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I came across a code like below:

#define SOME_VALUE 0xFEDCBA9876543210ULL

This SOME_VALUE is assigned to some unsigned long long later.


  1. Is there a need to have postfix like ULL in this case ?
  2. What are the situation we need to specify the type of integer used ?
  3. Do C and C++ behave differently in this case ?
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up vote 7 down vote accepted

In C, a hexadecimal literal gets the first type of int, unsigned int, long, unsigned long, long long or unsigned long long that can represent its value if it has no suffix. I wouldn't be surprised if C++ has the same rules.

You would need a suffix if you want to give a literal a larger type than it would have by default or if you want to force its signedness, consider for example

1 << 43;

Without suffix, that is (almost certainly) undefined behaviour, but 1LL << 43; for example would be fine.

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I suspect that the behavior of 1 << 43 is almost certainly not undefined (meaning it could blow up your computer), but is most likely unportable (meaning it might do something different on my computer vs. your). – Gabe Apr 20 '12 at 15:55
Section 6.5.7 (n1570): "If the value of the right operand is negative or is greater than or equal to the width of the promoted left operand, the behavior is undefined." Unless your int has at least 43 bits, it's undefined behaviour. It will probably produce a 0 or a 512, but it is undefined. – Daniel Fischer Apr 20 '12 at 15:58
@Gabe: It's undefined. Some processors trap arithmetic overflows. I doubt any will blow up by design, but it could kill the program. – Mike Seymour Apr 20 '12 at 16:17
So it's not defined whether the behavior is undefined. On an architecture with 64-bit ints the behavior is defined, while on an architecture with 32-bit ints the behavior is undefined. I guess I should have expected that. On my computer 1 << 43 == 2048. – Gabe Apr 20 '12 at 17:08
  1. I think not, but maybe that was required for that compiler.
  2. For example, printf("%ld", SOME_VALUE); if SOME_VALUE's integer type is not specified, this might end up with the wrong output.
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A good example for the use of specifying a suffix in C++ is overloaded functions. Take the following for example:

#include <iostream>

void consumeInt(unsigned int x)
    std::cout << "UINT" << std::endl;

void consumeInt(int x)
    std::cout << "INT" << std::endl;

void consumeInt(unsigned long long x)
    std::cout << "ULL" << std::endl;

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

    return 0;

Results in:


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You do not need suffixes if your only intent is to get the right value of the number; C automatically chooses a type in which the value fits.

The suffixes are important if you want to force the type of the expression, e.g. for purposes of how it interacts in expressions. Making it long, or long long, may be needed when you're going to perform an arithmetic operation that would overflow a smaller type (for example, 1ULL<<n or x*10LL), and making it unsigned is useful when you want to the expression as a whole to have unsigned semantics (for example, c-'0'<10U, or n%2U).

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When you don't mention any suffix, then the type of integral literal is deduced to be int by the compiler. Since some integral literal may overflow if its type is deduced to be int, so you add suffix to tell the compiler to deduce the type to be something other than int. That is what you do when you write 0xFEDCBA9876543210ULL.

You can also use suffix when you write floating-pointer number. 1.2 is a double, while 1.2f is a float.

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No, the type is chosen based on the value. – R.. Apr 20 '12 at 15:42
@R..: I don't think that is true in C++. – Nawaz Apr 20 '12 at 15:45
@Nawaz It is. C++ is identical to C here, see section 2.14.2 of the standard. – James Kanze Apr 20 '12 at 16:50

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