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I am working with some VB.NET code that seems to be casting a boolean value to an integer using CInt(myBoolean). The odd thing that is happening is that it returns -1 if the value is true. For example:

CInt(True)  // returns -1
CInt(False) // returns 0

Is this common in other languages?

I thought that a boolean would be 1 if true and 0 if false. Also, is there a way to make Visual Basic assign 1 to true instead of assigning -1?

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Interesting find, I hadn't noticed this. I've learned something today. – Nathan Koop Sep 1 '10 at 18:35
I don't know if it's common, but it was the first definition of true that I ran into oh so many years ago. I can't even remember which language. It wasn't until I learned C that I became used to true=1. – Mark Ransom Sep 1 '10 at 18:45
Anyone wanting to understand this more, read the article martijn linked to, it is really good. – Barlow Tucker Sep 1 '10 at 19:18
up vote 31 down vote accepted

Typically, a value of false is represented by 0 and a value of true is represented by any non-0 integer value. The specific value for true and false (among others) are things that you shouldn't rely on - they can potentially be implementation specific. I'm not sure what you are trying to do, but it would probably be best to not rely on True or False having any specific integer values unless you absolutely have to.

The best explanation that I could find for VB's specific behavior comes from Wikipedia:

Boolean constant True has numeric value −1. This is because the Boolean data type is stored as a 16-bit signed integer. In this construct −1 evaluates to 16 binary 1s (the Boolean value True), and 0 as 16 0s (the Boolean value False). This is apparent when performing a Not operation on a 16 bit signed integer value 0 which will return the integer value −1, in other words True = Not False. This inherent functionality becomes especially useful when performing logical operations on the individual bits of an integer such as And, Or, Xor and Not.[4] This definition of True is also consistent with BASIC since the early 1970s Microsoft BASIC implementation and is also related to the characteristics of CPU instructions at the time.

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I just tested this premis. A boolean in VB.NET does not equal -1, it equals just 1. I checked this by making a structure with two overlapping fields using FieldOffsetAttribute. That way you can see the exact binary value of a boolean. CInt is just a conversion. Refering to old documentation does not really help I guess. – Martin Mulder May 9 '13 at 15:07
I passed Trueinto a function that accepted an integer and got the value -1 in VB.NET. In the article Martjin references ( it seems like how you convert the Boolean determines what integer value you get. – Brian J Oct 18 '13 at 15:05

It seems like a gotcha, and I don't know any other examples of this behaviour. specifies this behaviour, with a "Don't do that, mkay" sorta remark with it. Do note further down:

Conversion in the Framework

The ToInt32 method of the Convert class in the System namespace converts True to +1.

If you must convert a Boolean value to a numeric data type, be careful about which conversion method you use.

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That article is exactly what I was looking for! Thanks – Barlow Tucker Sep 1 '10 at 18:52

A work around for your initial use would be :

 Dim i As Integer = CInt(Int(False))

This will return a 0.

 Dim i As Integer = CInt(Int(True))

This will return a 1.

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I had the same problem and used Math.Abs function on the result :)

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Many versions of BASIC in the 1970's and 1980's implemented bit-wise arithmetic with their AND and OR operators, and made true conditional expressions evaluate to -1 (which was the "all-bits-set" value). I'm not sure exactly why the decision was made to have true conditional expressions evaluate to an all-bits-set value; being able to use AND to mask an integer against a conditional expression may have been faster than multiplying, but given then internal mechanics of the interpreters the difference would have been slight.

In any case, the first versions of BASIC that Microsoft produced for the PC followed in that tradition of having true conditionals evaluate to -1 (all-bits-set); since QuickBASIC was in turn supposed to be compatible with those, and Visual Basic was supposed to be compatible with QuickBASIC, they used the same representation. Although .Net recognizes integers and Booleans as different types, wanted to offer a migration path for VB6 programs that might rely on the old behavior. With "Option Strict Off", VB.Net will implicitly convert a Boolean value of True to an integer -1; while most programmers use Option Strict On, it be confusing to have the behavior of CInt() differ from the implicit conversion behavior.

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The MSDN documentation provides some valuable insight:

Boolean values are not stored as numbers, and the stored values are not intended to be equivalent to numbers. You should never write code that relies on equivalent numeric values for True and False. Whenever possible, you should restrict usage of Boolean variables to the logical values for which they are designed.

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I tested it and got the following results:

Public Module BooleanTest
Public Function GetTrue() As Boolean
    GetTrue = True
End Function
End Module


struct MyStruct
    public bool MyBool;
    public int MyInt32;

static void Main(string[] args)
    MyStruct b1, b2;
    b1.MyInt32 = 0;
    b2.MyInt32 = 0;
    b1.MyBool = BooleanTest.BooleanTest.GetTrue();
    b2.MyBool = true;

This will result in:


I hope this proves that all True values inside .NET are always the same. The reason is simple: All .NET members have to communicatie with each other. It would be weird if object.Equals(trueFromCSharp, trueFromVB) would result in false (as will trueFromCSharp == trueFromVB).

CInt is just a function which will convert True into -1. Another function Int will return 1. But these are converters, and do not say anything about the binary values.

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And storing b1.MyInt32 = /* VB.NET */ CInt(True) makes b1.MyBool == true && b2.MyBool == true && b1.MyBool != b2.MyBool! – Virtlink May 9 '13 at 15:22

I have been having the same problem with MySQL as this has no Boolean type only a tinyint(1).

My solution was to write a converter function to ensure that the values are correct before inserting them into the database

        Public Function BoolToMySql(bVal As Boolean) As Integer
            Dim retVal As Integer
            If bVal = True Then
                retVal = 1
                retVal = 0
            End If
                 BoolToMySql = retVal
        End Function
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