I'm running some test cases against my itoa() function but keep getting

did not allocate memory for the int min value

I'm doing the check but it's something I'm missing here, what is it?

char *ft_itoa(int x) {
    char *s;
    size_t len;
    long int n;

    n = x;
    if (x == -2147483648)
        return (ft_strdup("-2147483648"));

    len = ft_intlen(n) + 1;
    if (!(s = (char*)malloc(sizeof(char) * len)))
        return (NULL);

    if (n == 0)
        s[0] = '0';

    if (n < 0) {
        s[0] = '-';
        n = -n;
    s[len - 1] = '\0';
    while (n) {
        s[len - 1] = (n % 10) + '0';
        n /= 10;
    return (s);
  • 3
    You will need to post full code for ft_intlen function
    – Secto Kia
    Commented Oct 8, 2016 at 7:48
  • that is the full code, strdup just allocates the string, ft_intlen just returns length of string, both pass the test cases Commented Oct 8, 2016 at 7:52
  • what is the size of int on your system?
    – Secto Kia
    Commented Oct 8, 2016 at 7:59
  • 3
    Also you want to decide whether you use C or C++. The title states C, casting malloc() indicates C++, the question is tagged both ...
    – alk
    Commented Oct 8, 2016 at 8:08
  • 1
    ft_intlen is important, you should show it, but if you don't want to show it then that's that. You also need to show the test cases where this fails. Commented Oct 8, 2016 at 8:14

7 Answers 7


This line:

if (x == -2147483648)

does not do what you think it does. C does not have negative integer constants. This is an unsigned int constant with the value 2^31, that you apply the unary minus operator on. This means that the expression x == -21... will depend on the C standard your compiler uses.

If you use C99 or C11, you'll be fine. There is a signed type that is big enough - long long is guaranteed to be big enough for this number, so both x and -21... will be converted into long long and then compared. But if you're using a C89 compiler and your machine doesn't have a long enough type, you're hitting implementation-defined behavior here:

When an integer is demoted to a signed integer with smaller size, or an unsigned integer is converted to its corresponding signed integer, if the value cannot be represented the result is implementation-defined.

This is why people are saying to use limits.h. Not because they are being pedantic, but because this is dangerous territory. If you look closely at what limits.h contains, you'll most likely find a line like this:

#define INT_MIN (- INT_MAX - 1)

This expression actually has the correct type and value.

Other than that I can't see any errors in the code you posted. If this is not the problem either ft_intlen or ft_strdup are wrong. Or you're calling your function in testing wrong (the same problems apply to -21... when calling tests).

  • 1
    if (x == -2147483648) is fine aside from INT_MIN may have a different value. With C99/C11 2147483648, -2147483648 can well fit as a long long. With C89 (and 32-bit long), 2147483648 is unsigned long "The type of an integer constant is the first of the corresponding list in which its value can be represented. Unsuffixed decimal: int, long int, unsigned long int;" C89 Integer constants. The cite does not apply as the - and == are done with unsigned long math. "If either operand has type unsigned long int, the other operand is converted to unsigned long int." Commented Oct 13, 2016 at 16:42
  • @chux The usual arithmetic conversions don't actually say explicitly how unary operators should behave, but I verified in gcc (funnily enough _Generic works in gcc in c86 mode) that the conversion is to signed int. Even if the equality is done with unsigned long, it just means that we're converting a value that can't be represented into an unsigned long and that's once again implementation defined.
    – Art
    Commented Oct 14, 2016 at 6:06
  • Converting an int to any unsigned type is well defined, not implementation defined. "Otherwise, if the new type is unsigned, the value is converted by repeatedly adding or subtracting one more than the maximum value that can be represented in the new type until the value is in the range of the new type." C11 6.3 Conversions So if (x == -2147483648) becomes if (((unsigned long)x) == 2147483648UL) on 32-bit long C89 machines. Commented Oct 14, 2016 at 14:15



Anyways, I improved on some points.

