Boost's any_range documentation says the following:
Despite the underlying
any_iteratorbeing the fastest available implementation, the performance overhead of
any_rangeis still appreciable due to the cost of virtual function calls required to implement increment, decrement, advance, equal etc. Frequently a better design choice is to convert to a canonical form.
What does the author mean by a "canonical form"? Can someone give an example?
EDIT: As suggested here, I asked the same question on the boost users' mailing list. Here is what Neil Groves, the original author of this text had to say:
For example, copying the range into a vector.
Yes, this is exactly the alternative design that I had in mind when writing the documentation. The overhead of iterating over an any_range is quite considerable, and often compares poorly with copying a concrete result-type into a container such as a vector. However, this is not always the case and some of the users of Boost.Range have desired the ability to implement algorithms that operate upon any_range instances. This is sometimes desirable to allow, for example, exposure of algorithms from a shared library that supports various containers. The use of any_range may also make sense where the number of passes over the range are small, but the memory size of the underlying container is very large.
In many cases, the performance overhead will not matter. I wanted to ensure that I did not mislead anyone into the widespread adoption of any_range usage. I believe that the valid usages for this class are few, but sometimes it is exactly the correct design choice. I shall improve the documentation with some additional clarification and examples in due course.