f ) ;
m_RightViewport . init ( 0.5f , 0.f , 0.5f , 1.0f ) ;
} */
}
CStereoOVR : : ~ CStereoOVR ( )
{
/*if (!m_BarrelMat.empty())
{
m_BarrelMat . getObjectPtr ( ) - > setTexture ( 0 , NULL ) ;
m_Driver - > deleteMaterial ( m_BarrelMat ) ;
}
delete m_PixelProgram ;
m_PixelProgram = NULL ;
m_Driver = NULL ;
if ( m_DevicePtr - > SensorDevice )
m_DevicePtr - > SensorDevice - > Release ( ) ;
m_DevicePtr - > SensorDevice . Clear ( ) ;
if ( m_DevicePtr - > HMDDevice )
m_DevicePtr - > HMDDevice - > Release ( ) ;
m_DevicePtr - > HMDDevice . Clear ( ) ;
delete m_DevicePtr ;
m_DevicePtr = NULL ;
- - s_DeviceCounter ; */
}
/*
class CPixelProgramOVR : public CPixelProgram
{
public :
struct COVRIndices
{
uint LensCenter ;
uint ScreenCenter ;
uint Scale ;
uint ScaleIn ;
uint HmdWarpParam ;
} ;
CPixelProgramOVR ( )
{
{
CSource * source = new CSource ( ) ;
source - > Profile = glsl330f ;
source - > Features . MaterialFlags = CProgramFeatures : : TextureStages ;
source - > setSourcePtr ( g_StereoOVR_glsl330f ) ;
addSource ( source ) ;
}
{
CSource * source = new CSource ( ) ;
source - > Profile = fp40 ;
source - > Features . MaterialFlags = CProgramFeatures : : TextureStages ;
source - > setSourcePtr ( g_StereoOVR_fp40 ) ;
source - > ParamIndices [ " cLensCenter " ] = 0 ;
source - > ParamIndices [ " cScreenCenter " ] = 1 ;
source - > ParamIndices [ " cScale " ] = 2 ;
source - > ParamIndices [ " cScaleIn " ] = 3 ;
source - > ParamIndices [ " cHmdWarpParam " ] = 4 ;
addSource ( source ) ;
}
{
CSource * source = new CSource ( ) ;
source - > Profile = arbfp1 ;
source - > Features . MaterialFlags = CProgramFeatures : : TextureStages ;
source - > setSourcePtr ( g_StereoOVR_arbfp1 ) ;
source - > ParamIndices [ " cLensCenter " ] = 0 ;
source - > ParamIndices [ " cScreenCenter " ] = 1 ;
source - > ParamIndices [ " cScale " ] = 2 ;
source - > ParamIndices [ " cScaleIn " ] = 3 ;
source - > ParamIndices [ " cHmdWarpParam " ] = 4 ;
addSource ( source ) ;
}
{
CSource * source = new CSource ( ) ;
source - > Profile = ps_2_0 ;
source - > Features . MaterialFlags = CProgramFeatures : : TextureStages ;
source - > setSourcePtr ( g_StereoOVR_ps_2_0 ) ;
source - > ParamIndices [ " cLensCenter " ] = 0 ;
source - > ParamIndices [ " cScreenCenter " ] = 1 ;
source - > ParamIndices [ " cScale " ] = 2 ;
source - > ParamIndices [ " cScaleIn " ] = 3 ;
source - > ParamIndices [ " cHmdWarpParam " ] = 4 ;
addSource ( source ) ;
}
}
virtual ~ CPixelProgramOVR ( )
{
}
virtual void buildInfo ( )
{
CPixelProgram : : buildInfo ( ) ;
m_OVRIndices . LensCenter = getUniformIndex ( " cLensCenter " ) ;
nlassert ( m_OVRIndices . LensCenter ! = ~ 0 ) ;
m_OVRIndices . ScreenCenter = getUniformIndex ( " cScreenCenter " ) ;
nlassert ( m_OVRIndices . ScreenCenter ! = ~ 0 ) ;
m_OVRIndices . Scale = getUniformIndex ( " cScale " ) ;
nlassert ( m_OVRIndices . Scale ! = ~ 0 ) ;
m_OVRIndices . ScaleIn = getUniformIndex ( " cScaleIn " ) ;
nlassert ( m_OVRIndices . ScaleIn ! = ~ 0 ) ;
m_OVRIndices . HmdWarpParam = getUniformIndex ( " cHmdWarpParam " ) ;
nlassert ( m_OVRIndices . HmdWarpParam ! = ~ 0 ) ;
}
inline const COVRIndices & ovrIndices ( ) { return m_OVRIndices ; }
private :
COVRIndices m_OVRIndices ;
} ;
*/
void CStereoOVR : : setDriver ( NL3D : : UDriver * driver )
{ /*
nlassert ( ! m_PixelProgram ) ;
NL3D : : IDriver * drvInternal = ( static_cast < CDriverUser * > ( driver ) ) - > getDriver ( ) ;
