Please take a look at the latest updates at the end of the post.
In Particular, see Update 4: the Variant comparison Curse
I’ve already seen mates banging their head against the wall to understand how a variant works, but never imagined that I will have my own bad moment with it.
I have successfully used the following VBA construction:
For i = 1 to i
This works perfectly when
i is an Integer or any numeric type, iterating from 1 to the original value of
i. I do this on occasions where
i is a
ByVal parameter - you might say lazy - to spare myself the declaration of a new variable.
Then I had a bug when this construct “stopped” working as expected. After some hard debugging, I found that it doesn’t work the same way when
i is not declared as explicit numeric type, but a
Variant. The question is twofold:
1- What are the exact semantics of the
For and the
For Each loops? I mean what is the sequence of actions that the compiler undertakes and in which order? For example, does the evaluation of the limit precede the initialization of the counter? Is this limit copied and “fixed” somewhere before the loop starts? Etc. The same question applies to
2- How to explain the different outcomes on variants and on explicit numeric types? Some say a variant is an (immutable) reference type, can this definition explain the observed behavior?
I have prepared an MCVE for different (independent) scenarios involving the
For and the
For Each statements, combined with integers, variants and objects. The surprising results urge for defining unambiguously the semantics or, for the least, check if those results do conform to the defined semantics.
All insights are welcome, including partial ones that explain some of the surprising results or their contradictions.
Sub testForLoops() Dim i As Integer, v As Variant, vv As Variant, obj As Object, rng As Range Debug.Print vbCrLf & "Case1 i --> i ", i = 4 For i = 1 To i Debug.Print i, ' 1, 2, 3, 4 Next Debug.Print vbCrLf & "Case2 i --> v ", v = 4 For i = 1 To v ' (same if you use a variant counter: For vv = 1 to v) v = i - 1 ' <-- doesn't affect the loop's outcome Debug.Print i, ' 1, 2, 3, 4 Next Debug.Print vbCrLf & "Case3 v-3 <-- v ", v = 4 For v = v To v - 3 Step -1 Debug.Print v, ' 4, 3, 2, 1 Next Debug.Print vbCrLf & "Case4 v --> v-0 ", v = 4 For v = 1 To v - 0 Debug.Print v, ' 1, 2, 3, 4 Next ' So far so good? now the serious business Debug.Print vbCrLf & "Case5 v --> v ", v = 4 For v = 1 To v Debug.Print v, ' 1 (yes, just 1) Next Debug.Print vbCrLf & "Testing For-Each" Debug.Print vbCrLf & "Case6 v in v", v = Array(1, 1, 1, 1) i = 1 ' Any of the Commented lines below generates the same RT error: 'For Each v In v ' "This array is fixed or temporarily locked" For Each vv In v 'v = 4 'ReDim Preserve v(LBound(v) To UBound(v)) If i < UBound(v) Then v(i + 1) = i + 1 ' so we can alter the entries in the array, but not the array itself i = i + 1 Debug.Print vv, ' 1, 2, 3, 4 Next Debug.Print vbCrLf & "Case7 obj in col", Set obj = New Collection: For i = 1 To 4: obj.Add Cells(i, i): Next For Each obj In obj Debug.Print obj.Column, ' 1 only ? Next Debug.Print vbCrLf & "Case8 var in col", Set v = New Collection: For i = 1 To 4: v.Add Cells(i, i): Next For Each v In v Debug.Print v.column, ' nothing! Next ' Excel Range Debug.Print vbCrLf & "Case9 range as var", ' Same with collection? let's see Set v = Sheet1.Range("A1:D1") ' .Cells ok but not .Value => RT err array locked For Each v In v ' (implicit .Cells?) Debug.Print v.Column, ' 1, 2, 3, 4 Next ' Amazing for Excel, no need to declare two vars to iterate over a range Debug.Print vbCrLf & "Case10 range in range", Set rng = Range("A1:D1") '.Cells.Cells add as many as you want For Each rng In rng ' (another implicit .Cells here?) Debug.Print rng.Column, ' 1, 2, 3, 4 Next End Sub
An interesting observation that can help understanding some of this. Concerning cases 7 and 8: if we hold another reference on the collection being iterated, the behavior changes completely:
Debug.Print vbCrLf & "Case7 modified", Set obj = New Collection: For i = 1 To 4: obj.Add Cells(i, i): Next Dim obj2: set obj2 = obj ' <-- This changes the whole thing !!! For Each obj In obj Debug.Print obj.Column, ' 1, 2, 3, 4 Now !!! Next
This means that in the initial case7 the collection being iterated was garbage-collected (due to reference counting) just after the variable
obj was assigned to the first element of the collection. But this is still weird though. The compiler should have held some hidden reference on the object being iterated!? Compare this to case 6 where the array being iterated was "locked"...
The semantics of the
For statement as defined by MSDN can be found on this page. You can see that it is explicitly stated that the
end-value should be evaluated only once and before the execution of the loop proceeds. Should we consider this odd behavior as a compiler bug?
The intriguing case 7 again. The counter-intuitive behavior of case7 is not restricted to the (say unusual) iteration of a variable on itself. It may happen in a seemingly "innocent" code that, by mistake removes the only reference on the collection being iterated, leading to its garbage collection.
Debug.Print vbCrLf & "Case7 Innocent" Dim col As New Collection, member As Object, i As Long For i = 1 To 4: col.Add Cells(i, i): Next Dim someCondition As Boolean ' say some business rule that says change the col For Each member In col someCondition = True If someCondition Then Set col = Nothing ' or New Collection ' now GC has killed the initial collection while being iterated ' If you had maintained another reference on it somewhere, the behavior would've been "normal" Debug.Print member.Column, ' 1 only Next
By intuition one expects that some hidden reference is held on the collection to stay alive during iteration. Not only it doesn't, but the program runs smoothly with no run-time error, leading probably to hard bugs. While the spec does not state any rule about manipulating objects under iteration, the implementation happens to protect and lock iterated Arrays (case 6) but neglects - doesn't even hold a dummy reference - on a collection (neither on a Dictionary, I've tested that also).
It's the responsibility of the programmer to care about the reference counting, which is not the "spirit" of VBA/VB6 and the architectural motivations behind reference counting.
UPDATE 4: The Variant Comparison Curse
Variants exhibit weird behaviors in many situations. In particular, comparing two Variants of different sub-types yields undefined results. Consider these simple examples:
Sub Test1() Dim x, y: x = 30: y = "20" Debug.Print x > y ' False !! End Sub Sub Test2() Dim x As Long, y: x = 30: y = "20" ' ^^^^^^^^ Debug.Print x > y ' True End Sub Sub Test3() Dim x, y As String: x = 30: y = "20" ' ^^^^^^^^^ Debug.Print x > y ' True End Sub
As you can see, when both variables, the number and the string, were declared variants, the comparison is undefined. When at least one of them is explicitly typed, the comparison succeeds.
The same occurs when comparing for equality! For instance,
?2="2" returns True, but if you define two
Variant variables, assign them those values and compare them, the comparison fails!
Sub Test4() Debug.Print 2 = "2" ' True Dim x, y: x = 2: y = "2" Debug.Print x = y ' False ! End Sub