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I wanted to do OR on boolean column in aggregate function of group by and, logically, I chose Max function for this. But I found out that TRUE < FALSE in MS Access! It seems that MS Access is aliasing TRUE to -1 instead of 1.

I tried the same in MySQL, seems working fine:

mysql> select if(TRUE > FALSE, 1, 0);
+------------------------+
| if(TRUE > FALSE, 1, 0) |
+------------------------+
|                      1 |
+------------------------+

Why is that? Why on earth Access broke the SQL norm here?

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3  
    
I don't think there is any SQL norm regarding mapping boolean values to integer values. –  ypercube Aug 8 '13 at 12:03
3  
You are talking about Microsoft Access, why do you expect any kind of standards compliant behavior ;) –  Mark Rotteveel Aug 8 '13 at 12:05
2  
Seems to me that TRUE/FALSE should only ever be treated as truth values and as such do not have a magnitude. This renders discussions as to whether TRUE > FALSE pointless. After all does it make any sense that TRUE + 1 = FALSE? No it doesn't so why should anybody be concerned whether TRUE > FALSE? They shouldn't, and that is the answer. –  NealB Aug 8 '13 at 13:39
1  
@NealB SQL:2011 Foundation section 8.2 Comparison predicate states: "In comparisons of boolean values, True is greater than False" –  Mark Rotteveel Aug 8 '13 at 17:42

2 Answers 2

up vote 1 down vote accepted

Yes in MSAccess the Value of true is -1.

It may have something to do with it's Visual Basic roots (in VB -1 is true to help it's BITWISE operators do double duty as logical operators), but I wouldn't be so surprised, MSAccess breaks many many SQL Norms.

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From This answer:

The binary representation of False is 0000000000000000. If you perform a NOT operation (in machine code) to it, it will be changed to 1111111111111111, but this is the binary representation of the 16-bit signed integer -1.

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.

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Well, I don't think this is an explanation, because e.g. in C, !0 == 1, not 11111111. So NOT in the Access could have been implemented as !, not as bitwise NOT. I think this is just a broken design. –  TMS Aug 8 '13 at 12:08
    
Anyway, why didn't they use unsigned types then? Then TRUE could be 11111111 and at the same time > FALSE. –  TMS Aug 8 '13 at 12:15
1  
"Anyway, why didn't they use unsigned types then"? Because it's built on the VB runtime, and the VB runtime didn't have unsigned types. "But when didn't the VB Runtime . . ." I dunno mate, it was a bad decision that bit me in the arse more than once I can tell you :( –  Binary Worrier Aug 8 '13 at 12:21
    
Thank you @BinaryWorrier –  TMS Aug 16 '13 at 9:59

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