virtual void renderScene()
{
if (m_options == eCLIENTEXAMPLE_SERVER)
{
m_physicsServer.renderScene();
}
b3DebugLines debugLines;
b3GetDebugLines(m_physicsClientHandle,&debugLines);
int numLines = debugLines.m_numDebugLines;
int lineWidth = 1;
if (1)
{
btAlignedObjectArray<btVector3FloatData> points;
points.resize(numLines*2);
btAlignedObjectArray<unsigned int> indices;
indices.resize(numLines*2);
for (int i=0;i<numLines;i++)
{
points[i*2].m_floats[0] = debugLines.m_linesFrom[i*3+0];
points[i*2].m_floats[1] = debugLines.m_linesFrom[i*3+1];
points[i*2].m_floats[2] = debugLines.m_linesFrom[i*3+2];
points[i*2+1].m_floats[0] = debugLines.m_linesTo[i*3+0];
points[i*2+1].m_floats[1] = debugLines.m_linesTo[i*3+1];
points[i*2+1].m_floats[2] = debugLines.m_linesTo[i*3+2];
indices[i*2] = i*2;
indices[i*2+1] = i*2+1;
}
float color[4] = {0.2,0.2,1,1};
if (points.size() && indices.size())
{
m_guiHelper->getRenderInterface()->drawLines(&points[0].m_floats[0],color,points.size(),sizeof(btVector3FloatData),&indices[0],indices.size(),lineWidth);
}
} else
{
for (int i=0;i<numLines;i++)
{
m_guiHelper->getRenderInterface()->drawLine(debugLines.m_linesFrom,debugLines.m_linesTo,debugLines.m_linesColor,lineWidth);
}
}
}
void PhysicsServerExample::renderScene()
{
B3_PROFILE("PhysicsServerExample::RenderScene");
static char line0[1024];
static char line1[1024];
if (gEnableRealTimeSimVR)
{
static int frameCount=0;
static btScalar prevTime = m_clock.getTimeSeconds();
frameCount++;
static btScalar worseFps = 1000000;
int numFrames = 200;
static int count = 0;
count++;
if (0 == (count & 1))
{
btScalar curTime = m_clock.getTimeSeconds();
btScalar fps = 1. / (curTime - prevTime);
prevTime = curTime;
if (fps < worseFps)
{
worseFps = fps;
}
if (count > numFrames)
{
count = 0;
sprintf(line0, "fps:%f frame:%d", worseFps, frameCount / 2);
sprintf(line1, "drop:%d tscale:%f dt:%f, substep %f)", gDroppedSimulationSteps, simTimeScalingFactor,gDtInSec, gSubStep);
gDroppedSimulationSteps = 0;
worseFps = 1000000;
}
}
#ifdef BT_ENABLE_VR
if ((gInternalSimFlags&2 ) && m_tinyVrGui==0)
{
ComboBoxParams comboParams;
comboParams.m_comboboxId = 0;
comboParams.m_numItems = 0;
comboParams.m_startItem = 0;
comboParams.m_callback = 0;//MyComboBoxCallback;
comboParams.m_userPointer = 0;//this;
m_tinyVrGui = new TinyVRGui(comboParams,this->m_multiThreadedHelper->m_childGuiHelper->getRenderInterface());
m_tinyVrGui->init();
}
if (m_tinyVrGui)
{
b3Transform tr;tr.setIdentity();
tr.setOrigin(b3MakeVector3(gVRController2Pos[0],gVRController2Pos[1],gVRController2Pos[2]));
tr.setRotation(b3Quaternion(gVRController2Orn[0],gVRController2Orn[1],gVRController2Orn[2],gVRController2Orn[3]));
tr = tr*b3Transform(b3Quaternion(0,0,-SIMD_HALF_PI),b3MakeVector3(0,0,0));
b3Scalar dt = 0.01;
m_tinyVrGui->clearTextArea();
m_tinyVrGui->grapicalPrintf(line0,0,0,0,0,0,255);
m_tinyVrGui->grapicalPrintf(line1,0,16,255,255,255,255);
m_tinyVrGui->tick(dt,tr);
}
#endif//BT_ENABLE_VR
}
///debug rendering
//m_args[0].m_cs->lock();
//gVRTeleportPos[0] += 0.01;
vrOffset[12]=-gVRTeleportPos[0];
vrOffset[13]=-gVRTeleportPos[1];
