# How does Haskell tail recursion work?

I wrote this snippet of code and I assume `len` is tail-recursive, but a stack overflow still occurs. What is wrong?

``````myLength :: [a] -> Integer

myLength xs = len xs 0
where len [] l = l
len (x:xs) l = len xs (l+1)

main = print \$ myLength [1..10000000]
``````
-
I just wanted to note -- this is a very good question. Lazy evaluation has interesting side-effects that might not be immediately obvious to all programmers. –  jrockway Mar 10 '09 at 17:15
Yeah, working in Haskell versus other non-pure functional languages, you realize that stupid tricks like rewriting for tail-recursion is often unnecessary or harmful, and you should instead spend your efforts concentrating on what really needs to be evaluated. –  ephemient Jun 20 '09 at 17:52
@ephemient - you are dunno. Well write straightforward version myLength [] = 0 \nmyLength (x:xs) = 1 + myLength xs and what will be result? Runtime error! Great! And now you must concentrate your effort why this super-duper pure functional language doesn't work. Practice usability, it is what ever counts. When program fails for trivial task, than you must work with those stupid tricks. Ten million integers, it is less than 100MB on 32b architecture and you can't count it? WTF? Go out the school desk and come to real world. –  Hynek -Pichi- Vychodil Jun 22 '09 at 11:11

Remember that Haskell is lazy. Your computation (l+1) will not occur until it's absolutely necessary.

The 'easy' fix is to use '\$!' to force evaluation:

``````myLength :: [a] -> Integer
myLength xs = len xs 0
where len [] l = l
len (x:xs) l = len xs \$! (l+1)

main = print \$ myLength [1..10000000]
``````
-

Seems like laziness causes `len` to build thunk:

``````len [1..100000] 0
-> len [2..100000] (0+1)
-> len [3..100000] (0+1+1)
``````

and so on. You must force `len` to reduce `l` every time:

``````len (x:xs) l = l `seq` len xs (l+1)
``````

-
I can't find what `seq` do. –  Hynek -Pichi- Vychodil Jan 5 '09 at 13:47
Heh, I found it, it force l to evaluate so in next recursion thunk (l+1) is evaluated before next len apply. It's not so much easy to read and understand. –  Hynek -Pichi- Vychodil Jan 5 '09 at 14:25

The foldl carries the same problem; it builds a thunk. You can use foldl' from Data.List to avoid that problem:

``````import Data.List
myLength = foldl' (const.succ) 0
``````

The only difference between foldl and foldl' is the strict accumulation, so foldl' solves the problem in the same way as the seq and \$! examples above. (const.succ) here works the same as (\a b -> a+1), though succ has a less restrictive type.

-

Just so you know, there's a much easier way to write this function:

`myLength xs = foldl step 0 xs where step acc x = acc + 1`

Alex

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myLength = foldl (+) 0 is also the same, although it takes more sophisticated reasoning to prove it. The optimizer will make it efficient, so there's no need to explicitly tail recurse. –  luqui Jan 6 '09 at 2:08
You are not right: *Main> foldl (+) 0 [1..1000000] *** Exception: stack overflow –  Hynek -Pichi- Vychodil Jan 6 '09 at 8:00
And wrong result also, you sum list instead *Main> foldl (+) 0 [1..10] => 55 –  Hynek -Pichi- Vychodil Jan 6 '09 at 8:05
That can be fixed using foldl', which is strict version of foldl. –  mattiast Feb 1 '09 at 18:49

``````module Main
where

import Data.List
import System.Environment (getArgs)

main = do
putStrLn \$ "Length of an array from 1 to " ++ show n
++ ": " ++ show (myLength [1..n])

myLength :: [a] -> Int
myLength = foldl' (const . succ) 0
``````

foldl' goes through the list from left to right each time adding 1 to an accumulator which starts at 0.

