It does not work in general with anything inheriting from
?. operators work on a
object) level while Unity's
== operator works on a
It is bypassed due to how they internally implemented the
!= method differently. See Custom == operator, should we keep it?
ReSharper explained it pretty well in Possible unintended bypass of lifetime check of underlying Unity engine object
This warning is shown if a type deriving from
UnityEngine.Object uses either the null coalescing (
??) or null propagation or conditional (
?.) operators. These operators do not use the custom equality operators declared on
UnityEngine.Object, and so bypass a check to see if the underlying native Unity engine object has been destroyed. An explicit
null or boolean comparison, or a call to
System.Object.ReferenceEquals() is preferred in order to clarify intent.
UnityEngine.Object is in some occasions not really
null but still keeps some meta data. So the underlying
System.Object) is not
== operator just returns
The reason for this: The
UnityEngine.Object is just the developer API layer on top of the actual underlying
c++ engine code. The custom
implicit bool operator both basically boil down to
static bool CompareBaseObjects(UnityEngine.Object lhs, UnityEngine.Object rhs)
bool lhsNull = ((object)lhs) == null;
bool rhsNull = ((object)rhs) == null;
if (rhsNull && lhsNull) return true;
if (rhsNull) return !IsNativeObjectAlive(lhs);
if (lhsNull) return !IsNativeObjectAlive(rhs);
return lhs.m_InstanceID == rhs.m_InstanceID;
static bool IsNativeObjectAlive(UnityEngine.Object o)
if (o.GetCachedPtr() != IntPtr.Zero)
//Ressurection of assets is complicated.
//For almost all cases, if you have a c# wrapper for an asset like a material,
//if the material gets moved, or deleted, and later placed back, the persistentmanager
//will ensure it will come back with the same instanceid.
//in this case, we want the old c# wrapper to still "work".
//we only support this behaviour in the editor, even though there
//are some cases in the player where this could happen too. (when unloading things from assetbundles)
//supporting this makes all operator== slow though, so we decided to not support it in the player.
//we have an exception for assets that "are" a c# object, like a MonoBehaviour in a prefab, and a ScriptableObject.
//in this case, the asset "is" the c# object, and you cannot actually pretend
//the old wrapper points to the new c# object. this is why we make an exception in the operator==
//for this case. If we had a c# wrapper to a persistent monobehaviour, and that one gets
//destroyed, and placed back with the same instanceID, we still will say that the old
//c# object is null.
if (o is MonoBehaviour || o is ScriptableObject)
background calls into the native engine code where the actual instances of those objcts are handled and their lifecycle controlled. So e.g. after
Destroy an object, in the native
c++ engine the object is already marked as destroyed and the custom
bool operator already return
UnityEngine.Object still exists though until it is actually garbage collected (usually at the end of the frame but there is no real guarantee for that either).
The main reason why therefore things like
_tickIcon?.gameObjct throw a
NullReferenceException is that the
?. operator only directly works on the underlying
System.Object) while the
UnityEngine.Object works with their custom implementation on a different level.
you will note that you don't get a normal
NullReferenceException which would be the case if it were actually
null but rather get a Unity customs
MissingReferenceException telling you a probable reason for why the exception was thrown.
Long story short: As solution
UnityEngine.Object has the implicit
Does the object exist?
You should always check the existence of anything derived from
UnityEngine.Object like this:
or explicit (as this will use the custom
if(_tickIcon != null)