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Check this example for const_cast of int. I am using VC++ 2008 to compile this.

#include <iostream>
using namespace std;

void main() {
const int x=0;
int y=90;
int *p = const_cast<int *> (&x);

cout<<" value of x: "<<x<<" addr of x "<<&x<<endl
    <<" and *p : "<<*p<<" and addr p "<<p<<endl;



The output is

value of x: 0 addr of x 0012FF60
 and *p : 90 and addr p 0012FF60
share|improve this question

You should not const_cast a variable defined as const. I don't have the standard at hand but I'm fairly certain it defines such an operation as resulting in undefined behaviour.

For an example of why this results in undefined behaviour consider an MCU where things defined as const are stored in non-volatile memory (flash, EEPROM or something even less volatile).

There's more to read in the C++ FAQ Lite.

share|improve this answer
Right, the use case that const_cast is made for involves a non-const instance that is automatically cast to const when calling a function. – Steven Sudit Jul 8 '10 at 14:53

For the following program

#include <iostream>

int main() {
    const int x=0;
    int y=90;
    int *p = const_cast<int *> (&x);

    std::cout << " value of x: " << x  << " addr of x "  << &x << '\n'
              << " and *p : "    << *p << " and addr p " << p  << '\n';
    return 0;

VC9 prints the same address for me. However:

  1. You are invoking undefined behavior, because you are not allowed to cast away const from an object if that object was a real const value. (OTOH, you are, for example, allowed to cast away const from a const reference if that reference refers to a non-const value.)
    In theory, when you invoke undefined behavior, according to the C++ standard your program might work as you expect, or it might not, or it might do so only on Sundays, or unless it's a holiday and full moon. But it might just as well format your HD, blow up your monitor, and make your girlfriend pregnant. According to the C++ standard, all this (and an infinite amount of other possibilities), are Ok.
    In practice, such a program might print out funny addresses.

  2. The compiler might completely optimize away all your code and just put in dummy values for printing. It shouldn't, however, do so for Debug builds. (Although that's a QoI issue, not a requirement.)

share|improve this answer
I believe the C++0x standard specifies that pregnancy is not an allowable side-effect. – Steven Sudit Jul 8 '10 at 15:09
@Steven: TTBOMK, you're wrong. The standard does not spell out any restrictions for UB. (Hence the proverbial nasal demons.) – sbi Jul 8 '10 at 17:02
@sbi: My sources tell me that Stroustrup put his foot down on this issue after having to subject himself to an exceptional abortion. – Steven Sudit Jul 8 '10 at 17:10
@Steven; ISTR him having a son and a daughter. ICBWT. – sbi Jul 8 '10 at 22:20
@sbi: That is correct (see However, he is their father, not mother. – Steven Sudit Jul 9 '10 at 15:49

The compiler is optimizing away the aliasing. Try it in debug mode, with optimizations disabled.


The compiler is optimizing away the aliasing, yes, but it's not an error in the optimization. Rather, the code is doing something undefined, which is leading to an unwanted but legal behavior. Staffan's answer clarifies this.

As the FAQ said, in almost all cases where you're tempted to use const_cast, you should be using mutable instead. If, as in the sample code here, you can't use mutable, this is an indication that something might be wrong.

share|improve this answer
Tried that - I still get the same behaviour. It's not compiler optimisation, at least not on mine (VC++ 2008) – Ragster Jul 8 '10 at 14:55
What Staffan said is more accurate: A local constant is treated by the compiler as pure syntactic sugar. I suspect that if you hadn't taken the address of x, the compiler would never have bothered allocating any memory for it. Instead, it would have passed it as a literal value at the assembler level. Even though it did allocate that int, it didn't bother looking in that location when it came time to use the value. In short, your code is trying to do something that is, at the very least, a very bad idea that should almost always be avoided. – Steven Sudit Jul 8 '10 at 15:05
To chk if Compiler Optimization is the cause of this, I tried making x to be the volatile const int x=0; now accessing it gives the same value as pointer.... – saurabh Jul 22 '10 at 12:13
Even if this "fixes" the problem, I can't recommend it because you're counting on undefined behavior. It could just as easily fail in another version of the compiler, not to mention any other compiler. – Steven Sudit Jul 22 '10 at 13:39

maybe it was optimized by the compiler. he have all rights to do this. it is drawback of misusing const_cast. never use const_cast in such way.

share|improve this answer
Never say never, except in this sentence. – Steven Sudit Jul 8 '10 at 14:52
To clarify, you're not completely wrong: there is definitely a problem with this usage. The reason I'm not upvoting is that your answer doesn't explain why it's wrong, and instead makes the same mistake I did, of considering it an optimization failure. – Steven Sudit Jul 8 '10 at 15:07

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