if ( drvInternal - > supportBloomEffect ( ) & & drvInternal - > supportNonPowerOfTwoTextures ( ) )
{
m_PixelProgram = new CPixelProgramOVR ( ) ;
if ( ! drvInternal - > compilePixelProgram ( m_PixelProgram ) )
{
m_PixelProgram . kill ( ) ;
}
}
if ( m_PixelProgram )
{
m_Driver = driver ;
/*m_BarrelTex = new CTextureBloom(); // lol bloom
m_BarrelTex - > setRenderTarget ( true ) ;
m_BarrelTex - > setReleasable ( false ) ;
m_BarrelTex - > resize ( m_DevicePtr - > HMDInfo . HResolution , m_DevicePtr - > HMDInfo . VResolution ) ;
m_BarrelTex - > setFilterMode ( ITexture : : Linear , ITexture : : LinearMipMapOff ) ;
m_BarrelTex - > setWrapS ( ITexture : : Clamp ) ;
m_BarrelTex - > setWrapT ( ITexture : : Clamp ) ;
drvInternal - > setupTexture ( * m_BarrelTex ) ;
m_BarrelTexU = new CTextureUser ( m_BarrelTex ) ; * /
m_BarrelMat = m_Driver - > createMaterial ( ) ;
m_BarrelMat . initUnlit ( ) ;
m_BarrelMat . setColor ( CRGBA : : White ) ;
m_BarrelMat . setBlend ( false ) ;
m_BarrelMat . setAlphaTest ( false ) ;
NL3D : : CMaterial * barrelMat = m_BarrelMat . getObjectPtr ( ) ;
barrelMat - > setShader ( NL3D : : CMaterial : : Normal ) ;
barrelMat - > setBlendFunc ( CMaterial : : one , CMaterial : : zero ) ;
barrelMat - > setZWrite ( false ) ;
barrelMat - > setZFunc ( CMaterial : : always ) ;
barrelMat - > setDoubleSided ( true ) ;
// barrelMat->setTexture(0, m_BarrelTex);
m_BarrelQuadLeft . V0 = CVector ( 0.f , 0.f , 0.5f ) ;
m_BarrelQuadLeft . V1 = CVector ( 0.5f , 0.f , 0.5f ) ;
m_BarrelQuadLeft . V2 = CVector ( 0.5f , 1.f , 0.5f ) ;
m_BarrelQuadLeft . V3 = CVector ( 0.f , 1.f , 0.5f ) ;
m_BarrelQuadRight . V0 = CVector ( 0.5f , 0.f , 0.5f ) ;
m_BarrelQuadRight . V1 = CVector ( 1.f , 0.f , 0.5f ) ;
m_BarrelQuadRight . V2 = CVector ( 1.f , 1.f , 0.5f ) ;
m_BarrelQuadRight . V3 = CVector ( 0.5f , 1.f , 0.5f ) ;
// nlassert(!drvInternal->isTextureRectangle(m_BarrelTex)); // not allowed
m_BarrelQuadLeft . Uv0 = CUV ( 0.f , 0.f ) ;
m_BarrelQuadLeft . Uv1 = CUV ( 0.5f , 0.f ) ;
m_BarrelQuadLeft . Uv2 = CUV ( 0.5f , 1.f ) ;
m_BarrelQuadLeft . Uv3 = CUV ( 0.f , 1.f ) ;
m_BarrelQuadRight . Uv0 = CUV ( 0.5f , 0.f ) ;
m_BarrelQuadRight . Uv1 = CUV ( 1.f , 0.f ) ;
m_BarrelQuadRight . Uv2 = CUV ( 1.f , 1.f ) ;
m_BarrelQuadRight . Uv3 = CUV ( 0.5f , 1.f ) ;
}
else
{
nlwarning ( " VR: No pixel program support " ) ;
} */
}
bool CStereoOVR : : getScreenResolution ( uint & width , uint & height )
{
/*width = m_DevicePtr->HMDInfo.HResolution;
height = m_DevicePtr - > HMDInfo . VResolution ; */
return true ;
}
void CStereoOVR : : initCamera ( uint cid , const NL3D : : UCamera * camera )
{
/*m_OriginalFrustum[cid] = camera->getFrustum();
float ar = ( float ) m_DevicePtr - > HMDInfo . HResolution / ( ( float ) m_DevicePtr - > HMDInfo . VResolution * 2.0f ) ;
float fov = 2.0f * atanf ( ( m_DevicePtr - > HMDInfo . HScreenSize * 0.5f * 0.5f ) / ( m_DevicePtr - > HMDInfo . EyeToScreenDistance ) ) ; //(float)NLMISC::Pi/2.f; // 2.0f * atanf(m_DevicePtr->HMDInfo.VScreenSize / 2.0f * m_DevicePtr->HMDInfo.EyeToScreenDistance);
m_LeftFrustum [ cid ] . initPerspective ( fov , ar , camera - > getFrustum ( ) . Near , camera - > getFrustum ( ) . Far ) ;
m_RightFrustum [ cid ] = m_LeftFrustum [ cid ] ;
float viewCenter = m_DevicePtr - > HMDInfo . HScreenSize * 0.25f ;
float eyeProjectionShift = viewCenter - m_DevicePtr - > HMDInfo . LensSeparationDistance * 0.5f ; // docs say LensSeparationDistance, why not InterpupillaryDistance? related to how the lenses work?
