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I'm currently designing a object structure for a game, and the most natural organization in my case became a tree. Being a great fan of smart pointers I use shared_ptr's exclusively. However, in this case, the children in the tree will need access to it's parent (example -- beings on map need to be able to access map data -- ergo the data of their parents.

The direction of owning is of course that a map owns it's beings, so holds shared pointers to them. To access the map data from within a being we however need a pointer to the parent -- the smart pointer way is to use a reference, ergo a weak_ptr.

However, I once read that locking a weak_ptr is a expensive operation -- maybe that's not true anymore -- but considering that the weak_ptr will be locked very often, I'm concerned that this design is doomed with poor performance.

Hence the question:

What is the performance penalty of locking a weak_ptr? How significant is it?

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I don't know for sure, but I would guess that it should be roughly equivalent to the cost of copy constructing a shared_ptr. –  James McNellis Apr 30 '10 at 22:47
@James - so I assume the locking is just a read and copy of the allocated ref counter... –  Kornel Kisielewicz Apr 30 '10 at 23:48
@Kornel: It's an atomic increment of the reference count; how that is implemented is very platform specific (a mutex lock would be the worst case scenario; on Windows it is implemented using InterlockedIncrement, I'm sure that Linux and other OSes have similar built-in atomic operations). –  James McNellis May 1 '10 at 0:17
@James, so we may have a performance penalty compared to just dereferencing a shared pointer...? –  Kornel Kisielewicz May 1 '10 at 0:22
@Kornel: There's guaranteed to be a performance penalty. Dereferencing a shared_ptr should be as fast as dereferencing a raw pointer, since that's all it has to do internally (each shared_ptr object has its own copy of the pointer). If the solution recommended in the deleted answer works for your specific use case, that would give you much better performance (I'm surprised the answer was deleted). –  James McNellis May 1 '10 at 0:36

2 Answers 2

up vote 10 down vote accepted

From the Boost 1.42 source code (<boost/shared_ptr/weak_ptr.hpp> line 155):

shared_ptr<T> lock() const // never throws
    return shared_ptr<element_type>( *this, boost::detail::sp_nothrow_tag() );

ergo, James McNellis's comment is correct; it's the cost of copy-constructing a shared_ptr.

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So we've got a reference incrementation operation only? Actually not surprising... yet there was something that was expensive in case of weak_ptr's -- any idea what that was? I assume that the opposite (construction of a weak_ptr from shared_ptr) should also be trivial... –  Kornel Kisielewicz Apr 30 '10 at 23:33
@Kornel Kisielewicz: Previous comment deleted -- I thought it said "reference implementation only" at first LOL! My guess on the efficiency argument against weak_ptr is a comparison to builtin pointers rather than shared_ptrs (you can have a builtin pointer pointing to the same place as a shared_ptr, after all :) ) –  Billy ONeal May 1 '10 at 0:00
yes, that might also be it. My second reaction after posting this question was that it might have something to do with threading, but it seems that weak and shared use the same reference counting structure, so there shouldn't be a difference. –  Kornel Kisielewicz May 1 '10 at 0:14
@James -- so there is a performance drop -- because having a shared pointer, we would just dereference it, not copy. In case of weak_ptr we need that copy and ref increment to use it, and then decrement after it goes out of scope. So much for the 42 nanoseconds xP –  Kornel Kisielewicz May 1 '10 at 0:23

for my own project, I was able to improve performance dramatically by adding #define BOOST_DISABLE_THREADS before any boost includes. This avoids the spinlock/mutex overhead of weak_ptr::lock which in my project was a major bottleneck. As the project is not multithreaded wrt boost, i could do this.

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