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I'm looking at linked data in MS Access.

The "Yes/No" fields contain the value -1 for YES and 0 for NO. Can someone explain why such a counter-intuitive value is used for "Yes"? (Obviously, it should be 1 and 0)

I imagine there must be a good reason, and I would like to know it.

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possible duplicate of Casting a boolean to an integer returns -1 for true? – dsolimano Jan 11 '12 at 22:16
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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 functionality becomes especially useful when performing logical operations on the individual bits of an integer such as And, Or, Xor and Not.[7] This definition of True is also consistent with BASIC ... – Martin Smith Jan 11 '12 at 22:17
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@OlivierJacot-Descombes - It's cut and pasted straight from Wikipedia! – Martin Smith Jan 11 '12 at 22:22
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@MartinSmith - Even so, It still answer perfectly this question – Lamak Jan 11 '12 at 22:24
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@MartinSmith: note the OP is referring to the MS Access' YESNO data type rather than the VBA intrinsic Boolean type. YESNO is not the same as Boolean because it can also be the null value (e.g. when using an outer join) i.e. three-valued logic, which has not been defined by the Access team. – onedaywhen Jan 12 '12 at 9:01
up vote 29 down vote accepted

The binary representation of False is 0000000000000000. If you perform a binary NOT operation on it, it will be changed to 1111111111111111, but this is the binary representation of the 16-bit signed integer -1. (How many bits are used depends on the implementation.)

A bit of 1 at the most significant position signals a negative number. Changing the sign of a number happens by inverting all the bits and adding 1. This is called the Two's complement.

Let us change the sign of 1111111111111111. First invert; we get: 0000000000000000

Then add one: 0000000000000001, this is 1.

This is the proof that 1111111111111111 was the binary representation of -1.


UPDATE

Also, when comparing these values do not compare

x = -1

or

x = 1

instead, do compare

x <> 0

this always gives the correct result, independently of the convention used. Most implementations treat any value unequal zero as True.

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2  
I also would like to give an advice for handlings these -1s. In Some dbs true is 1 in others -1. Instead of comparing x = -1 or x = 1, do compare x <> 0, this always gives the correct result. – Olivier Jacot-Descombes Jan 12 '12 at 15:03
    
Also note that the same things happens in C (and most other languages) where a value of 0 is interpreted as false and all other values are interpreted as true. – Mathieu Pagé Jan 17 '12 at 13:08

"Yes" is -1 because it isn't anything else.

When dealing with Microsoft products, especially one as old as Access, don't assume that there is a good reason for any design choice.

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2  
This actually is a good design choice. You're just looking at it wrong. In Access False and No are 0; True and Yes are defined as not False. You can actually use any numeric value to be Yes. – Yuck Jan 11 '12 at 22:20
    
Well, though I agree that it may have not been a design choice, there is a reason for this, as explained in @MartinSmith 's comment – Lamak Jan 11 '12 at 22:21
    
There is a good reason. See what Martin Smith wrote. – Olivier Jacot-Descombes Jan 11 '12 at 22:22
    
@Lamak - In theory, my answer is saying the same thing as the mathematical reason given by Martin's comment above. For a boolean field, the only other option is true, therefore false is the same as "not anything else". Same result as the math version, but a much more direct (and less well supported) way of getting there. – cdeszaq Jan 11 '12 at 22:25
    
Sorry, comment retracted. Didn't read everything m8. – hydroparadise Jan 12 '12 at 15:13

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