  • sizeof(char) is always 1, no need for it.
  • don't cast malloc
  • if you handle special case 0, then just handle it in one go.
  • -2147483648 is very very bad. That's what INT_MIN is for.
  • return is not a function, don't return (value), just return value.
  • don't s[len - 1] all the time, better decrements len prior to entering the loop. Or, since you need len + 1 only in the malloc call, just have len as intlen returns it and call malloc using len + 1


#include <stdbool.h>
#include <limits.h>
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <btstr.h>

int ft_intlen(int n) {
        char buffer[8192];
        return snprintf(buffer, sizeof buffer, "%i", n);

char * ft_itoa(int n) {
        char * s;
        size_t l, len;
        bool fix_int_min = false;

        if (!n) {
                return mstrcpy("0");

        if (-INT_MAX != INT_MIN && n == INT_MIN) {
                fix_int_min = true;

        len = ft_intlen(n);
        if (!(s = malloc(len + 1))) {
                return NULL;
        if (n < 0) {
                s[0] = '-';
                n = -n;
        s[l = len] = '\0';
        while (n) {
                s[--len] = (n % 10) + '0';
                n /= 10;

        if (fix_int_min) {
                while (s[l] == '9') {
                        s[l++] = 0;
                if (s[l] == '-') {
                        // realloc +1 and write "-1[0....0]\0"
                } else {

        return s;


#include <limits.h>
#include <stdio.h>

char * ft_itoa(int n);

void check(int n) {
        printf("%i = %s\n", n, ft_itoa(n));

int main() {


$ gcc -W -Wall -Wextra -lBtLinuxLibrary ft_itoa.c main.c -o ft_itoa && ./ft_itoa
0 = 0
-1 = -1
1 = 1
23 = 23
42 = 42
4711 = 4711
1000 = 1000
2147483647 = 2147483647
-2147483647 = -2147483647
-2147483648 = -2147483648
  • I'm trying to use it without limits.h, and having parenthesis around return is convention at some places. It's perfectly acceptable. Commented Oct 8, 2016 at 12:21
  • In (c) you ((can) write (as)) many (parenthesises (as (you (want)))). True. Question is: Is this useful? The thing about limits.h: It's there for a reason. Trying to do it without is not really an acceptable answer. Because, if you're trying to do it without, why not just malloc(12) but ft_intlen() instead? (Please don't tell, because you only need 8 bytes, today, each malloc returns n*16 bytes with n being an integer number. So, you're getting 16 bytes anyways. Commented Oct 8, 2016 at 12:27
  • I'm just saying the parenthesis thing shouldn't even be an argument, it's irrelevant Commented Oct 8, 2016 at 12:44
  • For me, it's an improvement. If you disagree, that's fine, just ignore that point and keep writing parenthesises around your return statements. It's not an error. Commented Oct 8, 2016 at 12:47
  • It's just that I have to, the tests check conventions too lol so I've gotten used to it but don't necessarily love it. I agree with you. Commented Oct 8, 2016 at 12:57

You don't need that check. Instead convert it to unsigned, that will fit the absolute value :

size_t ft_uintlen(unsigned n)
    size_t len = 0;
    do {
        n /= 10;
    } while(n);
    return len;

char *ft_itoa(int x)
    char    *s;
    size_t  len;
    unsigned n;
    int negative;

    negative = x < 0;
    n = negative ? 0-(unsigned)x : (unsigned)x;
    len = ft_uintlen(n) + negative + 1;
    if (!(s = (char*)malloc(len)))
        return (NULL);

    s[--len] = '\0';
    if (negative)
        s[0] = '-';
    do {
        s[--len] = (n % 10) + '0';
        n /= 10;
    } while(n);
    return (s);

Note that this uses a new size_t ft_uintlen(unsigned) function that works on unsigned arguments.

  • I'm afraid n = negative ? -x : x; invokes undefined behavior if x == INT_MIN because of arithmetic overflow.
    – chqrlie
    Commented Oct 11, 2016 at 0:37
  • @chqrlie: sorry, forgot to cast to unsigned. Fixed. Commented Oct 11, 2016 at 7:21
  • unsigned commonly has about 2x range as int. Per C spec INT_MAX == UINT_MAX is a possibility. It that rare situation, converting to unsigned does not form correct results with INT_MIN. Commented Oct 13, 2016 at 17:55
  • Simplification: With this code if (n == 0) s[0] = '0'; else is not needed. Commented Oct 13, 2016 at 17:56
  • @chux: Thanks! I like such simplifications! Regarding INT_MAX == UINT_MAX: I guess it can, but as long as there aren't any such architectures in use today I consider it a theoretical spec m10n. Commented Oct 14, 2016 at 18:31

Probably problem in your overflow prevention mechanism. You try to assign x of type int to n with type long int. But specification doesn't guarantee that type long int can handle value range large then int. More info can be found "Long Vs. Int".

