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"
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:
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.
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