Here's an example of running the program:

``````C:\haskell>ghc --make Test.hs -O2 -fforce-recomp
[1 of 1] Compiling Main             ( Test.hs, Test.o )

Test.exe 10000000 +RTS -sstderr

Length of an array from 1 to 10000000: 10000000
401,572,536 bytes allocated in the heap
18,048 bytes copied during GC
2,352 bytes maximum residency (1 sample(s))
13,764 bytes maximum slop
1 MB total memory in use (0 MB lost due to fragmentation)

Generation 0:   765 collections,     0 parallel,  0.00s,  0.00s elapsed
Generation 1:     1 collections,     0 parallel,  0.00s,  0.00s elapsed

INIT  time    0.00s  (  0.00s elapsed)
MUT   time    0.27s  (  0.28s elapsed)
GC    time    0.00s  (  0.00s elapsed)
EXIT  time    0.00s  (  0.00s elapsed)
Total time    0.27s  (  0.28s elapsed)

%GC time       0.0%  (0.7% elapsed)

Alloc rate    1,514,219,539 bytes per MUT second

Productivity 100.0% of total user, 93.7% of total elapsed

``````
-

The simplest solution to your problem is turning on optimization.

I have your source in a file called tail.hs.

```jmg\$ ghc --make tail.hs -fforce-recomp
[1 of 1] Compiling Main             ( tail.hs, tail.o )
jmg\$ ./tail
Stack space overflow: current size 8388608 bytes.
Use `+RTS -Ksize -RTS' to increase it.
girard:haskell jmg\$ ghc -O --make tail.hs -fforce-recomp
[1 of 1] Compiling Main             ( tail.hs, tail.o )
jmg\$ ./tail
10000000
jmg\$
```

@Hynek -Pichi- Vychodil The tests above were done on Mac OS X Snow Leopard 64bit with a GHC 7 and GHC 6.12.1, each in a 32 bit version. After you're downvote, I repeated this experiment on Ubuntu Linux with the following result:

```jmg@girard:/tmp\$ cat length.hs
myLength :: [a] -> Integer

myLength xs = len xs 0
where len [] l = l
len (x:xs) l = len xs (l+1)

main = print \$ myLength [1..10000000]

jmg@girard:/tmp\$ ghc --version
The Glorious Glasgow Haskell Compilation System, version 6.12.1
jmg@girard:/tmp\$ uname -a
Linux girard 2.6.35-24-generic #42-Ubuntu SMP Thu Dec 2 02:41:37 UTC 2010 x86_64 GNU/Linux
jmg@girard:/tmp\$ ghc --make length.hs -fforce-recomp
[1 of 1] Compiling Main             ( length.hs, length.o )
jmg@girard:/tmp\$ time ./length
Stack space overflow: current size 8388608 bytes.
Use `+RTS -Ksize -RTS' to increase it.

real    0m1.359s
user    0m1.140s
sys 0m0.210s
jmg@girard:/tmp\$ ghc -O --make length.hs -fforce-recomp
[1 of 1] Compiling Main             ( length.hs, length.o )
jmg@girard:/tmp\$ time ./length
10000000

real    0m0.268s
user    0m0.260s
sys 0m0.000s
jmg@girard:/tmp\$

```

So, if you're interested we can continue to find out what is the reason, that this fails for you. I guess, GHC HQ, would accept it as a bug, if such a straight forward recursion over lists is not optimized into an efficient loop in this case.

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It fails with code from mine question with version 6.12.1 `\$ ghc -O --make length.hs -fforce-recomp [1 of 1] Compiling Main ( length.hs, length.o ) Linking length ... hynek@hynek:~/work/haskell\$ ./length Stack space overflow: current size 8388608 bytes. Use `+RTS -Ksize -RTS' to increase it.` –  Hynek -Pichi- Vychodil Jan 19 '11 at 10:50
I've used exactly your code, see my edited answer. –  jmg Jan 21 '11 at 16:34