virtual void operator()( osg::Node *node, osg::NodeVisitor* nv )
{
Transform trans;
mPositionalLight->GetTransform( trans, Transformable::ABS_CS );
osg::Matrix absMatrix;
Transformable::GetAbsoluteMatrix( mPositionalLight->GetMatrixNode(), absMatrix );
osg::Light* osgLight = mPositionalLight->GetLightSource()->getLight();
float x, y, z, h, p, r;
trans.Get( x, y, z, h, p, r);
osg::Vec4 position( x, y, z, 1.0f ); //force positional lighting with w of 1.0f
osgLight->setPosition( position * osg::Matrix::inverse( absMatrix ) );
//note: the actual direction is handled by the Transformable's MatrixNode.
//this just tells the Light that it has a direction.
osgLight->setDirection( osg::Vec3( 0.0f, 1.0f, 0.0f ) );
traverse( node, nv );
}
/**
* Message handler callback.
*
* @param data the message data
*/
void CadworkFlyMotionModel::OnMessage(MessageData* data)
{
Transformable *target = GetTarget();
if (target != NULL && IsEnabled() &&
(data->message == dtCore::System::MESSAGE_POST_EVENT_TRAVERSAL/*MESSAGE_PRE_FRAME*/) &&
// don't move if paused & using simtime for speed (since simtime will be 0 if paused)
(!HasOption(OPTION_USE_SIMTIME_FOR_SPEED) || !System::GetInstance().GetPause()))
{
if(IsMouseGrabbed())
{
// Get the time change (sim time or real time)
double delta = GetTimeDelta(data);
Transform transform;
GetTarget()->GetTransform(transform);
osg::Vec3 xyz, hpr;
transform.Get(xyz, hpr);
// rotation
bool rotationChanged = false;
if(!HasOption(OPTION_REQUIRE_MOUSE_DOWN))
{
hpr = Rotate(hpr, delta, rotationChanged);
if (rotationChanged)
{
transform.SetRotation(hpr);
}
}
// translation
bool translationChanged = false;
xyz = Translate(xyz, delta, translationChanged);
if (translationChanged)
{
transform.SetTranslation(xyz);
}
// homing
if(mHomingButton->GetState())
{
GoToHomePosition();
}
// finalize changes
if (rotationChanged || translationChanged)
{
GetTarget()->SetTransform(transform);
}
}
// release cursor
//if(mCursorReleaseButton->GetState())
//{
// ReleaseMouse();
//}
////grab cursor
//if(mCursorGrabButton->GetState())
//{
// GrabMouse();
//}
/**
* Now some serious work. Below begins the 'animation' of the smooth camera
* movement while zooming (by mouse wheel). First part is rotation when refocusing
* and the second part is changing distance. Default animation duration is 0.4s.
*/
if(mAnimData.isAnimating())
{
double f = (System::GetInstance().GetSimulationTime() - mAnimData._startTime) / mAnimData._motion->getDuration();
f = f<0 ? 0 : f > 1 ? 1 : f; //clamp f into a <0,1> range
float t;
mAnimData._motion->getValueInNormalizedRange(f,t); //gets normalized <0,1> linear value f and turns it into non-lineary interpolated value t also normalized (the function is defined in MathMotionTemplate constructor in AnimationData definition)
/** handle amooth zooming */
if(mAnimData._isZooming)
{
float newdist;
newdist = t * (mAnimData._toDist - mAnimData._fromDist) + mAnimData._fromDist;
Transform trans;
target->GetTransform(trans);
if(mAnimData._isRotating) //rotating while zooming
{
osg::Vec3 xyz,hpr,oldhpr;
trans.Get(xyz,oldhpr);
trans.Set(xyz,mAnimData._toRotation);
trans.Get(xyz,hpr);
float deltaDist = mTmpPrevDistance - newdist;
/*if (newdist < MIN_DISTANCE && (mAnimData._toDist < mAnimData._fromDist))
{
deltaDist = MIN_DISTANCE - GetDistance();
}*/
osg::Vec3 translation (0.0f, deltaDist, 0.0f);
osg::Matrix mat;
dtUtil::MatrixUtil::HprToMatrix(mat, hpr);
translation = osg::Matrix::transform3x3(translation, mat);
xyz += translation;
if(mDistanceShouldChange)
mTmpPrevDistance = newdist;//(mNewCenter-xyz).length();
trans.Set(xyz,oldhpr);
}
else{ //zooming only
osg::Vec3 xyz,hpr;
trans.Get(xyz,hpr);
float deltaDist = mTmpPrevDistance - newdist;
osg::Vec3 translation (0.0f, deltaDist, 0.0f);
osg::Matrix mat;
dtUtil::MatrixUtil::HprToMatrix(mat, hpr);
translation = osg::Matrix::transform3x3(translation, mat);
xyz += translation;
if(mDistanceShouldChange)
mTmpPrevDistance = newdist;
trans.Set(xyz,hpr);
}
target->SetTransform(trans);
}
if(mAnimData._isRotating)
{
osg::Quat newRotation;
newRotation.slerp(f, mAnimData._fromRotation, mAnimData._toRotation);
if(f>=1.)
