It is a Win7 copy I got from the MS Alliance 2 years ago. Now it has expired. I asked my IT dpeartment Thursday for a fresh install on a 30 GB partition. -"No not possible".
@MohammadAliBaydoun Just go through with it, and no failure is possible. Either she'll accept, or she won't; neither is a failure (except, perhaps, on her part).
TBH, I don't think the language matters much, (as long as she can understand it). After six years, if you want marriage, either she's in, or she's out and move on.
> Even if you’re new or returning to the game, Warlords empowers you to immediately upgrade one of your characters to level 90 and master new abilities at the gateway to Draenor, so that you can charge into grand combat right away.
I need to implement R+ tree. As I was not able to find out any R+ tree source code, is it possible to modify the existing R tree code or it is better implement the R+ tree from scratch ?
The compilers can be used from command line (or makefiles) just like any other compilers. The main things you need to take care of are the INCLUDE and LIB environment variables, and PATH. If you're running from cmd.exe, you can just run this .bat to set the environment:
C:\Program Files\Micros...
I suggest using BOOST_FOREACH, which is just a header BTW so you won't even have to build and link to boost.
#include <string>
#include <iostream>
#include <boost/fo...
did I fuck this answer up, I don't wanna give this guy bad code
@aaronman It looks like it works, but I think it's going to a lot of work to pass a container instead of a pair of iterators. IMO, until somebody can figure out a good range implementation, it's better to stick to iterators.
@JerryCoffin true, on the other hand BOOST_FOREACH while subtly better than mine is like 1000loc. Anyway if it was me I would just use a normal for loop
@aaronman Yeah -- I find BOOST_FOREACH a bit insane (to the point I've never used it). I think the algorithm I posted is a reasonable alternative to explicitly writing out a loop, if you're doing it more than a few times. In particular, it fits well enough with the other standard algorithms that anybody accustomed to them should be able to understand it immediately, without ever looking at its implementation.
@Borgleader I suspect at least a few others will be involved before all is said and done, but I do think it'll happen. It seems to me the challenge is more in deciding how things should work than in writing code to do that once you've decided what you want them to do.
@aaronman It undoubtedly is. Although it's probably not very practical, I've always though they should really develop two versions of the code in parallel: one for some ideal compiler that doesn't need any workarounds, and then the other for all the real compilers. This shouldn't just be Boost either--I'd like to see it in the standard library and such as well. Most of them are damned near unreadable, mostly for cases like if I decide to use a VC++2012 header with VC++4.1b.
I'm trying to fix an issue with my project. Basically it takes a string and divides it up into sub strings based on characters. Seems to start out great see here i.imgur.com/DUxRRdf.png then goes bad haha. Any ideas where my issue could be? Here is my code ideone.com/G9ofv5
@Borgleader I wish it would, but I doubt it. It's true that the compilers are much more similar, and much closer to conforming, but when I look through headers I see all sorts of cruft for features that everybody's supported for years. Just for example, nearly all of them still use macros for things like namespaces.
@Borgleader Somewhat. On the other hand, things are improving somewhat. Older code often had hundreds of lines of #ifdef XXX spread nearly everywhere. Now you typically see a much better job of defining system-dependent macros one place, and just using the macros everywhere else.
@MarkGarcia I once worked on a compiler for an internship (which a terrifying thought given I have no clue what I am doing) anyways, there was a #define that was called isfortran if it was set to true, the compiler would be a fortran compiler
@MarkGarcia Some of it almost has to. For one obvious example, most code in standard headers must use names like _[A-Z]..., for exactly the reason your code can't. Hurts readability at first, but you can at least get used to it if you try.
@JerryCoffin They should then support clang-format style=stdlib and the tool would magically obfuscate your code with standard library styles and elements. :P
@MarkGarcia I guess it wouldn't surprise me if they do something like that already. The other big point is that standard headers often get compiled a lot, so they often try to keep them as short as possible to reduce compilation time.
I think I'm gonna write an -O5 for clang where it posts the code to SO with the title "how can I make this faster" and waits for a response to get enough upvotes, then compiles with that
@Mysticial my sojourn in dealing with the SSD write cliff continues, things I learned 1) SSD at 50% capacity hits write cliff %25 sooner 2) Latest Intel drivers help 3) Trim doesn't help 3) By keeping write at about 40% of theoretical you never hit the cliff but this requires the latest drivers
That's one of the reasons why I prefer to use large HDs for swap drives even though I probably won't use even half of that until I retire it to be data drives.
High capacity = dense = more sequential speed
@Borgleader They deal with that via forward error-correction.
Same stuff that's used on CDs. Except not as heavy-duty since you won't be scratching a platter that easily.
Indeed, I only browse C++ questions on stack overflow. I have just made "gimmeh-teh-code" my favorite tag, and the orange is gone. Thank you! — FredOverflowDec 17 '10 at 19:08
lol, so that's where that favorite tag came from...
My Sandy Bridge is room temperature right now... back in its box. And I don't even know if it still works.
Back on the programming side: Although I haven't benchmarked it yet, I have a strong feeling that Haswell doesn't have enough registers for my FMA-optimized code to run well... :(
4-way loop unrolling was enough to keep a Sandy Bridge machine busy. But Haswell's Fused-Multiply Add is gonna require 8-way loop unrolling. But there aren't enough registers to do that... :(
I guess that's what Hyper Threading is for... /cc @nightcracker