/*
============
idQuat::ToAngularVelocity
============
*/
Vec3D idQuat::ToAngularVelocity( void ) const {
Vec3D vec;
vec.x = x;
vec.y = y;
vec.z = z;
vec.Normalize();
return vec * Float_ACos( w );
}
vfloat CVX_Sim::GetSumForceDir(CVX_FRegion* pRegion)
{
//right now only fixed regions... (forced regions should be zero!)
//get force only in dircetion of pull!
Vec3D<> Res = GetSumForce(pRegion);
Vec3D<> Dir = pRegion->Displace;
if (Dir.Length2() == 0) return Res.Length(); //return magnitude of no direction...
else {
Dir.Normalize();
return Res.Dot(Dir);
}
}
/*
=====================
idQuat::ToRotation
=====================
*/
Rotation idQuat::ToRotation( void ) const {
Vec3D vec;
FLOAT angle;
vec.x = x;
vec.y = y;
vec.z = z;
angle = Float_ACos( w );
if ( angle == 0.0f ) {
vec.Set( 0.0f, 0.0f, 1.0f );
} else {
//vec *= (1.0f / sin( angle ));
vec.Normalize();
vec.FixDegenerateNormal();
angle *= 2.0f * mxRAD2DEG;
}
return Rotation( Vec3D::vec3_zero, vec, angle );
}
void EdGizmo::OnMouseMove( const EdSceneViewport& viewport, const SMouseMoveEvent& args )
{
AHitProxy* pHitProxy = viewport.objAtCursor;
const bool bHighlightObjects = true;
if( bHighlightObjects )
{
if( pHitProxy != nil )
{
APlaceable* pPlaceable = pHitProxy->IsPlaceable();
m_hightlighted = pPlaceable;
HGizmoAxis* pHGizmoAxis = SafeCast<HGizmoAxis>( pHitProxy );
if( pHGizmoAxis != nil )
{
m_highlightedAxes = pHGizmoAxis->axis;
}
else
{
m_highlightedAxes = EGizmoAxis::GizmoAxis_None;
}
}
else
{
m_hightlighted = nil;
}
}
if( viewport.IsDraggingMouse() && m_selected != nil )
{
// gizmo pick point, in screen space
Vec2D pickPosNDC;
PointToNDC( viewport, viewport.dragStartPosition.x(), viewport.dragStartPosition.y(), pickPosNDC );
//DBGOUT("pickPosNDC: %f, %f\n",pickPosNDC.x,pickPosNDC.y);
Vec2D currPosNDC;
PointToNDC( viewport, args.mouseX, args.mouseY, currPosNDC );
//DBGOUT("currPosNDC: %f, %f\n",currPosNDC.x,currPosNDC.y);
// we need to convert screen space delta to world space movement
Vec2D deltaNDC = currPosNDC - pickPosNDC;
//dbgout << "delta=" << deltaNDC << dbgout.NewLine();
switch( m_currentMode )
{
case EGizmoMode::Gizmo_Translate :
if( m_currentAxis == GizmoAxis_None )
{
return;
}
if( m_currentAxis == GizmoAxis_All )
{
L_TranslateAll:
const rxView& eye = viewport.GetView();
Ray3D pickRay = GetEyeRay( viewport, currPosNDC );
FLOAT prevDist = (m_oldState.translation - eye.origin).LengthSqr();
if( prevDist < VECTOR_EPSILON )
{
return;
}
prevDist = mxSqrt(prevDist);
Vec3D newEntityPos = eye.origin + pickRay.direction * prevDist;
m_selected->SetOrigin( newEntityPos );
}
else
{
Vec3D gizmoPickPos = F_Get_Translation_Gizmo_Pick_Point_In_World_Space( viewport, pickPosNDC, m_selected, m_currentAxis );
//Vec3D centerOfGizmo = m_selected->GetOrigin();
Vec3D pointOnGizmo = F_Get_Translation_Gizmo_Pick_Point_In_World_Space( viewport, currPosNDC, m_selected, m_currentAxis );
Vec3D translationDelta = pointOnGizmo - gizmoPickPos;
const FLOAT MAX_TRANSLATION_DIST = 100.0f;
translationDelta.Clamp(Vec3D(-MAX_TRANSLATION_DIST),Vec3D(MAX_TRANSLATION_DIST));
Vec3D newEntityPos = m_oldState.translation + translationDelta;
m_selected->SetOrigin( newEntityPos );
}
break;
case EGizmoMode::Gizmo_Scale :
if( m_currentAxis == GizmoAxis_All )
{
goto L_TranslateAll;
}
else
{
//dbgout << "Scaling\n";
FLOAT mag = deltaNDC.LengthFast();
FLOAT newEntityScale = m_oldState.scaleFactor + mag * signf(deltaNDC.x);
newEntityScale = maxf(newEntityScale,0.01f);
m_selected->SetScale( newEntityScale );
}
break;
case EGizmoMode::Gizmo_Rotate :
//if( m_currentAxis == GizmoAxis_None )
//{
// return false;
//}
if( m_currentAxis == GizmoAxis_All )
{
goto L_TranslateAll;
}
else
{
//dbgout << "Rotating\n";
mxUNDONE;
static FLOAT ROT_ARC_RADIUS = 1.0f;
HOT_FLOAT(ROT_ARC_RADIUS);
// starting point of rotation arc
Vec3D vDownPt = ConvertScreenPointToVector(
viewport,
viewport.dragStartPosition.x(), viewport.dragStartPosition.y(),
ROT_ARC_RADIUS
);
// current point of rotation arc
Vec3D vCurrPt = ConvertScreenPointToVector(
viewport,
args.mouseX, args.mouseY,
ROT_ARC_RADIUS
);
#if 0
Quat qRot = QuatFromBallPoints( vDownPt, vCurrPt );
qRot.Normalize();
#else
Vec3D axis = Cross( vDownPt, vCurrPt );
axis.Normalize();
F4 angle = AngleBetween( vDownPt, vCurrPt );
Quat qRot( axis, angle );
qRot.Normalize();
#endif
Quat q = qRot * m_oldState.orientation;
q.Normalize();
m_selected->SetOrientation(q);
}
break;
mxNO_SWITCH_DEFAULT;
}
}
}
