# How do I determine if *exactly* one boolean is true, without type conversion?

Given an arbitrary list of booleans, what is the most elegant way of determining that exactly one of them is true?

The most obvious hack is type conversion: converting them to `0` for `false` and `1` for `true` and then summing them, and returning `sum == 1`.

I'd like to know if there is a way to do this without converting them to ints, actually using boolean logic.

(This seems like it should be trivial, idk, long week)

Edit: In case it wasn't obvious, this is more of a code-golf / theoretical question. I'm not fussed about using type conversion / int addition in PROD code, I'm just interested if there is way of doing it without that.

Edit2: Sorry folks it's a long week and I'm not explaining myself well. Let me try this:

In boolean logic, ANDing a collection of booleans is true if all of the booleans are true, ORing the collection is true if least one of them is true. Is there a logical construct that will be true if exactly one boolean is true? XOR is this for a collection of two booleans for example, but any more than that and it falls over.

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Conversion is the most elegant way to do this. By far. –  RBarryYoung Feb 15 '13 at 4:33
I'm interested if there is another way. I've already written the code with type conversion. The answer is allowed to be "You can't do this with boolean logic" if that's the answer. –  SCdF Feb 15 '13 at 4:49
Why is XOR not suitable for you? It evaluates to true iff one is true right. –  Shiva Kumar Feb 15 '13 at 6:32
Ok, I realise that with XOR, `true and true and true` will evaluate to `true` which should not be the case as per your requirement. –  Shiva Kumar Feb 15 '13 at 9:11
@Shiva - I accidentally upvoted your first xor comment when I meant to point out what you just realized about true ^ true ^ true. Anyway, ignore the upvote! =) –  c.fogelklou Feb 15 '13 at 10:37

With plain boolean logic, it may not be possible to achieve what you want. Because what you are asking for is a truth evaluation not just based on the truth values but also on additional information(count in this case). But boolean evaluation is binary logic, it cannot depend on anything else but on the operands themselves. And there is no way to reverse engineer to find the operands given a truth value because there can be four possible combinations of operands but only two results. Given a false, can you tell if it is because of F ^ F or T ^ T in your case, so that the next evaluation can be determined based on that?.

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Not true. c.fogelklou's answer can indeed be interpreted as plain boolean logic. Theoretically, SCdF is asking for a boolean function with many arguments, and we know that any boolean function can be implemented with just Conjunction and Negation. –  took Apr 10 at 8:11
It is always possible to find out if more than one boolean is true by looping. I am sure the OP already knew this. But to my knowledge when the OP originally asked, he wanted an elegant answer without looping or by using directly boolean logic(like a XOR or similar thing) which directly returned true only if one and one element was true. –  Shiva Kumar Apr 10 at 9:50

After your clarification, here it is with no integers.

`````` bool IsExactlyOneBooleanTrue( bool *boolAry, int size )
{
bool areAnyTrue = false;
bool areTwoTrue = false;
for(int i = 0; (!areTwoTrue) && (i < size); i++) {
areTwoTrue = (areAnyTrue && boolAry[i]);
areAnyTrue |= boolAry[i];
}
return ((areAnyTrue) && (!areTwoTrue));
}
``````
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Sure, you could do something like this (pseudocode, since you didn't mention language):

``````found = false;
for (boolean in booleans):
if (boolean):
found = true;
found = false;
break;
else:
return found;
``````
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It can be done quite nicely with recursion, e.g. in Haskell

``````-- there isn't exactly one true element in the empty list
oneTrue [] = False
-- if the list starts with False, discard it
oneTrue (False : xs) = oneTrue xs
-- if the list starts with True, all other elements must be False
oneTrue (True : xs) = not (or xs)
``````
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booleanList.Where(y => y).Count() == 1;

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How do you want to count how many are true without, you know, counting? Sure, you could do something messy like (C syntax, my Python is horrible):

``````for(i = 0; i < last && !booleans[i]; i++)
;
if(i == last)
return 0;  /* No true one found */
/* We have a true one, check there isn't another */
for(i++; i < last && !booleans[i]; i++)
;
if(i == last)
return 1; /* No more true ones */
else
return 0; /* Found another true */
``````

I'm sure you'll agree that the win (if any) is slight, and the readability is bad.

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OK, another try. Call the different booleans `b[i]`, and call a slice of them (a range of the array) `b[i .. j]`. Define functions `none(b[i .. j])` and `just_one(b[i .. j])` (can substitute the recursive definitions to get explicit formulas if required). We have, using C notation for logical operations (`&&` is and, `||` is or, `^` for xor (not really in C), `!` is not):

``````none(b[i .. i + 1]) ~~> !b[i] && !b[i + 1]
just_one(b[i .. i + 1]) ~~> b[i] ^ b[i + 1]
``````

And then recursively:

``````none(b[i .. j + 1]) ~~> none(b[i .. j]) && !b[j + 1]
just_one(b[i .. j + 1] ~~> (just_one(b[i .. j]) && !b[j + 1]) ^ (none(b[i .. j]) && b[j + 1])
``````

And you are interested in `just_one(b[1 .. n])`.

The expressions will turn out horrible.

Have fun!

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Why not just do:

``````count = 0
for (b in booleans):
if (b):
count = count + 1
return count == 1
``````

Short, sweet, no possibility of anybody ever misunderstanding what is going on here. And if that is anywhere near performance critical to your application, you have much work to do on reorganizing your computation and data representation.

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This is exactly the answer I gave in the question. I'm interested in how to do it without converting the boolean into a number (which is what you're doing here essentially). –  SCdF Feb 15 '13 at 4:48
@SCdF, no transformation at all, just logic... –  vonbrand Feb 15 '13 at 4:55
It's the exact answer in the OP - so adds no information regardless of feelings toward it. –  djechlin Feb 15 '13 at 13:38