Since you can take integral values as template parameters and perform arithmetic on them, what's the motivation behind boost::mpl::int_<> and other integral constants? Does this motivation still apply in C++11?
You can take integral values as template parameters, but you cannot take both types and non-type template parameters with a single template. Long story short, treating non-type template parameters as types allows for them to be used with a myriad of things within MPL.
For instance, consider a metafunction
This motivation does still apply in C++11.
This motivation will still apply to C++y and any other version, unless we have some new rule that allows conversion from non-type template parameters to type template parameters. For instance, whenever you use
tldr; Encoding a value as a type allows it to be used in far more places than a simple value. You can overload on types, you can't overload on values.
K-Ballo's answer is great.
There's something else I think is relevant though. The integral constant types aren't only useful as template parameters, they can be useful as function arguments and function return types (using the C++11 types in my examples, but the same argument applies to the Boost ones that predate them):
This function takes a function pointer and returns a type telling you the number of arguments the function takes. Before we had
You could try doing something similar by making the boolean a template parameter:
but it's not possible to partially specialize a function template, so you couldn't make
Another place where the constants are useful is for implementing traits using SFINAE. In C++03 the conventional approach was to have overloaded functions that return two types with different sizes (e.g an
As a standard library implementor I make very frequent use of