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If I have a constant variable, is it stored in a seperate memory space from non-constant variables? I have encounter some odd in this program.

    //--------assign a const value to non-const value-------
const int cst_a = 5;
int* ptra = const_cast<int*>(&cst_a);

cout<<&cst_a<<" "<<ptra<<endl; // same address

*ptra = 6;

cout<<*ptra<<" "<<cst_a<<endl; // same address with different value

//--------assign a non-const value to const value-------

int b = 50;
const int* cst_ptr_b = &b;

cout<<cst_ptr_b<<" "<<&b<<endl; // also same address

b = 55;
cout<<b<<" "<<*cst_ptr_b<<endl; // same address with same value

return 0;

In the first case, &cst_a and ptra has the same memory address, but their value can change seperately. In the second case, cst_ptr_b and &b are also same address, but their value change symetrically. Why?

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4 Answers 4

up vote 4 down vote accepted

It may be stored in a memory area that can't be modified. Because of this, your const_cast results in undefined behavior.

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how about the cases like int i = 5; const int c = i;; I think in that case c will not be stored in read only region. –  iammilind May 13 '11 at 6:20
@iammilind: I did say it may be stored in memory that can't be modified. A case like you mentioned may prevent that. I don't believe there's any guarantee that a constant will ever be stored in non-modifiable memory. Regardless, it is undefined behavior according to the standard. –  Fred Larson May 13 '11 at 6:32
@iammilind: A modern compiler (e.g. GCC 4.5) will detect that c is always initialized with the value 5 (in optimized builds). But is also aggressively optimizes out variables. I.e. it may not store 5 in memory at all, if it can avoid it. –  MSalters May 13 '11 at 7:24
@MSalters, that was just an rough example. How about fun(int i) { const int c = i; } ; the point is that c is always dependent on i, so in such sense it's questionable that c is stored in read only region. –  iammilind May 13 '11 at 7:49
@iammilind: Well, in that case the compiler can trivially detect that c is't used at all in its scope. The problem with such examples is that they're typically so simple that optimizers can always optimize them. –  MSalters May 13 '11 at 7:54

Congrats, *ptra = 6; is undefined behaviour. :)
You are not allowed to write to a constant value, not through pointer, not through reference. This is because a constant object might (and most likely will) be put into the constant memory area.

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how to understand "might (and most likely will)"? –  demaxSH May 13 '11 at 6:21

It depends on what value you store in the constant.

const int c = 5; // This will be stored in read only area

Trying to modify read only area is Undefined Behavior (which you have done in your code using const_cast)

Other scenario is,

int i = 5;
const int c = i;  // This is stored in normal read/write memory segment
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What? Are you sure? I don't see ANY difference between the 2 scenarios.. –  Kiril Kirov May 13 '11 at 6:48
The "other scenario" is better written as const int c = rnd() % 6; –  MSalters May 13 '11 at 7:25
@Kiril, the second scenario suggests that const c is modifiable. Because, it's dependent on and assigned a variable value i (i can be 6, 10 anything). –  iammilind May 13 '11 at 7:48
Hmmm, sounds reasonable. 10x –  Kiril Kirov May 13 '11 at 7:50

The problem is the explicit type casting that is taking place in example #1. C++ let's you do this and since const int* and int* are different types along with the compilers free choice to store constants in either writeable or non-writeable memory makes this undefined behaviour, as said in earlier posts.

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