I don't understand why the output of an unsigned int is negative for the following code. Just like a signed int.

  uint32_t yyy=1<<31;

The output is:


which is -2^31.

  • Try printf("%u\n",yyy); – Suvarna Pattayil May 24 '13 at 15:12
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    Even before you call printf, this code has undefined behavior, if int has 32 bits in your C implementation. The value of 1<<31 overflows an int. You should use 1u<<31, so that it shifts an unsigned int. – Eric Postpischil May 24 '13 at 15:18

The format specifier for %d expects an int, not an unsigned int, so the code has undefined behaviour. From the C99 standard section The fprintf function:

If any argument is not the correct type for the corresponding conversion specification, the behavior is undefined.

Use %u for unsigned int:

uint32_t yyy=1u<<31;


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    For portability concerns, one could use the following to print a uint32_t (which may be bigger than an unsigned): 'printf("%"PRIu32"\n", yyy);' – chux - Reinstate Monica May 24 '13 at 20:05

It's because your printf argument, as %d, is implicitly converting your number to an int.

Use %u instead.

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  • I see. Thanks your answer~ – user2418047 May 24 '13 at 15:15

Use %u to output unsigned numbers:

printf("%u\n", yyy);
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As many have said, use the %u identifier.

The reason for this, is that printf has no way of telling what type any of the extra parameters are (they are given as a va_list), so you the programmer have to provide that information using the format string. When you then provide %d, printf will call this:

int val;
val = va_arg(va_list, int);

and implicitly cast your unsigned int into a signed.

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Because you are printing it as signed. Use %u instead.

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printf takes a variable number of arguments. When you call it the compiler will dutifully put them all on the stack. Because it's C there's no reflection — printf can't subsequently infer the types of things it has received. At the bit level you can't prima facie tell a signed integer from an unsigned integer or a float, a suitably small structure, part of a larger struct, etc.

That's why you also have to supply a format string. It tells printf what types to read from the stack and in what order. It depends entirely on that format string, having no ability to verify it.

Hence, as per the one-line answers already posted, if you tell it to interpret a field as a signed quantity then it'll be printed as a signed quantity.

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Integers are stored in Two's Complement format. This means there is no way to tell if the number is signed or unsigned just by looking at the value. You must tell the machine which representation you want it to use and keep track of it yourself.

In your example you tell the machine that jjj is unsigned (for type checking) but then ask printf() to treat it as signed by using %d in the format string (it can't get at the type information). If you want to print an unsigned int use %u instead.

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You need to use the unsigned int format specifier:


using the wrong format specifier for printf is undefined behavior, which is covered in the C99 draft standard section The fprintf function, which also covers printf with respect to format specifiers says:

If a conversion specification is invalid, the behavior is undefined.248) If any argument is not the correct type for the corresponding conversion specification, the behavior is undefined.

The cppreference page for printf has a nice table specifying the format specifiers available.

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