float projectionCenterOffset = ( eyeProjectionShift / ( m_DevicePtr - > HMDInfo . HScreenSize * 0.5f ) ) * ( m_LeftFrustum [ cid ] . Right - m_LeftFrustum [ cid ] . Left ) ; // used logic for this one, but it ends up being the same as the one i made up
nldebug ( " OVR: projectionCenterOffset = %f " , projectionCenterOffset ) ;
m_LeftFrustum [ cid ] . Left - = projectionCenterOffset ;
m_LeftFrustum [ cid ] . Right - = projectionCenterOffset ;
m_RightFrustum [ cid ] . Left + = projectionCenterOffset ;
m_RightFrustum [ cid ] . Right + = projectionCenterOffset ;
// TODO: Clipping frustum should also take into account the IPD
m_ClippingFrustum [ cid ] = m_LeftFrustum [ cid ] ;
m_ClippingFrustum [ cid ] . Left = min ( m_LeftFrustum [ cid ] . Left , m_RightFrustum [ cid ] . Left ) ;
m_ClippingFrustum [ cid ] . Right = max ( m_LeftFrustum [ cid ] . Right , m_RightFrustum [ cid ] . Right ) ; */
}
/// Get the frustum to use for clipping
void CStereoOVR : : getClippingFrustum ( uint cid , NL3D : : UCamera * camera ) const
{
camera - > setFrustum ( m_ClippingFrustum [ cid ] ) ;
}
/// Get the original frustum of the camera
void CStereoOVR : : getOriginalFrustum ( uint cid , NL3D : : UCamera * camera ) const
{
camera - > setFrustum ( m_OriginalFrustum [ cid ] ) ;
}
void CStereoOVR : : updateCamera ( uint cid , const NL3D : : UCamera * camera )
{
if ( camera - > getFrustum ( ) . Near ! = m_LeftFrustum [ cid ] . Near
| | camera - > getFrustum ( ) . Far ! = m_LeftFrustum [ cid ] . Far )
CStereoOVR : : initCamera ( cid , camera ) ;
m_CameraMatrix [ cid ] = camera - > getMatrix ( ) ;
}
bool CStereoOVR : : nextPass ( )
{
// Do not allow weird stuff.
