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data Thing = Thing {a :: Int, b :: Int, c :: Int, (...) , z :: Int} deriving Show

foo = Thing 1 2 3 4 5 (...) 26
mkBar x = x { c = 30 }

main = do print $ mkBar foo

What is copied over when I mutate foo in this way? As opposed to mutating part of a structure directly.

Data Thing = Thing {a :: IORef Int, b :: IORef Int, (...) , z :: IORef Int}
instance Show Thing where
(...something something unsafePerformIO...)

mkFoo = do a <- newIORef 1
           z <- newIORef 26
           return Thing a b (...) z
mkBar x = writeIORef (c x) 30

main = do foo <- mkFoo
          mkBar foo
          print foo

Does compiling with optimizations change this behavior?

share|improve this question
Something, something, something, unsafePerformIO. Something, something, something, complete. –  Jon Purdy Nov 30 '11 at 16:34

3 Answers 3

up vote 7 down vote accepted

In the first example, the pointers to the unchanged Int components are copied (and the constructor tag, if you wish to say so). It doesn't make much difference whether an Int or a pointer to one is copied, but if the components were large structures, it would.

Since the fields are not strict, the behaviour is, afaik, independent of optimisation. If the fields were strict, with optimisations, they might be unpacked into the constructor and then the raw Int# values would be copied.

In the second example, nothing is copied, the contents of the IORef are overwritten.

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To expand on Daniel's answer, you can think of

data Foo = Foo {a::Int, b::Int}
update foo x = foo{a=x}

as just about the same as

data Foo = Foo Int Int
update (Foo a b) x = Foo x b
share|improve this answer

It's probably the case that updating a field results in copying the whole structure. But if the compiler can prove that the structure is used in a single threaded way it can do update in place. I don't know of any implementation that does this, but you could imagine doing it with single bit reference counts.

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I think Clean does it as single-threadedness is built into its type system. Clean is not a Haskell implementation though. –  nponeccop Nov 30 '11 at 19:32
Yes, Clean has uniqueness types which allows them to use destructive update of e.g. arrays. –  augustss Dec 1 '11 at 6:03

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