Use long long int type for n if your compiler supports it. Update your ft_intlen function to int ft_intlen(long long int n). In this case you will be able to handle the whole int type value range and remove the following lines:

if (x == -2147483648)
  return (ft_strdup("-2147483648"));  

Also error message did not allocate memory for the int min value is not one of the system error numbers. You need to add more logging into your application, especially if it's not possible to debug it for some reason. Check errno for each system function call, e.g.:

char* errmsg;
// Other code skipped here 
if (!(s = (char*)malloc(sizeof(char) * len)))
  errmsg = strerror(errno);          // Use strerror_s if possible 
  printf("Malloc error: %s\n", errmsg);
  return (NULL);
  • Note: specification doesn't guarantee that type long long int can handle value range large then int either. Commented Oct 13, 2016 at 18:03

Potential code failures, in order of suspicion:

  1. ft_strdup() as that code is called with "int min value" and error occurs.
  2. Prototypes lacking for various functions. Especially ft_strdup()/strdup().
  3. Calling/test code is faulty.
  4. "int min value" is larger than -2147483648. (Better to use INT_MIN.)
  5. ft_intlen(n) is coded incorrectly and returns INT_MAX, then code tries malloc(INT_MIN).
  6. int/long both 64-bit. This messes the first s[len - 1] = (n % 10) + '0'; with INT_MIN.

Otherwise, if INT_MIN has the value -2147483648, ft_itoa(int x) is fine.

OP asserts "... strdup just allocates the string, ft_intlen just returns length of string, both pass the test cases – franklinexpress Oct 8 at 7:52"

Passing test cases does not mean it worked without invoking undefined behavior. Best to post ft_intlen(), ft_strdup() and test harness for review.

Candidate portable implementation. No dependency on int/long size or 2's complement. No need for <limits.h> aside from CHAR_BIT which code could assume is 8 without sacrificing too much potability. Works with C89/99/11.

// Buffer size needed to decimal print any `int`
// '-' + Ceiling(value bit size * log10(2)) + \0
#define INT_STR_SIZE (1 + ((CHAR_BIT*sizeof(int) - 1)/3 + 1) + 1)

char *ft_itoa(int x) {
  char buf[INT_STR_SIZE];
  char *s = buf + sizeof buf - 1;  // Set to end of buffer
  *s = '\0';

  int n = x; // no need for wider types like long

  if (n > 0) {
    // fold positive numbers to negative ones
    // This avoids the special code for `INT_MIN` and need for wider types
    n = -n;

  // Using a do loop avoids special code for `x==0`
  do {
    // Use `div()` rather than / % in case we are using C89.
    // / %  has implementation defined results for negative arguments.
    div_t qr = div(n, 10);
    *--s = (char) ('0' - qr.rem);  // Form digit from negative .rem
    n = qr.quot;
  } while (n);

  if (x < 0) {
    *--s = '-';

  // Double check ft_strdup() is coded correctly
  // Insure calling code frees the buffer when done.
  return ft_strdup(s); 

The piece of code you gave compile and works on OsX, but with my own ft_stdup and ft_intlen. So you can either show us the code or check them for errors. I made some tests (including 2147483647, -2147483648). It works nicely.

Anyway, the lines:

if (x == -2147483648) return (ft_strdup("-2147483648"));

Are useless as long as you copy your x value into a long long variable (Art) before doing any kind of operation it. So you don't need including types.h (notorious moulinette will not give you -42).

It happens that on OsX it works also on long values, but this is non portable safe.


Just use:


instead of:


in your test:

if (x == INT_MIN)
    return (ft_strdup("-2147483648"));

The reason for this is that some compilers could have problems understanding that number.

The standard C library limits.h usually define it as:

#define INT_MIN  (-INT_MAX - 1)

to avoid this problem.

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