@melak47 Ok :) I'm asking because what I read on the internet is that the compilers are so good nowdays that it is very hard to do a better job in assembler yourself.
@mantler Unless you're trying to do specialized tasks which require good throughput, in which case you don't really write assembler, but use Intrinsics (sp?) and other such fun things.
@Mysticial I remember seeing an article on auto vectorization in msvc. And that it was a big thing for msvc. I guess that the other vendors have had that for some time?
But think on the lines of aliasing, alignment, boundary conditions, an other mathematical stuff.
Take a simple loop like this:
for (int i = 0; i < n; i++)
a[i] += b[i];
Nobody can doubt that it's trivially vectorizable.
But even that becomes very ugly with auto-vectorization because the compiler simply doesn't have enough context information.
1. Is there a possibility of aliasing between `a` and `b`? Fine you can use `restrict` 2. Alignment? As a programmer, I may know that `a` and `b` are sufficiently aligned. But the compiler doesn't know that. So it needs to use unaligned moves or other work-arounds. That adds a lot of overhead.
3. Trip counts? As the programmer, I may know that the # of iterations is always a multiple of 4. The compiler doesn't know that. So it must generate clean up code to deal with it. Even more overhead.
Sure you can "help" the compiler with restrict and compiler-specific pragmas to give it this extra information. But at this point, it becomes messier than just manually vectorizing it yourself.
It can be done, sure you can add all that overhead and it'll still give a net improvement. That's why they still do it. But it's not gonna beat manual vectorization anytime soon.
As the programmer, you know whether a loop will run fewer or more iterations. So you can decided whether you want to vectorize it at all. Furthermore, with programmer context, a lot of loops become zero-overhead vectorized.
more importantly, I remember being corrected on this some time recently, and I can't remember what I said before, so I don't remember what I knew after :P
And then you have the case where a and b aren't aligned. But as the programmer, you can trivially make them aligned by using an aligned malloc or something.
That's something the compiler can't do for you.
In other words, vectorization is one of those "meet-in-the-middle" kind of things. You need both sides (programmer and compiler) to put in some work. Otherwise it won't work (well).
Neither side can get anywhere near optimal performance alone.
well, it is possible for the programmer to reach optimal (without the compiler's help), by going all the way down to assembly and doing everything that the compiler could. But let's face it, few people are capable of that, and it's generally a poor use of time.
@Borgleader Vectorization. I'm not too familiar with GPUs, but I believe part of the reason why GPUs haven't "taken over" is because of the same reasons. Getting the most out of a GPU is another "meet-in-the-middle" task.
@Mysticial Ah I see. Well imho, the reason GPU programming isn't more popular it's that it doesn't apply to all problems. And people haven't gotten used to thinking about whether or not what they're working on can be easily parallelized or not.
Itanium failed for the same reason. Writing good code for the Itanium is a "meet-in-the-middle" task. Of course, you can't get programmers to change anything. So the compiler was expected to do the whole thing - which of course it couldn't.
Not to say that we are lazy and we suck. But that's it's too costly and error-prone to take existing (working) code and optimize it for a new architecture.
Okay, I have a 14 inch by 17 inch board (35.5cm x 43.1cm), I to put 4 boxes in it with a 1cm padding (that is, 1cm away from anything else on the page). All the boxes must be a 16:9 aspect ratio.
How can I make the page such that it will work and keep the board as big as possible in the process?
To make up for my previous shame, I give to everyone these Super Sweet Tokenless Events. Many thanks to Insilico and StackedCrooked for toughing out my masochism with me to make this work out. I will do my best to make it also have Variadic templates, but until then.
@sehe Those are boring, they're just words. Asguard (alien race in Stargate), Adjutant (robot looking AI in Starcraft 2), Albion (Town in Fable), Ajunta-Pall (Dark Lord of the Sith)
|| test.cpp: In member function 'void Event<T1>::Add()':
test.cpp|125 col 76| error: expected primary-expression before ')' token
|| test.cpp: In member function 'bool Event<T1>::Remove()':
test.cpp|157 col 81| error: expected primary-expression before ')' token
@mantler well if you are working on a cross platform project, usually you have the repo store things with \n (unix file endings) but tell git to convert things to \r\n for windows on checkin and checkout.
But if you screw that up, you can get some quite amusing diffs. x)
@sehe works if your tools can be trusted not to muck with them.
Not really the case if you are using visual studio for example. Create and check in a new file using that and it'll have windows endings. Now your repository has some files with unix and some with windows endings.