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SFINAE in C : Template Parameter vs. Return Type – What's the Difference?
SFINAE in C : Template Parameter vs. Return Type – What's the Difference?
SFINAE in Return Type vs Template Parameter: A Comparison
In C , the Substitution Failure Is Not An Error (SFINAE) idiom allows conditional compilation based on the availability of types. However, its behavior can vary when placed in different positions within a template.
SFINAE in Template Parameter
In the code below, SFINAE is used as a template parameter to enable or disable a particular template function overload.
template<typename T,
typename = typename std::enable_if<std::is_integral<T>::value>::type>
auto foo(T) -> void { /* ... */ }
template<typename T,
typename = typename std::enable_if<std::is_floating_point<T>::value>::type>
auto foo(T) -> void { /* ... */ }In this case, SFINAE is applied to the second template parameter, which is effectively a placeholder. The error occurs when attempting to call foo(3.4) because the second template function declaration with std::enable_if
SFINAE in Return Type
In contrast, the following code uses SFINAE in the return type:
template<typename T>
auto foo(T) -> typename std::enable_if<std::is_integral<T>::value>::type { /* ... */ }
template<typename T>
auto foo(T) -> typename std::enable_if<std::is_floating_point<T>::value>::type { /* ... */ }In this case, SFINAE is applied to the return type, which allows the compiler to differentiate between the two template functions based on the provided argument type.
Why the Difference?
The difference in behavior stems from the use of default template arguments. In the first example, the second template parameter is defaulted to typename std::enable_if
However, in the second example, the return type uses SFINAE within an expression, which is part of the function signature. This ensures that the template functions have different signatures and allows SFINAE to work as expected.
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