uint32 width , height ;
m_Driver - > getWindowSize ( width , height ) ;
// nlassert(width == m_DevicePtr->HMDInfo.HResolution);
// nlassert(height == m_DevicePtr->HMDInfo.VResolution);
if ( m_Driver - > getPolygonMode ( ) = = UDriver : : Filled )
{
switch ( m_Stage ) // Previous stage
{
case 0 :
m_Stage + = 2 ;
m_SubStage = 0 ;
// stage 2:
// draw interface 2d (onto render target)
return true ;
case 2 :
+ + m_Stage ;
m_SubStage = 0 ;
// stage 3:
// (initBloom)
// clear buffer
// draw scene left
return true ;
case 3 :
+ + m_Stage ;
m_SubStage = 0 ;
// stage 4:
// draw scene right
return true ;
case 4 :
+ + m_Stage ;
m_SubStage = 0 ;
// stage 5:
// (endBloom)
// draw interface 3d left
return true ;
case 5 :
+ + m_Stage ;
m_SubStage = 0 ;
// stage 6:
// draw interface 3d right
return true ;
/*case 6:
+ + m_Stage ;
m_SubStage = 0 ;
// stage 7:
// (endInterfacesDisplayBloom)
// draw interface 2d left
return true ;
case 7 :
+ + m_Stage ;
m_SubStage = 0 ;
// stage 8:
// draw interface 2d right
return true ; */
case 6 :
m_Stage = 0 ;
m_SubStage = 0 ;
// present
m_OrientationCached = false ;
return false ;
}
}
else
{
switch ( m_Stage )
{
case 0 :
+ + m_Stage ;
m_SubStage = 0 ;
return true ;
case 1 :
m_Stage = 0 ;
m_SubStage = 0 ;
return false ;
}
}
nlerror ( " Invalid stage " ) ;
m_Stage = 0 ;
m_SubStage = 0 ;
m_OrientationCached = false ;
return false ;
}
const NL3D : : CViewport & CStereoOVR : : getCurrentViewport ( ) const
{
if ( m_Stage = = 2 ) return m_RegularViewport ;
else if ( m_Stage % 2 ) return m_LeftViewport ;
else return m_RightViewport ;
}
const NL3D : : CFrustum & CStereoOVR : : getCurrentFrustum ( uint cid ) const
{
if ( m_Stage = = 2 ) return m_OriginalFrustum [ cid ] ;
else if ( m_Stage % 2 ) return m_LeftFrustum [ cid ] ;
else return m_RightFrustum [ cid ] ;
}
void CStereoOVR : : getCurrentFrustum ( uint cid , NL3D : : UCamera * camera ) const
{
if ( m_Stage = = 2 ) camera - > setFrustum ( m_OriginalFrustum [ cid ] ) ;
else if ( m_Stage % 2 ) camera - > setFrustum ( m_LeftFrustum [ cid ] ) ;
else camera - > setFrustum ( m_RightFrustum [ cid ] ) ;
}
void CStereoOVR : : getCurrentMatrix ( uint cid , NL3D : : UCamera * camera ) const
{ /*
CMatrix translate ;
if ( m_Stage = = 2 ) { }
else if ( m_Stage % 2 ) translate . translate ( CVector ( ( m_DevicePtr - > HMDInfo . InterpupillaryDistance * m_Scale ) * - 0.5f , 0.f , 0.f ) ) ;
else translate . translate ( CVector ( ( m_DevicePtr - > HMDInfo . InterpupillaryDistance * m_Scale ) * 0.5f , 0.f , 0.f ) ) ;
CMatrix mat = m_CameraMatrix [ cid ] * translate ;
if ( camera - > getTransformMode ( ) = = NL3D : : UTransformable : : RotQuat )
{
camera - > setPos ( mat . getPos ( ) ) ;
camera - > setRotQuat ( mat . getRot ( ) ) ;
}
else
{
// camera->setTransformMode(NL3D::UTransformable::DirectMatrix);
camera - > setMatrix ( mat ) ;
} */
}
bool CStereoOVR : : wantClear ( )
{
switch ( m_Stage )
{
case 3 :
m_SubStage = 1 ;
return true ;
}
return m_Driver - > getPolygonMode ( ) ! = UDriver : : Filled ;
}
bool CStereoOVR : : wantScene ( )
{
switch ( m_Stage )
{
case 3 :
case 4 :
m_SubStage = 2 ;
return true ;
}
return m_Driver - > getPolygonMode ( ) ! = UDriver : : Filled ;
}
bool CStereoOVR : : wantInterface3D ( )
{
switch ( m_Stage )
{
case 5 :
case 6 :
m_SubStage = 3 ;
return true ;
}
return m_Driver - > getPolygonMode ( ) ! = UDriver : : Filled ;
}
bool CStereoOVR : : wantInterface2D ( )
{
switch ( m_Stage )
{
case 2 :
m_SubStage = 4 ;
return true ;
}
return m_Driver - > getPolygonMode ( ) ! = UDriver : : Filled ;
}
/// Returns non-NULL if a new render target was set
bool CStereoOVR : : beginRenderTarget ( )
{
// render target always set before driver clear
// nlassert(m_SubStage <= 1);
// Set GUI render target
if ( m_Driver & & m_Stage = = 2 & & ( m_Driver - > getPolygonMode ( ) = = UDriver : : Filled ) )
{
nlassert ( ! m_GUITexture ) ;
uint32 width , height ;
m_Driver - > getWindowSize ( width , height ) ;
m_GUITexture = m_Driver - > getRenderTargetManager ( ) . getRenderTarget ( width , height , true , UTexture : : RGBA8888 ) ;
static_cast < CDriverUser * > ( m_Driver ) - > setRenderTarget ( * m_GUITexture ) ;
m_Driver - > clearBuffers ( NLMISC : : CRGBA ( 0 , 0 , 0 , 0 ) ) ;
return true ;
}
// Begin 3D scene render target
/*if (m_Driver && m_Stage == 3 && (m_Driver->getPolygonMode() == UDriver::Filled))
{
nlassert ( ! m_SceneTexture ) ;
uint32 width , height ;
m_Driver - > getWindowSize ( width , height ) ; // Temporary limitation, TODO: scaling!
