if even 2 then 10 else 11 -- works fine

if even 2 then let t = 10 else let s = 11 -- _:27: parse error on input 'else'

if even 2 then 10 else let s = 11 -- _:34 parse error (possibly incorrect indentation or mismatched brackets)

because let's say I want to code something like this with [[p]]:

[ t | let e = [], 
      let o = p!!14, r <- [13,12..1], 
      if even r 
         let o = zipWith (+) (p!!r) (zipWith max e (drop 1 e))
             t = o
         e = zipWith (+) (p!!r) (zipWith max o (drop 1 o))
      t = e ]

which at load time reports the error . . . _:33: parse error on input `else'

  • 7
    You really need to go through a proper introductory Haskell tutorial. Please don't assume that Haskell is like every other language, like your python like list comprehensions. Oh and one other thing, welcome to SO! – S.R.I Jan 9 '14 at 6:28

You seem to be assigning different values to a binding in different branches in an imperative way. This doesn't work in Haskell, you must instead of the conditional inside the assignment of the binding like so:

[ t | let e = [],
      let o = p!!14,
      r <- [13,12..1],
      let t = if even r
              then zipWith (+) (p!!r) (zipWith max e (drop 1 e))
              else zipWith (+) (p!!r) (zipWith max o (drop 1 o))

Note that the if has to line up. It must either start on the same line as the = or it must be at the same or greater indentation level as the = on the following line.

Another thing I notice is that e will always be [] and I imagine this wasn't the intention.


The then and the else part in an if expression should return the same type in Haskell.

It's syntax is like this:

if <condition> then <true-value> else <false-value>\

In your example, there is no point of using let unless you are planning to use that variable in the if conditional itself.

LYAH book nicely points out the difference of If conditional as compared to imperative languages:

The difference between Haskell's if statement and if statements in imperative languages is that the else part is mandatory in Haskell. In imperative languages you can just skip a couple of steps if the condition isn't satisfied but in Haskell every expression and function must return something.

     let o = zipWith (+) (p!!r) (zipWith max e (drop 1 e))
         t = o

"in" keyword must be after "let" expression

  • This is inside a list comprehension, which means you don't have the in after the let expression. In this way, it is similar to a do block. – David Jan 10 '14 at 1:42

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