vrOffset[14]=-gVRTeleportPos[2];
this->m_multiThreadedHelper->m_childGuiHelper->getRenderInterface()->
getActiveCamera()->setVRCameraOffsetTransform(vrOffset);
m_physicsServer.renderScene();
for (int i=0;i<MAX_VR_CONTROLLERS;i++)
{
if (m_args[0].m_isVrControllerPicking[i] || m_args[0].m_isVrControllerDragging[i])
{
btVector3 from = m_args[0].m_vrControllerPos[i];
btMatrix3x3 mat(m_args[0].m_vrControllerOrn[i]);
btVector3 toX = from+mat.getColumn(0);
btVector3 toY = from+mat.getColumn(1);
btVector3 toZ = from+mat.getColumn(2);
int width = 2;
btVector4 color;
color=btVector4(1,0,0,1);
m_guiHelper->getAppInterface()->m_renderer->drawLine(from,toX,color,width);
color=btVector4(0,1,0,1);
m_guiHelper->getAppInterface()->m_renderer->drawLine(from,toY,color,width);
color=btVector4(0,0,1,1);
m_guiHelper->getAppInterface()->m_renderer->drawLine(from,toZ,color,width);
}
}
if (m_guiHelper->getAppInterface()->m_renderer->getActiveCamera()->isVRCamera())
{
gEnableRealTimeSimVR = true;
}
if (gDebugRenderToggle)
if (m_guiHelper->getAppInterface()->m_renderer->getActiveCamera()->isVRCamera())
{
B3_PROFILE("Draw Debug HUD");
//some little experiment to add text/HUD to a VR camera (HTC Vive/Oculus Rift)
float pos[4];
m_guiHelper->getAppInterface()->m_renderer->getActiveCamera()->getCameraTargetPosition(pos);
pos[0]+=gVRTeleportPos[0];
pos[1]+=gVRTeleportPos[1];
pos[2]+=gVRTeleportPos[2];
btTransform viewTr;
btScalar m[16];
float mf[16];
m_guiHelper->getAppInterface()->m_renderer->getActiveCamera()->getCameraViewMatrix(mf);
for (int i=0;i<16;i++)
{
m[i] = mf[i];
}
m[12]=+gVRTeleportPos[0];
m[13]=+gVRTeleportPos[1];
m[14]=+gVRTeleportPos[2];
viewTr.setFromOpenGLMatrix(m);
btTransform viewTrInv = viewTr.inverse();
btVector3 side = viewTrInv.getBasis().getColumn(0);
btVector3 up = viewTrInv.getBasis().getColumn(1);
btVector3 fwd = viewTrInv.getBasis().getColumn(2);
float upMag = 0;
float sideMag = 2.2;
float fwdMag = -4;
m_guiHelper->getAppInterface()->drawText3D(line0,pos[0]+upMag*up[0]-sideMag*side[0]+fwdMag*fwd[0],pos[1]+upMag*up[1]-sideMag*side[1]+fwdMag*fwd[1],pos[2]+upMag*up[2]-sideMag*side[2]+fwdMag*fwd[2],1);
//btVector3 fwd = viewTrInv.getBasis().getColumn(2);
up = viewTrInv.getBasis().getColumn(1);
upMag = -0.3;
m_guiHelper->getAppInterface()->drawText3D(line1,pos[0]+upMag*up[0]-sideMag*side[0]+fwdMag*fwd[0],pos[1]+upMag*up[1]-sideMag*side[1]+fwdMag*fwd[1],pos[2]+upMag*up[2]-sideMag*side[2]+fwdMag*fwd[2],1);
}
//m_args[0].m_cs->unlock();
}
virtual void renderScene()
{
m_physicsServer.renderScene();
}
void PhysicsServerExample::renderScene()
{
#if 0
///little VR test to follow/drive Husky vehicle
if (gHuskyId >= 0)
{
gVRTeleportPos1 = huskyTr.getOrigin();
gVRTeleportOrn = huskyTr.getRotation();
}
#endif
B3_PROFILE("PhysicsServerExample::RenderScene");
drawUserDebugLines();
if (gEnableRealTimeSimVR)
{
static int frameCount=0;
static btScalar prevTime = m_clock.getTimeSeconds();
frameCount++;
static btScalar worseFps = 1000000;
int numFrames = 200;
static int count = 0;
count++;
#if 0
if (0 == (count & 1))
{
btScalar curTime = m_clock.getTimeSeconds();
