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Alright i know this question might some weird , but still i wanted to demystify it.

1.)an int type in C can stores number in the range of -2147483648 to 2147483647.

2.)If we append an unsigned it front of it , the range would become 0 to 2147483647.

3.)The thing is , why do we even bother to use the keyword unsigned when the code below could actually works.

The Code:

#include <stdio.h>

int main(void)
    int num = 2147483650;

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

    return 0;

4.)As you see , i can still print out the integer as unsigned type if I use the %u specifier and it will print me the value 2147483650.

5.)Even if I create another integer type with value 50 and sum it up with num , although it's overflow but yet I still can print out the correct sum value by using %u specifier.So why unsigned keyword is still a necessity??

Thanks for spending time reading my question.

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Apart from undefined behavior, printing is far from the only meaningful operation on (unsigned) integers. – larsmans May 10 '11 at 16:30

4 Answers 4

up vote 2 down vote accepted

Considering only Q3, "Why do we bother to use unsigned", consider this program fragment:

int main(void) {

  int num = MAX_INT;
  num += 50;

  printf("%u\n", num); /* Yes, this *might* print what you want */

  /* But this "if" almost certainly won't do what you want. */
  if(num > 0) {
    printf("Big numbers are big\n");
  } else {
    printf("Big numbers are small\n");

We use "unsigned" because unsigned int behaves differently from int. There are more interesting behaviors than just how printf works.

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+1 for nice example. – Oliver Charlesworth May 10 '11 at 17:23
A popular use for unsigned integers is with bits. Signed integers behave differently when shifted or rotated by a number of bits than unsigned integers. – Thomas Matthews May 10 '11 at 19:12
  1. No, this is true only on certain platforms (where an int is 32-bit, 2's-complement).

  2. No, in that case the range would be 0 to 4294967295.

  3. That code exhibits undefined behaviour.

  4. See 3.

  5. See 2. and 3.

share|improve this answer

Well, firstly the result of assigning an out-of-range number is implementation-defined - it doesn't have to give the value that will "work" when printed with the %u format specifier. But to really answer your question, consider this modification to your code:

#include <stdio.h>

int main(void)
    int num = 2147483650;
    unsigned num2 = 2147483650;

    num /= 2;
    num2 /= 2;

    printf("%u, %u\n" , num, num2);

    return 0;

(If 2147483650 is out of range of int on your platform, but within the range of unsigned, then you will only get the correct answer of 1073741825 using the unsigned type).

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  1. Wrong. The range is INT_MIN (which in 2 completment systems usually is -INT_MAX+1) to INT_MAX; INT_MAX and INT_MIN depends on the compiler, architecture, etc.

  2. Wrong. The range is 0 to UINT_MAX which is usually INT_MAX*2 + 1

  3. Unsigned integers have a different behaviour regarding overflow and semantics. In 2 complement there's one value undefined for signed integers (that is if only the uppermost bit is set, the rest zero), that has somewhat a double meaning. Unsigned integers can make use of the full range of bit patterns.

  4. Here's an exercise: On a 32 bit machine compare the output of printf("%d %u", 0xffffffff, 0xffffffff);

  5. Because unsigned integers behave differently than signed ones.

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Note that should be INT_MAX*2+1... – Oliver Charlesworth May 10 '11 at 16:38
@Oli: Right you are, yet again. – datenwolf May 10 '11 at 16:47
@pmg: clarified it. – datenwolf May 11 '11 at 8:31
Still wrong: ignoring overflows it is -INT_MAX - 1 or -(INT_MAX + 1) – pmg May 11 '11 at 8:35

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