@AndrasDeak--СлаваУкраїні Eh, I disagree with that... It's a lot less time consuming to handle the flag queue on Meta than it is to read full chat transcripts.
@cigien Seems to me that pedagogy would be a mistake? Start off with understanding the low-level basics, and then graduate to the pre-packaged algorithms that you'd use in professional code. You need to have at least a vague idea of what the nice algorithm functions are doing under the covers, though.
Huh. I just noticed that deleting one of my own posts counts as one of my daily delete vote quota. Has that always been the case, or is it a new feature?
@AdrianMole It could be phrased more clearly I guess, but the first sentence discloses affiliation. They're definitely affiliated (the link is in their profile as well).
"I'm about to propose a framework..." looks like they're saying it's their framework. If you feel that isn't disclosure, then the answer is technically spam.
There's also a "... but we don't have support for that ..." in the answer text, which indicates that they're affiliated. But yeah, if you feel the disclosure isn't clear enough, then it's spam.
Hmm. Definitely dodgy but maybe answer was accepted before the answerer closed as a dupe, in which case they could then no longer delete the answer (as they may have wanted to).
@CodyGray It depends on the target audience, and what one is trying to teach, but I don't see that it's a mistake necessarily. Teaching the abstraction that's appropriate makes a lot of sense to me. and always starting off understanding the low-level basics isn't necessarily the best approach.
e.g. if you want a collection of things in C++, you learn to use a std::vector. Sure, under the hood it's all new and delete with raw pointers, but I don't see the benefit to learning that before vector. There's plenty of other examples I'm sure you can think off.
I suspect, at least with regards to C++, that because many of the abstractions are relatively new in the language, there's a feeling that the more "fundamental", "low-level" stuff, aka doing things manually, is somehow more important to know than the higher level abstractions.
There was certainly that attitude with range-for loops; people said "oh, it's important to know the low level mechanism of using iterators to iterate over the range", but fortunately that has gone away to some extent. In languages that had higher level abstractions from the beginning, this happens a lot less. Nobody bats an eye if the first loop that's taught in Python is a range-for (for e in v:) loop.
There are also downsides to teaching the "low-level" approach first: people get comfortable with using it, and then keep using it. I'm sure you've seen production code where people literally write a loop when all they want to do is count elements. Sure, they might find it easier to read and write because that's how they learned it, but I don't see why that's what should necessarily be taught first to people starting to learn the language.