Step 1: Separate pure and non-pure code, by not writing IO till the end.
The easiest way to do this is to solve your problem in pure code first, then add the file-reading afterwards. Otherwise you'll be tempted to write a lot of IO code.
It'll be easier if you separate the name from the coordinates:
type Coordinates = (Float,Float)
type Name = Char -- You had String, which is also fine
type Point = (Name, Coordinates)
type Points = [Point] -- or Map String Point from Data.Map
Then have some practice data:
sampleData :: Points
sampleData = [('A',(1.0,2.2), .....
Step 2: Write a function that takes a collection of points and a pair of point names and returns a distance
First you'll need a function that takes a name and gives you some coordinates.
coordinates :: Points -> Name -> Coordinates
If we're using
[Point], the easiest way to do this is to use
lookup. (You can find out about functions on hoogle like this or by type like this, although there's no obvious way for you to know that you wanted a
Maybe, and when you just search for
[(a,b)] -> b, lookup is a long way down.)
Comment if you need help with this step.
Using that you'll be able to write
distBetween :: Points -> Name -> Name -> Float
Step 3: Turn a list of names representing a path into a list of pairs of point names
getPath :: String -> [(Name,Name)]
or (cooler) use
zipWith to get to the distances. After that, applying
sum should be easy to finish the problem.
The cool way of making this list of pairs is to use a trick we use for the fibonacci numbers (
fibs = 0 : 1 : zipWith (+) fibs (tail fibs)) of zipping a function with its tail. If you've not met it, zip works like this:
ghci> zip [1..5] "Hello Mum"
zip "Hello" "ello"
*Main> zip "Hello" (tail "Hello")
Awesome - that's exactly the trick you need.
Step 4: Lastly, write the code reading files to the data types you need
You'll need functions like
readPointsFile :: FilePath -> IO Points
readPointsFile fileName = do
return (map readPoint pointStrings)
and then you can glue it together with, for example:
pathLengthFile :: FilePath -> FilePath -> IO Float
pathLengthFile pointsFilename pathFilename = do
points <- readPointsFile pointsFilename
path <- readPathFile pathFilename
return (getPathLength points path)
Notice how hardly any of the logic is in this bit. You do all the real graft in pure code.
Secretly I'm a massive
Applicative fan, and want to
import Control.Applicative and write this as
pathLengthFile pointsFile pathFile =
getPathLength <$> readPointsFile pointsFile <*> readPathFile pathFile
But that's another lesson for a later day. :)