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I included the stdint.h in my solution and used uint64_t, but the result was not what i wanted. Here is the code that i used.

#include <stdio.h>
#include "./stdint.h"

void    main (void)

    //-- to get the maximum value that the 32-bit integer can take
    unsigned int test = 0 ;
    test-- ;

    //-- to see if the 64-bit integer can take the value that the 32-bit integer can't take
    uint64_t test2 = test ;
    test2++ ;

    printf("%u\n", test) ;

    printf("%u\n", test2) ;

    while(1) { }


And Here is the result.


I want to use the full range that the 64-bit integer can take. How can i do it in x86 Visual Studio 2008? For your information, i'm using a 32-bit windows 7.

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To print use : printf("%I64u\n",i); –  Greg Feb 13 '13 at 16:45

4 Answers 4

up vote 9 down vote accepted

The %u format specifier for printf is for unsigned integers. Use %llu.

Since this is C++ though, you might as well use the type-safe std::cout to avoid programmer error:

std::cout << test2;
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Aha...! Thank you very very much!! I would keep that in my mind. –  isbae93 Feb 13 '13 at 16:56

In a book that i have, it says that program always convert any variables to integer when it calculates. Is it possible to make the default integer 64-bit?

This is 1) not correct, and 2) no, you can't tell (most) compilers what size int you want. You could of course use something like:

 typedef Int int64_t;
 typedef Uint uint64_t; 

But you can't rename int to something other than what the compiler things it should be - which may be 16, 32, 64, 36, or 72 bits - or some other number >= 16.

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Since you've also tagged this as C++, I'll add the obvious way to avoid type mismatches like you've run into with printf: use an ostream instead:

std::cout << test2;
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Which, of course, avoids the error when you change the type later. –  James Kanze Feb 13 '13 at 16:39
@JamesKanze: That too. Well, if you change the type later, you might get an error, but at least it'll be a compiler error saying that type doesn't support insertion, rather than just invalid output. –  Jerry Coffin Feb 13 '13 at 16:40
Unless, of course, it's some poorly designed user defined type with an implicit conversion to bool (or something else for which << is defined). (I think it was Bjarne who once said that C++ makes it more difficult to shoot yourself in the foot, but when you do, you'll blow the whole leg off.) –  James Kanze Feb 13 '13 at 16:49


#include <inttypes.h>

/* ... */

printf("%" PRIu64 "\n", test2);

to print an uint64_t value.

u conversion specifier is used to print an unsigned int value.

Note that the PRIu64 macro is a C macro. In C++ the macro is not present and you may have to use %llu conversion specification.

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Unfortunately, Visual Studio doesn't ship with inttypes.h –  Praetorian Feb 13 '13 at 16:51
@Praetorian but C++11 has <cinttypes> include which should define the PRI macros. –  ouah Feb 13 '13 at 16:57
Hmm, you're right, but VS2012 doesn't have that header either. Also, interestingly, §27.9.2/3 states in a note that macros defined in the header are available unconditionally. –  Praetorian Feb 13 '13 at 17:04

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