# Calculating work done by f x = (x,x)

Let's say I have this function: (Haskell syntax)

``````f x = (x,x)
``````

What is the work (amount of calculation) performed by the function?

At first I thought it was obviously constant, but what if the type of `x` is not finite, meaning, x can take an arbitrary amount of memory? One would have to take into account the work done by copying `x` as well, right?

This led me to believe that the work done by the function is actually linear in the size of the input.

This isn't homework for itself, but came up when I had to define the work done by the function:

``````f x = [x]
``````

Which has a similar issue, I believe.

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good question for cs.stackexchange.com –  FlavorScape May 31 '12 at 0:14
Should I move it? (Assuming I can, I'm not really familiar with the site) –  Guido May 31 '12 at 0:25
@Guido You can't move it, although it's not possible to move it to the destination I think it fits, too. IMHO it's best to leave it here. –  FUZxxl May 31 '12 at 10:37
Note that an expression like `(x,x)` could trigger evaluation of `x` twice depending on whether the monomorphism restriction is in effect or not. E.g. see this recent blog post: [ics.p.lodz.pl/~stolarek/blog/2012/05/… understanding Haskell’s monomorphism restriction) –  user5402 Jun 1 '12 at 17:25
@Guido Are you Guido Van Rossum? –  thefourtheye Oct 3 at 7:13

Very informally, the work done depends on your language's operational semantics. Haskell, well, it's lazy, so you pay only constant factors to:

• push pointers to `x` on the stack
• allocate a heap cell for `(,)`
• apply `(,)` to its arguments
• return a pointer to the heap cell

Done. O(1) work, performed when the caller looks at the result of `f`.

Now, you will trigger further evaluation if you look inside the `(,)` -- and that work is dependent on the work to evaluate `x` itself. Since in Haskell the references to `x` are shared, you evaluate it only once.

So the work in Haskell is O(work of x) if you fully evaluate the result. Your function `f` only adds constant factors.

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To further clarify: `(,)` in Haskell is a boxed tuple, which means that it is a construct that merely holds pointers. If you have a language where `(,)` creates an unboxed tuple, then yes, it will take extra work to clone `x` to both slots, if `x` is larger than a pointer, and the amount of work scales with the size of `x`. GHC provides unboxed tuples `(#,#)` with various limitations. –  Dan Burton May 31 '12 at 18:14