# haskell - check two points in R^2

i have given two points. Now of i need to check if those points are identical, so i do:

``````type datatypePoint = (Float,Float)

anyLine :: datatypePoint -> datatypePoint -> datatypeLine
anyLine a b = [[fst a, fst b] , [snd a, snd b]]
| (fst a == fst b) && (snd a == snd b) = error "Identical"
| otherwise = error "Not identical"
``````

But i get error:

``````unexpected |
``````

anybody could tell me why? What am i doing wrong?

-
Your errors aside, note that 1. you should use `Double` in Haskell unless there's a specific reason not to do it 2. even then, `==`-comparing floating point values is basically doomed to give bad results, because most calculations have small rounding errors in them. – Usually, you want to check only `<` relations. –  leftaroundabout Dec 8 '13 at 20:44

You have a few errors here, first off, all types start with upper case letters in Haskell

``````type Point = (Float,Float)

anyLine :: Point -> Point -> Point
``````

Next, pattern matching happens before the `=` sign.

``````anyLine (a1, a2) (b1, b2)
| a1 == b1 && a2 == b2 = error "Identical"
| otherwise            = error "Not identical"
``````

And with guards we omit the equality sign.

This could also just be

``````anyLine a b
| a == b = ...
| otherwise = ...
``````

I think it's well worth the time to read a good Haskell tutorial to learn some of the basic concepts you're missing, I personally favor Learn You A Haskell.

-
ok yea thanks, you´re right, do you know any module for solving linear equations? –  user3080627 Dec 8 '13 at 20:26

You can specify a result or define cases; you can't do both at the same time.

``````anyLine :: datatypePoint -> datatypePoint -> datatypeLine
anyLine a b
| (fst a == fst b) && (snd a == snd b) = error "Identical"
| otherwise = error "Not identical"
``````
-
you were right, thanks! –  user3080627 Dec 8 '13 at 19:58

Other folks have already answered the question, but I wanted to point out that this would be even simpler if you used "newtype" and "deriving"

``````newtype Point a = Point (a, a) deriving (Eq)

anyLine a b
| a == b = ....
| otherwise = ....
``````

It also doesn't hurt to keep the type a generic, so now this will work for "Point"s of Floats, Ints, etc.

-