Strictness happens in a few ways in Haskell,

First, a definition. A function is strict if and only if when `a`

doesn't terminate, neither does `f a`

. Nonstrict (sometimes called lazy) is just the opposite of this.

You can be strict in an argument, either using pattern matching

```
-- strict
foo True = 1
foo False = 1
-- vs
foo _ = 1
```

Since we don't need to evaluate the argument, we could pass something like `foo (let x = x in x)`

and it'd still just return `1`

. With the first one however, the function needs to see what value the input is so it can run the appropriate branch, thus it is strict.

If we can't pattern match for whatever reason, then we can use a magic function called `seq :: a -> b -> b`

. `seq`

basically stipulates that whenever it is evaluated, it will evaluated `a`

to what's called weak head normal form.

You may wonder why it's worth it. Let's consider a case study, `foldl`

vs `foldl'`

. `foldl`

is lazy in it's accumulator so it's implemented something like

```
foldl :: (a -> b -> a) -> a -> [b] -> a
foldl f accum [] = acuum
foldl f accum (x:xs) = foldl (f accum x) xs
```

Notice that since we're never strict in `accum`

, we'll build up a huge series of thunks, `f (f (f (f (f (f ... accum)))..)))`

Not a happy prospect since this will lead to memory issues, indeed

```
*> foldl (+) 0 [1..500000000]
*** error: stack overflow
```

Now what'd be better is if we forced evaluation at each step, using `seq`

```
foldl' :: (a -> b -> a) -> a -> [b] -> a
foldl' f accum [] = accum
foldl' f accum (x:xs) = let accum' = f accum x
in accum' `seq` foldl' f accum' xs
```

Now we force the evaluation of `accum`

at each step making it much faster. This will make `foldl'`

run in constant space and not stackoverflow like `foldl`

.

Now `seq`

only evaluates it values to weak head normal form, sometimes we want them to be evaluated fully, to normal form. For that we can use a library/type class

```
import Control.DeepSeq -- a library on hackage
deepseq :: NFData a => a -> b -> a
```

This forces `a`

to be fully evaluated so,

```
*> [1, 2, error "Explode"] `seq` 1
1
*> [1, 2, error "Explode"] `deepseq` 1
error: Explode
*> undefined `seq` 1
error: undefined
*> undefined `deepseq` 1
error undefined
```

So this fully evaluates its arguments. This is very useful for parallel programming for example, where you want to fully evaluate something on one core before it's sent back to the main thread, otherwise you'd just create a thunk and all the actual computation would still be sequential.