Dismiss
Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

# How do I calculate the sum from my functions?

I have a file (points.txt) with some Cartesian coordinates defined:

``````A 1.0 2.2
B 2.1 3.0
C 3.5 4.0
D 4.0 5.0
``````

I have a second file (routes.txt) with routes defined based on the points from points.txt.

``````route1 ACDB
route2 ABC
``````

I need to find the length of each route. So far I have a calculation of the distance between two points, like this:

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

distance_points :: IO ()
distance_points = do s <- readFile "pontos.txt"
putStr "Fom: "
p1 <- getLine
putStr "To: "
p2 <- getLine
print ( distance (search_point p1 (map words (lines s))) (search_point p2 (map words (lines s))))

search_point :: String -> [[String]] -> Point
search_point pt ([p,c1,c2]:xs) = if pt == p then (p, read(c1)::Float, read(c2)::Float)
else search_point pt xs

distance :: Point -> Point -> Float
distance (s1,x1,y1) (s2,x2,y2) = sqrt ((x1-x2)^2 + (y1-y2)^2)
``````

How can I calculate the full distance of a route?

Also, if I have several routes how can I find the longest one?

-
Instead of walking the file to do the calculation, write a function that takes a collection of points and does the calculation. You should completely separate the code that reads the file and generates the collection of points. You could use (lookup)[hackage.haskell.org/packages/archive/base/latest/doc/html/… or full-blown (Data.Map)[hackage.haskell.org/packages/archive/containers/latest/doc/html/… – AndrewC Jun 9 '13 at 22:11
@KarolyHorvath let us continue this discussion in chat – AndrewC Jun 9 '13 at 22:21
Hi AndrewC, thank you for your time. Unfortunately, and because I'm a really newbie on haskell, I don't have the knowledge to implement the functions you mentioned on you answer. That said, I also have code to load routes from routes.txt file that returns a string like "ABCD". My question is, how can I take that string and the "distance" function to make the calculation: A to B + B to C + C to D – pvl Jun 9 '13 at 22:30
@KarolyHorvath I'm just trying to get some help with this code and believe me or not, I've spent almost a day to write the code posted on the question. If I ofended you or anyone in anyway on this site I can just remove the topic. – pvl Jun 9 '13 at 22:34
@pvl Don't worry. Perhaps Karoly had a particularly mean Maths teacher that was rude to him when he found stuff hard and refused to help him, and he somehow feels now that it's the best response to a student. Don't delete your questions unnecessarily. – AndrewC Jun 9 '13 at 22:57

## 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"
[(1,'H'),(2,'e'),(3,'l'),(4,'l'),(5,'o')]
zip "Hello" "ello"
[('H','e'),('e','l'),('l','l'),('l','o')]
*Main> zip "Hello" (tail "Hello")
[('H','e'),('e','l'),('l','l'),('l','o')]
``````

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
....
....
``````

and then you can glue it together with, for example:

``````pathLengthFile :: FilePath -> FilePath -> IO Float
pathLengthFile pointsFilename pathFilename = do
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 =