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Is there a short circuit built in to GHC's (and Haskell's in general) derived Eq instance that will fire when I compare the same instance of a data type?

-- will this fire?
let same = complex == complex

My plan is to read in a lazy datastructure (let's say a tree), change some values and then compare the old and the new version to create a diff that will then be written back to the file.

If there would be a short circuit built in then the compare step would break as soon as it finds that the new structure is referencing old values. At the same time this wouldn't read in more than necessary from the file in the first place.

I know I'm not supposed to worry about references in Haskell but this seems to be a nice way to handle lazy file changes. If there is no shortcircuit builtin, would there be a way to implement this? Suggestions on different schemes welcome.

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You could get similar short-circuiting if you attach a hash value to each tree node, but I agree that just being able to compare references (which are, in a way, hashes assigned by the memory management!) would be rather more straighforward and arguably just more efficient here. +1 –  leftaroundabout Oct 9 '12 at 10:48
What about StableName. I just found out about it. Would that help me in any way? –  Florian Oct 9 '12 at 11:10

2 Answers 2

up vote 7 down vote accepted

StableNames are specifically designed to solve problems like yours.

Note that StableNames can only be created in the IO monad. So you have two choices: either create your objects in the IO monad, or use unsafePerformIO in your (==) implementation (which is more or less fine in this situation).

But I should stress that it is possible to do this in a totally safe way (without unsafe* functions): only creation of stable names should happen in IO; after that, you may compare them in a totally pure way.


data SNWrapper a = SNW !a !(StableName a)

snwrap :: a -> IO (SNWrapper a)
snwrap a = SNW a <$> makeStableName a

instance Eq a => Eq (SNWrapper a) where
  (SNW a sna) (SNW b snb) = sna == snb || a == b

Notice that if stable name comparison says "no", you still need to perform full value comparison to get a definitive answer.

In my experience that worked pretty well when you have lots of sharing and for some reason are not willing to use other methods to indicate sharing.

(Speaking of other methods, you could, for example, replace the IO monad with a State Integer monad and generate unique integers in that monad as an equivalent of "stable names".)

Another trick is, if you have a recursive data structure, make the recursion go through SNWrapper. E.g. instead of

data Tree a = Bin (Tree a) (Tree a) | Leaf a
type WrappedTree a = SNWrapper (Tree a)


data Tree a = Bin (WrappedTree a) (WrappedTree a) | Leaf a
type WrappedTree a = SNWrapper (Tree a)

This way, even if short-circuiting doesn't fire at the topmost layer, it might fire somewhere in the middle and still save you some work.

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That's more or less exactly what i have implemented now. So i'll accept this answer. –  Florian Oct 9 '12 at 13:56

There's no short-circuiting when both arguments of (==) are the same object. The derived Eq instance will do a structural comparison, and in the case of equality, of course needs to traverse the entire structure. You can build in a possible shortcut yourself using

GHC.Prim.reallyUnsafePtrEquality# :: a -> a -> GHC.Prim.Int#

but that will in fact fire only rarely:

Prelude GHC.Base> let x = "foo"
Prelude GHC.Base> I# (reallyUnsafePtrEquality# x x)
Prelude GHC.Base> I# (reallyUnsafePtrEquality# True True)
Prelude GHC.Base> I# (reallyUnsafePtrEquality# 3 3)
Prelude GHC.Base> I# (reallyUnsafePtrEquality# (3 :: Int) 3)

And if you read a structure from file, it will certainly not find it the same object as one that was already in memory.

You can use rewrite rules to avoid the comparison of lexically identical objects

module Equal where

"==/same"  forall x. x == x = True

main :: IO ()
main = let x = [1 :: Int .. 10] in print (x == x)

which leads to

$ ghc -O -ddump-rule-firings Equal.hs 
[1 of 1] Compiling Equal            ( Equal.hs, Equal.o )
Rule fired: Class op enumFromTo
Rule fired: ==/same
Rule fired: Class op show

the rule firing (note: it didn't fire with let x = "foo", but with user-defined types, it should).

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I think lexigraphically equality won't get me far here. I'll have a look into reallyUnsafePtrEquality (altough reallyUnsafe scares me). The references will (hopefully) be the same. I want to compare two trees after a Tree -> Tree function. Something of type (Tree -> Tree) -> Changes. I could of course keep a log of all the changes, but that strikes me as inefficient when i can just compare references. –  Florian Oct 9 '12 at 11:05
Hmm ... reallyUnsafePtrEquality seems to have a big chance to fail. In a situation where every false negative incures a disc read thats bad. –  Florian Oct 9 '12 at 11:11
Okay, if you compare tree to fun tree, there's a nonzero chance that reallyUnsafePtrEquality# detects common subtrees. But yes, you must expect that it will often not detect equality. –  Daniel Fischer Oct 9 '12 at 11:14
Maybe you can add a paragraph about StableName? I'll accept your answer nevertheless, but i've just read this and StableNames seem to be the way to go. –  Florian Oct 9 '12 at 11:18
@Florian (and Daniel), it does work. With some seq magic: let x = [1]; y = 1:x; y' = tail y in x `seq` y' `seq` I# (reallyUnsafePtrEquality# x y') gives 1. (And presumably it would work on a more complex data structure where there are unchanged substructures.) –  huon-dbaupp Oct 9 '12 at 11:22

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