#include <iostream>

using namespace std;

int main()
    char          c1 = 0xab;
    signed char   c2 = 0xcd;
    unsigned char c3 = 0xef;

    cout << hex;
    cout << c1 << endl;
    cout << c2 << endl;
    cout << c3 << endl;

I expected the output are as follows:


Yet, I got nothing.

I guess this is because cout always treats 'char', 'signed char', and 'unsigned char' as characters rather than 8-bit integers. However, 'char', 'signed char', and 'unsigned char' are all integral types.

So my question is: How to output a character as an integer through cout?

PS: static_cast(...) is ugly and needs more work to trim extra bits.

  • afaik, casting is the most effective way... (e.g. static_cast<int>())
    – Nim
    Feb 1, 2013 at 10:55
  • 1
    btw. the only reason you need to resort to "trimming" is that you are clearly not using the types correctly (the first two clearly overflows) and this is what you get as a result. If you always used the correct type, then the cast is simply, static_cast<unsigned>(...)...
    – Nim
    Feb 1, 2013 at 11:10
  • 2
    There is also the option of cout << +c1;
    – PlasmaHH
    Feb 1, 2013 at 11:23
  • @Nim where do you see any overflow? There's even no arithmetic going here, the values assigned are just 0xffffffab and 0xffffffcd on systems with 32 bit two's complement ints, and are then casted to smaller chars, which fit them perfectly due to the nature of two's complement representation.
    – Ruslan
    Jul 24, 2015 at 7:27
  • @Ruslan there is no 0xffffffab and 0xffffffcd here, but 0xab and 0xcd are too big for signed char, maximum value for signed char is 0x7f. Yes bit representation allows you that, but it's platform dependent, what actually you get. Not all platforms are using compliment of two. Sep 21, 2019 at 6:53

6 Answers 6

char a = 0xab;
cout << +a; // promotes a to a type printable as a number, regardless of type.

This works as long as the type provides a unary + operator with ordinary semantics. If you are defining a class that represents a number, to provide a unary + operator with canonical semantics, create an operator+() that simply returns *this either by value or by reference-to-const.

source: Parashift.com - How can I print a char as a number? How can I print a char* so the output shows the pointer's numeric value?

  • 2
    Working link: cs.technion.ac.il/users/yechiel/c++-faq/…
    – GetFree
    May 11, 2017 at 8:58
  • 2
    This is rather obfuscated. A simple static_cast as in sheu's answer clearly conveys the intend.
    – sigy
    Jun 29, 2017 at 6:52
  • why is this the most upvoted answer. it is so much more obscure that a simple cast eg: (int)
    – deltanine
    Mar 21, 2018 at 22:32
  • 4
    Yes, it is obscure, but is very useful in generic code.
    – Evg
    Aug 24, 2018 at 7:01
  • 1
    Came here for exactly this problem: properly emitting values from a templated numeric type. Ideally, there's be a more explicit operator, like valueOf or perhaps a stream modifier, but in the absense of these, the unary plus work across all numeric types. Regarding the trickiness of this syntax, this is precisely why languages include comments, and I strongly suggest this warrants a short comment. Feb 2, 2021 at 20:40

Cast them to an integer type, (and bitmask appropriately!) i.e.:

#include <iostream>

using namespace std;

int main()
    char          c1 = 0xab;
    signed char   c2 = 0xcd;
    unsigned char c3 = 0xef;

    cout << hex;
    cout << (static_cast<int>(c1) & 0xFF) << endl;
    cout << (static_cast<int>(c2) & 0xFF) << endl;
    cout << (static_cast<unsigned int>(c3) & 0xFF) << endl;
  • 2
    And the output of c1 and c2 is ffffffab and ffffffcd, which is not what the OP expected.
    – Mr.C64
    Feb 1, 2013 at 10:58
  • However, 'char', 'signed char', and 'unsigned char' are all integral types. static_cast(...) is ugly and needs more work to trim extra bits.
    – xmllmx
    Feb 1, 2013 at 11:09
  • @xmllmx: ostream also has overloads that print the char types as their character representations -- not what the poster wants,
    – sheu
    Feb 1, 2013 at 11:12

Maybe this:

char c = 0xab;
std::cout << (int)c;

Hope it helps.


What about:

char c1 = 0xab;
std::cout << int{ c1 } << std::endl;

It's concise and safe, and produces the same machine code as other methods.


Another way is to overload the << operator:

#include <iostream>

using namespace std;
typedef basic_ostream<char, char_traits<char>> basicOstream;

/*inline*/ basicOstream &operator<<(basicOstream &stream, char c) {
    return stream.operator<<(+c);
/*inline*/ basicOstream &operator<<(basicOstream &stream, signed char c) {
    return stream.operator<<(+c);
/*inline*/ basicOstream &operator<<(basicOstream &stream, unsigned char c) {
    return stream.operator<<(+c);

int main() {
    char          var1 = 10;
    signed char   var2 = 11;
    unsigned char var3 = 12;
    cout << var1 << endl;
    cout << var2 << endl;
    cout << var3 << endl;
    return 0;

which prints the following output:


Process finished with exit code 0

I think it's very neat and useful. hope it hepls!

And Also if you want it to print a hex value you can do like this:

basicOstream &operator<<(basicOstream &stream, char c) {
    return stream.operator<<(hex).operator<<(c);
} // and so on...

Another way to do it is with std::hex apart from casting (int):

std::cout << std::hex << (int)myVar << std::endl;

I hope it helps.

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