void PhysicsObject::SetLocalX(float aX, double aDuration, EasingFunction aEasingFunction, bool aReverse, int aRepeatCount)
{
if(aDuration == 0.0)
{
//Set the x position
m_Position.x = aX;
//Set the transform bit in the update flags
m_UpdateFlags |= PhysicsUpdateTransform;
}
else
{
if(GetLocalX() != aX)
{
m_TweenLocalX.Set(GetLocalX(), aX, aDuration, aEasingFunction, aReverse, aRepeatCount);
}
}
}
vec2 Tile::GetCenter(bool aWorldPosition)
{
if(aWorldPosition == true)
{
return vec2(GetWorldX() + (GetSize() / 2), GetWorldY() + (GetSize() / 2));
}
return vec2(GetLocalX() + (GetSize() / 2), GetLocalY() + (GetSize() / 2));
}
INLINE void Button::UpdateLabel()
{
if (bLabelAutoUpdate)
{
cLabel.SetRotation(GetRotation());
cLabel.SetScaleX(GetScaleX());
cLabel.SetScaleY(GetScaleY());
cLabel.SetLocalX(GetLocalX());
cLabel.SetLocalY(GetLocalY());
}
cLabel.SetY(0.0f);
switch (eLabelVAlignment)
{
case VerticalAlignTop:
{
}
break;
case VerticalAlignCenter:
{
cLabel.SetY((this->GetHeight() - cLabel.GetHeight()) / 2.0f);
}
break;
case VerticalAlignBottom:
{
cLabel.SetY(this->GetHeight() - cLabel.GetHeight());
}
break;
default:
cLabel.SetY(fLabelOffsetY);
break;
}
cLabel.SetX(0.0f);
switch (eLabelHAlignment)
{
case HorizontalAlignLeft:
{
}
break;
case HorizontalAlignCenter:
{
cLabel.SetX((this->GetWidth() - cLabel.GetWidth()) / 2.0f);
}
break;
case HorizontalAlignRight:
{
cLabel.SetX(this->GetWidth() - cLabel.GetWidth());
}
break;
default:
cLabel.SetX(fLabelOffsetX);
break;
}
}
