@Jefffrey Actually, it is fairly popular. Modern C++ Design had one, and Boost Flatmap provides roughly the same. Best used for situations where you insert everything, then only after they're all inserted, you do searches.
@Puppy Well, there was that talk about Chandler ranting on std::map and std::unordered_map. In that talk he also talks on how cache locality is important, and arrays should be preffered. That's what I was referring to.
@Jefffrey Meh, it's just a slightly different interface with slightly different performance characteristics. It's not especially interesting or critical, and you could get much the same effect by simply providing a proper allocator.
@Jefffrey I have, however, in the past pointed to a hybrid structure with amortized O(log n) operations. Use a sorted array, and an un-sorted chunk you limit to ~log N elements. When you add elements, you just add them to the un-sorted chunk. When you need to search, you do a binary (or interpolating) search in the sorted part, and a linear search in the un-sorted part. When the unsorted part gets full, you sort it and merge it into the rest of the sorted part.
@JerryCoffin Well, it doesn't have 8 children. It has up to 8 items and 0 children, and then after you insert a 9th item, then it has 8 children and only the items that don't fit in any of the children.
Is n + log(n) part of the O(n) set? The question basically boils down to, is there a constant k for which kn is an upper bound from (possibly from some point of the function on)?
Is n + log(n) part of the O(n) set? The question basically boils down to, is there a constant k for which kn is an upper bound from (possibly from some point of the function on)?
@milleniumbug Oh, that's true. I interpreted what you said to mean you don't have to find x_0 AND M - you just needed to give one. I agree you only need one pair (M, x_0).
@Jefffrey Not... really. It's pretty clear that inserting into a vector of a constant number of items will take constant time, so nobody really cares. 0 is not special in this regard.
@wilx It's mostly OK, not obviously terrible. Just don't watch the part after the final battle and mentally insert "AND THEY ALL LIVED HAPPILY EVER AFTER" instead.
@Jefffrey Most of us do. I prefer to have gorgeous young women against me though. Of course, when I say "against me", I'm thinking in a little more...physical fashion.
Hm, assuming I identify all code points representing combining marks/things...are they always unambiguously attached to one preceding code point, or how does it work?
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@AlexM. Yeah the OCW is pretty nice. I think curating the content and making it available in a complete way takes a decent amount of effort though, which is why more unis don't do it.
I think with Khan academy and all the educational content available online, the value proposition of universities has kind of changed. Now if only people could address the degree problem
I can't think of any tree where you insert at the end unless you're actually trying to build something like a complete Nary tree and you don't care about order
@AlexM. The usual implementation of binary search trees is that you have left node <= that the parent and the right node is > than the parent. And you always add at the leaves
So cache locality is only really useful when the caching algothm loads a block of memory and you access sequential data right next to each other and so it happens to be in the same block it was loaded before.
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