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How can I get more information about where a Haskell error has occurred? For example, yesterday I was working on a Haskell program that parses an input file, transforms the data and then prints out reporting information.

At one point, I ran "main" and got back

*** Prelude.read: parse error

with no other information. Fortunately, I knew I was calling read in only one place and was able to fix it, but for the future:

  • Is it possible to get a backtrace or a line number for errors like these?
  • Is it possible to get the actual data that triggered the error, i.e. the string that caused the parse error?


Edit Using GHC.

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You're better off just avoiding partial functions entirely. Use Safe.readMay instead. –  Tom Ellis Jan 30 '14 at 14:34
see here for a better solution –  Simon Dec 29 '14 at 17:35

5 Answers 5

up vote 5 down vote accepted

you can get the string that caused the parse error by importing Debug.Trace and changing your call

import Debug.Trace (trace)

myRead s = read s
myRead s = trace s (read s)
myRead s = trace (take 100 s) (read s)
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I find \s->fst$head$reads s++[error$"Can't read: "++show s] more useful because it does not spam when the read is successful. –  Rotsor Jun 21 '12 at 19:36

In general it is up to you to handle error in such a fashion that there is enough context for you to debug the cause.

The lazyness of Haskell makes stack traces difficult to implement, because the call stack might not exist any longer by the time the error happens.

A simple way of error handling is to use the Either type which allows your to return a value when things went right, or some context (error message, the input string, ...) in case of an error.

Finally, in you specific case read is throwing an exception so you would have to catch that and then handle the error in the calling code (have a look in the Control.Exception package).

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You didn't tell us which compiler you are using. If you use GHC, then you should take a look at the GHCi Debugger.

Stack tracing in Haskell is not trivial, because of its laziness. Nevertheless, the aforementioned debugger provides some tools (see section 2.5.5. Tracing and history in the above URL).

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If you can run the code in ghci, then the debugger can do everything you want. Here's a program that raises an exception

foo s i
  | i == 57 = read s
  | otherwise = i
main = mapM_ (print . foo "") [1..100]

Now load it into ghci and use the debugger, as documented here: http://www.haskell.org/ghc/docs/latest/html/users_guide/ghci-debugger.html#ghci-debugger-exceptions

> ghci test.hs
*Main> :set -fbreak-on-error
*Main> :trace main
... snipped 3 through 55 ...
Stopped at <exception thrown>
_exception :: e = _
[<exception thrown>] *Main> :back
Logged breakpoint at test.hs:2:15-20
_result :: a
s :: String
[-1: test.hs:2:15-20] *Main> :list
1  foo s i
2    | i == 57 = **read s**
3    | otherwise = i
[-1: test.hs:2:15-20] *Main> s
[-1: test.hs:2:15-20] *Main> 

It lets you step around in the evaluation history, highlights the actual expression that raised the exception (bold rather than starred on a terminal), and lets you inspect the local variables.

Another option is to recompile with profiling and some flags to tag appropriate cost centers, and run with the -xc profiling option which prints the cost center stack on uncaught exceptions http://www.haskell.org/ghc/docs/latest/html/users_guide/prof-time-options.html

> ghc -prof -auto-all test.hs
> ./test +RTS -cs
... snipped 3 through 55 ...
*** Exception (reporting due to +RTS -xc): (THUNK_2_0), stack trace: 
  called from Main.main,
  called from Main.CAF
  --> evaluated by: Main.main,
  called from Main.CAF
test: Prelude.read: no parse

The reason this is a bit difficult is described a bit earlier on the debugger page http://www.haskell.org/ghc/docs/latest/html/users_guide/ghci-debugger.html#tracing Basically, efficient Haskell execution doesn't use anything resembling a normal call stack, so to get that kind of information on an exception you have to be running in some special mode (debugging or profiling) which does keep that sort of information.

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You might consider using a monadic read as in "Practical Haskell: shell scripting with error handling and privilege separation" by fellow StackOverflow user dons:

The first step is to replace read with a version lifted into a generic error monad, MonadError:

readM :: (MonadError String m, Read a) => String -> m a
readM s | [x] <- parse = return x
        | otherwise    = throwError $ "Failed parse: " ++ show s
        parse = [x | (x,t) <- reads s]
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