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Generally the standard requires functors to be pure functions because algorithms are allowed to copy their functors to their heart's content. However, there are some algorithms (e.g. find_if) for which no sane implementation would be doing any form of functor copying.

Can we rely on this?

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By "pure function" do you mean a const function? Regardless I don't know the answer to this but I suspect it's buried in the new standard somewhere. – AJG85 Aug 2 '11 at 23:06
Title says "free functions", text says "pure functions". No algorithm requires free functions, just any callable object. – GManNickG Aug 2 '11 at 23:08
What's the question? In the FDIS, for_each requires the function object to be only move- but not copy-constructible. – Kerrek SB Aug 2 '11 at 23:10
@GMan: Sorry, fixing that now. – Billy ONeal Aug 2 '11 at 23:21
up vote 4 down vote accepted

I think what you're trying to ask is which functors need to be stateless due to being copied at arbitrary times.

I can't think of any algorithms that require free functions to be used, but most/all certainly require the object itself to not hold state. What you can do is have the object have a reference to a state object that's held outside the algorithm call. Any copy of the functor can then modify that state object appropriately.

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What do you mean by "pure function?"

If you mean "function pointer", then no; every standard algorithm can take function objects as well as function pointers. Yes, they must be copyable, but a functor that is copyable is still a functor.

If you mean "copyable", then yes. The standard library requires that the type given to algorithms be copyable. If your functor isn't copyable, you can use a boost::reference_wrapper<T> to wrap your non-copyable object in a copyable container that acts as a reference. Note that this template was added to C++0x as std::reference_wrapper<T>.

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