The standard doesn't specify the order of evaluation of arguments with this line:

The order of evaluation of arguments is unspecified.

What does

Better code can be generated in the absence of restrictions on expression evaluation order


What is the drawback in asking all the compilers to evaluate the function arguments Left to Right for example? What kinds of optimizations do compilers perform because of this unspecified spec?

  • 4
    Allowing the compiler to re-order the evaluation of the operands adds more room for optimization. – Mysticial Sep 22 '12 at 3:27
  • 1
    @Mysticial: Absurd as it might look, that should be an answer, and actually the accepted answer! – David Rodríguez - dribeas Sep 22 '12 at 3:28
  • What kinds of optimizations do the compilers perform? – unj2 Sep 22 '12 at 3:29
  • If I can think of an example I'll make that an answer. – Mysticial Sep 22 '12 at 3:29
  • Some calling conventions pass parameters right to left. Others pass left to right. It is sometimes more efficient to evaluate in the same order they are pushed. – Raymond Chen Sep 22 '12 at 3:33

Allowing the compiler to re-order the evaluation of the operands adds more room for optimization.

Here's a completely made up example for illustration purposes.

Suppose the processor can:

  • Issue 1 instruction each cycle.
  • Execute an addition in 1 cycle.
  • Execute a multiplication in 3 cycles.
  • Can execute additions and multiplications at the same time.

Now suppose you have a function call as follows:

foo(a += 1, b += 2, c += 3, d *= 10);

If you were to execute this left-to-right on a processor without OOE:

Cycle - Operation
0     -    a += 1
1     -    b += 2
2     -    c += 3
3     -    d *= 10
4     -    d *= 10
5     -    d *= 10

Now if you allow the compiler to re-order them: (and start the multiplication first)

Cycle - Operation
0     -    d *= 10
1     -    a += 1, d *= 10
2     -    b += 2, d *= 10
3     -    c += 3

So 6 cycles vs. 4 cycles.

Again this is completely contrived. Modern processors are much more complicated than that. But you get the idea.


Here's a simple example. Suppose you have a function call as follows:

// assume that p is a pointer to an integer
foo(*p * 3, bar(), *p * 3 + 1);

The compiler needs to dereference p twice (and do some computations based on the result) and call bar once. If the compiler is clever, it might reorder the evaluation to

int temp = *p * 3;
foo(temp, bar(), temp + 1);

That way it has to do the "dereference, multiply by 3" only once. This is known as common subexpression eliminiation.

  • 1
    To be fair, even languages that guarantee order of evaluation can do this, provided they can sort-of prove that the value of p cannot change in between. Of course, with the C memory model that's pretty much impossible to guarantee, which is probably why undefined order of evaluation is necessary to achieve this optimisation. – Joey Sep 27 '12 at 6:30

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