{
newRotation = mAnimData._toRotation;
}
Transform trans;
target->GetTransform(trans);
osg::Vec3 xyz;
trans.GetTranslation(xyz);
trans.Set(xyz,newRotation);
target->SetTransform(trans);
/** cursor interpolation */
if(mAnimData._interpolateCursor){
float newx, newy;
float x,y;
mMouse->GetPosition(x,y); //get current position in case the user is moving the mouse
float oldx, oldy;
oldx = mAnimData._previousPhase * (mAnimData._toCursor.x() - mAnimData._fromCursor.x());
oldy = mAnimData._previousPhase * (mAnimData._toCursor.y() - mAnimData._fromCursor.y());
newx = f * (mAnimData._toCursor.x() - mAnimData._fromCursor.x());// + x/*mAnimData._fromCursor.x()*/;
newy = f * (mAnimData._toCursor.y() - mAnimData._fromCursor.y());// + y/*mAnimData._fromCursor.y()*/;
float truex, truey;
truex = newx - oldx + x;
truey = newy - oldy + y;
mMouse->SetPosition(truex,truey);
}
}
mAnimData._previousPhase = f;
if(f>=1.)
{
/*Transform trans;
target->GetTransform(trans);
trans.Set(trans.GetTranslation(), mAnimData._toRotation);
target->SetTransform(trans);*/
mAnimData.reset(); //clear all data, set all flags on false => not animating anymore
}
}
}
}
/**
* Called when an axis' state has changed.
*
* @param axis the changed axis
* @param oldState the old state of the axis
* @param newState the new state of the axis
* @param delta a delta value indicating stateless motion
*/
bool OrbitMotionModel::AxisStateChanged(const Axis* axis,
double oldState,
double newState,
double delta)
{
delta = delta * (double)mMouseSensitivity;
if (GetTarget() != 0 && IsEnabled())
{
Transform transform;
GetTarget()->GetTransform(transform);
osg::Vec3 xyz, hpr;
transform.Get(xyz, hpr);
if (axis == mAzimuthAxis.get())
{
osg::Vec3 focus(0.0f, mDistance, 0.0f);
osg::Matrix mat;
transform.Get(mat);
dtUtil::MatrixUtil::TransformVec3(focus, mat);
hpr[0] -= float(delta * mAngularRate);
osg::Vec3 offset(0.0f, -mDistance, 0.0f);
dtUtil::MatrixUtil::PositionAndHprToMatrix(mat, focus, hpr);
dtUtil::MatrixUtil::TransformVec3(xyz, offset, mat);
}
else if (axis == mElevationAxis.get())
{
osg::Vec3 focus( 0.0f, mDistance, 0.0f );
osg::Matrix mat;
transform.Get(mat);
dtUtil::MatrixUtil::TransformVec3(focus, mat);
hpr[1] += float(delta * mAngularRate);
if (hpr[1] < mMinElevationLimit)
{
hpr[1] = mMinElevationLimit;
}
else if (hpr[1] > mMaxElevationLimit)
{
hpr[1] = mMaxElevationLimit;
}
osg::Vec3 offset ( 0.0f, -mDistance, 0.0f );
dtUtil::MatrixUtil::PositionAndHprToMatrix(mat, focus, hpr);
dtUtil::MatrixUtil::TransformVec3(xyz, offset, mat);
}
else if (axis == mDistanceAxis.get())
{
float distDelta = -float(delta * mDistance * mLinearRate);
if (mDistance + distDelta < 1.0f)
{
distDelta = 1.0f - mDistance;
}
osg::Vec3 translation (0.0f, -distDelta, 0.0f);
osg::Matrix mat;
dtUtil::MatrixUtil::HprToMatrix(mat, hpr);
translation = osg::Matrix::transform3x3(translation, mat);
xyz += translation;
mDistance += distDelta;
}
else if (axis == mLeftRightTranslationAxis.get())
{
osg::Vec3 translation
(
-float(delta * mDistance * mLinearRate),
0.0f,
0.0f
);
osg::Matrix mat;
dtUtil::MatrixUtil::HprToMatrix(mat, hpr);
translation = osg::Matrix::transform3x3(translation, mat);
xyz += translation;
}
else if (axis == mUpDownTranslationAxis.get())
{
osg::Vec3 translation
(
0.0f,
0.0f,
-float(delta * mDistance * mLinearRate)
);
osg::Matrix mat;
dtUtil::MatrixUtil::HprToMatrix(mat, hpr);
translation = osg::Matrix::transform3x3(translation, mat);
xyz += translation;
}
transform.Set(xyz, hpr);
GetTarget()->SetTransform(transform);
return true;
}
return false;
}
