|
You are here |
playfulprogramming.blogspot.com | ||
| | | | |
www.think-cell.com
|
|
| | | | | [AI summary] The blog post discusses techniques for implementing compile-time size calculations for range adaptors in C++ using think-cell's library, focusing on forwarding size properties and avoiding code duplication. | |
| | | | |
nelari.us
|
|
| | | | | A small look at some useful template techniques, in the context of trying to bind functions to a virtual machine. I wrote this post mostly for myself so that these techniques would be listed all in one place. | |
| | | | |
www.foonathan.net
|
|
| | | | | In my previous blog post, weve discussed the static constexpr std::integral_constant idiom to specify the size of a range at compile-time. Unlike the standard, our (think-cells) ranges library at think-cell already supports compile-time sizes natively, so I was eager to try the idiom there and see how it works out in practice. namespace tc { template constexpr auto size(Rng&& rng); // runtime-size of a range, like std::ranges::size template requires tc::has_constexpr_size constexpr auto constexpr_size = ... | |
| | | | |
studiofreya.org
|
|
| | | [AI summary] A C++11 variadic template example demonstrating perfect forwarding to wrap constructor calls for a structure. | ||