m_SceneTexture = m_Driver - > getRenderTargetManager ( ) . getRenderTarget ( width , height ) ;
static_cast < CDriverUser * > ( m_Driver ) - > setRenderTarget ( * m_SceneTexture ) ;
return true ;
} */
return false ;
}
void CStereoOVR : : setInterfaceMatrix ( const NL3D : : CMatrix & matrix )
{
m_InterfaceCameraMatrix = matrix ;
}
void CStereoOVR : : renderGUI ( )
{
/*CMatrix mat;
mat . translate ( m_InterfaceCameraMatrix . getPos ( ) ) ;
CVector dir = m_InterfaceCameraMatrix . getJ ( ) ;
dir . z = 0 ;
dir . normalize ( ) ;
if ( dir . y < 0 )
mat . rotateZ ( float ( NLMISC : : Pi + asin ( dir . x ) ) ) ;
else
mat . rotateZ ( float ( NLMISC : : Pi + NLMISC : : Pi - asin ( dir . x ) ) ) ;
m_Driver - > setModelMatrix ( mat ) ; */
m_Driver - > setModelMatrix ( m_InterfaceCameraMatrix ) ;
{
NLMISC : : CLine line ( NLMISC : : CVector ( 0 , 5 , 2 ) , NLMISC : : CVector ( 0 , 5 , 3 ) ) ;
NL3D : : UMaterial mat = m_Driver - > createMaterial ( ) ;
mat . setZWrite ( false ) ;
// mat.setZFunc(UMaterial::always); // Not nice!
mat . setDoubleSided ( true ) ;
mat . setColor ( NLMISC : : CRGBA : : Red ) ;
mat . setBlend ( false ) ;
m_Driver - > drawLine ( line , mat ) ;
m_Driver - > deleteMaterial ( mat ) ;
}
{
nlassert ( m_GUITexture ) ;
NLMISC : : CQuadUV quad ;
NL3D : : UMaterial umat = m_Driver - > createMaterial ( ) ;
umat . initUnlit ( ) ;
umat . setColor ( NLMISC : : CRGBA : : White ) ;
umat . setDoubleSided ( true ) ;
umat . setBlend ( true ) ;
umat . setAlphaTest ( false ) ;
NL3D : : CMaterial * mat = umat . getObjectPtr ( ) ;
mat - > setShader ( NL3D : : CMaterial : : Normal ) ;
mat - > setBlendFunc ( CMaterial : : one , CMaterial : : invsrcalpha ) ;
mat - > setZWrite ( false ) ;
// mat->setZFunc(CMaterial::always); // Not nice
mat - > setDoubleSided ( true ) ;
mat - > setTexture ( 0 , m_GUITexture - > getITexture ( ) ) ;
// user options
float scale = 1.0f ;
float distance = 1.5f ;
float offcenter = 0.75f ;
float height = scale * distance * 2.0f ;
uint32 winw , winh ;
m_Driver - > getWindowSize ( winw , winh ) ;
float width = height * ( float ) winw / ( float ) winh ;
float bottom = - ( height * 0.5f ) ;
float top = ( height * 0.5f ) ;
NLMISC : : CQuadUV quadUV ;
quadUV . V0 = CVector ( - ( width * 0.5f ) , distance , - ( height * 0.5f ) ) ;
quadUV . V1 = CVector ( ( width * 0.5f ) , distance , - ( height * 0.5f ) ) ;
quadUV . V2 = CVector ( ( width * 0.5f ) , distance , ( height * 0.5f ) ) ;
quadUV . V3 = CVector ( - ( width * 0.5f ) , distance , ( height * 0.5f ) ) ;
quadUV . Uv0 = CUV ( 0.f , 0.f ) ;
quadUV . Uv1 = CUV ( 1.f , 0.f ) ;
quadUV . Uv2 = CUV ( 1.f , 1.f ) ;
quadUV . Uv3 = CUV ( 0.f , 1.f ) ;
const uint nbQuads = 128 ;
static CVertexBuffer vb ;
static CIndexBuffer ib ;
vb . setVertexFormat ( CVertexBuffer : : PositionFlag | CVertexBuffer : : TexCoord0Flag ) ;
vb . setPreferredMemory ( CVertexBuffer : : RAMVolatile , false ) ;
vb . setNumVertices ( ( nbQuads + 1 ) * 2 ) ;
{
CVertexBufferReadWrite vba ;
vb . lock ( vba ) ;
float radius = distance + offcenter ;
float relWidth = width / radius ;
float quadWidth = relWidth / ( float ) nbQuads ;
for ( uint i = 0 ; i < nbQuads + 1 ; + + i )
{
uint vi0 = i * 2 ;
uint vi1 = vi0 + 1 ;
float lineH = - ( relWidth * 0.5f ) + quadWidth * ( float ) i ;
