In his Blog Herb Sutter writes
[...] because incrementing the smart pointer reference count can usually be optimized to be the same as an ordinary increment in an optimized
shared_ptrimplementation — just an ordinary increment instruction, and no fences, in the generated code.
However, the decrement must be an atomic decrement or equivalent, which generates special processor memory instructions that are more expensive in themselves, and that on top of that induce memory fence restrictions on optimizing the surrounding code.
The text is about the implementation of
shared_ptr and I am not sure if his remark applies only on this or is generally the case. From his formulation I gather it is generally.
But when I think about it I can only think of "more expensive decrement" when a
if(counter==0) immediately follows -- which probably is the case with
Therefore I wonder if the atomic operation
++counter is (usually) always faster than
--counter, or just because it is used