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I want to get the string name (const char*) of a template type. Unfortunately I don't have access to RTTI.

template< typename T >
struct SomeClass
    const char* GetClassName() const { return /* magic goes here */; }


SomeClass<int> sc;
sc.GetClassName();   // returns "int"

Is this possible? I can't find a way and am about to give up. Thanks for the help.

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That's what typeid is for. Why can't you use it? –  eduffy Feb 27 '09 at 19:16
can you tell us why you need it? maybe there are better uses? I would strongly recommend you to restruct the program so that you don't need the string anymore. –  Johannes Schaub - litb Feb 27 '09 at 20:46
The classes represent data on disk. I would like to be able to inspect the data and have names of the classes via a utility. I also wanted to use the string name to create a hash to identify the type (on disk). Its not technically necessary, but nice to have. –  Rosco Feb 27 '09 at 21:06
The use of typeid does not require RTTI here. –  Joe Gauterin Dec 12 '11 at 16:00

7 Answers 7

up vote 13 down vote accepted

No and it will not work reliable with typeid either. It will give you some internal string that depends on the compiler implementation. Something like "int", but also "i" is common for int.

By the way, if what you want is to only compare whether two types are the same, you don't need to convert them to a string first. You can just do

template<typename A, typename B>
struct is_same { enum { value = false }; };

template<typename A>
struct is_same<A, A> { enum { value = true }; };

And then do

if(is_same<T, U>::value) { ... }

Boost already has such a template, and the next C++ Standard will have std::is_same too.

Manual registration of types

You can specialize on the types like this:

struct to_string {
    // optionally, add other information, like the size
    // of the string.
    static char const* value() { return "unknown"; }

#define DEF_TYPE(X) \
    template<> struct to_string<X> { \
        static char const* value() { return #X; } \

DEF_TYPE(int); DEF_TYPE(bool); DEF_TYPE(char); ...

So, you can use it like

char const *s = to_string<T>::value();

Of course, you can also get rid of the primary template definition (and keep only the forward declaration) if you want to get a compile time error if the type is not known. I just included it here for completion.

I used static data-members of char const* previously, but they cause some intricate problems, like questions where to put declarations of them, and so on. Class specializations like above solve the issue easily.

Automatic, depending on GCC

Another approach is to rely on compiler internals. In GCC, the following gives me reasonable results:

template<typename T>
std::string print_T() {
    return __PRETTY_FUNCTION__;

Returning for std::string.

std::string print_T() [with T = std::basic_string<char, std::char_traits<char>, std::allocator<char> >]

Some substr magic intermixed with find will give you the string representation you look for.

share|improve this answer
Not doing type equality. I tried the compiler specific approach, but I'm using MS (equivalent doesn't work). The 2nd approach is nice, non-intrusive. I have some other macros being used, so this could work easily. Also I can make a compile time assert if you haven't defined the type you are using. –  Rosco Feb 27 '09 at 22:41
Would FUNCTION help for MS compilers? (I don't have one to test on.) Ref: stackoverflow.com/questions/597078/… –  Mr.Ree Feb 28 '09 at 15:45
mrree, i'm sorry i have not tested how FUNCTION looks like. if it prints just the name of the function, we are lost. if it prints the template parameters it got too, we are not :) best test it and please report back your result. thanks :) –  Johannes Schaub - litb Mar 1 '09 at 22:25
I like your DEF_TYPE; it's never occured to me that one can avoid excessive macro #include trickery with the help of templates. –  Lightness Races in Orbit Dec 6 '12 at 10:21

The really easy solution: Just pass a string object to the constructor of SomeClass that says what the type is.


#define TO_STRING(type) #type
SomeClass<int> s(TO_STRING(int));

Simply store it and display it in the implementation of GetClassName.

Slightly more complicated solution, but still pretty easy:

#define DEC_SOMECLASS(T, name) SomeClass<T> name;  name.sType = #T; 

template< typename T >
struct SomeClass
    const char* GetClassName() const { return sType.c_str(); }
    std::string sType;

int main(int argc, char **argv)
    DEC_SOMECLASS(int, s);
    const char *p = s.GetClassName();

    return 0;

Template non type solution:

You could also make your own type ids and have a function to convert to and from the ID and the string representation.

