Suppose that I'm using a modern version of GCC to compile a C program. Furthermore, consider that my program contain stale branches, but that I'd very much like the dead code in those stale branches to be compiled and present in the final program. Consider the following program:

int main(int argc, char** argv) {
    int a = 0;
    goto skip;
        a = -1;
    skip: ;
    return a;

Clearly, if I use GCC with default optimization settings, the second assignment will never make it to the final program, as the compiler can easily tell that it'll never be executed. Suppose that I don't want this to happen.

In GCC, there are a number of flags that dabble with dead code (most notably -fdce), and I can chose to explicitly deactivate these when invoking GCC accordingly:


As far as I can tell, this should instruct GCC not to mess with the second assignment. Yet, the concerned code never seems to make it into my program.

Why does GCC insist on removing the dead code, and is there a way of instructing GCC not to get rid of the second assignment?

  • Which gcc version are you using?
    – anatolyg
    Feb 17, 2015 at 16:17
  • 2
    I'm aware of volatile, but I'm curious as to whether or not this is possible to do with GCC. As for GCC I'm using version 4.8.3, but I'd be interested in knowing if there's a solution any given version! Feb 17, 2015 at 16:22
  • Disregard my comment. Volatile doesn't prevent GCC from skipping the assignment.
    – user3920237
    Feb 17, 2015 at 16:22
  • 4
    You could include a volatile variable in a conditional statement, e.g. volatile int a = 0; if (!a) goto skip; ...
    – r3mainer
    Feb 17, 2015 at 16:23
  • 2
    it should be -fno-dce, etc. (note one less -). Feb 17, 2015 at 16:27

1 Answer 1


The -fno-* options don't work for me either with gcc-4.9.2. That said, I think the following should be portable for all gcc (4.5+) targets:

__asm__ goto (""::::no_skip);
goto skip;

    a = -1;


From the manual: "an asm goto statement is always implicitly considered volatile."

Furthermore, with gcc-4.8 and above, you might consider adding an attribute to let the compiler know that this is an 'unlikely' path. This helps prevent branching penalties, etc., that might otherwise occur when taking the 'expected' path:

no_skip: __attribute__ ((cold));

It stands to reason that you could also use:

skip: __attribute__ ((hot));
  • 1
    Thank you. This begs the question of why my example is not considered dead code by GCC, or at least why the given flags do not encompass the second assignment (perhaps the stale branch is so obviously not reachable that it is eliminated at an earlier stage not affected by the options). Feb 18, 2015 at 11:04
  • 1
    @Caterpillar - I suspect you're right, that the unreachable code is eliminated at an earlier point. Another possibility is that the documentation doesn't precisely track development. The internals document seems to have some interesting details.
    – Brett Hale
    Feb 18, 2015 at 16:08

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