You realize you use very, very overloaded words (sometimes meaningless like "flexible") without defining them at all, a providing a useful frame of reference to compare anything?
@Ven What I mean is that an imperative language might've gotten in the way of the compiler being able to optimize order or caching vs. a functional one
what does "more flexible" mean? How do you define "functional"? How do you define "imperative"? Why would both of these conflict with each other? Why wouldn't order of operation matter in a "functional" language? Do you mean a language with referential transparency?
@fredoverflow "This is what I wanted in C++17. This was my prediction in early '15. And I'm going to get essentially nothing of this" - Bjarne Stroustrup (24:00)
@Ven Functional as in a language that emphesizes the use of functions to describe computation and avoids mutable state, and imperative as in a language that emphesizes the use of sequenced statements to describe steps of computation
I don't even use LinkedIn anymore ... Maybe only accept connection requests once per couple of months ... Last time I logged on was a few days ago after they locked my account because security breach on their end ...
@LucDanton Here is why I asked about covariance and type erasure. For fun, I'm trying to implement a stack-allocated immutable string that uses a 2^N resize strategy, which seamlessly falls back to a reference-counted, type-erased string when run-time computations must be used. It's mostly a rough sketch right now. I'm unsure about its performance potential
@VermillionAz What about std::forward? 2N doesn't scale. I don't want to have more than 31 class template instantiations. std::vector uses a similar resize strategy to achieve amortized O(1) push_back
@VermillionAzure you mean forward_t? I probably could there, you are right
I actually googled 'neusiesme' to make sure it was a real word and since there were hits I assumed it was. That tells us something about OCR now, doesn’t it?
@LucDanton That's true. I can think of a few ways to improve this, but all of them either involve additional template instantiations, or an impossibly large stack frame. Unrolling it with if doesn't have those issues. Thoughts?
I actually googled 'neusiesme' to make sure it was a real word and since there were hits I assumed it was. That tells us something about OCR now, doesn’t it?
@R.MartinhoFernandes I’m sceptical right now because of that
@BarrettAdair I tend not to worry about such things as long as they are not backed by numbers. Which is not to say I’m not careful either, but the care I take is to factor things out and rely on known behaviours, which is where I put indices. Cheap building indices is one of those things I assume and take for granted.
That's C++ metaprogramming for ya. I'm definitely an amateur, though.
1. I want the strings to work for any integral type 2. I want them to leverage constexpr when possible 3. I want a seamless transition from constexpr to dynamic/resizable. This requires covariance, hence the type erasure 4. I want them to be immutable 5. I want covariance
@BarrettAdair the naive, recursive approach is typically linear whereas the whole point of indices complexity-wise is to reduce that to logarithmic though
Other way around. The dynamic string is type erased, and holds a shared_ptr<void> to the std::array-based string. It sucks up the array-based string's member functions into its own "vtable" on construction and resize/reassignment. Pretty crazy (Note: I haven't focused on the constexpr-ness of the strings, but it's around the corner.)
Starting at line 36 is the dynamic one, which feeds off of the std::array-based ones, cycling through their function pointers depending on whichever one is held by the smart_ptr<void>
Imagine a .append() method. if the result of the append is too large for the currently held type, it will "resize", which means it drops its currently held type and gets a different one. Of course, that's done immutably, so it would end up in a new instance. Maybe it will make more sense after there is more implementation.
@BarrettAdair If I'm not mistaken, the compiler should be able to optimize out at least the member function vtable and then the type erasure shouldn't be so bad?
@VermillionAzure You'll get it, just keep reading StackOverflow. Polymorphism is wayyyy more important than templates and metaprogramming. Get that down first
It's lel because that statement is demonstrably wrong, but it's also lel because lol, templates are generally used to implement... wait for it... polymorphism!
@Griwes by "polymorphism" I mean inheritance polymorphism. I realize that templates offer parametric polymorphism etc, but from a practical point of view I don't think it's a stretch to say that virtual functions are more useful than template metaprogramming. And I say this as someone who loves templates.
I don't remember when was the last time where I used inheritance where I didn't really mean "I actually need concept polymorphism, but that's too troublesome in C++".
I believe that if dynamic concepts make it into the standard, pure abstract base classes will be obsolete. But at least in my experience, industry code is filled with inheritance hierarchies (sadly). "Useful" in the sense of "you have to deal with this in real world codebases".
