We need to look at the instance of `enumFromTo`

for Integer, and last:

```
last [] = errorEmptyList "last"
last (x:xs) = last' x xs
where last' y [] = y
last' _ (y:ys) = last' y ys
```

It is defined in GHC.Enum as:

```
enumFrom x = enumDeltaInteger x 1
enumFromThen x y = enumDeltaInteger x (y-x)
enumFromTo x lim = enumDeltaToInteger x 1 lim
```

where

```
enumDeltaInteger :: Integer -> Integer -> [Integer]
enumDeltaInteger x d = x `seq` (x : enumDeltaInteger (x+d) d)
-- strict accumulator, so
-- head (drop 1000000 [1 .. ]
-- works
```

and

```
enumDeltaToInteger :: Integer -> Integer -> Integer -> [Integer]
enumDeltaToInteger x delta lim
| delta >= 0 = up_list x delta lim
| otherwise = dn_list x delta lim
up_list :: Integer -> Integer -> Integer -> [Integer]
up_list x0 delta lim = go (x0 :: Integer)
where
go x | x > lim = []
| otherwise = x : go (x+delta)
```

`last`

is fully lazy, as expected.

For the Integer Enum class, we have a strict accumulator (explicitly) for `enumFrom`

. In the bounded case (e.g. `[1..n]`

), it calls `enumDeltaToInteger`

and then into `up_list`

, which uses a worker to unfold a list until its limit is reached.

But `up_list`

is strict in `x`

in the `go`

helper (see the comparison against `lim`

).

When run in GHCi none of this is optimized, yielding naive calls to enumFromTo, before returning `()`

.

```
let
it_ax6 :: ()
it_ax6 =
case last
@ GHC.Integer.Type.Integer
(GHC.Enum.enumFromTo
@ GHC.Integer.Type.Integer
GHC.Num.$fEnumInteger
(GHC.Integer.smallInteger 1)
(GHC.Real.^
@ GHC.Integer.Type.Integer
@ GHC.Integer.Type.Integer
GHC.Num.$fNumInteger
GHC.Real.$fIntegralInteger
(GHC.Integer.smallInteger 10)
(GHC.Integer.smallInteger 7)))
of _ -> GHC.Unit.()
in
GHC.Base.thenIO
@ ()
@ [()]
(System.IO.print @ () GHC.Show.$fShow() it_ax6)
(GHC.Base.returnIO
@ [()] (GHC.Types.: @ () it_ax6 (GHC.Types.[] @ ())))
```

So, why are we retaining the list in the `seq`

case, and not in the regular case? The regular case runs nicely in constrant space, relying on the laziness of `enumFromTo`

for `Integer`

and for `last`

. The GHCi core for that case looks like:

```
let {
it_aKj :: GHC.Integer.Type.Integer
[LclId,
Unf=Unf{Src=<vanilla>, TopLvl=False, Arity=0, Value=False,
ConLike=False, Cheap=False, Expandable=False,
Guidance=IF_ARGS [] 170 0}]
it_aKj =
GHC.List.last
@ GHC.Integer.Type.Integer
(GHC.Enum.enumFromTo
@ GHC.Integer.Type.Integer
GHC.Num.$fEnumInteger
(GHC.Integer.smallInteger 1)
(GHC.Real.^
@ GHC.Integer.Type.Integer
@ GHC.Integer.Type.Integer
GHC.Num.$fNumInteger
GHC.Real.$fIntegralInteger
(GHC.Integer.smallInteger 10)
(GHC.Integer.smallInteger 7))) } in
GHC.Base.thenIO
@ ()
@ [()]
(System.IO.print
@ GHC.Integer.Type.Integer GHC.Num.$fShowInteger it_aKj)
(GHC.Base.returnIO
@ [()]
(GHC.Types.:
@ ()
(it_aKj
`cast` (UnsafeCo GHC.Integer.Type.Integer ()
:: GHC.Integer.Type.Integer ~ ()))
(GHC.Types.[] @ ())))
```

So these are almost identical, with the differences being:

- in the
`seq`

version, `last (enumFromTo ..)`

is forced inside a `case`

.
- in the regular version, it is a lazy
`let`

.
- in the
`seq`

version, the value is computed then discarded, yielding a `()`

-- nothing looks at the result
- in the regular case, it is inspected and shown.

What is odd is that there's nothing magic about:

```
let x = case last (enumFromTo 1 n) of _ -> ()
```

that makes it retain values.

As we see, the implementation of `up_list`

is strict in its accumulator (since it compares against `lim`

, and the list is unfolded lazily -- so `last`

should be able to consume it in constant space). Writing the expression by hand confirms this.

Doing a heap profile of the ghci execution shows the entire list being retained:

which tells us at least that it isn't a chain of thunks, but rather, the entire list is being built strictly and held on to, until being discarded.

So the mystery is: what is holding onto the list argument to `last`

in ghci, and not in ghc?

I suspect some internal (or subtle) detail of ghci now -- I think this is worth a ghci ticket.

`seq (last [1::Int ..10^8]) ()`

should have fixed that... – hvr May 29 '12 at 7:51`repeat 1`

there's no space leak, with`[1,1..]`

there is. Perhaps the arithmetic of`enumFrom`

and friends is somehow responsible? – n.m. May 29 '12 at 10:11`repeat`

takes constant space due to sharing. If you try`map id (repeat 1)`

to sabotage the sharing, it leaks again. – hammar May 29 '12 at 13:37`last (map id (repeat 1)) ^seq^ ()`

will leak,`last (map id (repeat ())) ^seq^ ()`

wont. Yet`last (map id (repeat Wtf)) ^seq^ ()`

where`data Wtf = Wtf`

will. (replace ^ with backtick) – L̲̳o̲̳̳n̲̳̳g̲̳̳p̲̳o̲̳̳k̲̳̳e̲̳̳ May 30 '12 at 3:32