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Consider the following C99 code:

#include <stdio.h>
#include <stdint.h>

struct baz { uint64_t x, y; };

uint64_t foo(uint64_t a, uint64_t b, struct baz c)
    return a + b + c.x + c.y;

void bar(uint64_t a, uint64_t b, struct baz c)
    printf("%lu\n", a);

The behavior I expect, when compiled with gcc -O3, is that c is passed in registers to both foo and bar, is accessed using registers in foo, and is entirely ignored in bar. GCC produces code which does this for foo. However, in bar, c is copied from registers to the stack, and is then promptly ignored:

    .file   "pbv.c"
    .p2align 4,,15
.globl foo
    .type   foo, @function
    leaq    (%rcx,%rdx), %rdx
    leaq    (%rdx,%rdi), %rdi
    leaq    (%rdi,%rsi), %rax
    .size   foo, .-foo
    .section    .rodata.str1.1,"aMS",@progbits,1
    .string "%lu\n"
    .p2align 4,,15
.globl bar
    .type   bar, @function
    movq    %rdx, -24(%rsp)
    movl    $.LC0, %esi
    movq    %rdi, %rdx
    xorl    %eax, %eax
    movl    $1, %edi
    movq    %rcx, -16(%rsp)
    jmp __printf_chk
    .size   bar, .-bar
    .ident  "GCC: (Ubuntu/Linaro 4.4.6-11ubuntu2) 4.4.6"
    .section    .note.GNU-stack,"",@progbits

(Note that a and b are passed in %rsi and %rdi, and c is passed in %rcx and %rdx.)

The only reason I can surmise for this is some sort of ABI requirement (e.g. for interaction with longjmp). I cannot find any optimization (-f) options for GCC, nor GCC-specific annotations which inhibit this behavior. Annotating c with register does not help.

This happens with different targets as well. (Notably, on the TileGX, foo has space allocated and deallocated on the stack, but nothing is stored there.) I have tested both GCC 4.4.6 and 4.6.1.

Is this expected behavior or a bug in GCC? Either way, is there some way to work around it (beside using call-by-reference or ensuring bar can be a leaf)?

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1 Answer 1

This shortcoming is the same as mentioned in bug 44194, the patch for which is present in the very latest version of GCC (4.7.2).

The cause is roughly that the call to printf (or any function) is considered to be able to access anything in memory, including stack-based locals. The patch causes stack-based locals not to be considered reachable by the callee.

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