@imaibou I couldn't agree more... :( and whole build process of those Adafruit libs is kind a huge mess... lots of magic defines and variables to set... And structure changes on almost each of the new version... Not mentioning some legacy C parts... :/ ghhh
@BenBeri aaah... there is something like that in my university. I've almost chosen those studies, but... xD at least here --- a little bit programming, a little bit physics, some algorythms theory and a bit more Numeric Methods :}
but again... I'm not sure how much does this applies to other universities...
remember helping to write some of my friends some astronomic trajectories simulation in C++ :}
@mistgeek you should learn things that help you achieve your goals. If your goal is to create, say, Windows GUI applications, C# is a much better choice
Let me give a small and sweet exampl! I want to make programs like Notepads (more better of course) and other utilities like the one that shows the battery percentages and the network traffics etc ?
@BenBeri I guess it's NDFA (Nondeterministic Finite Automaton, because it does have couple of different end states and could stuck on the loop. But need some more info for that :} Moore Machine probably...
> Remember that people have been doing object-oriented programming since at least the days of Simula in the late 1960s. But OO didn’t become a revolution, and dominant in the mainstream, until the 1990s. Why then? The reason the revolution happened was primarily that our industry was driven by requirements to write larger and larger systems that solved larger and larger problems and exploited the greater and greater CPU and storage resources that were becoming available.
> OOP’s strengths in abstraction and dependency management made it a necessity for achieving large-scale software development that is economical, reliable, and repeatable.
cc @PeterVaro this is a great quote (but yeah read the whole thing :) )
@BartekBanachewicz and this is on paper xP actually.. enjoyed this branch of Math a lot. All those lambda calculus, Hilbert calculus, Sequence calculus started to make sense while having in mind basic concepts of CPU.
btw, someone is on his good mood today xD (Bartek)
@Kamiccolo Sorry about the late rseponse - figured out how to grab localhost address through arpa/inet.h and sending a string to the inetaddr() function
Herb states that "languages that are used for heavy optimizations" will gain new life, and at the same time states what I quoted above.
e.g. I think that C makes it exceptionally hard to write concurrent programs in because of its very low-level nature specifically
by comparison, pure FP is way easier at that.
Scaling the CPUs to hundreds of cores could suggest that heavily-parallelized operations could and will run faster, even if they are wasteful in the single-core operations.
actually.. writing anything in the lower-levels needs more boiler-plate so to speak, while in a very high level language it could be a single line actually
and this is also true to multi-processing as well
as any other task needs to be implemented..
so this is not a new thing at all -- this subject/topic is not an exception
a more illustrative example would be a library implementing a function. If such a library, written in C, runs in one second on one core, but a high-level language, when run on four cores runs in 0.5s, it might be better to use the "slower" version
@BartekBanachewicz can You stand for their authority of configuring NGinx? xD And there is plenty of fixes since 1.4.0. Some of them directly related to performance.