I just saw this nice copy-on-write pointer implementation. It looks pretty generic and useful, so my question is: Is such a class contained in any of the C++ toolkits (boost, loki, etc.)? If not, I'd really like to know why because it is a really useful idiom and apparently a generic implementation seems doable (like the one I linked to).
There was a lot of debate over the possibility, and at least one suggested version of what eventually came out as
Unfortunately, the time for COW has mostly passed. Making a COW pointer (or COW-whatever) thread-safe can introduce serious performance problems.
Edit: Rereading that, I feel obliged to point out that not all use of COW necessarily obsolete. There are times that it still makes sense. The overhead of a thread-safe increment is pretty much fixed -- so it's only a question of how large an object has to be, or how expensive it is to copy, for COW to make sense. There are also times/places that you have lots of copies of an (unmodified) object, and the savings in memory can be a reasonable tradeoff -- the savings in memory justify some extra processor time. If you can save paging a little data to/from disk, you can come out ahead in a hurry.
Like Jerry Coffin said it's been demonstrated that the COW idiom introduced performance issues... but there is actually another issue.
It is not possible (as demonstrated in the very article you link to) to actually write a generic implementation of COW. In the COW implementation of
For example, let's assume I do this:
Oups! I make a copy of the
The problem is that while this COW class helps, you actually has to wrap it:
And then methods of Foo that really modifies the object will be responsible for copying the
And all this trouble... without being sure of actually gaining performance because of the synchronization issues in a MT application...
Is it not simpler to actually avoid copying whenever possible (using references / pointers) rather than tweaking your class for a possible gain in some situations that will penalize users that already took care of performances issues ?
There a contradiction between "pointer" and "copy on write": by definition, dereferencing a pointer doesn't change it, and changing
So a const pointer can be dereferenced, and the resulting lvalue can be modifiable.
You are really talking about a one-element container, not a pointer.