Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I want to concatenate a piece of text, for example "The answer is " with a signed integer, to give the output "The number is 42".

I know how long the piece of text is (14 characters) but I don't know how many characters the string representation of the number will be.

I assume the worst case scenario, the largest signed 16-bit integer has 5 digits, plus one extra in case it is negative, so is the following code the correct way to do it?

#include <stdio.h>
#include <stdlib.h>

int main()
    char *message;

    message = malloc(14*sizeof(char)+(sizeof(int)*5)+1);

    sprintf(message, "The answer is %d", 42);


share|improve this question

6 Answers 6

up vote 7 down vote accepted


malloc(14*sizeof(char) /*for the 14 char text*/
       +(sizeof(char)*5) /*for the magnitude of the max number*/
       +1 /* for the sign of the number*/
       +1 /* for NULL char*/

Since the digits will be represented as char you have to use sizeof(char) instead of sizeof(int).

share|improve this answer
I'd add that since sizeof(char) is 1 by the C standard, just 14+5+1+1 would be ok – qrdl Feb 25 '10 at 13:16
@qrdl: Ya that would work, but using sizeof(char) makes it clear what is it being allocated to hold. – codaddict Feb 25 '10 at 13:18
You must apply the sizeof(char) on the sum of the number of char you need. On a 2 bytes / char system your solution won't work. – Nicolas Guillaume Feb 25 '10 at 13:21
@Niklaos, a byte is not an octet. The ISO standard defines a byte as the same size as a char, however many bits that is. You never need sizeof(char) for malloc. – paxdiablo Feb 25 '10 at 13:33
@Niklaos, can you give an example of a 2 bytes/char system? As far as I know the C standard defines char as one byte. – mlibby Feb 25 '10 at 13:37

Not quite, you only need a number of characters so sizeof(int) is not required.

However, for easily maintainable and portable code, you should have something like:

#define TEXT "The answer is "
#if INT_MAX == 32767
    #define CHARS_PER_INT 6
#if INT_MAX == 2147483647
    #define CHARS_PER_INT 11
    #error Suspect system, I have no idea how many chars to allocate for an int.

int main (void) {
    char *message;

    message = malloc(sizeof(TEXT)+CHARS_PER_INT+1);
    sprintf(message, TEXT "%d", 42);
    return 0;

This has a number of advantages:

  • If you change the string, you change one thing and one thing only. The argument to malloc adjusts automatically.
  • The expression sizeof(TEXT)+CHARS_PER_INT+1 is calculated at compile time. A solution involving strlen would have a runtime cost.
  • If you try to compile your code on a system where integers may cause overflow, you'll be told about it (go fix the code).
  • You should actually allocate an extra character for the number since the biggest 16-bit number (in terms of character count) is -32768 (six characters long). You'll notice I still have a +1 on the end - that's because you need space for the string null terminator.
share|improve this answer
Thanks for the answer - you say the expression is calculated at compile time, but I don't see any difference between this and the answer above - they are surely calculated at the same point, i.e. inside the malloc() expression. What am I missing? – SlappyTheFish Feb 25 '10 at 14:17
@Slappy, they are both compile-time expressions. I was comparing it to a "strlen()" solution which would have a runtime cost, updating to make that clear. – paxdiablo Feb 25 '10 at 21:59

One way of doing it (not necessarily recommended) that gives you the exact size of the number in characters is using the stdio functions themselves.

For example, if you print the number (somewhere, for whatever reason) before you allocate your memory, you can use the %n format identifier with printf. %n doesn't print anything; rather, you supply it with a pointer to int, and printf fills that with how many characters have been written so far.

Another example is snprintf, if you have it available. You pass it the maximum number of characters you want it to write to your string, and it returns the number of characters it should have written, not counting the final nul. (Or -1 on error.) So, using a 1-byte dummy string, snprintf can tell you exactly how many characters your number is.

A big advantage to using these functions is that if you decide to change the format of your number (leading 0's, padding spaces, octal output, long longs, whatever) you will not overrun your memory.

