@Ell Note that it doesn't go to any pain to handle all corner cases properly (e.g., for a maximally negative number on a 2's complement system). Floating point has different corner cases to deal with, so it didn't seem like that would add much (if anything).
@Mikhail They bought (most of) Westinghouse Electric (which built nuclear reactors) in 2006.
This answer is incorrect. CMake does honor the CC and CXX environment variables. The only caveat is that you must set them before running CMake, not before running make inside the generated build directory. Also, CMake caches the values of these variables, so once the build directory is created, you may need to remove the directory and re-generate it if you change compilers. — cmccabeApr 14 '15 at 22:38
ARM failed because the chips couldn't achieve parity, and the target workload, high latency, low power consumption, low throughput doesn't exist.
What I would be keenly interested in is to understand if the ARM instruction set is for any reason more energy efficient than the x86 instruction set. Not comparing specific chips or implementations. People be saying ARM is more energy efficient, but I really don't know why.
Incompatibility with x86 is probably going to be the biggest reason for not getting into the PC market. Because people aren't going to rewrite/recompile their shit.
As somebody whose work was sponsored by Intel (for 3 months), its really hard to say. The manufacturing process are so different we can't really compare the supposed "nm" sizes. A more reasonable question concerns power consumption or performance.
At the heart of the problem is that AMD (or anybody) won't embrace wacky form factors. Why are GPU's faster? Because they are fucking massive. Why can't we have massive CPUs? IDK...
If Intel releases a chip that is 2x1 the size of a current chip and a socket that is literally 2x wider, it will run faster. Maybe even 2x faster! I suspect that once Intel get some real competition they will do exactly this (look at the Phi socket).
From what I understand, AMD is in the niche of cheaper brute-force processors. Their gpus for example are much cheaper for equivalent performance, but you're going to need much better cooling and power than an Nvidia. It seems the same way in their competition with Intel, but I haven't researched cpus enough to draw that conclusion
Yes. GPUs resemble the barrel processors of old. They will time out and move to the next execution group while memory is being loaded.
Intel tried to make the MIC, which also removes those two things. And then failed to achieve performance parity. Not to mention the need to port all your code.
Fun Fact: the lack luster performance of MIC provides a cover-up for one of the most egregious leaks of US technology to China.
@Mikhail Largely much greater bandwidth to memory. A high end CPU (e.g., a Broadwell-E) has an aggregate bandwidth around 60 GB/s. A high end GPU has over 300 GB/s memory bandwidth. When you're doing a little processing on a lot of items, the bottleneck is often just getting the data into and back out of the processor.
Yeah, mine is like 700 GB/s. But I can't tell if the high bandwidth is because its easier to use texture memory compared to optimizing x86 (which I don't know how to do).
@JerryCoffin Oh humbug, an OS doesn't need memory management! Look at MS's Singularity project, everything is done with compile time contracts/code validation :-)
(Integrating the system and the language was powerful, but meant that the Singularity team had to maintain an advanced compiler—making it much harder for others within and outside of Microsoft to use and build on the Singularity system. This is a common and often-unremarked problem with integrated approaches.)
@Ell Make a note of the the dot position from the right (i.e. count how many digits to the right of it), call it n, remove the dot, and then just do a traditional str2int conversion and divide by 10^n.
@R.MartinhoFernandes Parsing and building double from string seems to be a rather hard problem, if I should judge from the source of newlib: sourceware.org/git/…
Just wondering, is there a library that facilitates me to build a custom styled GUI? Not sure if that came out right, I mean I know there are libraries like QT, FLTK, etc but I mean something that lets me really customize the look and feel of it?
@ratchetfreak really? I looked around for images but most looked like a default theme thing best I found was some css styling like thing which doesn't really seem to let u change things or use your own images if any
Well, I really wanted to avoid this, but I simply must acknowledge the fact that to produce a good quality custom cross-platform GUI in 2016, there’s really no substitute to rolling up your sleeves and developing your own platform-agnostic UI and graphics libraries.
