Just finished day 2 of a 16-hour Andrei Alexandrescu course on "Modern C++1x Design". The guy really loves to abuse templates and macros in very interesting ways.
He implemented a thread-safe container with transactional semantics using a combination of reader/writer locks, variadic templates, and variadic macros.
I don't know who's pulling the strings, but it looks like there's "significant desire" to get him to come back for a single day 9-hour session on performance.
The cool part is that he offered to get me a beer when I was the only one in the audience to be come even remotely to being able to answer this question:
Hey guys, just a random thought - how did you guys learn dynamic programming? As in, what approach do you guys have in solving a DP problem in a given amount of time(like an interview)
I can do them, but it takes me a while to come up with the correct way to implement it. Meanwhile, some people can realize the solution within 3-4 minutes.
@OneRaynyDay I had to look up dynamic programming. It sounds like its a thing until you realize that it means to break down complex problems into less complex sub-problems. That is the arguably the essence of programming. I will never understand why this has a name. I cannot imagine anything that is not dynamic programming.
@nwp Yeah, you're right in the sense that breaking complex problems into less complicated subproblems is just programming, but
imho, I think it's more like the fact that the subproblems answers would not be changed as your subproblems are "surrounded" by bigger more complicated problems
therefore I can't take it next quarter, even though I really want to learn algorithms, so I'm trying to learn it by scavenging whatever I can find online.
@EtiennedeMartel Yeah pretty much from what I've read
A lot of times it's like taking a matrix of possible states, but some other times it's not necessarily like that
@nwp Dynamic programming is much more specific than that. It's not just breaking the problem down into sub-problems, but of defining those sub-problems so they can be memoized and composed. Consider a (nearly) textbook example.
@JerryCoffin I see, but as you can see the top commenter
just was able to "do" it. His explanation was totally understandable and concise
but what was his thought process in constructing that matrix?
For a simple dp problem like this I could probably figure it out after writing on a notebook for a while, but for more complex problems like speeding up TSP is much harder to think of the solution(that one took me almost 2-3 days)
@OneRaynyDay To the best of my recollection, Vaughn is a sharp enough guy that his being able to just "do" it doesn't really indicate a lot. I'd guess he recognized this as a classic example of DP, and just implemented it based on already having a pretty solid idea of the, or at least one, right approach (just about like I did).
how in the hell... the file doesnt even exist =/ Most questions about this error are like "lol it sstill running just kill it"... well i cant run an exe that doesnt exist now can i
@ThePhD No dropbox, and I dont know why I wouldnt have permissions, I did last time I opened that damn solution... its my scratch solution whenever i wanna hash something out.
which shows how the existance of a machine that solves the halting problem would incur in a paradox
But I have a doubt
Isn't that like saying that you can't determine whether a statement is true or false just because if you would, then if you take "this statement is false" you can't determine if it's true or false?
@Shoe This isn't about saying whether a statement is false, but a way of determining whether any possible statement is true or false. And yes, statements like "this statement is false" make that impossible.
@ThePhD I'm seriously considering switching, I've also found out it does some shady shit inside ntdll.dll and its causing my apps to crash unless I put them in the exclusion list.
@Shoe Exactly. It's trivial for a huge number of programs. You run them, and they halt, so you've proven that they halt. But if you run them for a while, and they haven't halted, it's essentially impossible to determine whether they never halt, or just haven't halted yet. In theory, I could run it indefinitely, and store each machine state as its entered, then check that state against all previous ones to determine whether it's entered a loop.
In reality, that's completely impractical though, because 1) it uses too much storage, and 2) it causes a massive slow-down, and 3) "indefinitely" is obviously a long time. Even using a few hundred bits, and programming it to count from 0 to N, it runs longer than the age of the universe before it finally overflows and repeats.
@jaggedSpire Unfortunately, it's grossly inaccurate. Printers most assuredly do not smell fear--that's clearly impossible. They only smell the hormones that are produced by the human body in reaction to the experience of fear.
char g_szPublicIP[16] = "0";
char g_szInternalIP[16] = "0";
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{
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{
return false;
}
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{
struct sockaddr_in...