Thinking Functionally with Haskell provides the following code for calculating the **mean** of a list of **Float**'s.

```
mean :: [Float] -> Float
mean [] = 0
mean xs = sum xs / fromIntegral (length xs)
```

Prof. Richard Bird comments:

Now we are ready to see what is really wrong with mean: it has a space leak. Evaluating

`mean [1..1000]`

will cause the list to be expanded and retained in memory after summing because there is a second pointer to it, namely in the computation of its length.

If I understand this text correctly, he's saying that, if there was no pointer to `xs`

in the length computation, then the `xs`

memory could've been freed **after** calculating the `sum`

?

My confusion is - if the `xs`

is already in memory, isn't the `length`

function simply going to use the same memory that's already being taken up?

I don't understand the space leak here.

`Maybe`

. There's no way of distinguishing a real 0 from a fake one here.`sum xs`

is not a problem. Computing`length xs`

is not a problem. Computing`sum xs / length xs`

is a problem.`sum`

is defined lazily in terms of`foldl`

won't it cause space leak? Giving`sum [1..10000000]`

in my laptop increases my laptop's memory usage like anything. Whereas,`mysum = foldl' (+) 0`

runs on constant memory space ?`foldl' (+) 0`

for`sum`

everywhere while adding little of interest to the novice, don't you agree? =)