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I'm reading boost::shared_ptr source code and found it using this function to increase shared_ptr's use count(reference count):

inline void atomic_increment( int * pw )
    //atomic_exchange_and_add( pw, 1 );

        "incl %0":
        "=m"( *pw ): // output (%0)
        "m"( *pw ): // input (%1)
        "cc" // clobbers

Why not simply use the operator++ to do this? Does this give better performance?

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Maybe because operator++ is not atomic? –  Xeo Jul 18 '12 at 1:10
To be more specific, because ++ won't include the lock prefix that's used in that assembly code. –  Jerry Coffin Jul 18 '12 at 1:13

2 Answers 2

up vote 9 down vote accepted

The ++ operator reads it's operand's current value, adds 1 and writes the result back. This can be three interruptible (i.e., by another thread) steps. If two threads do this at the same time it is possible that the result is wrong. To protect against this one must use atomic operations or locks. This is done by the asm code shown above.

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Now, in C++0x, they should use std::atomic<int> and std::atomic_address instead of the assembly code. –  Hrishi Jul 18 '12 at 1:30
In C++11, you should use std::shared_ptr instead of boost::shared_ptr –  Chris Dodd Jul 18 '12 at 1:32
@ChrisDodd Why? –  dsign Jul 18 '12 at 15:45
"This can be three interruptible (i.e., by another thread) steps." what do you mean by interruptible? Almost no CPU instruction is interruptible. Do you think that any compiler will not generate a single (non-interruptible) load, a single (non-interruptible) incr, a single (non-interruptible) store for ++? –  curiousguy Jul 19 '12 at 11:13
@curiousguy: Why do you think instructions such as load and store are uninterruptible? What I meant in my post was that it is possible that thread A loads the operand in a register, gets interrupted by thread B , thread B then performs the load, inc, store sequence, hence writing op+1 to memory, thread A regains control an performs inc, store, therefore also writing op+1. –  timos Jul 19 '12 at 15:52

The C++ standard does not guarantee the i++ or ++i operations to be atomic. So depending on compiler it may or may not be atomic. This workaround uses assembly language to get around this limitation. Now, the C++ standard includes std::atomic<T> that guarantees the operations on the object to be atomic.

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