@nwp mmm I just want to make a GUI that I like, that's all. I mean I look over all those GUI's, they are nice simple, clean, but I want to make a custom that looks badass...
but those Qt GUI for sound experience looks awesome I wonder how much effort it goes into modifying it to get it to that looks(I mean the controls and stuff)
@R.MartinhoFernandes This has both good and bad points. On one hand, maybe it means you miss the train less often. On the other hand, it probably means you get even more lost before you realize there's a problem. (yes, I know, you were quoting--but you know my attitude about facts vs. humor).
Not only they use fopen, which as examples for this is one of the worst you could come up with, but they also use ifstream straight after, showing that they know ifstream exists, i.e. have no idea what they're doing.
to be fair it's kinda hard to come up with a well known example that would benefit from scope_exit without reaching for another library. The C file IO is the most well known in that regard
And the way to solve the problem that the POSIX IO example shows (which is what people run to as soon as you point out that they're idiots by using fopen as an example) is to write a proper RAII wrapper for fds.
(POSIX IO is the only other example given in the paper)
@ratchetfreak At least in my experience, it's surprisingly rare--and let me be clear: I expect it to be rare, and it still surprises me just how rare it really is.
The rareness here reminds me of a joke a guy I used to know liked to tell about how to cook a steak properly: have them bring it out to the table raw. Stick a fork in it and wave it about 6 six inches above the candle on the table for about 15 seconds. Oh, and when you're done, be sure and light the candle--it provides better ambiance that way.
cause seriously the only actual example of any value I can give is using a C lib that requires cleanup and you are too lazy to create a proper wrapper (or believe yourself unable to)
if the wrapped resource were move-assignable then the wrappers would be more useful as you could put them as class members and have them be cleaned up without needing a destructor
> unique_resource is meant to be a universal RAII wrapper for resource handles provided by an operating system or platform. Typically, such resource handles are of trivial type and come with a factory function and a clean-up or deleter function that do not throw exceptions.
(And note that that is unlike any of the examples given in the paper, and in fact the author's original intention was to keep the ctor private, so you can only use it via the factory)
auto a = make_unique_resource(create_mpf(), &mpf_clear);
auto b = make_unique_resource(create_mpf(), &mpf_clear);
auto c = make_unique_resource(create_mpf(), &mpf_clear);
auto d = make_unique_resource(create_mpf(), &mpf_clear);
@R.MartinhoFernandes Perhaps (even "probably"). But without the class, the user just uses the mpf_t, and here he can do the same (since the class supports implicit conversion to mpf_t), so even though we probably want to add more (because it's useful) we already have everything we had with the generic resource handler.
The one thing we might need to change (depending on the nature of an mpf_t) is to return a reference instead of a value from the implicit conversion.
tl;dr I see it as a way to assist with RAII wrapping C apis, but it's not going to be a silver bullet. A custom wrapper is always going to be better, but this will get you off the ground faster (especially if they ever put in the derive deleter from type mechanism).
@ratchetfreak If it's small benefit, in a small number of circumstances, and highly prone to misuse, I'm still firmly convinced the standard doesn't need this (but especially not as presented).
@ratchetfreak I don't see where it gets you off the ground enough faster to notice. Your code to use the generic deleter is a grand total of one line shorter than mine that doesn't use it.
@ratchetfreak Yes, you probably do want to add that--but if you actually need anything like that, you need a wrapper class; the generic deleter thing simply isn't adequate to the task at all.
Dammit, the original document has been taken down.
It had the "loop advancement problem".
> One of my goals is to use RAII in all of the places that common mistakes are made that could be solved using it. So, sometimes I'll even use it inside of a while loop to ensure that anyone that comes in later on and modifies that code can't accidentally forget to advance the loop, because at the top of the loop is an RAIIFunction object that ensures that any continue will advance the loop, etc.