@Mysticial: You are manipulating the data. By you link: "... defined in C99 were not included in the C++03 standard, but most mainstream compilers ..." means that at that moment subset C99 with all specific features was not supported by C++03 compiler. That all !! But it does not mean that C (C89) is not subset C++. C++ has just added few restrictions ... that all !! You told: "But it is not a subset as ...",- but it depends what you understand by C - K&R C, C89, C99, C11 ? In such way I can say that some BMW models is not a BWM models , because they have differrent looks ... ) — Денис Котов9 hours ago
^^ AHAHAHA
@Mysticial: And as you understood you are C programmer, are't you ? — Денис Котов9 hours ago
this post has apparently become an injoke to the point where AMD devs joke about adding "extra boolean units" http://www.neogaf.com/forum/showpost.php?p=69766971
@rightfold If you have two expressions let v1 = expr1 ; expr2 in OCaml, it's executed expr1 and then expr2, and then the result of expr2 is put into v1, right?
@rightfold Similar to JS, really- there's a string metatable with the functions on. I believe that it's the global table string, and there might be some funnies about being able to change it only from C or something
> The string library provides all its functions inside the table string. It also sets a metatable for strings where the __index field points to the string table. Therefore, you can use the string functions in object-oriented style. For instance, string.byte(s,i) can be written as s:byte(i).
had an interesting experience debugging mouse positions in VS - seems that when you break the program, they don't preserve the mouse position value as it was when the program was broken, so the mouse position changes when you start trying to interact with the debugger ;p
@ThePhD The one thing I've learned about code is that for every line you write, it's best to have 10 lines of debugging or test cases. I can't win, so that's why I don't like writing code Q.Q
@Aaron3468 I've found that to be totally unscalable - especially with researchy stuff that constantly gets written and rewritten. So I refer full-coverage integration tests rather than fine-grained unit tests.
@Mysticial That may be the best approach and often the one I use. For programs that are a few files, I usually let the compiler and one or two lines of skillfully placed print act as the integration tests
./include/reaver/vapor/analyzer/optimization_context.h:121:47: note: candidate function [with T = reaver::vapor::analyzer::_v1::expression] has been explicitly deleted
inline auto optimization_context::_get_futures<expression>()
^
YOU ARE POINTING AT THE DEFINITION THAT YOU ARE CLAIMING IS DELETED GODDAMMIT
@sehe He can hardly draw population inferences without sampling those people. As such, his study can only correlate behaviour to social media platforms :)
Also TIL that Boost.Multiprecision's cpp_int is horrendeously broken before 1.61.0 - I have a type that has a constructor taking that and foo(some_cpp_int + other_cpp_int) causes ambiguities with move and copy ctors apparently, because proxy objects?!
@Griwes Ok. Well. I've always found it reasonable. They're not hiding their abstraction (so not making it leaky). I'd hate to accidentally write code that misses all optimization because I happened to factor out a few helper functions that take cpp_int directly
The measure of presortedness is Par(X) = min { p | X is p-sorted } where the sequence X is p-sorted iff for all i, j ∈ {1, 2, ..., n}, i - j > p implies Xj <= Xi.
The naive way to compute Par(X) is O(n³) since p is bounded between 0 and n.