# Can I avoid “rightward drift” in Haskell?

When I use an imperative language I often write code like

``````foo (x) {
if (x < 0) return True;
y = getForX(x);
if (y < 0) return True;

return x < y;
}
``````

That is, I check conditions off one by one, breaking out of the block as soon as possible.

I like this because it keeps the code "flat" and obeys the principle of "end weight". I consider it to be more readable.

But in Haskell I would have written that as

``````foo x = do
if x < 0
then return x
else do
y <- getForX x

if y < 0
then return True
else return \$ x < y
``````

Which I don't like as much. I could use a monad that allows breaking out, but since I'm already using a monad I'd have to `lift` everything, which adds words I'd like to avoid if I can.

I suppose there's not really a perfect solution to this but does anyone have any advice?

-
Out of curiosity, why the `do`-block and `return`s at all? To me it would seem the conversion of this code would be non-monadic. –  stusmith Aug 10 '11 at 9:54
@stutsmith Oh, well just cause of `getForX` is monadic, i guess. –  Owen Aug 10 '11 at 9:56
OK, well I've added my non-monadic solution as an answer anyway, just for reference. –  stusmith Aug 10 '11 at 10:01
On the third line in your haskell version I think you want `then return True`. –  HaskellElephant Aug 10 '11 at 10:30
@HaskellElephant you're right, Thank you. –  Owen Aug 10 '11 at 10:54

For your specific question: How about dangling `do` notation and the usage of logic?

``````foo x = do
if x < 0 then return x else do
y <- getForX x
return \$ y < 0 || x < y
``````

### Edit

Combined with what hammar said, you can even get more beautiful code:

``````foo x | x < 0     = return x
| otherwise = do y <- getForX x
return \$ y < 0 || x < y
``````
-
These are all good answers but the "dangling do" I think will help me the most. –  Owen Aug 10 '11 at 10:27
Because, while beautiful, the second code fragment doesn't answer the Owen's question: how to flatten several nested ifs. Also, wow, I would have guessed that to be a syntactic error. @Owen, I suppose it's a matter of preference, but I think the first fragment hides the structure of the computation: you can't immediately tell how the condition affects the rest of the code. If you can't use a short-circuiting monad (I usually write a monad instance for Either which stops on the first Left), the large if is probably a better idea. –  scvalex Aug 10 '11 at 12:07
@scvalex It's an exception in GHC's parser. IIRC, it will only work with `do` and possibly `proc`. –  FUZxxl Aug 10 '11 at 15:35
@FUZxxl: In section 2.7 of the Haskell report, the layout rules are defined such that the non-brace lexeme immediately following a `where`, `let`, `do` or `of` determines the indentation level. So this not GHC-specific, but part of the standard, even Haskell 98. –  hammar Aug 10 '11 at 21:19

Using patterns and guards can help a lot:

``````foo x | x < 0 = return x
foo x = do
y <- getForX x
if y < 0
then return True
else return \$ x < y
``````

You can also introduce small helper functions in a `where` clause. That tends to help readability as well.

``````foo x | x < 0 = return x
foo x = do
y <- getForX x
return \$ bar y
where
bar y | y < 0     = True
| otherwise = x < y
``````

(Or if the code really is as simple as this example, use logic as FUZxxl suggested).

-

The best way to do this is using guards, but then you need to have the `y` value first in order to use it in the guard. That needs to be gotten from `getForX` wich might be tucked away into some monad that you cannot get the value out from except through getForX (for example the `IO` monad) and then you have to lift the pure function that uses guards into that monad. One way of doing this is by using `liftM`.

``````foo x = liftM go (getForX x)
where
go y | x < 0     = True
| y < 0     = True
| otherwise = x < y
``````
-

Isn't it just

``````foo x = x < y || y < 0 where y = getForX x
``````

EDIT: As Owen pointed out - getForX is monadic so my code above would not work. The below version probably should:

``````foo x = do
y <- getForX x
return (x < y || y < 0)
``````
-
Well it would be except that getForX is monadic. –  Owen Aug 10 '11 at 10:22
The logic's a little different though, since `getForX` is always "called" regardless of the value of `x`. –  Owen Aug 11 '11 at 0:36