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Suppose I write a function

f [x, y] = x + y
f [x, y, z] = z - x - y

This is filled out by the compiler with an extra line saying something like

f _ = error "pattern match failed"

If f is not exported, and I know it's only applied properly, and the function is performance-critical, I may want to avoid having an extra pattern in the production code. I could rewrite this rather unnaturally something like

f l = assert (atLeastTwo l) $
        let (x,r1) = (unsafeHead l, unsafeTail l) in
          let (y,r2) = (unsafeHead r1, unsafeTail r1) in
            case r2 of
              [] -> x + y
              (z,r3) -> assert (r3 == []) $ z - x - y 

What I'd like to do is write the original function definition with an extra line:

f _ = makeDemonsComeOutOfMyNose "This error is impossible."

The descriptively named magical function would be compiled as error when assertions or inferred safe Haskell are enabled, and marked as unreachable (rendering the pattern match unsafe) when assertions are disabled. Is there a way to do this, or something similar?


To address jberryman's concerns about whether there is a real performance impact:

  1. This is a hypothetical question. I suspect that in more complicated cases, where there are multiple "can't happen" cases, there is likely to be a performance benefit—at the least, error cases can use extra space in the instruction cache.

  2. Even if there isn't a real performance issue, I think there's also an expressive distinction between an assertion and an error. I suspect the most flexible assertion form is "this code should be unreachable", perhaps with an argument or three indicating how seriously the compiler should take that claim. Safety is relative—if a data structure invariant is broken and causes the program to leak confidential information, that's not necessarily any less serious than an invalid memory access. Note that, roughly speaking, assert p x = if p then x else makeDemonsFlyOutOfMyNose NO_REAL_DEMONS_PLEASE "assertion failed", but there's no way to define the demon function in terms of assert.

share|improve this question
You just want to do this for performance reasons? Have you been able to measure the effects of an extra case calling error before? – jberryman Apr 11 '14 at 20:01
Also, what is the performance cost of a case that isn't ever reached? – duplode Apr 11 '14 at 20:14
Because you're using linked-lists, that level of perfomance consideration should be out. C-like last-resort optimisations (which, I don't need to remind you, should really be last-resort!) only make sense if you also avoid the cache misses inherent to any non-consecutive-memory data structure. – leftaroundabout Apr 11 '14 at 20:16
@leftaroundabout, this is a hypothetical example. – dfeuer Apr 11 '14 at 20:23
I doubt this would be possible. Haskell is designed to be memory safe when using the core language. – jozefg Apr 11 '14 at 20:47

GHC is clever enough to optimize the unused pattern match away. Here's a simple program.

module Foo (foo) where

data List a = Nil | Cons a (List a)

link :: List a -> List a -> List a
link Nil        _   = error "link: Nil"
link (Cons a _) xs  = Cons a xs

l1 = Cons 'a' (Cons 'b' Nil)

foo = link l1

This is a very contrived example, but it demonstrates the case where GHC can prove that link (or in your case f) is being called on a statically known constructor (or can otherwise prove which pattern match will succeed via inlining, simplifying etc.)

And here's the Core output:

foo1 :: Char
foo1 = C# 'a'

foo :: List Char -> List Char
foo = \ (ds :: List Char) -> Cons foo1 ds

The error case doesn't show up anywhere in the Core for Foo. So you can be assured that in cases like this, there is absolutely no performance difference incurred by having an extra unused pattern match.

share|improve this answer
This is rather too simple, I think. The sort of use-case I'm thinking of is a module implementing a data structure with some invariant that should be checked by assertions. Inlining won't help with that, because the data structure and the operations to be performed on it are not known statically. – dfeuer Apr 11 '14 at 22:16
Well, your question asks (among other things) how GHC treats unused pattern matches and I've shown here that unused pattern matches can be optimized away entirely. If you're instead asking how to maintain invariants of data structures without runtime overhead, then you may be able to express those invariants at the type level which will then have no overhead at runtime. What kind of data structure, and what invariant are you thinking of specifically? – cdk Apr 12 '14 at 0:06

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