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Without -O2 this code prints 84 84, with O2 flag the output is 84 42. The code was compiled using gcc 4.4.3. on 64-bit Linux platform. Why the output for the following code is different?

Note that when compiled with -Os the output is 0 42

#include <iostream>
using namespace std;

int main() {
    long long n = 42;
    int *p = (int *)&n;
    *p <<= 1;
    cout << *p << " " << n << endl;
    return 0;
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g++ 4.5.2 on a x86_64 linux prints 84 84 with -O0, -O1, -O2, -O3, and -Os –  Cubbi Mar 4 '11 at 15:32
g++ 4.5.0 on 64-bit Windows prints 84 84 with any optimization level. –  Leonid Mar 4 '11 at 15:34
I believe the result of this line int *p = (int *)&n; depends on endian-ness of the machine! –  Nawaz Mar 4 '11 at 15:34
Why are you using an int* to a long long? –  Justin Mar 4 '11 at 15:35
I'm able to reproduce the problem with g++ 4.4.4. Looks like the 4.4 branch has a bug/feature that was fixed in 4.5. –  casablanca Mar 4 '11 at 15:36
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4 Answers 4

up vote 19 down vote accepted

When you use optimization with gcc, it can use certain assumptions based on the type of expressions to avoid repeating unnecessary reads and to allow retaining variables in memory.

Your code has undefined behaviour because you cast a pointer to a long long (which gcc allows as an extenstion) to a pointer to an int and then manipulate the pointed-to-object as if it were an int. A pointer-to-int cannot normally point to an object of type long long so gcc is allowed to assume that an operation that writes to an int (via a pointer) won't affect an object that has type long long.

It is therefore legitimate of it to cache the value of n between the time it was originally assigned and the time at which it is subsequently printed. No valid write operation could have changed its value.

The particular switch and documentation to read is -fstrict-aliasing.

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+1 sounds reasonable to me. –  casablanca Mar 4 '11 at 15:38
Beat me to it :) Wikipedia gives some explanation: en.wikipedia.org/wiki/Pointer_aliasing where one can read In C++, pointer arguments are assumed not to alias if they point to fundamentally different types ("strict aliasing" rules). This allows more optimizations to be done than in C. Note that there is a special rule for char* which is allowed to alias any pointer. –  Matthieu M. Mar 4 '11 at 15:39
+1 for the post, and @Matthieu : Good comment! –  Nawaz Mar 4 '11 at 15:41
@Matthieu: what's Wikipedia on about, "more optimization than in C"? C has strict aliasing rules too (since C99), although to be honest I've never actually compared with C++ side-by-side to check they're the same. If I'm doing something borderline I either (a) don't, or else (b) become a temporary expert on the rules for the language I'm doing it in, and then forget the exact details again shortly afterwards. –  Steve Jessop Mar 4 '11 at 16:45
@Steve: actually, if you get to the article, they have distinguished C and C99 (restrict). As I am no C expert (C++ is already difficult enough for my lil' brain), I'd be hardpressed to answer your question though! –  Matthieu M. Mar 4 '11 at 17:48
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You're breaking strict aliasing. Compiling with -Wall should give you a dereferencing type-punned pointer warning. See e.g. http://cellperformance.beyond3d.com/articles/2006/06/understanding-strict-aliasing.html

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PVS-Studio recently added new analysis rules that specifically address cases of undefined behavior when using bit-wise shift operators. It does not support gcc code, but still might be beneficial when using against code compiled on Visual C++.

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I get the same results with GCC 4.4.4 on Linux/i386.

The program's behavior is undefined, since it violates the strict aliasing rule.

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