If you have GNU extensions to stdio, you may want to consider using asprintf. This is exactly like sprintf, except it does the memory allocation for you! No assembly required. (Although you do need to free it yourself.) But you shouldn't rely on it to be portable.

share|improve this answer

malloc((14 + 6 + 1) * sizeof(char));

  • 14 char for the string
  • 6 for de digits + sign
  • 1 for the '\0'

Note : Sizeof(int) gives you the size of the type in byes. Sizeof(int) == 4 if the int is 32bits, 8 if it's a 64bits.

share|improve this answer
There is a typo in : 4 char for the string, it should be 14. – gameover Feb 25 '10 at 13:28
I fixed the typo. – Oddthinking Feb 25 '10 at 13:41
Please stop perpetuating the myth that a byte is 8 bits. A byte and a char in the ISO C/C++ standard is defined by CHAR_BITS in limits.h - sizeof(int) will be 1 for a 32-bit int if CHAR_BITS is 32 (i.e., a 32-bit byte/char). – paxdiablo Feb 25 '10 at 13:49
@paxdiablo Amazing :p I just read the wikipedia byte page. So yes, it's looks like it's a myth. – Nicolas Guillaume Feb 25 '10 at 14:02
It's a little known fact to those who aren't "language lawyers" like myself. I actually thought I'd found a bug in the standard once because of this misunderstanding. But alas I, like so many others before me (and after), was wrong :-) – paxdiablo Feb 25 '10 at 14:05

I think that the correct formula to get the maximum lenght of the decimal representation of an integer would be (floor(log10(INT_MAX))+1); you could also abuse of the preprocessor in this way:

#include <limits.h>
#define TOSTRING_(x) #x
#define TOSTRING(x) TOSTRING_(x)
/* ... */
#define YOUR_MESSAGE "The answer is "
char message[]=YOUR_MESSAGE "+" TOSTRING(INT_MAX);
sprintf(message+sizeof(YOUR_MESSAGE),"%d", 42);

, which also avoids the heap allocation. You may want to use snprintf for better security, although with this method it shouldn't be necessary.

Another trick like that would be to create a function like this:

size_t GetIntMaxLenght()
    const char dummy[]=TOSTRING(INT_MAX);
    return sizeof(dummy)+1;

if the compiler is smart enough it could completely sweep away the dummy var from the compiled code, otherwise it may be wise to declare that var as static to avoid reinitializing it every time the function is called.

share|improve this answer
don't forget a byte for an optional sign if it's negative. – plinth Feb 25 '10 at 13:43
And the fact that it's INT_MAX rather than MAX_INT :-) – paxdiablo Feb 25 '10 at 13:50
Corrected, thank you. I also added a const in the second function that may help the compiler to optimize the var away (IIRC the compiler is not required to allocate memory for const objects if they aren't used). – Matteo Italia Feb 25 '10 at 14:22
This doesn't work for two reasons. Firstly, unless you add another level of macros, TOSTRING(INT_MAX) will just give you the string "INT_MAX". Secondly, INT_MAX is not necessarily defined to be a number - it just has to be a compile-time constant. An implementation would be well within its rights to have something like #define INT_MAX __imax. – caf Feb 25 '10 at 23:28
Huh, you're right, I always forget about the double macro evaluation trick (actually I usually I use C++ so I rarely need macro hacks). For your second point, well, actually I've never seen any compiler doing that; still, theoretically it can be. – Matteo Italia Feb 26 '10 at 9:05

A safe approximation for signed int is (number of digits including the potential - sign):

(CHAR_BIT * sizeof(int) + 1) / 3 + 1

The equivalent for unsigned is:

(CHAR_BIT * sizeof(unsigned) + 2) / 3

This calculates the number of digits - add one to both of them to account for the terminator, if allocating space for a null-terminated string.

This will slightly overestimate the space required for very long types (and will also overestimate in the unusual case where int has padding bits), but is a good approximation and has the advantage that it is a compile-time constant. CHAR_BIT is provided by <limits.h>.

share|improve this answer
I think you need to add the byte for the null terminator. – xanatos Mar 14 '12 at 9:31
@xanatos: If you want to use this as an array size which will store a null terminated string, yes. The formulas I have given here are explicitly for the number of digits including the potential - sign in the number itself. – caf Mar 14 '12 at 21:37
I'll even add that the numbers are "good" only for 16, 32 and 64 bits (and upper). With this I mean "standard" bit lengths. This clashes with the use of CHAR_BIT that makes the formula seem "universal". For example, a theoretical unsigned in of 20 bits could contain up to 1048575, so 7 digits, but by your formula 6 characters would be enough. The same would happen with a 21 bits signed integer. Maximum value of 1048575, so 7 digits + sign, but only 7 characters. – xanatos Mar 14 '12 at 22:02
@xanatos: You're right, the division should be rounding up so 2 must be added beforehand - I have corrected it and made the need for an additional byte for the null terminator explicit. – caf Mar 14 '12 at 23:24

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.