Suppose I have a template function and two classes

class animal {
class person {

template<class T>
void foo() {
  if (T is animal) {

How do I do the check for T is animal? I don't want to have something that checks during the run time. Thanks


6 Answers 6


Use is_same:

#include <type_traits>

template <typename T>
void foo()
    if (std::is_same<T, animal>::value) { /* ... */ }  // optimizable...

Usually, that's a totally unworkable design, though, and you really want to specialize:

template <typename T> void foo() { /* generic implementation  */ }

template <> void foo<animal>()   { /* specific for T = animal */ }

Note also that it's unusual to have function templates with explicit (non-deduced) arguments. It's not unheard of, but often there are better approaches.

  • 2
    TThanks! Actually they share A LOT of code so I can not really duplicate it Nov 29, 2012 at 23:27
  • 6
    @WhatABeautifulWorld: You can always factor your code so that the type-dependent part can be relegated to a specializable function...
    – Kerrek SB
    Nov 29, 2012 at 23:27
  • 3
    One quick follow-up, if I do use std::is_same, then it will NOT slow down the code for other template parameters, right? Nov 30, 2012 at 17:04
  • 1
    @WhatABeautifulWorld: The trait values are all statically known. There shouldn't be any runtime cost, provided your compiler is half-decent. Check the assembly if in doubt, though.
    – Kerrek SB
    Nov 30, 2012 at 21:43
  • 2
    @AdriC.S.: Since T isn't deduced, there's not much you can do. You could leave the primary template unimplemented and create a specialization, or you could add a static assertion with is_same.
    – Kerrek SB
    Oct 8, 2014 at 15:20

I think todays, it is better to use, but this only works with C++17 or later.

#include <type_traits>

template <typename T>
void foo() {
    if constexpr (std::is_same_v<T, animal>) {
        // use type specific operations... 

If you use some type specific operations in if expression body without constexpr, this code will not compile.

  • could you elaborate on why this is better? is it performance or platform related?
    – serup
    Nov 26, 2021 at 16:18
  • Actually works. Ty! Jan 29, 2022 at 4:43
  • 2
    @serup it's better, because it is new, and old things are always worse. inline constexpr bool is_same_v = is_same<T, U>::value; I have no clue why they keep adding these pointless "helpers" which only confuse people instead of fixing their broken language.
    – user11877195
    Mar 6, 2022 at 9:26

std::is_same() is only available since C++11. For pre-C++11 you can use typeid():

template <typename T>
void foo()
    if (typeid(T) == typeid(animal)) { /* ... */ }

You can specialize your templates based on what's passed into their parameters like this:

template <> void foo<animal> {


Note that this creates an entirely new function based on the type that's passed as T. This is usually preferable as it reduces clutter and is essentially the reason we have templates in the first place.

  • 1
    Hmm. Is this method really the only preferable way to specialize template argument? Let's say I've 10 different child classes that I need to manage inside the template function. Do I really have to write 10 different template functions for respective class? I think I may be missing the core point here.
    – knoxgon
    Aug 7, 2017 at 7:18
  • This really sounds like a good idea though, if someone doesn't want to use type_traits. Like someone mentioned the main logic can be done in a different function, which accepts an extra flag to indicate the type, and this specialized declaration can just set the flag accordingly and directly pass on all the other arguments without touching anything. So if 10 different classes need to be handled, it is basically 10 lines for 10 different function definitions. But this will get a lot complicated if there are more than 1 template variable. May 3, 2019 at 17:55

In C++17, we can use variants.

To use std::variant, you need to include the header:

#include <variant>

After that, you may add std::variant in your code like this:

using Type = std::variant<Animal, Person>;

template <class T>
void foo(Type type) {
    if (std::is_same_v<type, Animal>) {
        // Do stuff...
    } else {
        // Do stuff...
  • 15
    How are T and Type connected?
    – mabraham
    Sep 18, 2018 at 22:14
  • 9
    This answer is problematic in several ways. Besides the actual errors (type which is the value of type Type or a template which does not make sense here) is_same_v is not meaningful in the context of variant. The corresponding "trait" is holds_alternative. May 3, 2019 at 20:41
  • std::variant is totally unnecessary here
    – tjysdsg
    Feb 9, 2020 at 9:34

use c++ concepts https://en.cppreference.com/w/cpp/language/constraints

for example class who recive only char types

#include <concepts>

 template<typename Type>
    concept CharTypes = std::is_same<Type, char>::value ||
                        std::is_same<Type, wchar_t>::value || std::is_same<Type, char8_t>::value ||
                        std::is_same<Type, char16_t>::value || std::is_same<Type, char32_t>::value;

template<CharTypes T>
    class Some{};

and yes, this not working

    Some<int> s;

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.