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If I write a #define that performs an operation using other preprocessor constants, is the final value computed each time the macro appears at runtime? Does this depend on optimizations in the compiler, or is it covered under a standard?


#define TIMER_1_S                   EXTERNAL_CLOCK_FREQUENCY
#define TIMER_100_MS                TIMERB_1_S / 10

Will the operation 32768 / 10 occur at runtime every time I use the TIMER_100_MS macro?

I would like to avoid the following:

#define TIMER_1_S                   EXTERNAL_CLOCK_FREQUENCY
#define TIMER_100_MS                3276


A compiler is required to be able to evaluate constant integral expressions because they are necessary for calculating things like array sizes at compile time. However, the standard only says they "can" -- not "must" -- do so. Therefore, only a brain-dead compiler would not evaluate a constant integral expressions at compile time, but a simple check of the assembly output for an unconventional compiler would verify each case.

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note that TIMERB_1_S / 10 is 3276, not 3277 – M.M Feb 4 at 0:08
up vote 26 down vote accepted

Macros are simply textual substitution, so in your example writing TIMER_100_MS in a program is a fancy way of writing 32768 / 10.

Therefore, the question is when the compiler would evaluate 32768 / 10, which is a constant integral expression. I don't think the standard requires any particular behavior here (since run-time and compile-time evaluation is indistinguishable in effect), but any halfway decent compiler will evaluate it at compile time.

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This is the key point. The preprocessor manipulates text, then the compiler gets it and knows nothing about how much preprocessing has gone before... – dmckee Jan 12 '09 at 18:16
Even if the preprocessor would do so, it can't do so as long it isn't defined this way: #define TIMER_100_MS (TIMERB_1_S / 10) Since you don't paranthese the expression, It would be wring to evaluate it to 3277 where you might have written 1 / TIMER_100_MS (Where the result anyway wouldn't be what is wanted I guess) But if the preprocessor had evaluated the statement here allready the it would even break the operator priority order. – Zaibis Feb 12 '15 at 12:18

Most answers in here focused on the effect of the macro substitution. But i think he wanted to know whether

32768 / 10

is evaluated at compile time. First of all, that is an arithmetic constant expression, and in addition a integral constant expression (because it has only got literals of integer type). The implementation is free to calculate it at runtime, but it must also be able to calculate it at compile time, because

  1. it must give a diagnostic message if a constant expression is not representable in the type that its expression has
  2. such expressions are allowed in contexts that require the value at translation time, for example if used as the size of an array dimension.

If the compiler can principally calculate the result already at compile time, it should use that value, and not recalculate it at runtime i think. But maybe there is some reason still to do that. I wouldn't know.

Edit: I'm sorry i've answered the question as if it were about C++. Noticed today you asked about C. Overflowing in an expression is deemed as undefined behavior in C, regardless of whether it happens in a constant expression or not. The second point is also true in C, of course.

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I'm not aware of any standard that guarantees it will be optimized out. The preprocessor will substitute 32768/10 for TIMER_100_MS, which you can see by running gcc -c. To see whether the compiler is optimizing further, run gcc -S and check out the assembler. With gcc 4.1, even without any optimization flags, this gets reduced to the constant during compilation:

#include <stdlib.h>
#include <stdio.h>

#define TIMER_1_S                   EXTERNAL_CLOCK_FREQUENCY
#define TIMER_100_MS                TIMER_1_S / 10

int main(int argc, char **argv)
  printf("%d\n", TIMER_100_MS);


gcc -S test.c
cat test.s

    popl	%ebx
    movl	$3276, 4(%esp)
    leal	LC0-"L00000000001$pb"(%ebx), %eax
    movl	%eax, (%esp)
    call	L_printf$stub
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Using this technique, you can show that even complicated math operations, like log(3.0) will get translated into inline immediate values, although the disassembly will encode log(3.0) as 4607626529066517259 which is the 64-bit integer cast of the equivalent IEEE double... – Mark Lakata May 17 at 23:55

The compiler should optimize that expression out. I don't think it's requited to by the standard, but I've never seen a compiler that would NOT perform that task.

However, you should NOT write:

#define TIMER_100_MS      TIMERB_1_S / 10

... because that's a bug waiting to happen. You should always parenthesize #defines involving expressions.

#define TIMER_100_MS      (TIMERB_1_S / 10)

Consider :

i = 10 * TIMER_100_MS;

The first case would give 32768 ((10 * TIMERB_1_S) / 10) , the second 32760 (10 * (TIMERB_1_S / 10)). Not a critical difference here, but you MUST be aware of it!

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good point on the parenthesis – Judge Maygarden Jan 13 '09 at 5:22
Very good point and it's actually a critical difference: You might want to do x % TIMER_100_MS, and without parenthesis this will first take mod of x by TIMERB_1_S and then divide the result by 10. Had such a bug before when implementing a circular buffer :) – Ferit Buyukkececi Feb 2 at 6:47

Will the operation 32768 / 10 occur at runtime every time I use the *TIMERB_100_MS* macro?

Every place in your code where you use TIMERB_100_MS, it will be replaced with 32768 / 10 by the preprocessor.

Whether that expression gets further optimized (it evaluates to a constant) is up to your compiler.

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From the WG14/N1124 Committee Draft — May 6, 2005 ISO/IEC 9899:TC2:

6.6 Constant expressions




A constant expression can be evaluated during translation rather than runtime, and accordingly may be used in any place that a constant may be.


Constant expressions shall not contain assignment, increment, decrement, function-call, or comma operators, except when they are contained within a subexpression that is not evaluated.96)

Each constant expression shall evaluate to a constant that is in the range of epresentable values for its type.

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Thanks for citing your source, it's a valuable resource. – Zim Mar 30 at 19:26

Folks, this transformation is called "constant folding" and even most student compilers do it. As long as you have a compiler built by somebody not you or your college roommate and you're compiling a statically typed language, you can count on it even without optimization turned on. It's a different matter if you're dealing with some wacky dynamic language that is allowed to change the meaning of /.

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At compile time. This is a language standard (and always have been) and independent on the compiler.


A commenter asked for a reference - quoting from "The C programming language" 2nd edition Appendix A12.3 (p. 229):

A control line of the form

#define identifier token-sequence

causes the preprocessor to replace subsequent instances of the identifier with the given sequence of tokens; leading and trailing whitespace around the roken sequence is discaded

End of edit

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Do you have a reference? – Judge Maygarden Jan 12 '09 at 19:09
I'm totally confused now. You post a reply which contradicts this (says they "can" be evaluated at translation time, not they "must" be. – Roddy Jan 12 '09 at 19:36
@David: the macro will be EXPANDED at compile time (how else could it be), but there is no guarantee that the expression "TIMERB_1_S / 10" (ie the division) is not evaluated at runtime. – Roddy Jan 12 '09 at 19:54
I don't see how that is relevant. If that answers the question that was being asked, the question needs to be rewritten. – BCS Jan 12 '09 at 22:49

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