static constexpr variable vs function
Question
Is there a difference between declaring floating point constant as a static constexpr variable and a function as in example below, or is it just a matter of style?
class MY_PI
{
public:
static constexpr float MY_PI_VAR = 3.14f;
static constexpr float MY_PI_FUN() { return 3.14f; }
}
1 answers
solution1
54 ACCPTED 2013-04-30 09:12:35
constexpr functions
Functions have an advantage that free variables do not have (until C++14 that is): they can easily be templated without some class boilerplate. That means you can have your pi with a precision depending on a template argument:
template<typename T>
constexpr T pi();
template<>
constexpr float pi() { return 3.14f; }
template<>
constexpr double pi() { return 3.1415; }
int main()
{
constexpr float a = pi<float>();
constexpr double b = pi<double>();
}
However, if you decide to use a static member function instead of a free function, it won't be shorter nor easier to write than a static member variable.
constexpr variables
The main advantage of using a variable is that... well. You want a constant, right? It clarifies the intent and that may be one of the most important points here.
You could still have an equivalent behaviour with a class, but then, you would have to use it like this if your class is a class containing miscellaneous mathematics constants:
constexpr float a = constants<float>::pi;
Or like this if your class is only meant to represent pi :
constexpr double = pi<double>::value;
In the first case, you may prefer to use variables since it will be shorter to write and that will really show that you are using a constant and not trying to compute something. If you just have a class representing pi, you could however go with a free constexpr function instead of a whole class. It would IMHO be simpler.
C++14: constexpr variable templates
However, note that if you choose to use C++14 instead of C++11, you will be able to write the following kind of constexpr variable templates:
template<typename T>
constexpr T pi = T(3.1415);
That will allow you to write your code like this:
constexpr float a = pi<float>;
Starting from C++14, this may be the preferred way to do things. If you are using an older version of the standard, the first two paragraphs still hold.
The technical post webpages of this site follow the CC BY-SA 4.0 protocol. If you need to reprint, please indicate the site URL or the original address.Any question please contact:yoyou2525@163.com.