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Suppose I have a stream of [acme] objects that I want to expose via an API. I have two choices, callbacks and iterators.

API #1: Callbacks

// API #1
// This function takes a user-defined callback 
// and invokes it for each object in the stream.
template<typename CallbackFunctor>
void ProcessAcmeStream(CallbackFunctor &callback);

API #2: Iterators

// API #2
// Provides the iterator class AcmeStreamIterator.
AcmeStreamIterator my_stream_begin = AcmeStreamIterator::begin();
AcmeStreamIterator my_stream_end   = AcmeStreamIterator::end();

API #1 takes the control flow of the program from the user's hand and will not return until the entire stream is consumed (forgetting exceptions for the moment).

API #2 retains the control flow in the user's hand, allowing the user to move forward the stream on his own.

API #1 feels more higher level, allowing the users to jump to the business logic (the callback functor) right away. On the other hand, API #2 feels more flexible, allowing the users lower-level of control.

From a design perspective, which one should I go with? Are there more pros and cons that I have not seen yet? What are some support/maintenance issues down the future?

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5 Answers 5

up vote 5 down vote accepted

One advantage of callbacks over iterators is that users of your API can't mess up iteration. It's easy to compare the wrong iterators, or use the wrong comparison operation or fail in some other way. The callback API prevents that.

Canceling enumeration is easily done using a callback, BTW: Just let the callback return a bool and continue only as long as it returns true.

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I've encountered this kind of issue during maintenance. I needed to prioritize the order in which items were processed. Instead of just changing the class so that everyone got the change for free, I had to find all the code that used it, and change that. –  Tim Mar 1 '11 at 16:26
Also, if you want to add multi-threaded capability, it's easier to do if you've hidden the implementation, than if you've provided iterators into your internals. –  Tim Mar 1 '11 at 16:27
IMO, the reasoning here is flawed. If you're going to assume a C++ programmer doesn't know how to use iterators, you probably also need to assume he doesn't know how to write a function or functor to use as a call-back. Conversely, if he knows C++, then he does know iterators. –  Jerry Coffin Mar 1 '11 at 18:23
But I like the point about hiding how the iteration is done via the callback approach, and be able to provide benefits for future enhancements such as the multithreading mentioned by Tim. –  kirakun Mar 1 '11 at 18:23
@Kirakun: locking could be added via iterators without modifying the calling code, although as Tim says it's easier with the Process function. The trick is for iterators to hold the lock. It's often a bad idea to silently add locking, though. If the caller doesn't know that a lock is being taken, he might create a locking inversion by taking another lock in the "wrong order" from the callback. Changing the order of iteration of course is also possible when you write the iterators, but might again be harder than doing it in a Process function if computing the order is complex. –  Steve Jessop Mar 1 '11 at 18:53

The iterator approach is more flexible, with the callback version being easily implemented in terms of the first one by means of existing algorithms:

std::for_each( MyStream::begin(), MyStream::end(), callback );
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I had actually considered mentioning that the callback version could easily be provided on top of the iterator one, but dismissed it, because (as we all know from std::string) an API providing multiple ways to do the same thing is just too confusing. I'd recommend deciding for one way. –  sbi Mar 1 '11 at 20:33

IMO, the second is clearly superior. While I can (sort of) understand your feeling that it's lower level, I think that's incorrect. The first defines its own specific idea of "higher level" -- but it's one that doesn't fit well with the rest of the C++ standard library, and ends up being relatively difficult to use. In particular, it requires that if the user wants something equivalent to a standard algorithm, it has to be re-implemented from the ground up rather than using existing code.

The second fits perfectly with the rest of the library (assuming you implement your iterators correctly) and gives the user an opportunity for dealing with your data at a much higher level via standard algorithms (and/or new, non-standard algorithms that follow the standard patterns).

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Yes, iterators are indeed more idiomatic. However, is it really better? I doubt it. C++ idea of iterators pairs are not the easiest way to tackle iteration, and I believe the only way this route was chosen was the ease with which pointers fit into this. In hindsight I consider this decision wrong, ranges would have been much better. (Compared to the herculean task of inventing the STL in the first place this is a minor critique, though.) –  sbi Mar 1 '11 at 20:37
@sbi: Windows, for one example, uses callbacks a great deal. I've used both iterators and callbacks a great deal, and see essentially no room for question that yes, iterators are a lot better. I'd like ranges, but their real improvement over iterators is fairly small -- the improvement going from callbacks to iterators is much greater. –  Jerry Coffin Mar 1 '11 at 21:36

C++ standard library idiom is to provide iterators. If you provide iterators, then ProcessAcmeStream is a simple wrapper around std::for_each. Maybe worth the trouble of writing, maybe not, but it isn't exactly boosting your caller into a radical new world of usability, it's a new name for an application of a standard library function to your iterator pair.

In C++0x, if you also make the iterator pair available through std::begin and std::end then caller can use range-based for, which takes them into the business logic just as quickly as ProcessAcmeStream does, perhaps quicker.

So I'd say, if it's possible to provide an iterator then provide it - the C++ standard does inversion of control for you if the caller wants to program that way. At least, for a case where the control is as simple as this it does.

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+1. It is the c++ way, also, by providing an iterator api, you're allowing the user to use all of cplusplus.com/reference/algorithm and cplusplus.com/reference/numeric on your acme objects. –  matiu Feb 8 at 11:21

From a design perspective, I would say that the iterator method is better, simply because it's easier and also more flexible; it's really annoying to make callback functions for without lambdas. (Now that C++0x will have lambda expressions, though, this may become less of a concern, but even still, the iterator method is more generic.)

Another issue with callbacks is cancellation. You can return a boolean value to indicate whether you'd like to cancel enumeration, but I always feel uneasy when the control is out of my hands, since you don't always know what might happen. Iterators don't have this issue.

And of course, there's always the issue that iterators can be random-access whereas callbacks aren't, so they're more extensible as well.

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