No object can be garbage-collected while it is recognized as existing. An object will exist in .NET for as along as any reference to it exists or it has a registered finalizer, and will cease to exist once neither condition applies. References in objects will exist as long as the objects themselves exist, and references in automatic variables will exist as long as there is any means via which they will be observed. If the garbage collector detects that the only references to an object with no registered finalizer are held in weak references, those references will be destroyed, causing the object to cease to exist. If the garbage collector detects that the only references to an object with a registered finalizer are held in weak references, any weak references whose "track resurrection" property is false, a reference to the object will be placed in a strongly-rooted list of objects needing "immediate" finalization, and the finalizer will be unregistered (thus allowing it to cease to exist if and when the finalizer reaches a point in execution where no reference to the object could ever be observed).
Note that some sources confuse the triggering of an object's finalizer with garbage-collection, but an object whose finalizer is triggered is guaranteed to continue to exist for at least as long as that finalizer takes to execute, and may continue to exist indefinitely if any references to it exist when the finalizer finishes execution.
In your example, there are three scenarios that could apply, depending upon what
CountThings does with the passed-in reference:
CountThings does not store a copy of the reference anywhere, or any copies of references that it does store get overwritten before
input gets overwritten, then it will cease to exist as soon as
input gets overwritten or ceases to exist [automatic-duration variables may cease to exist any time a compiler determines that their value will no longer be observed].
CountThings stores a copy of the reference somewhere that continues to exist after it returns, and the last extant reference is held by something other than a weak reference, then the object will cease to exist as soon as the last reference is destroyed.
If the last existing reference the array ends up being held in a weak reference, the array will continue to exist until the first GC cycle where that is the case, whereupon the weak reference will be cleared, causing the array to cease to exist. Note that the lack of non-weak references to the array will only be relevant when a GC cycle occurs. It is possible (and not particularly uncommon) for a program to store a copy of a reference into a
ConditionalWeakTable, or other object holding some form of weak reference, destroy all other copies, and then read out the weak reference to produce a non-weak copy of the reference before the next GC cycle. If that occurs, the system will neither know nor care that there was a time when non non-weak copies of the reference existed. If the GC cycle occurs before the reference gets read out, however, then code which later examines the weak reference will find it blank.
A key observation is that while finalizers and weak references complicate things slightly, the only way in which the GC destroys objects is by invalidating weak forms of references. As far as the GC is concerned, the only kinds of storage that exist when the system isn't actually performing a GC cycle are those used by objects that exist, those used for .NET's internal purposes, and regions of storage that are available to satisfy future allocations. If an object is created, the storage it occupied will cease to be a region of storage available for future allocations. If the object later ceases to exist, the storage that had contained the object will also cease to exist in any form the GC knows about until the next GC cycle. The next GC cycle won't destroy the object (which had already ceased to exist), but will instead add the storage which had contained it back to its list of areas that are available to add future allocations (causing that storage to exist again).