I'm trying to write a program that takes two integers on the command line and does something interesting with them. I would like write the reading/parsing of the integers as easily and imperatively as possible since it should be relatively simple code.
The problem that I'm facing is that in Haskell handling errors is not so simple. It seems that in Haskell pattern matching is often used. This seems to make the code slightly harder to follow than the imperative version.
The program would be run like this (in this example it just adds together the two numbers):
$ ./my_prog ERROR: Must run like `./my_prog NUM_A NUM_B`. $ ./my_prog cat 1 ERROR: Could not parse NUM_A "cat" as integer $ ./my_prog 10 dog ERROR: Could not parse NUM_B "dog" as integer $ ./my_prog 10 1 11
Here's is what I would like to do in imperative pseudo-Python:
function die (errorMessage): print("ERROR: %s" % errorMessage) sys.exit(1) function main (): if len(sys.argv) != 2: die("Must run program like `%s NUM_A NUM_B`" % sys.progname) num_a = 0 num_b = 0 try: num_a = int(sys.argv) except: die("Could not parse NUM_A \"%s\" as integer" % sys.argv) try: num_b = int(sys.argv) except: die("Could not parse NUM_B \"%s\" as integer" % sys.argv) doSomethingInteresting(num_a, num_b) function doSomethingInteresting (num_a, num_b): print(num_a + num_b)
In python you can basically read the main function from top to bottom and all the error handling is straightforward. Is there a way to implement this simple, straightforward error handling in Haskell without doing multiple pattern matchings?
Here is the Haskell code I came up with that does this same task, but it seems much more complicated than the Python code because of the multiple pattern matching sections.
module Main ( main ) where import System.Environment (getArgs, getProgName) import System.Exit (ExitCode(..), exitWith) import Text.Read (readMaybe) die :: String -> IO a die err = do putStrLn $ "ERROR: " ++ err exitWith (ExitFailure 1) main :: IO () main = do args <- getArgs progName <- getProgName case args of [strNumA, strNumB] -> do let maybeNumA = readMaybe strNumA :: Maybe Int maybeNumB = readMaybe strNumB :: Maybe Int checkMaybeArgs strNumA maybeNumA strNumB maybeNumB _ -> die ("Must run like `" ++ progName ++ " NUM_A NUM_B`.") where checkMaybeArgs :: String -> Maybe Int -> String -> Maybe Int -> IO () checkMaybeArgs badStrNumA Nothing _ _ = die ("Could not parse NUM_A \"" ++ badStrNumA ++ "\" as integer") checkMaybeArgs _ _ badStrNumB Nothing = die ("Could not parse NUM_B \"" ++ badStrNumB ++ "\" as integer") checkMaybeArgs _ (Just numA) _ (Just numB) = doSomethingInteresting numA numB doSomethingInteresting :: Int -> Int -> IO () doSomethingInteresting numA numB = print $ numA + numB
(Also if there is anything else wrong with my Haskell style I would be very grateful for any corrections.)
edit: I recently found a blog post talking about the many different ways to handle exceptions in Haskell. It is somewhat related: