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When implementing lock-free data structures and timing code it's often necessary to suppress the compiler's optimisations. Normally people do this using asm volatile with memory in the clobber list, but you sometimes see just asm volatile or just a plain asm clobbering memory.

What impact do these different statements have on code generation (particularly in GCC, as it's unlikely to be portable)?

Just for reference, these are the interesting variations:

asm ("");   // presumably this has no effect on code generation
asm volatile ("");
asm ("" ::: "memory");
asm volatile ("" ::: "memory");
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Someone seems to be messing around far too close to the metal :-) (And somewhere else, @Mysticial is typing away at a ridiculously detailed answer...) – Kerrek SB Jan 21 '13 at 23:39

3 Answers 3

up vote 24 down vote accepted

See the "Extended Asm" page in the GCC documentation.

You can prevent an asm instruction from being deleted by writing the keyword volatile after the asm. [...] The volatile keyword indicates that the instruction has important side-effects. GCC will not delete a volatile asm if it is reachable.


An asm instruction without any output operands will be treated identically to a volatile asm instruction.

None of your examples have output operands specified, so the asm and asm volatile forms behave identically: they create a point in the code which may not be deleted (unless it is proved to be unreachable).

This is not quite the same as doing nothing. See this question for an example of a dummy asm which changes code generation - in that example, code that goes round a loop 1000 times gets vectorised into code which calculates 16 iterations of the loop at once; but the presence of an asm inside the loop inhibits the optimisation (the asm must be reached 1000 times).

The "memory" clobber makes GCC assume that any memory may be arbitrarily read or written by the asm block, so will prevent the compiler from reordering loads or stores across it:

This will cause GCC to not keep memory values cached in registers across the assembler instruction and not optimize stores or loads to that memory.

(That does not prevent a CPU from reordering loads and stores with respect to another CPU, though; you need real memory barrier instructions for that.)

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This is actually very interesting, not realizing that gcc treats asm blocks without outputs as volatile was a huge gap in my knowledge. – jleahy Jan 24 '13 at 9:59
So volatile = performance-killer no matter what context it's used in (variable or asm). File it with the goto keyword - use only when absolutely necessary. – etherice May 25 '13 at 21:51

Just for completeness on Kevin Ballard's answer, Visual Studio 2010 offers _ReadBarrier(), _WriteBarrier() and _ReadWriteBarrier() to do the same (VS2010 doesn't allow inline assembly for 64-bit apps).

These don't generate any instructions but affect the behaviour of the compiler. A nice example is here

MemoryBarrier() generates lock or DWORD PTR [rsp], 0

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asm ("") does nothing (or at least, it's not supposed to do anything.

asm volatile ("") also does nothing.

asm ("" ::: "memory") is a simple compiler fence.

asm volatile ("" ::: "memory") AFAIK is the same as the previous. The volatile keyword tells the compiler that it's not allowed to move this assembly block. For example, it may be hoisted out of a loop if the compiler decides that the input values are the same in every invocation. I'm not really sure under what conditions the compiler will decide that it understands enough about the assembly to try to optimize its placement, but the volatile keyword suppresses that entirely. That said, I would be very surprised if the compiler attempted to move an asm statement that had no declared inputs or outputs.

Incidentally, volatile also prevents the compiler from deleting the expression if it decides that the output values are unused. This can only happen if there are output values though, so it doesn't apply to asm ("" ::: "memory").

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Matthew Slattery's answer points out that asm volatile ("") is not quite the same as doing nothing, as it can have drastic effects on compiler optimization. The same performance implications would apply to using asm volatile ("" ::: "memory") as a compiler fence. – etherice May 25 '13 at 21:33
The compiler does not understand assembly language! – curiousguy Oct 6 at 0:26
@curiousguy no, but it does understand when an asm block has declared inputs/outputs, which tells the compiler which registers it depends on and which ones it will modify, and therefore the compiler can shuffle certain computations around if they don't affect the inputs/outputs. – Kevin Ballard Oct 7 at 0:58

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