Consider an haskell-expression like the following: (Trivial example, don't tell me what the obvious way is! ;)

```
toBits :: Integral a => a -> [Bool]
toBits 0 = []
toBits n = x : toBits m where
(m,y) = n `divMod` 2
x = y /= 0
```

Because this function is not tail-recursive, one could also write:

```
toBits :: Integral a => a -> [Bool]
toBits = toBits' [] where
toBits' l 0 = l
toBits' l n = toBits (x : l) m where
(m,y) = n `divMod` 2
x = y /= 0
```

(I hope there is nothing wron whithin this expression)

What I want to ask is, which one of these solutions is better. The advantage of the first one is, that it can be evaluated partitially very easy (because Haskell stops at the first `:`

not needed.), but the second solution is (obviously) tail-recursive, but in my opinion it needs to be completely evaluated until you can get something out.

The background for this is my Brainfuck parser, (see my optimization question), which is implemented very uggly (various `reverse`

instructions... ooh), but can be implemented easily in the first - let's call it "semi-tail-recursion" way.

`if y == 0 then False else True`

can be written simpler as`y /= 0`

. – kennytm Sep 9 '10 at 15:38