Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Is is possible to convert int to "string" in C just using casting? Without any functions like atoi() or sprintf().

What I want would be like this:

int main( int argc, char *argv[] ){
    int i=500;
    char c[4];

    c = (char)i;
    i = 0;        
    i = (int)c;

The reason is that I need to generate 2 random ints(0 to 500) and send both as one string in a message queue to other process. The other process receive the message and do the LCM.

I know how to do with atoi() and itoa(). But my teachers wants just using cast :/

Also, why this isnt possible to compile?

typedef struct
    int x;
    int y;
} int_t;

typedef struct
    char x[sizeof(int)];
    char y[sizeof(int)];
} char_t;

int main( int argc, char *argv[] )

    int_t rand_int;
    char_t rand_char;

    rand_int.x = (rand() % 501);
    rand_int.y = (rand() % 501);

    rand_char = (char_t)rand_int;
share|improve this question
key phrase being 'my teachers want` which means everything after that is for you to figure out, not for us to show you. ~smile~ –  K Scott Piel May 7 '13 at 22:37
You cant imagine the amount of effort, time and research I wasted trying to do that. Everything is working fine, just the cast doesnt work. –  Bodosko May 7 '13 at 22:40
I would counter that you have wasted not one second... you've done exactly what the teachers intended... you've spent a lot of time figuring out how not to do it. And that's incredibly valuable as a programmer. –  K Scott Piel May 7 '13 at 22:42
Can you share the function signature for placing it on the message queue? That sounds like the crux of the problem. –  Kaiged May 7 '13 at 22:43
I understand K Scott Piel. So I can tell you I achieved everything but casting int to char array. Can you please help me? :) –  Bodosko May 7 '13 at 22:47

4 Answers 4

Of course it's not possible, because an array is an object and needs storage. Casts result in values, not objects. Some would say the whole point/power of C is that you have control over the storage and lifetime of objects.

The proper way to generate a string containing a decimal representation of an integer is to create storage for it yourself and use snprintf:

char buf[sizeof(int)*3+2];
snprintf(buf, sizeof buf, "%d", n);
share|improve this answer

You have to convert 500 to "500".

"500" is the same as '5' then '0' then '0' then 0. The last element 0 is the null terminator of a string.

500 is equal to 5 * 100 + 0 * 10 + 0 * 1. You have to do some math here. Basically you have to use the / operator.

Then this could be also useful: '5' is the same as '0' + 5.

share|improve this answer
But that way I wouldnt use casting. I can imagine many ways of doing what I need, but any of them involves casting, and I have no idea even if its possible. –  Bodosko May 7 '13 at 23:01
The requirement that you use casting is not practical. It's like telling somebody they have to solve a problem with a calculator when they already did it in their head. Just solve it without casting. (Stick a dummy cast if you must. Like typing 1+1= into the calculator.) –  Raymond Chen May 7 '13 at 23:35

Without giving away an exact coded answer, what you'll want to do is loop through each digit of the integer (by computing its remainder modulo 10 via the % operator), and then add its value to the ASCII value of '0', casting the result back to a char, and placing that result in a null-terminated string.

An example which pretends like implicit casts don't exist might look like this:

char c = (char) ( ((int) '0') + 5 ); // c should now be '5'.

You can determine the length of the resulting string by computing the log base 10 of the number, or by simply allocating it dynamically as you go using realloc().

share|improve this answer

Casting is a horrible way to do this due to endianness, but here is an example anyhow - there are some occasions where it is useful (unions work better these days though, due to compiler handling of these types of casts).

#include <stdio.h> //for printf 
#define INT(x) ((int*)(x)) //these are not endian-safe methods
#define CHAR(x) ((char*)(x))
int main(void)
    int *x=INT(&"HI !");
    printf("%X\n",*x); //look up the ascii and note the order
    return 0;

For an int with a value <500, if the most significant byte comes first, then you get a "string" (pointer to a char array) of "" (or {0}) but if the endianness is LSB first (x86 is little endian) then you would get a usable 3 byte "string" char* (not necessarily human readable characters) but there is no guarantee that there will be a zero byte in an integer and since all you have is a pointer to the address where the int was stored, if you were to run normal string functions on it, they would go past the end of the original int into no-mans-land (in small test programs it will often be environment variables) ... anyhow for more portability you can use network byte order (which for little endian is a no-op):

#include <arpa/inet.h>
uint32_t htonl(uint32_t hostlong);
uint16_t htons(uint16_t hostshort);
uint32_t ntohl(uint32_t netlong);
uint16_t ntohs(uint16_t netshort);

These functions just byteswap as necessary to get network byte order. On your x86 they will be optimized away, so you might as well use them for portability.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.