float lineUV = ( float ) i / ( float ) ( nbQuads ) ;
float left = sin ( lineH ) * radius ;
float forward = cos ( lineH ) * radius ;
vba . setVertexCoord ( vi0 , left , forward - offcenter , bottom ) ;
vba . setTexCoord ( vi0 , 0 , lineUV , 0.0f ) ;
vba . setVertexCoord ( vi1 , left , forward - offcenter , top ) ;
vba . setTexCoord ( vi1 , 0 , lineUV , 1.0f ) ;
}
}
ib . setFormat ( NL_DEFAULT_INDEX_BUFFER_FORMAT ) ;
ib . setPreferredMemory ( CIndexBuffer : : RAMVolatile , false ) ;
ib . setNumIndexes ( nbQuads * 6 ) ;
{
CIndexBufferReadWrite iba ;
ib . lock ( iba ) ;
for ( uint i = 0 ; i < nbQuads ; + + i )
{
uint ti0 = i * 2 ;
uint ti1 = ti0 + 1 ;
uint bl = ti0 ;
uint tl = ti0 + 1 ;
uint br = ti0 + 2 ;
uint tr = ti0 + 3 ;
iba . setTri ( ti0 * 3 , bl , tl , br ) ;
iba . setTri ( ti1 * 3 , br , tl , tr ) ;
}
}
IDriver * driver = static_cast < CDriverUser * > ( m_Driver ) - > getDriver ( ) ;
// m_Driver->setPolygonMode(UDriver::Line);
driver - > activeVertexBuffer ( vb ) ;
driver - > activeIndexBuffer ( ib ) ;
driver - > renderTriangles ( * umat . getObjectPtr ( ) , 0 , nbQuads * 2 ) ; //renderRawQuads(umat, 0, 128);
// m_Driver->setPolygonMode(UDriver::Filled);
// m_Driver->drawQuad(quadUV, umat);
m_Driver - > deleteMaterial ( umat ) ;
}
}
/// Returns true if a render target was fully drawn
bool CStereoOVR : : endRenderTarget ( )
{
// after rendering of course
// nlassert(m_SubStage > 1);
// End GUI render target
if ( m_Driver & & m_Stage = = 2 & & ( m_Driver - > getPolygonMode ( ) = = UDriver : : Filled ) )
{
// End GUI render target
nlassert ( m_GUITexture ) ;
CTextureUser texNull ;
( static_cast < CDriverUser * > ( m_Driver ) ) - > setRenderTarget ( texNull ) ;
}
// End of 3D Interface pass left
if ( m_Driver & & m_Stage = = 5 & & ( m_Driver - > getPolygonMode ( ) = = UDriver : : Filled ) )
{
// Render 2D GUI in 3D space, assume existing camera is OK
renderGUI ( ) ;
}
// End of 3D Interface pass right
if ( m_Driver & & m_Stage = = 6 & & ( m_Driver - > getPolygonMode ( ) = = UDriver : : Filled ) )
{
// Render 2D GUI in 3D space, assume existing camera is OK
renderGUI ( ) ;
// Recycle render target
m_Driver - > getRenderTargetManager ( ) . recycleRenderTarget ( m_GUITexture ) ;
m_GUITexture = NULL ;
}
// End 3D scene render target
/*if (m_Driver && m_Stage == 6 && (m_Driver->getPolygonMode() == UDriver::Filled)) // set to 4 to turn off distortion of 2d gui
{
nlassert ( m_SceneTexture ) ;
CTextureUser texNull ;
( static_cast < CDriverUser * > ( m_Driver ) ) - > setRenderTarget ( texNull ) ;
bool fogEnabled = m_Driver - > fogEnabled ( ) ;
m_Driver - > enableFog ( false ) ;
m_Driver - > setMatrixMode2D11 ( ) ;
CViewport vp = CViewport ( ) ;
m_Driver - > setViewport ( vp ) ;
uint32 width , height ;
m_Driver - > getWindowSize ( width , height ) ;
NL3D : : IDriver * drvInternal = ( static_cast < CDriverUser * > ( m_Driver ) ) - > getDriver ( ) ;
NL3D : : CMaterial * barrelMat = m_BarrelMat . getObjectPtr ( ) ;
barrelMat - > setTexture ( 0 , m_SceneTexture - > getITexture ( ) ) ;
drvInternal - > activePixelProgram ( m_PixelProgram ) ;
float w = float ( m_BarrelQuadLeft . V1 . x ) , // / float(width),
h = float ( m_BarrelQuadLeft . V2 . y ) , // / float(height),
x = float ( m_BarrelQuadLeft . V0 . x ) , /// / float(width),
