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While playing with templates in c++ I encountered a problem converting typename T to string. For example:

template <typename T>
class Matrix {
        Matrix() {
           //my_type = string type of T. i.e. if T is char. I want my_type to be "char".
   string my_type;

How do I convert T to a string that says what T is.

Note: I'm just playing around so please do not worry about when one might need such a thing.

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5 Answers 5

up vote 25 down vote accepted

There is no built-in mechanizm for this. typeid(T)::name() can give some info, but the standard does not mandate this string to be human-readable; just distinct for each type. Microsoft Visual C++ uses human-readable strings; GCC does not.

You can build your own system, though. For example, traits-based. Something like this:

// default implementation
template <typename T>
struct TypeName
    static const char* Get()
        return typeid(T).name();

// a specialization for each type of those you want to support
// and don't like the string returned by typeid
template <>
struct TypeName<int>
    static const char* Get()
        return "int";

// usage:
const char* name = TypeName<MyType>::Get();
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Generating that specialization is arguably a case for a macro: #define ENABLE_TYPENAME(A) template<> struct TypeName<A> { static const char *Get() { return #A; }};. Then when I write my class Foo I can do ENABLE_TYPENAME(Foo), putting it in the right namespace if necessary. –  Steve Jessop Dec 19 '10 at 22:17
"just distinct for each type" no, you don't even have this guarantee –  icecrime Dec 19 '10 at 22:48
Note that GCC gives Itanium ABI mangled names, which can be demangled with an Itanium ABI function. –  Puppy Dec 30 '14 at 17:25

For GCC you have to use a trick. Using cxxabi.h I wrote a little wrapper for this purpose.

#include <string>
#include <iostream>
#include <iomanip>
#include <typeinfo>
#include <cxxabi.h>

#define DEBUG_TYPE(x) do { typedef void(*T)x; debug_type<T>(T(), #x); } while(0)

template<typename T>
struct debug_type
    template<typename U>
    debug_type(void(*)(U), const std::string& p_str)
        std::string str(p_str.begin() + 1, p_str.end() - 1);
        std::cout << str << " => ";
        char * name = 0;
        int status;
        name = abi::__cxa_demangle(typeid(U).name(), 0, 0, &status);
        if (name != 0) { std::cout << name << std::endl; }
        else { std::cout << typeid(U).name() << std::endl; }

Double parentheis is necessary. Works with any type.

Now you can use it for boost::mpl:

DEBUG_TYPE((if_c<true, true_, false_>::type));

will prints:

if_c<true, true_, false_>::type => bool_<true>
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You can't, at least not directly. The only way to convert a token or series of tokens into a string literal is using the preprocessor's stringization operator (#) inside of a macro.

If you want to get a string literal representing the type, you'll have to write something yourself, perhaps by using a macro to instantiate the template and pass it the stringized type name.

One problem with any general approach is: what string should be given for the following uses:

Matrix<char> x;
typedef char MyChar;
Matrix<MyChar> y;

Both x and y are of the same type, but one uses char directly and the other uses the typedef MyChar.

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It is impossilbe to get name of type in string if the type is one of base types. For user defined types you can use typeid(my_type).name(). Also you need #include <typeinfo> :) more info...

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workaround way...

#define Tprint(x) print<x>(#x)

template<typename T>
void print (string ltype){
cout<<ltype<<" = "<<sizeof(T)<<endl;
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Excuse me for poor formatting. My first post in stackover flow. –  user3071398 Dec 30 '13 at 19:53
I'm pretty sure that if you do Tprint(T) where T is the template parameter given in the original question, you'll get T = 4 or some number. You won't get the type of T written to the screen. –  Mark Lakata Apr 30 at 18:35

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