Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

As an example, say I wish to implement a function which sums up a list of Nums. Halfway through coding it, I wish to debug it with Debug.Trace:

module T where
import Debug.Trace

dosum :: (Num a) => [a] -> a
dosum xs = dosum' 0 xs
    where
        dosum' n [] = n
        dosum' n (x:xs) = trace (show n) $ dosum' (n+x) xs

The problem is that this will not compile:

Could not deduce (Show a) arising from a use of dosum'
from the context (Num a)

I can add (Show a) to dosum and then remove it when I am finished debugging (in real life, I will want to have a type which is not necessarily in Show, but I will debug with integers). This can get cumbersome if there are a few functions involved and I keep adding removing Show a statements.

I want to have a function unsafeShow

unsafeShow :: a -> String

which works if a is Show a and is free to crash if it is not. Is this possible?

share|improve this question
    
You could comment out the signature while debugging. –  Daniel Fischer Apr 18 '12 at 14:41
    
@DanielFischer: problem is if dosum is at the bottom of a stack, I end up commenting/uncommenting multiple functions all the time and it's very annoying. –  luispedro Apr 18 '12 at 14:44
1  
Perhaps(?) lesser evil: #ifdef DEBUG –  Daniel Fischer Apr 18 '12 at 14:47
    
This does compile, Num is a subclass of Show ;) But in general case I guess it can't be done. Not for ghc or other "usual" implementations. A "usual" implementation does not have values type-tagged, and so cannot discover at runtime any type information it doesn't know at compile time. –  n.m. Apr 18 '12 at 14:48
4  
@n.m.: Num isn't a subclass of Show any more. The (Eq a, Show a) context was removed in the February release of base 4.5.0.0, which shipped with GHC 7.4.1. –  ehird Apr 18 '12 at 14:49
show 2 more comments

6 Answers

up vote 8 down vote accepted

The really really terrible answer is to use unsafeCoerce from the Unsafe.Coerce module. It is as it sounds – it is a general tool for bypassing the type system, and if you get it wrong, you won't get a type error or an exception, you will get a segmentation fault.

In this case, you can unsafeCoerce a value that you already know is an Integer to Integer so that the type system can recognise that it's an integer too. Then you can show it as usual (make sure to give an explicit type signature, so show knows what it is showing – it can't infer, since unsafeCoerce can return any type!)

But if you accidentally call the code with unsafeCoerce on something other than an Integer, crashes, memory corruption, anything could happen – you've just completely thrown away your safety net.

In general, the only "safe" uses of unsafeCoerce are between types that you already know are equal, but the typechecker doesn't (or some other specialised use-cases, see the docs). Even then it will be heavily frowned upon by anyone reading your code unless your comments explain why it is the only option.

share|improve this answer
    
Thanks! This is actually pretty close to what I wanted. I did not know about unsafeCoerce –  luispedro Apr 18 '12 at 15:36
1  
I accepted this as I wrote showInt ai = show (unsafeCoerce ai :: Int) which has type showInt :: a -> String and does exactly what I wanted. –  luispedro Apr 18 '12 at 17:17
    
I'm not even convinced there's any way to make this work that gets you anywhere that the normal show didn't get you. –  Louis Wasserman Apr 18 '12 at 22:05
add comment

No, this is not possible. It would violate parametricity; a polymorphic function is not allowed to behave differently based on the specific type it is called with. It would also break the open world assumption, in that adding a Show instance for a type would change the behaviour of your program.

It could be a useful debugging aid, as something explicitly marked unsafe, but GHC does not support such a function, and I don't think its current implementation would permit the easy addition of one.

A possible alternative, if you have many functions with the same typeclass context that you want to do this with, and there is a conceptual semantic grouping to, would be to have a class like

class (Num a) => Number a
instance (Num a) => Number a

which you can use instead of Num in signatures, changing the declaration to (Num a, Show a) when debugging. (It would be better to pick a more meaningful name than Number, however!)

share|improve this answer
    
Thanks. I agree that this is an awful idea in general. I just want it for debug. –  luispedro Apr 18 '12 at 14:46
1  
In GHC 7.4.1 with ConstraintKinds you can also just write type Number a = Num a or type Number a = (Show a, Num a) and then write functions f :: (Number a) => a -> a -> a –  Ben Millwood Apr 18 '12 at 15:45
    
Nice explanation. I kinda sorta knew it was not possible, but this sentence cleared it up for me: "adding a Show instance for a type would change the behaviour of your program." –  Dan Burton Apr 18 '12 at 21:55
add comment

It's not possible to implement your unsafeShow function in pure Haskell. The GHC could provide one, but currently it doesn't.

You might check out the GHCi debugger, however. This allows you to print stuff out that doesn't have a Show instance. (Further, it allows you to avoid evaluating something that wouldn't otherwise be evaluated, which can be useful.)

share|improve this answer
add comment

This is not possible. (note 1)


1: An exception is that you can dump the heap structure of GHC's heap, via an a -> String function. You can e.g. always turn a value into a hexadecimal pointer value, via vacuum. This is unlikely to be what you want. This functionality is the same as that used by the GHCi debugger to show arbitrary heap values.

share|improve this answer
add comment

Usually I would comment out the type signature, but if a function is deep in the tree that gets annoying. You can try using rewrite rules to replace your polymorphic function with the modified variant.

-- original function, should add NOINLINE to make sure your rule gets a chance to fire.
{-# NOINLINE dosum #-}
dosum :: (Num a) => [a] -> a

-- a version with added debugging
dosumShow :: (Num a, Show a) => [a] -> a

{-# RULES "sub/dosum" forall x. dosum x = dosumShow x #-}
share|improve this answer
add comment

It's GHC version 7.4.1? From it release notes:

The Num class no longer has Eq or Show superclasses. A number of other classes and functions have therefore gained explicit Eq or Show constraints, rather than relying on a Num constraint to provide them.

You can make code that works with both Haskell98/Haskell2010 and GHC by:

  • Whenever you make a Num instance of a type, also make Show and Eq instances, and

  • Whenever you give a function, instance or class a Num t constraint, also give it Show t and Eq t constraints.

Your code works well in previous versions of GHC (I try in 7.0.4).

share|improve this answer
    
Yes, it's modern GHC. The Num was an example which happened to work well on modern GHC, but I wanted to have the more general question (my actual example is with ByteStrings, but I thought integers would make a simpler example). –  luispedro Apr 18 '12 at 14:51
    
Ok, I see, if foo has Show in its context and bar calls foo then bar must has Show in its context, and so on. Maybe you need to reimplement old Num like this class (Show t, Eq t, Num t) => NumDebug t and then switch between Num and NumDebug? If you has trace (show n) ... when n is non-ad-hoc polymorphic (say, Integer) then there is no problems. –  JJJ Apr 18 '12 at 15:35
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.