y = float ( m_BarrelQuadLeft . V0 . y ) ; // / float(height);
float lensOffset = m_DevicePtr - > HMDInfo . LensSeparationDistance * 0.5f ;
float lensShift = m_DevicePtr - > HMDInfo . HScreenSize * 0.25f - lensOffset ;
float lensViewportShift = 4.0f * lensShift / m_DevicePtr - > HMDInfo . HScreenSize ;
float lensCenterX = x + ( w + lensViewportShift * 0.5f ) * 0.5f ;
float lensCenterY = y + h * 0.5f ;
float screenCenterX = x + w * 0.5f ;
float screenCenterY = y + h * 0.5f ;
float scaleX = ( w / 2 ) ;
float scaleY = ( h / 2 ) ;
float scaleInX = ( 2 / w ) ;
float scaleInY = ( 2 / h ) ;
drvInternal - > setUniform2f ( IDriver : : PixelProgram ,
m_PixelProgram - > ovrIndices ( ) . LensCenter ,
lensCenterX , lensCenterY ) ;
drvInternal - > setUniform2f ( IDriver : : PixelProgram ,
m_PixelProgram - > ovrIndices ( ) . ScreenCenter ,
screenCenterX , screenCenterY ) ;
drvInternal - > setUniform2f ( IDriver : : PixelProgram ,
m_PixelProgram - > ovrIndices ( ) . Scale ,
scaleX , scaleY ) ;
drvInternal - > setUniform2f ( IDriver : : PixelProgram ,
m_PixelProgram - > ovrIndices ( ) . ScaleIn ,
scaleInX , scaleInY ) ;
drvInternal - > setUniform4fv ( IDriver : : PixelProgram ,
m_PixelProgram - > ovrIndices ( ) . HmdWarpParam ,
1 , m_DevicePtr - > HMDInfo . DistortionK ) ;
m_Driver - > drawQuad ( m_BarrelQuadLeft , m_BarrelMat ) ;
x = w ;
lensCenterX = x + ( w - lensViewportShift * 0.5f ) * 0.5f ;
screenCenterX = x + w * 0.5f ;
drvInternal - > setUniform2f ( IDriver : : PixelProgram ,
m_PixelProgram - > ovrIndices ( ) . LensCenter ,
lensCenterX , lensCenterY ) ;
drvInternal - > setUniform2f ( IDriver : : PixelProgram ,
m_PixelProgram - > ovrIndices ( ) . ScreenCenter ,
screenCenterX , screenCenterY ) ;
m_Driver - > drawQuad ( m_BarrelQuadRight , m_BarrelMat ) ;
drvInternal - > activePixelProgram ( NULL ) ;
m_Driver - > enableFog ( fogEnabled ) ;
// Recycle render target
m_Driver - > getRenderTargetManager ( ) . recycleRenderTarget ( m_SceneTexture ) ;
m_SceneTexture = NULL ;
return true ;
} */
return false ;
}
NLMISC : : CQuat CStereoOVR : : getOrientation ( ) const
{
//if (m_OrientationCached)
return m_OrientationCache ;
/*
OVR : : Quatf quatovr = m_DevicePtr - > SensorFusion . GetPredictedOrientation ( ) ;
NLMISC : : CMatrix coordsys ;
float csys [ ] = {
1.0f , 0.0f , 0.0f , 0.0f ,
0.0f , 0.0f , - 1.0f , 0.0f ,
0.0f , 1.0f , 0.0f , 0.0f ,
0.0f , 0.0f , 0.0f , 1.0f ,
} ;
coordsys . set ( csys ) ;
NLMISC : : CMatrix matovr ;
matovr . setRot ( NLMISC : : CQuat ( quatovr . x , quatovr . y , quatovr . z , quatovr . w ) ) ;
NLMISC : : CMatrix matr ;
matr . rotateX ( NLMISC : : Pi * 0.5f ) ; // fix this properly... :) (note: removing this allows you to use rift while lying down)
NLMISC : : CMatrix matnel = matr * matovr * coordsys ;
NLMISC : : CQuat finalquat = matnel . getRot ( ) ;
m_OrientationCache = finalquat ;
m_OrientationCached = true ;
return finalquat ; */
}
/// Get GUI shift
void CStereoOVR : : getInterface2DShift ( uint cid , float & x , float & y , float distance ) const
{
}
void CStereoOVR : : setEyePosition ( const NLMISC : : CVector & v )
{
m_EyePosition = v ;
}
const NLMISC : : CVector & CStereoOVR : : getEyePosition ( ) const
{
return m_EyePosition ;
}
void CStereoOVR : : setScale ( float s )
{
m_EyePosition = m_EyePosition * ( s / m_Scale ) ;
