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C++11/14 strings for direct use in template parameter lists, template metaprogramming.

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Strings as defined as C++ types in situ, for use in template parameter lists.

What this is all about

Template metaprogramming is for those who enjoy using a pure, non-strict, functional programming language, with pattern matching within C++. If there is anything truly worth in the language that's the completely serendipitous emergence of this important idiom to the point of it being a core practice for lots of really useful and advanced code. One thing that is currently missing is having the opportunity to seamlessly define strings as types in situ within a template parameter list as a language feature.

I have been using various personal implementations in my own code for this, though I think that it is such a fundamental construct it should also exist in stand-alone mode. This is a fast compile-time wise, single-header, no-dependencies, standard-compliant C++ library offering a seamless way to enjoy compile time strings defined in situ, as individual, distinct types.

 typedef typestring_is("Hello!") test; /* irqus::typestring<'H','e','l','l','o','!'> */

An example of use for understanding the meaning of in-situ:

#include "typestring.hh"
#include <type_traits>
#include <iostream>
int main() {
    // notice that there is no const value, you need to define, constexpr,
    // static etc because it *just works*
    std::cout << std::boolalpha
              << std::is_same< typestring_is("C++")
                             , irqus::typestring<'C','+','+'> >::value
              << std::endl;
    return {};
}

Applications of such a feature would be in the field of template metaprogramming generating code for parsers, type-safe printf, compile-time DSL embedding. Lots of other things I could discuss in proper time, but it is a strictly template metaprogramming oriented functionality.

The library is just a few lines but it includes extensive documentation as to its internal mechanics. Function template instantiations with multiple parameter packs are used together with a hexadecimal integer sequence through the preprocessor for accessing any string defined in situ. The hexadecimal arithmetic progression is generated extremely fast because concatenation is wired in such a way as to work like multiplication. The reason of such internals is because we want to be able to use string literals in situ, as type parameter types without defining them externally to the template parameter list.

If you don't realize what this is for, by now, then it is probably not meant for you. At some point, perhaps the language does get some decent language features doing such stuff in one go; the way this works is actually much faster than expected given the few lines of implementation in typestring.hh. You cannot implement in-situ literal use in C++14 either through polymorphic lambdas, without resorting to defining the values involved out of the template parameter list when using the final construct. The reason is that they are not constexpr yet (though they will eventually be for such a use). And if you do use any form of such externally to the parameter list during instantiation values, you are really not doing the same thing. Remember ... linkage and unevaluated operands will bite you! But not typestring_is literals.

Usage

You only need to include the file typestring.hh in your code, after which, you will be able to use typestring_is easily for any kind of char encoded string you fancy, including ASCII art. The default maximum length of the strings allowed is 64, but you can use any power of 2 within 0 (1) to 10 (1024) by enabling -DUSE_TYPESTRING=<power of 2> prior to compilation. The actual procedure behind creating these compile-time strings as types for a template parameter list allows for far greater numbers, but you will just segfault your compiler, regardless of what instantiation depth you specify.

A few things to remember

  • Will work with standard C++11, C++14 and above as it is, no dependencies involved at all.
  • Completely independent of compile-time constexpr metaprogramming string literals; you have individual strings as individual types to use as type parameters for use in type-driven code generation, not playing with values.
  • Has been tested with clang++ and g++, use as recent versions as possible for C++11/C++14 compliance.
  • A few handy member functions have been added in typestring should you need to play with it outside its intended use.
  • Code could be made to do far more, but the fundamental construct is what matters, I have another project for such things.
  • Always remember to have fun first and foremost.
  • License is Mozilla Public Licence 2.0 because it suits all metaprogramming best.

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C++11/14 strings for direct use in template parameter lists, template metaprogramming.

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