@Cinch Used to be. Having successfully defended his dissertation, I think he's pretty much done with that (unless he decides to do some post-doc work, get another doctorate, etc.)
@JerryCoffin Idk I've been reading the opposition to both STL and Boost on the Game Dev SE and SO and the verdict seems to be that the endgame defaults to something similar to Boost
as in, Boost and the C++ Standard Library begins to become THE answer the farther you go
@Cinch It probably defaults to Boost, yes. If you want something else, you need to produce something with advantages over Boost's that you can clearly and directly explain (though that certainly can be done--for example, I think Eric Neibler's ranges library stands a much better chance of adoption than Boost ranges).
I'm just wondering whether there should be a stronger "canon" for C++ as it is now
Boost already is a sort of proxy standard library for C++ and it seems only right to raise awareness about Boost as a reliable and productive library
I'm not sure but as a beginner, I'm sort of floating in space, not knowing what to dive into and really use once I come across a problem; the process could be greatly accelerated if the community had a stronger opinion of "what people should know" or "what people might use"
C++ is my only programming language so far and I've read some of the recommended C++ books but I would like to learn more about design patterns, what should I check out first for that subject? I'm considering to start either by Alexandrescu's Modern C++ Design or GoF's Design Patterns. Does anyone recommend one of those, or something else entirely?
@ThePhD I think the emphasis (so far) has been on ease of use--but probably at the expense of being on the more difficult (or at least verbose) side in implementation.
@Rapptz Did you mean writing/defining new ranges? First thing that sprung to mind was creating instances of types that are models of a range concept. Which doesn’t seem right on second thought lol.
template< class InputIt, class T >
InputIt find( InputIt first, InputIt last, const T& value );
// becomes
template< class InputIt1, class InputIt2, class T>
InputIt find( InputIt1 first, InputIt2 last, const T& value );
It would be interesting if they are not as easy to use for cases where iterators are already easy to use.
user3010322
@Rapptz That's the one reason iterators don't compose and stack well: end not being some end_iterator_t means you need to bake "finished" information into your iterators, which almost always bloats implementation ridiculously.
@LucDanton Right--I'm pretty sure he doesn't (for example) depend on inheritance, so you're obliged to inherit from range_facade and such--that's just an implementation artifact.
The range_facade takes care of a lot of boilerplate though.
I don't see how it's any better than iterators as-is.
user3010322
Most of the algorithms don't actually care about being convertible to the value type for the end iterator, though: just the bit you begin iterator that gets worked on. There's a number of algorithms where just "loosening" the type requirement would have huuuuuuge gains.