# Non-strict vs. strict OR-operator

This one is fairly simple, but I haven't found a satisfactory answer anywhere else. It's about a strict vs. a non-strict operator, in this case a simple OR.

Have I understood correctly that with a strict operator, you ALWAYS have to look at the second of two Boolean values, like this:

`strict_or False True = True` `strict_or True False = True` and so on?

How about the non_strict operator, does this one always only look at the first value, or does it require 2 True values for returning True?

i.e. `or True False = True` vs. `or True False = False`?

The way it looks now, there are still some logical mistakes in my code:

``````or' :: (Bool,Bool) -> Bool
or' (True, True) = True
or' (True, False) = False
or' (False, _) = False

strict_or :: (Bool, Bool) -> Bool
strict_or (True,True) = True
strict_or (False, True) = True
strict_or (False, False) = False
strict_or (True, False) = True
``````
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Unless I'm missing something big, `or'` does not appear to act like an OR at all - it has the behavior of an AND. While the evaluation style is different between strict and non-strict OR, the truth-table semantics (assuming both arguments are valid booleans) should be identical. – jon_darkstar Dec 15 '13 at 17:37
Yes, that's what I gathered as well, hence I said that I have some mistakes in my logic. – dschib Dec 15 '13 at 19:10

Regardless of whether you have a strict or non-strict `or` it always gives the same answer given the same boolean values, so

``````True  or True  -> True
False or True  -> True
True  or False -> True
False or False -> False
``````

The only case where the strictness matters is that if you have an expression `A or B` where the `B` sub-expression might a) take a long time (or even forever!) to calculate or b) potentially throw an exception.

A strict `or` will always run the potentially long calculation whereas a non-strict `or` can "short circuit" if the first parameter is `True` and hence never evaluate the second parameter at all. This also means that if the second sub-expression throws an exception when it's evaluated you'll get a boolean table like this for strict `or`:

``````True  or <exception> -> <exception>
False or <exception> -> <exception>
``````

But for non-strict `or` you'll have

``````True  or <exception> -> True
False or <exception> -> <exception>
``````

Note that all of the above assumes that the non-strict `or` is non-strict over its second parameter (like it is in Haskell and most other programming languages) but you could also have a non-strict `or` that is non-strict for its first parameter.

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So, when coding it, non-strict uses `True _ = True` and strict always looks at both values? – dschib Dec 15 '13 at 17:13
Essentially, yes. – shang Dec 15 '13 at 17:32
However `False True` on non-strict should also return True, when I have understood everything correctly? – dschib Dec 15 '13 at 17:34
@dschib Yes, that's right. – enough rep to comment Dec 15 '13 at 18:25

Non-strict functions only evaluate operands if they need to. Thus, a non-strict OR won't evaluate the second operand IF the first operand is found to be true. (Because the result will be true regardless of what the second operand is.)

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So the strict operator is the one who requires two True values to return true? – dschib Dec 15 '13 at 16:12
No, neither version of `or` requires two True values. That would be an `and`. – shang Dec 15 '13 at 16:28
@dschib The real difference lies in `or True undefined`, which is `True` for the lazy version and raises an error for the strict one. The behaviour for "normal" (not bottom) values should be the same, however, as by the definition of disjunction. – phg Dec 15 '13 at 16:31
Now I'm confused. I thought one of the `or`s would only look at the first value and, if that one is `True`, automatically return `True` and the same for `False`? – dschib Dec 15 '13 at 17:14
I added my current code into the post. Exceptions don't have to be handled. – dschib Dec 15 '13 at 17:22