If I run this code:

std::cout << static_cast<uint8_t>(65);

It will output:


Which is the ASCII equivalent of the number 65. This is because uint8_t is simply defined as:

typedef unsigned char uint8_t;
  • Is this behavior a standard?

  • Should not be a better way to define uint8_t that guaranteed to be dealt with as a number not a character?

I can not understand the logic that if I want to print the value of a uint8_t variable, it will be printed as a character.

P.S. I am using MSVS 2013.

  • 3
    Yes it's standards behavior. If you want to use a uint8_t as a small unsigned integer you need to cast it before outputting it. Like e.g. static_cast<uint32_t>(some_uint8_t_variable) Aug 25, 2016 at 12:48
  • Thanks.. It is not duplicated exactly.. I know why this behaviour is exist. My main two questions were: if this is a standard behaviour and why there is no better way to represent uint8_t as non character type. Aug 25, 2016 at 12:53
  • 2
    @HumamHelfawi - there is no primitive type that has a size of 1 and is not a variant of char. Yes, C++ could have added a new type, but that would conflict with C, which is where these typedefs originated. Aug 25, 2016 at 13:00
  • 2
    std::cout << +static_cast<uint8_t>(65); will do what you want. Aug 25, 2016 at 13:01
  • 2
    + is a unary operator that acts a lot like the unary -, except that it doesn't negate the value. It's generally viewed as pointless, but it is useful here, because, as an arithmetic operator, the compiler promotes its argument to int. So +x is equivalent to (int)x. Aug 25, 2016 at 13:07

3 Answers 3


Is this behavior a standard

The behavior is standard in that if uint8_t is a typedef of unsigned char then it will always print a character as std::ostream has an overload for unsigned char and prints out the contents of the variable as a character.

Should not be a better way to define uint8_t that guaranteed to be dealt with as a number not a character?

In order to do this the C++ committee would have had to introduce a new fundamental type. Currently the only types that has a sizeof() that is equal to 1 is char, signed char, and unsigned char. It is possible they could use a bool but bool does not have to have a size of 1 and then you are still in the same boat since

int main()
    bool foo = 42;
    std::cout << foo << '\n';

will print 1, not 42 as any non zero is true and true is printed as 1 but default.

I'm not saying it can't be done but it is a lot of work for something that can be handled with a cast or a function

C++17 introduces std::byte which is defined as enum class byte : unsigned char {};. So it will be one byte wide but it is not a character type. Unfortunately, since it is an enum class it comes with it's own limitations. The bit-wise operators have been defined for it but there is no built in stream operators for it so you would need to define your own to input and output it. That means you are still converting it but at least you wont conflict with the built in operators for unsigned char. That gives you something like

std::ostream& operator <<(std::ostream& os, std::byte b)
    return os << std::to_integer<unsigned int>(b);

std::istream& operator <<(std::istream& is, std::byte& b)
    unsigned int temp;
    is >> temp;
    b = std::byte{b};
    return is;

int main()
    std::byte foo{10};
    std::cout << foo;

Posting an answer as there is some misinformation in comments.

The uint8_t may or may not be a typedef for char or unsigned char. It is also possible for it to be an extended integer type (and so, not a character type).

Compilers may offer other integer types besides the minimum set required by the standard (short, int, long, etc). For example some compilers offer a 128-bit integer type.

This would not "conflict with C" either, since C and C++ both allow for extended integer types.

So, your code has to allow for both possibilities. The suggestion in comments of using unary + would work.

Personally I think it would make more sense if the standard required uint8_t to not be a character type, as the behaviour you have noticed is unintuitive.

  • Yes exactly that what I was thinking of. Thanks Aug 25, 2016 at 13:32
  • If the standard mandates that it should not be a character type what type should be used? Aug 25, 2016 at 13:34
  • @NathanOliver an 8-bit integer type that is not a character type
    – M.M
    Aug 25, 2016 at 20:58

It's indirectly standard behavior, because ostream has an overload for unsigned char and unsigned char is a typedef for same type uint8_t in your system.

§ [output.streams.ostream] gives:

template<class traits>
basic_ostream<char,traits>& operator<<(basic_ostream<char,traits>&, unsigned char);

I couldn't find anywhere in the standard that explicitly stated that uint8_t and unsigned char had to be the same, though. It's just that it's reasonable that they both occupy 1 byte in nearly all implementations.

 std::cout << std::boolalpha << std::is_same<uint8_t, unsigned char>::value << std::endl; // prints true

To get the value to print as an integer, you need a type that is not unsigned char (or one of the other character overloads). Probably a simple cast to uint16_t is adequate, because the standard doesn't list an overload for it:

uint8_t a = 65;
std::cout << static_cast<uint16_t>(a) << std::endl; // prints 65


  • They don't have to be the same; uint8_t could be an extended integer type.
    – M.M
    Aug 25, 2016 at 13:22
  • You wont find anything that actually spells out what the underlying type of uint8_t has to be as uint8_t might not even exist. Aug 25, 2016 at 13:22
  • uint16_t might have the same problem , on a system with 16-bit char. (Those are rare though)
    – M.M
    Aug 25, 2016 at 13:23
  • @M.M: I was trying to convey that they didn't have to be the same, it's just that they are and OP (and everyone else who asks about printing uint8_t) is just unlucky that their implementation chose unsigned char to be a typedef for it, and it probably won't change soon, because it's a reasonable implementation.
    – AndyG
    Aug 25, 2016 at 13:24

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