This has me utterly baffled.

Sub testChangeBoolean()
  Dim X As Boolean       ' default value is False
  X = True               ' X is now True
  X = Not X              ' X is back to False
End Sub

But I'm trying to toggle the .FitText property in a table cell (in Word). .FitText starts as True.

If I assign it to X:

Sub testChangeBoolean()
  Dim X As Boolean                  ' again, default is False
  X = Selection.Cells(1).FitText    ' does set X to True
  X = Not X                         ' X is still True!
End Sub

I just don't understand what I'm doing wrong.

  • Replying to the closing as duplicate by a gold badge: While the other question discusses when Not does not work as expected, it does not handle the why behind the behavior here: The Word object model is not behaving according to the rules of VBA. A discussion of that aspect is completely missing in the question linked as a duplicate. – Cindy Meister Dec 13 '19 at 19:28
  • 2
    @Cindy The "why" is exactly the same in both cases. This is a classic problem with Visual Basic as well as VBA. False is 0 (all bits clear), and True is defined as Not False, which means -1 (all bits set).Causes WinAPI interop issues, too. Any non-zero value is treated as True, so it's only a problem if you start manipulating bits without understanding what;s happening, compounded by the lack of a distinction between bitwise/logical operators. I don't see the merit in re-opening this when the root cause and the solution are fundamentally identical. – Cody Gray Dec 13 '19 at 23:37
  • @CindyMeister If it had not already been explained here that it's the Word object model that generates a malformed Boolean, I would have added that as a comment in addition to voting to close. But because there already was a great answer explaining it, I did not have to. The underlying reason is identical, like Cody Gray mentioned, and in addition to that, I see closing as duplicate as a way to link helpful questions together rather than to punish the later asker. – GSerg Dec 14 '19 at 0:12

I believe the explanation has to do with how older programming languages (WordBasic and early VBA) stored the integer values of True and False. In those days, True = -1 and False = 0.

Newer programming languages still use 0 for False, but 1 for True.

The majority of Word's Boolean type properties continue to use -1 for True (Font.Bold, for example), which has been cause for confusion and frustration for programmers working with the Interop in newer languages. So, at some point, some developers at Microsoft decided to use the new way and assigned the integer value of 1 to True for some new functionality. Such as FitText.

Considering the following code sample, where X is of type Boolean and y of type Integer:

  • If FitText is True, the integer value is 1
  • If reversing the values, using Not shows that the Boolean remains "True" because its integer value is not 0, it's -2
  • Setting the integer value directly to True gives -1

This is confusing, indeed, but does explain why Not is not giving the expected result.

Sub testChangeBoolean()
  Dim X As Boolean                  ' again, default is False
  Dim Y As Integer
  X = Selection.Cells(1).FitText    ' does set X to True
  Y = Selection.Cells(1).FitText
  Debug.Print X, Y                  ' result: True    1
  X = Not X                         ' X is still True!
  Y = Not Y
  Debug.Print X, Y                  ' result: True   -2
  X = False
  Y = True
  Debug.Print X, Y                  ' result: False  -1
End Sub
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  • 8
    Yeah this is amazing indeed. Great explanation. Makes me sooo happy I don't program in Word. – BigBen Dec 12 '19 at 18:54
  • 5
    @BigBen the part that's baffling, is the part where the integer value is somehow still present under the hood of the Boolean variable. This basically means Boolean is not type-safe in VBA. – Mathieu Guindon Dec 12 '19 at 18:57
  • 5
    @MathieuGuindon Considering the age of the Office programming languages, this should not be surprising. In the really old days, "Boolean" was a "nice way to think" about off/on, which was simply stored as 0... and something else, by convention -1. Backwards compatibility, even for WordBasic, has been a priority, so no surprise that there's been no modernization. And also keep in mind that the core of Word - the stuff they cannot change, even to fix bugs - is C. Some things cannot be changed without starting from 0, which would be too expensive. – Cindy Meister Dec 12 '19 at 19:03
  • 6
    The -2 is because logical operators do bitwise operations - tricky with the sign bit, but basically flipping all the bits of 1 results in the sign bit turning on and the 01 becoming 10, which is 2 - with the sign bit that reads -2. – Mathieu Guindon Dec 12 '19 at 19:17
  • 3
    @ZevSpitz shouldn't you start from LBound()? – FreeMan Dec 12 '19 at 21:22

To add on to Cindy's excellent answer, I want to point out that while VBA normally has safeguards to coerce the values when assigning to a Boolean data type, this can be circumvented. Basically, if you write a random value to a memory address that's not yours, then you should expected undefined behavior.

To help demonstrate this, we'll (ab)use LSet which essentially allow us to copy the value without actually assigning.