btScalar fps = 1. / (curTime - prevTime);
prevTime = curTime;
if (fps < worseFps)
{
worseFps = fps;
}
if (count > numFrames)
{
count = 0;
sprintf(line0, "fps:%f frame:%d", worseFps, frameCount / 2);
sprintf(line1, "drop:%d tscale:%f dt:%f, substep %f)", gDroppedSimulationSteps, simTimeScalingFactor,gDtInSec, gSubStep);
gDroppedSimulationSteps = 0;
worseFps = 1000000;
}
}
#endif
#ifdef BT_ENABLE_VR
if ((gInternalSimFlags&2 ) && m_tinyVrGui==0)
{
ComboBoxParams comboParams;
comboParams.m_comboboxId = 0;
comboParams.m_numItems = 0;
comboParams.m_startItem = 0;
comboParams.m_callback = 0;//MyComboBoxCallback;
comboParams.m_userPointer = 0;//this;
m_tinyVrGui = new TinyVRGui(comboParams,this->m_multiThreadedHelper->m_childGuiHelper->getRenderInterface());
m_tinyVrGui->init();
}
if (m_tinyVrGui)
{
b3Transform tr;tr.setIdentity();
tr.setOrigin(b3MakeVector3(gVRController2Pos[0],gVRController2Pos[1],gVRController2Pos[2]));
tr.setRotation(b3Quaternion(gVRController2Orn[0],gVRController2Orn[1],gVRController2Orn[2],gVRController2Orn[3]));
tr = tr*b3Transform(b3Quaternion(0,0,-SIMD_HALF_PI),b3MakeVector3(0,0,0));
b3Scalar dt = 0.01;
m_tinyVrGui->clearTextArea();
static char line0[1024];
static char line1[1024];
m_tinyVrGui->grapicalPrintf(line0,0,0,0,0,0,255);
m_tinyVrGui->grapicalPrintf(line1,0,16,255,255,255,255);
m_tinyVrGui->tick(dt,tr);
}
#endif//BT_ENABLE_VR
}
///debug rendering
//m_args[0].m_cs->lock();
//gVRTeleportPos[0] += 0.01;
btTransform tr2a, tr2;
tr2a.setIdentity();
tr2.setIdentity();
tr2.setOrigin(gVRTeleportPos1);
tr2a.setRotation(gVRTeleportOrn);
btTransform trTotal = tr2*tr2a;
btTransform trInv = trTotal.inverse();
btMatrix3x3 vrOffsetRot;
vrOffsetRot.setRotation(trInv.getRotation());
for (int i = 0; i < 3; i++)
{
for (int j = 0; j < 3; j++)
{
vrOffset[i + 4 * j] = vrOffsetRot[i][j];
}
}
vrOffset[12]= trInv.getOrigin()[0];
vrOffset[13]= trInv.getOrigin()[1];
vrOffset[14]= trInv.getOrigin()[2];
this->m_multiThreadedHelper->m_childGuiHelper->getRenderInterface()->
getActiveCamera()->setVRCameraOffsetTransform(vrOffset);
m_physicsServer.renderScene();
for (int i=0;i<MAX_VR_CONTROLLERS;i++)
{
if (m_args[0].m_isVrControllerPicking[i] || m_args[0].m_isVrControllerDragging[i])
{
btVector3 from = m_args[0].m_vrControllerPos[i];
btMatrix3x3 mat(m_args[0].m_vrControllerOrn[i]);
btVector3 toX = from+mat.getColumn(0);
btVector3 toY = from+mat.getColumn(1);
btVector3 toZ = from+mat.getColumn(2);
int width = 2;
btVector4 color;
color=btVector4(1,0,0,1);
m_guiHelper->getAppInterface()->m_renderer->drawLine(from,toX,color,width);
color=btVector4(0,1,0,1);
m_guiHelper->getAppInterface()->m_renderer->drawLine(from,toY,color,width);
color=btVector4(0,0,1,1);
m_guiHelper->getAppInterface()->m_renderer->drawLine(from,toZ,color,width);
}
}
if (m_guiHelper->getAppInterface()->m_renderer->getActiveCamera()->isVRCamera())
{
if (!gEnableRealTimeSimVR)
{
gEnableRealTimeSimVR = true;
m_physicsServer.enableRealTimeSimulation(1);
}
}
//m_args[0].m_cs->unlock();
}
void PhysicsServerExample::renderScene()
{
///debug rendering
m_physicsServer.renderScene();
}