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While studying Compiler optimizations, I simply compiled following piece of code :

struct fraction {
    int num ;
    int denum ;

int main()
  struct fraction pi;
  pi.num = 22;
  pi.denum = 7;
  return 0;


gcc test.c -o test

When I disassemble this, I get :

push   %ebp
mov    %esp,%ebp
sub    $0x10,%esp
movl   $0x16,-0x8(%ebp)
movl   $0x7,-0x4(%ebp)
mov    $0x0,%eax

But if I apply optimizations like :

gcc test.c -o test -O3

all I get in disassembly is :

push   %ebp
xor    %eax,%eax
mov    %esp,%ebp
pop    %ebp

Without Optimizations the values 22 and 7 where clearly visible in disassembly and I could clearly understand how the code worked but where are those values now after optimizations ? how is the code working now ? Please somebody explain .

share|improve this question
The code essentially does nothing and the compiler knows that. – Joe May 10 '13 at 17:26
By "denum" do you mean "denom"? By "with" do you mean "without"? I know it's late, but attention to detail is somewhat important when talking about compiler optimisations... – Kerrek SB May 10 '13 at 17:26
Your program doesn't do anything; the optimizer figured that out and changed it to a program that does nothing (but return 0) – antlersoft May 10 '13 at 17:27
Understood, Thanks @antlersoft – Mojo Jojo Jun 10 '14 at 8:30
up vote 12 down vote accepted

Since your code doesn't effectively do anything externally visible that would have unpredictable side effects, the creation of the struct is simply eliminated completely, and now all your code does is returning 0 from main().

(If you tell the compiler that it does indeed need to create the struct because it may be modified by someone/something else, it won't get rid of the code. Declare your variables as volatile and you'll see it in the assembler.)

share|improve this answer
Or print them or return them. Do something with the values that requires an effect outside the program. – Zan Lynx May 10 '13 at 21:02

The compiler determined that pi was never used outside of that scope, and since there were no side effects, optimized away that whole variable, along with the assignments.

The resulting assembly code pretty much loads 0 into eax, fiddles with stack pointers, and then returns.

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