Private Type t1
  b As Boolean
End Type

Private Type t2
  i As Integer
End Type

Private Sub Demo()
  Dim i1 As t2
  Dim b1 As t1
  Dim b As Boolean

  i1.i = 1

  LSet b1 = i1

  b = b1.b

  Debug.Print b, b1.b, i1.i
  Debug.Print CInt(b), CInt(b1.b), i1.i

End Sub

Note the line b = b1.b is basically equivalent to what we did in the OP code

X = Selection.Cells(1).FitText

That is, assigning a Boolean to another Boolean. However, because I wrote to the b1.b using LSet, bypassing VBA runtime checks, it doesn't get coerced. When reading the Boolean, VBA does implicitly coerce it into either True or False, which seems misleading but is correct because any falsy results is one that equals 0 (aka False), and any truthy results is one that doesn't. Note that the negative for truthy means that both 1 and -1 are truthy.

Had I assigned the 1 to a Boolean variable directly, VBA would have had coerced it into -1/True and thus there'd be no problem. But evidently with FitText or LSet, we are basically writing to the memory address in an uncontrolled fashion, so that VBA start to behave strangely with this particular variable since it expects the Boolean variable to already had its contents coerced but wasn't.

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  • 2
    So... the bug is in the Word library (fixable) or in VBA itself (fix unlikely)? – Mathieu Guindon Dec 12 '19 at 20:34
  • Wonderful, what a seemingly simple, inocuous question can result in... Thank you for this, which I'm going to have to look at in more detail, tomorrow, when I'm awake :-) – Cindy Meister Dec 12 '19 at 21:30

It's because of the internal Long value coming from this property, as explained by Cindy Meister. We should always use CInt to avoid this.

Sub testChangeBoolean2()
  Dim X As Boolean                     ' again, default is False
  X = CInt(Selection.Cells(1).FitText) ' [Fixed] does set X to True
  X = Not X                            ' X is False!
End Sub
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  • Upvoted for including an easy fix to get the desired behavior. – trlkly Dec 13 '19 at 17:21

First of all, the Not operator works properly, exactly as it should.

"Duh. But I'm trying to toggle the .FitText property in a table cell (in Word). .FitText starts as True..."

To toggle, this works just fine:

If Selection.Cells(1).FitText Then
    Selection.Cells(1).FitText = False
    Selection.Cells(1).FitText = True
End If

As for why you do not see the result you expected, this has to do with type casting, implicit type conversions and passing value of a type to a variable of the same type. In your case, the cell's property is Boolean. Since you explicitly set the receiving variable type to Boolean, no implicit type conversion is taking place: Boolean X gets the internal value of the Boolean property, which (Cindy Meister is correct) just happened to be 1, and 1 does evaluate to True as a Boolean variable.

Now, Mathieu Guindon correctly commented that "The -2 is because logical operators do bitwise operations...". So, Not 1 = -2, and -2 also evaluates to True; in fact, any number stored internally for a Boolean variable but 0 makes the value of this variable True, as in an explicit CBool(any_number_but_0) = True.

So the problem here is Boolean-to-Boolean passing of the numeric value 1 (the internal representation) from one to another. You need to force variable type re-evaluation, implicitly or explicitly, and all will work as you wanted:

' Illustration: a few possible solutions
Dim X As Variant  
' implicit re-evauation
X = Selection.Cells(1).FitText ' X=True, a Variant sub-type Boolean,  CInt(X)=-1
X = Not X                      ' X=False, CInt(X)=0 

Dim X As Boolean  
' explicit re-evaluation
X = Selection.Cells(1).FitTex  ' X=True, CInt(X)=1
X = Not CBool(CInt(X))         ' X=False, CInt(X)=0

' explicit re-evaluation    
X = Selection.Cells(1).FitText ' X=True, CInt(X)=1
X = Not CBool(CStr(X))         ' X=False, CInt(X)=0

' explicit and implicit (by the "+" operator) re-evaluation
X = Selection.Cells(1).FitText ' X=True, CInt(X)=1
X = Not (CBool(X) + 0)         ' X=False, CInt(X)=0; same as Not (True + 0) 


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  • 4
    But I don't think this is the point of OP. – BigBen Dec 12 '19 at 20:30
  • That's the first way I tried doing it, which didn't work, which led me to messing about with X. – eluhnabroad Dec 12 '19 at 22:27
  • @BigBen The question was "Why would the Not operator stop working?" The answer is It did not! – Gene Dec 18 '19 at 23:11
  • My comment applied to your original post. I think we've re-hashed the problem to death honestly :). Your answer is much better now (in fact it's fixed the original issue), but at this point if you want the rep back you might just consider deleting it. Note - I did not downvote. – BigBen Dec 18 '19 at 23:38

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