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I want to get into more template meta-programming. I know that SFINAE stands for "substitution failure is not an error." But can someone show me a good use for SFINAE?

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This is a good question. I understand SFINAE pretty well, but I don't think I've ever had to use it (unless libraries are doing it without me knowing it). – Zifre Jun 11 '09 at 19:05
STL put it slightly differently in FAQs here, "Substitution Failure Is Not An Elephant" – vulcan raven May 6 at 21:40

6 Answers 6

up vote 41 down vote accepted

Heres one example (from here):

template<typename T>
class IsClassT {
    typedef char One;
    typedef struct { char a[2]; } Two;
    template<typename C> static One test(int C::*);
    // Will be chosen if T is anything except a class.
    template<typename C> static Two test(...);
    enum { Yes = sizeof(IsClassT<T>::test<T>(0)) == 1 };
    enum { No = !Yes };

When IsClassT<int>::Yes is evaluated, 0 cannot be converted to int int::* because int is not a class, so it can't have a member pointer. If SFINAE didn't exist, then you would get a compiler error, something like '0 cannot be converted to member pointer for non-class type int'. Instead, it just uses the ... form which returns Two, and thus evaluates to false, int is not a class type.

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What does ... mean in C++? – rlbond Jun 12 '09 at 0:59
@rlbond, i answered your question in the comments to this question here:… . In short: If both test functions are candidates and viable, then "..." has the worst conversion cost, and hence will never be taken, in favor of the other function. "..." is the ellipsis, var-arg thing: int printf(char const*, ...); – ᐅ Johannes Schaub - litb ᐊ Jun 12 '09 at 23:25
The link changed to… – tstenner Aug 25 '09 at 17:32
The weirder thing here IMO is not the ..., but rather the int C::*, which I'd never seen and had to go look up. Found the answer for what that is and what it might be used for here:… – HostileFork Jul 12 '12 at 6:01

I like using SFINAE to check boolean conditions.

template<int I> void div(char(*)[I % 2 == 0] = 0) {
    /* this is taken when I is even */

template<int I> void div(char(*)[I % 2 == 1] = 0) {
    /* this is taken when I is odd */

It can be quite useful. For example, i used it to check whether an initializer list collected using operator comma is no longer than a fixed size

template<int N>
struct Vector {
    template<int M> 
    Vector(MyInitList<M> const& i, char(*)[M <= N] = 0) { /* ... */ }

The list is only accepted when M is smaller than N, which means that the initializer list has not too many elements.

The syntax char(*)[C] means: Pointer to an array with element type char and size C. If C is false (0 here), then we get the invalid type char(*)[0], pointer to a zero sized array: SFINAE makes it so that the template will be ignored then.

Expressed with boost::enable_if, that looks like this

template<int N>
struct Vector {
    template<int M> 
    Vector(MyInitList<M> const& i, 
           typename enable_if_c<(M <= N)>::type* = 0) { /* ... */ }

In practice, i often find the ability to check conditions a useful ability.

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+1 quite explanatory. – Tom Jul 29 '09 at 17:54
+1, you are unbelievable, seems that you know everything, :-) – Alcott Aug 14 '12 at 8:25
@Johannes Weirdly enough, GCC (4.8) and Clang (3.2) accept to declare arrays of size 0 (so the type is not really "invalid"), yet it behaves properly on your code. There is probably special support for this case in the case of SFINAE vs. "regular" uses of types. – akim Feb 5 '13 at 9:07
@akim: if that is ever true (weird ?! since when ?) then maybe M <= N ? 1 : -1 could work instead. – v.oddou Jun 13 '14 at 10:43
@v.oddou Just try int foo[0]. I'm not surprised it's supported, as it allows the very useful "struct ending with a 0-length array" trick ( – akim Jun 14 '14 at 16:06

Boost's enable_if library offers a nice clean interface for using SFINAE. One of my favorite usage examples is in the Boost.Iterator library. SFINAE is used to enable iterator type conversions.

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In C++11 SFINAE tests have become much prettier. Here are a few examples of common uses:

Pick a function overload depending on traits

template<typename T>
std::enable_if_t<std::is_integral<T>::value> f(T t){
    //integral version
template<typename T>
std::enable_if_t<std::is_floating_point<T>::value> f(T t){
    //floating point version

Using a so called type sink idiom you can do pretty arbitrary tests on a type like checking if it has a member and if that member is of a certain type

//this goes in some header so you can use it everywhere
template<typename T>
struct TypeSink{
    using Type = void;
template<typename T>
using TypeSinkT = typename TypeSink<T>::Type;

//use case
template<typename T, typename=void>
struct HasBarOfTypeInt : std::false_type{};
template<typename T>
struct HasBarOfTypeInt<T, TypeSinkT<decltype(std::declval<T&>().*(&T::bar))>> :
    std::is_same<typename std::decay<decltype(std::declval<T&>().*(&T::bar))>::type,int>{};

struct S{
   int bar;
struct K{


template<typename T, typename = TypeSinkT<decltype(&T::bar)>>
void print(T){
    std::cout << "has bar" << std::endl;
void print(...){
    std::cout << "no bar" << std::endl;

int main(){
    std::cout << "bar is int: " << HasBarOfTypeInt<S>::value << std::endl;

Here is a live example: I also recently wrote a whole section on SFINAE and tag dispatch in my blog (shameless plug but relevant)

Note as of C++14 there is a std::void_t which is essentially the same as my TypeSink here.

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Your first block of code redefines the same template. – T.C. Sep 21 '14 at 5:43
Since there is no type for which is_integral and is_floating_point are both true it should be an either or because SFINAE will remove at least one. – PorkyBrain Oct 7 '14 at 17:53
You are redefining the same template with different default template arguments. Have you tried compiling it? – T.C. Oct 7 '14 at 17:56
Ah how stupid of me, thanks for pointing it out! Just fixed it. – PorkyBrain Oct 7 '14 at 18:14

Here's another (late) SFINAE example, based on Greg Rogers's answer:

template<typename T>
class IsClassT {
    template<typename C> static bool test(int C::*) {return true;}
    template<typename C> static bool test(...) {return false;}
    static bool value;

template<typename T>
bool IsClassT<T>::value=IsClassT<T>::test<T>(0);

In this way, you can check the value's value to see whether T is a class or not:

int main(void) {
    std::cout << IsClassT<std::string>::value << std::endl; // true
    std::cout << IsClassT<int>::value << std::endl;         // false
    return 0;
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C++17 will probably provide a generic means to query for features. See N4502 for details, but as a self-contained example consider the following.

This part is the constant part, put it in a header.

// See
template <typename...>
using void_t = void;

// Primary template handles all types not supporting the operation.
template <typename, template <typename> class, typename = void_t<>>
struct detect : std::false_type {};

// Specialization recognizes/validates only types supporting the archetype.
template <typename T, template <typename> class Op>
struct detect<T, Op, void_t<Op<T>>> : std::true_type {};

The following example, taken from N4502, shows the usage:

// Archetypal expression for assignment operation.
template <typename T>
using assign_t = decltype(std::declval<T&>() = std::declval<T const &>())

// Trait corresponding to that archetype.
template <typename T>
using is_assignable = detect<T, assign_t>;

Compared to the other implementations, this one is fairly simple: a reduced set of tools (void_t and detect) suffices. Besides, it was reported (see N4502) that it is measurably more efficient (compile-time and compiler memory consumption) than previous approaches.

Here is a live example, which includes portability tweaks for GCC pre 5.1.

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protected by Marco A. Jun 16 at 16:52

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