I assume 64bit..., array in rdi, len in esi.
You're using inline asm, and not in a
__attribute__((naked,noinline)) function, so the compiler can use the inline asm template block in any context it wants. Since you failed to use any input/output constraints, and you clobber registers without telling the compiler, it will just totally break unless you disable optimization.
To answer the main question, the compiler simply inlines
main. It's implicitly
volatile (because it's a basic asm statement) so it isn't optimized away.
But execution falls off the end of a non-void function (
suma), which is undefined behaviour, so modern GCC just gives up and omits the
ret instruction. It assumes that execution can never take that path (because of the undefined behaviour), and doesn't bother generating code for it.
If you add a
return 0; to the end of
main will end with a
Surprisingly, gcc only gives one warning on the Godbolt compiler explorer with -O3 -Wall:
<source>: In function 'int suma(int*, int)':
<source>:13:1: warning: no return statement in function returning non-void [-Wreturn-type]
The resulting asm output for
main is this, which is of course totally broken because RDI is
argc; it never reserved space for
int v because its unused in the C source or did anything.
xor %eax, %eax # resultado = 0
xor %edx, %edx # i = 0
1: add (%rdi,%rdx,4), %eax # res += array[i]
inc %edx # ++i
cmp %edx,%esi # i < len?
jne 1b # repetir
return 0; at the end of
suma, it and main end with
xorl %eax, %eax ;
ret, but of course
main is still totally broken because the inline asm doesn't use any input constraints.