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For example, is

int const x = 3;

valid code?

If so, does it mean the same as

const int x = 3;

?

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at least in MSVC –  Andrey Jul 14 '10 at 14:47
1  
What does the compiler say? –  Hamish Grubijan Jul 14 '10 at 14:49
10  
@Hamish: some compilers accept all sorts of invalid code; the only way to be sure that something's valid is to look in the standard, or ask. –  Mike Seymour Jul 14 '10 at 14:54
1  
Well, one is a constant integer and the other is an integer that's constant... :-) –  Armstrongest Jul 14 '10 at 15:02
2  
Check out this: c-faq.com/decl/spiral.anderson.html , it should make it clearer how to read a declaration. –  Eugen Constantin Dinca Jul 14 '10 at 16:39

5 Answers 5

up vote 46 down vote accepted

They are both valid code and they are both equivalent. For a pointer type though they are both valid code but not equivalent.

Declares 2 ints which are constant:

int const x1 = 3;
const int x2 = 3;

Declares a pointer whose data cannot be changed through the pointer:

const int *p = &someInt;

Declares a pointer who cannot be changed to point to something else:

int * const p = &someInt;
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1  
And ` const int * const p = &someInt;` would give you a pointer that cannot be changed to a value that cannot be changed, if I'm not mistaken. –  JAB Jul 14 '10 at 14:51
32  
The pattern here becomes apparent if the definitions are read in reverse. For example: [const int *] = a pointer (*) to an int that is const. [int * const] = a const pointer (*) to an int. –  stakx Jul 14 '10 at 14:54
4  
C syntax reads crappy no matter what you do. It wasn't designed to produce readable sources. You just have to learn the rules. –  T.E.D. Jul 14 '10 at 15:06
4  
@ T.E.D. : Not quite. Just get into the habit to write const always after the thing it applies to, and you're done. (Always-trailing is the only style that could be applied consistently.) –  DevSolar Jul 14 '10 at 15:31
4  
You should also include 'int const *' and just for a laugh 'int const * const' –  Loki Astari Jul 14 '10 at 16:21

Yes, they are the same. The rule in C++ is essentially that const applies to the type to its left. However, there's an exception that if you put it on the extreme left of the declaration, it applies to the first part of the type.

For example in int const * you have a pointer to a constant integer. In int * const you have a constant pointer to an integer. You can extrapolate this to pointer to pointers, and the English may get confusing but the principle is the same.

For another dicussion on the merits of doing one over the other, see my question on the subject. If you are curious why most folks use the exception, this FAQ entry of Stroustrup's may be helpful.

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3  
Exactly what I was thinking. const int x is the exceptional form. int const x fits the same pattern as int * const x. If you need a constant pointer to a constant int, I usually write it as int const * const for consistency rather than const int * const. –  Cogwheel Jul 14 '10 at 15:04
    
@Cogwheel - Precisely. Once you realise the "normal" form of putting the const to the extreme left is actually making use of an exceptional case, the question arises as to which way actually makes the code clearer in the long run. Hence my question stackoverflow.com/questions/988069/… –  T.E.D. Jul 14 '10 at 15:10

Yes, that is exactly the same. However, there is difference in pointers. I mean:

int a;

// these two are the same: pointed value mustn't be changed
// i.e. pointer to const value
const int * p1 = &a;
int const * p2 = &a;

// something else -- pointed value may be modified, but pointer cannot point
// anywhere else i.e. const pointer to value
int * const p3 = &a;

// ...and combination of the two above
// i.e. const pointer to const value
const int * const p4 = &a;
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1  
This is the most complete answer. –  anthropomorphic Aug 7 at 6:20

It is the same in meaning and validity.

As far as I know, const only get complex whenever it involves pointer.

int const * x;
int * const x; 

are different.

int const * x;
const int * x; 

are same.

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From "Effective C++" Item 21

char *p              = "data"; //non-const pointer, non-const data
const char *p        = "data"; //non-const pointer, const data
char * const p       = "data"; //const pointer, non-const data
const char * const p = "data"; //const pointer, const data
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The comment to your second item is incorrect, it should read non-const pointer, const data. –  Thomas Dec 25 '12 at 10:23
    
@Thomas Too slow. ;) Fixed it. Given that this is an exact quote from the book, that should be okay. –  Bart Dec 25 '12 at 10:23

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