# Haskell: lazy versus eager evaluation for insertion sort

I'm presently stuck on a question from IFPH chapter 7.

"One definition of `sort` is to take `sort = foldr insert []` where

``````insert x [] = [x]
insert x (y:ys) = if x <= y then x : y : ys else y : insert x ys
``````

Give, in detail, the eager and lazy evaluation reduction sequences for the expression `sort [3,4,2,1]`, explaining where they differ"

Now, I started with the eager evaluation reduction sequence first, which I assume is innermost reduction.

To me this yields...

``````sort [3,4,2,1]
=> foldr insert [] [3,4,2,1]
=> insert 3 (foldr insert [] [4,2,1])
=> insert 3 (insert 4 (foldr insert [] [2,1]
=> insert 3 (insert 4 (insert 2 (foldr insert [] [1])))
=> insert 3 (insert 4 (insert 2 (insert 1 (foldr [] []))))
=> insert 3 (insert 4 (insert 2 (insert 1 [])))
=> insert 3 (insert 4 (insert 2 [1]))
=> insert 3 (insert 4 (1 : insert 2 []))
=> insert 3 (insert 4 (1 : [2]))
=> insert 3 (1 : insert 4 [2])
=> insert 3 (1 : 2 : insert 4 [])
=> insert 3 (1 : 2 : [4])
=> insert 3 [1,2,4]
=> 1 : insert 3 [2,4]
=> 1 : 2 : insert 2 : [4]
=> 1 : 2 : 3 : [4]
=> [1,2,3,4]
``````

Which is the sorted list.

Now for lazy evaluation, the only reduction sequence I can think of is exactly the same as that for eager evaluation. Sure, Haskell does leftmost outermost evaluation for lazy evaluation: but I don't think that it can operate on most of the list until the inside computations are completed.

Is this reasoning correct? Intuition tells me no.

If someone could point out how to perform the lazy evaluation reduction sequence that would be great.

Thanks

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What is IFPH? Searching on Google for the text of the quotation only brings up this page. –  Chris Taylor May 21 '12 at 8:14
Introduction to Functional Programming Using Haskell by Richard Bird –  Mark May 21 '12 at 8:29

On the line containing

``````insert 3 (1 : insert 4 [2])
``````

You have computed enough of the second argument to the outer `insert` that you can run the computation, giving the next line

``````if 3 <= 1 then 3 : 1 : insert 4 [2] else 1 : insert 3 (insert 4 [2])
``````

and you can now run the if statement, giving the next computation as

``````1 : insert 3 (insert 4 [2])     -- (LAZY)
``````

Rather than what you have with eager evaluation:

``````insert 3 (1 : 2 : insert 4 [])  -- (EAGER)
``````

Using lazy evaluation, you compute that the first element of the result is `1` before you sort the rest of the list - contrast with eager evaluation, which sorts nearly the entire tail of the list before it finds out what the first element is.

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