# Time cost of Haskell `seq` operator

This FAQ says that

The seq operator is

``````seq :: a -> b -> b
``````

x `seq` y will evaluate x, enough to check that it is not bottom, then discard the result and evaluate y. This might not seem useful, but it means that x is guaranteed to be evaluated before y is considered.

That's awfully nice of Haskell, but does it mean that in

``````x `seq` f x
``````

the cost of evaluating `x` will be paid twice ("discard the result")?

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Perhaps "discard the result" is too strong. It discards the result in the same way `const` discards its second argument. If the argument has been evaluated, it doesn't somehow unevaluate it or throw away the result, it just ignores it. "x `seq` y will evaluate x, enough to check that it is not bottom, then ignore the result and evaluate y" is perhaps a better way to phrase it. –  MatrixFrog Mar 15 '12 at 7:32
It begins to dawn on me how different Haskell's computation model is from my core programming language (C++). –  quant_dev Mar 15 '12 at 9:48

The `seq` function will discard the value of `x`, but since the value has been evaluated, all references to `x` are "updated" to no longer point to the unevaluated version of `x`, but to instead point to the evaluated version. So, even though `seq` evaluates and discards `x`, the value has been evaluated for other users of `x` as well, leading to no repeated evaluations.

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No, it's not compute and forget, it's compute - which forces caching.

For example, consider this code:

`````` let x = 1 + 1
in x + 1
``````

Since Haskell is lazy, this evaluates to `((1 + 1) + 1)`. A thunk, containing the sum of a thunk and one, the inner thunk being one plus one.

Let's use javascript, a non-lazy language, to show what this looks like:

`````` function(){
var x = function(){ return 1 + 1 };
return x() + 1;
}
``````

Chaining together thunks like this can cause stack overflows, if done repeatedly, so `seq` to the rescue.

``````let x = 1 + 1
in x `seq` (x + 1)
``````

I'm lying when I tell you this evaluates to `(2 + 1)`, but that's almost true - it's just that the calculation of the 2 is forced to happen before the rest happens (but the 2 is still calculated lazily).

Going back to javascript:

`````` function(){
var x = function(){ return 1 + 1 };
return (function(x){
return x + 1;
})( x() );
}
``````
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I believe `x` will only be evaluated once (and the result retained for future use, as is typical for lazy operations). That behavior is what makes `seq` useful.

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You can always check with `unsafePerformIO` or `trace`

``````import System.IO.Unsafe (unsafePerformIO)

main = print (x `seq` f (x + x))
where
f = (+4)
x = unsafePerformIO \$ print "Batman!" >> return 3
``````
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Of course `seq` by itself does not "evaluate" anything. It just records the forcing order dependency. The forcing itself is triggered by pattern-matching. When `seq x (f x)` is forced, `x` will be forced first (memoizing the resulting value), and then `f x` will be forced. Haskell's lazy evaluation means it memoizes the results of forcing of expressions, so no repeat "evaluation" (scary quotes here) will be performed.

I put "evaluation" into scary quotes because it implies full evaluation. In the words of Haskell wikibook,

"Haskell values are highly layered; 'evaluating' a Haskell value could mean evaluating down to any one of these layers."

Let me reiterate: `seq` by itself does not evaluate anything. `seq x x` does not evaluate `x` under any circumstance. `seq x (f x)` does not evaluate anything when `f = id`, contrary to what the report seems to have been saying.

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