m_Scale = s ;
}
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void CStereoOVR : : listDevices ( std : : vector < CStereoDeviceInfo > & devicesOut )
{
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if ( ! s_StereoOVRSystem . Init ( ) )
return ;
+ + s_DetectId ;
uint hmdDetect = ovrHmd_Detect ( ) ;
nldebug ( " OVR: Detected %u HMDs " , hmdDetect ) ;
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for ( uint i = 0 ; i < hmdDetect ; + + i )
{
devicesOut . resize ( devicesOut . size ( ) + 1 ) ;
CStereoDeviceInfo & deviceInfoOut = devicesOut [ devicesOut . size ( ) - 1 ] ;
ovrHmd hmd = ovrHmd_Create ( i ) ;
CStereoOVRDeviceFactory * factory = new CStereoOVRDeviceFactory ( ) ;
factory - > DetectId = s_DetectId ;
factory - > DeviceIndex = i ;
factory - > DebugDevice = false ;
deviceInfoOut . Factory = factory ;
deviceInfoOut . Class = CStereoDeviceInfo : : StereoHMD ;
deviceInfoOut . Library = CStereoDeviceInfo : : OVR ;
deviceInfoOut . Manufacturer = hmd - > Manufacturer ;
deviceInfoOut . ProductName = hmd - > ProductName ;
deviceInfoOut . AllowAuto = true ;
deviceInfoOut . Serial = hmd - > SerialNumber ;
ovrHmd_Destroy ( hmd ) ;
}
# if !FINAL_VERSION
// Debug DK1
{
devicesOut . resize ( devicesOut . size ( ) + 1 ) ;
CStereoDeviceInfo & deviceInfoOut = devicesOut [ devicesOut . size ( ) - 1 ] ;
ovrHmd hmd = ovrHmd_CreateDebug ( ovrHmd_DK1 ) ;
CStereoOVRDeviceFactory * factory = new CStereoOVRDeviceFactory ( ) ;
factory - > DebugDevice = true ;
factory - > DebugDeviceType = ovrHmd_DK1 ;
deviceInfoOut . Factory = factory ;
deviceInfoOut . Class = CStereoDeviceInfo : : StereoHMD ;
deviceInfoOut . Library = CStereoDeviceInfo : : OVR ;
deviceInfoOut . Manufacturer = hmd - > Manufacturer ;
deviceInfoOut . ProductName = hmd - > ProductName ;
deviceInfoOut . AllowAuto = false ;
deviceInfoOut . Serial = " OVR-DK1-DEBUG " ;
ovrHmd_Destroy ( hmd ) ;
}
// Debug DK2
{
devicesOut . resize ( devicesOut . size ( ) + 1 ) ;
CStereoDeviceInfo & deviceInfoOut = devicesOut [ devicesOut . size ( ) - 1 ] ;
ovrHmd hmd = ovrHmd_CreateDebug ( ovrHmd_DK2 ) ;
CStereoOVRDeviceFactory * factory = new CStereoOVRDeviceFactory ( ) ;
factory - > DebugDevice = true ;
factory - > DebugDeviceType = ovrHmd_DK2 ;
deviceInfoOut . Factory = factory ;
deviceInfoOut . Class = CStereoDeviceInfo : : StereoHMD ;
deviceInfoOut . Library = CStereoDeviceInfo : : OVR ;
deviceInfoOut . Manufacturer = hmd - > Manufacturer ;
deviceInfoOut . ProductName = hmd - > ProductName ;
deviceInfoOut . AllowAuto = false ;
deviceInfoOut . Serial = " OVR-DK2-DEBUG " ;
ovrHmd_Destroy ( hmd ) ;
}
# endif
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}
bool CStereoOVR : : isLibraryInUse ( )
{
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nlassert ( s_DeviceCounter > = 0 ) ;
return s_DeviceCounter > 0 ;
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}
void CStereoOVR : : releaseLibrary ( )
{
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nlassert ( s_DeviceCounter = = 0 ) ;
s_StereoOVRSystem . Release ( ) ;
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}
bool CStereoOVR : : isDeviceCreated ( )
{
/*return m_DevicePtr->HMDDevice != NULL;*/
return false ;
}
} /* namespace NL3D */
# endif /* HAVE_LIBOVR */
/* end of file */