Then you can pass the ID when you declare the type as a template non-type parameter:

template< typename T, int TYPEID>
struct SomeClass
    const char* GetClassName() const { return GetTypeIDString(TYPEID); }


SomeClass<std::string, STRING_ID> s1;
SomeClass<int, INT_ID> s2;
share|improve this answer
that's unfortunately not posible. you can't pass string literals to templates –  Johannes Schaub - litb Feb 27 '09 at 19:56
ya i figured that out i'm writing a new solution now :) –  Brian R. Bondy Feb 27 '09 at 19:58
ok posted corrected info –  Brian R. Bondy Feb 27 '09 at 20:15
DEC_SOMECLASS is actually a definition of an object :) –  dirkgently Feb 27 '09 at 20:27
ya it's short for declare an object of the SomeClass class. –  Brian R. Bondy Feb 27 '09 at 20:46

You can try something like this (warning this is just off the top of my head, so there may be compile errors, etc..)

template <typename T>
const char* GetTypeName()
    STATIC_ASSERT(0); // Not implemented for this type

#define STR(x) #x
#define GETTYPENAME(x) str(x) template <> const char* GetTypeName<x>() { return STR(x); }

// Add more as needed

template< typename T >
struct SomeClass
    const char* GetClassName() const { return GetTypeName<T>; }

This will work for any type that you add a GETTYPENAME(type) line for. It has the advantage that it works without modifying the types you are interested in, and will work with built-in and pointer types. It does have the distinct disadvantage that you must a line for every type you want to use.

Without using the built-in RTTI, you're going to have to add the information yourself somewhere, either Brian R. Bondy's answer or dirkgently's will work. Along with my answer, you have three different locations to add that information:

  1. At object creation time using SomeClass<int>("int")
  2. In the class using dirkgently's compile-time RTTI or virtual functions
  3. With the template using my solution.

All three will work, it's just a matter of where you'll end up with the least maintenance headaches in your situation.

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How does this work? I can't get it to work. In particular it'd be nice if someone can explain the #define GETTYPENAME(x) str(x) bit. str(x) is not STR(x). What is it? –  Steven Lu Aug 29 '13 at 2:15

By you don't have access to RTTI, does that mean you can't use typeid(T).name()? Because that's pretty much the only way to do it with the compiler's help.

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Pretty sure typeid only comes if RTTI is on, so no typeid. –  Rosco Feb 27 '09 at 19:23
Strictly speaking RTTI also includes dynamic_cast, and if this is MSVC being compiled with /GR, you still can use typeid, you just can't use it on a variable and expect the right result. You can go happy with a type though. –  MSN Feb 27 '09 at 19:36

Is it very important for the types to have unique names, or are the names going to be persisted somehow? If so, you should consider giving them something more robust than just the name of the class as declared in the code. You can give two classes the same unqualified name by putting them in different namespaces. You can also put two classes with the same name (including namespace qualification) in two different DLLs on Windows, so you need the identify of the DLL to be included in the name as well.

It all depends on what you're going to do with the strings, of course.

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You can add a little magic yourself. Something like:

#include <iostream>

#define str(x) #x
#define xstr(x) str(x)
#define make_pre(C) concat(C, <)
#define make_post(t) concat(t, >)

#define make_type(C, T) make_pre(C) ## make_post(T)
#define CTTI_REFLECTION(T, x)  static std::string my_typeid() \
                               { return xstr(make_type(T, x)); }

// the dark magic of Compile Time Type Information (TM)
#define CTTI_REFLECTION(x)  static const char * my_typeid() \
                                  { return xstr(make_type(T, x)); }

#define CREATE_TEMPLATE(class_name, type) template<> \
                                    struct class_name <type>{ \
                                        CTTI_REFLECTION(class_name, type) \

// dummy, we'll specialize from this later
template<typename T> struct test_reflection;

// create an actual class
CREATE_TEMPLATE(test_reflection, int)

struct test_reflection {

int main(int argc, char* argv[])
    std::cout << test_reflection<int>::my_typeid();

I'll make the inspector a static function (and hence non-const).

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No, sorry.

And RTTI won't even compile if you try to use it on int.

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typeid(int) does work. –  MSN Feb 27 '09 at 19:16
It didn't when I learned C++. <g> –  Joshua Feb 27 '09 at 21:19
one doesn'T know. as far as i know, there is no "hosted c++ implementation without RTTI" option available by the standard. so one has to guess or not say something at all about it :) –  Johannes Schaub - litb Feb 27 '09 at 21:25

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