MFW kids' homework includes a "math puzzle" so tough, we finally wrote a program to solve it. Okay by me! http://coliru.stacked-crooked.com/a/dffbe719501c9f8f
IIRC everything but the type of m_c is known when the template is first parsed due to hte two-phase parsing of templates, but I don't know how it might influence shit exactly
I call BS. Partial ordering is a lot more subtle. POI simply means (in cases like this) that the templates won't be instantiated until the end of the TU. Which means the type is complete.
Because I like a challenge, I made a tiny Canvas class, to be used like:
int main() {
using Canvas = BasicCanvas<160, 80>;
Canvas canvas;
canvas.origin = {canvas.cols()/3, canvas.rows()/3};
canvas.axes();
canvas.plot([](double x) { return x; });
canvas.plot([](double ...
our teacher showed this code, nothing more
for (i = 1; i < 11; i++);
{
printf ("*");
i++;
}
and told us, that the asterisk (*) will be printed once, but we (students) think that we will get error message..We're writing test next week and I think that there will be some question lik...
@Borgleader That ninja semicolon in there... It took more more time than I'm comfortable with to notice it. Stupid students for "thinking" they would get an error message.
Lecturer: This code will print asterisk only once. Students: No, an error will occur. Lecturer, while pulling on his jacket and fumbling for car keys: Till the next week!
@LoïcFaure-Lacroix They are largely interchangeable at this point in c++
I would say its slightly more kosher to use a struct for plain old data structure, but this is purely stylistic and will not affect the object code at all.
It returns true for both classes and structs. I know that in C++ they are almost the same thing, but I'd like to know why there's not a distinction between them in the type trait.
Unfortunately this is a common misconception in C++. Sometimes it comes from fundamental misunderstanding, but a...
@Horttanainen Maybe a practical question, would such a union used for low-level register unpacking, be interchangeable if the struct keyword was changed to class? I'm assuming yes.
@crasic Why do people keep treating me as if I were old? I mean, yes, I do remember when protozoa were evolving into dinosaurs, but that doesn't make me old does it?
@crasic Given the lack of specification of how they work at all, it's hard to be sure some compiler couldn't treat them differently (but I don't know of any such compiler).
@JerryCoffin I don't assume age, just assume you are more of a c++ ~~dude~~ generic human, I live in the 5th circle of hell where c and c++ object code interacts in an unholy manner in one source base
@Puppy I did put the first diatoms together, but there was a while there that things were a little crazy, so must have been preoccupied with something else as the protozoa evolved.
@crasic Yes, with the minor detail that (of course) in a class everything defaults to private, so you'd pretty much need to replace struct { with class { public: to get the same effect.
class also defaults to private inheritance, so if you had something like class foo : y you'd convert that to struct foo : private y (but public inheritance is much more common, even with classes).
@Mikhail I always wonder what a statement like that is really attempting to say. As it stands right now, it only seems to say: "we guarantee optimizations and heuristics won't improve the speed by more than 5X", but that doesn't seem like a particularly exciting claim.
@LoïcFaure-Lacroix why not? If I know I'm not interested in making many things private, I'll just make it a struct.
Also, e.g. struct Coord is an aggregate, and it's a sign that you can Coord { x, y } or {x,y} without any constructors.
IOW: be concise, reduce noise
PGO are heuristics. Most HotSpot JIT optimizations are.
Chess grand masters use heuristics all the time. That doesn't mean they "don't know what they're doing". It does means they know "trying to know every possibility on the board is not feasible or statistically effective"
At the end of the day, the alternative to heuristics is knowing what you're doing which is why PGO doesn't have too many success stories. Even auto-tuning libraries lost to a Japanese man named after a BASIC instruction.
Fritz is a German chess program developed by Vasik Rajlich and published by ChessBase.
The latest version of the consumer product is Fritz 16, which has been based on Rybka since version 15. This version supports 64-bit hardware and multiprocessing by default.
== History ==
In the early 1990s, the German company ChessBase asked the Dutch chess programmer Frans Morsch to write the Fritz chess programs (called Knightstalker in the USA). In 1995, Fritz 3 won the World Computer Chess Championship in Hong Kong, surprisingly beating a prototype version of Deep Blue. This was the first time a program...
^ When I was 12 I had an amazing ELO on the Microsoft gaming zone...
In scientific computing, GotoBLAS and GotoBLAS2 are open source implementations of the BLAS (Basic Linear Algebra Subprograms) API with many hand-crafted optimizations for specific processor types. GotoBLAS was developed by Kazushige Goto at the Texas Advanced Computing Center. As of 2003, it was used in seven of the world's ten fastest supercomputers.
GotoBLAS remains available, but development ceased with a final version touting optimal performance on Intel's Nehalem architecture (contemporary in 2008). OpenBLAS is an actively maintained fork of GotoBLAS, developed at the Lab of Parallel Software...
@Mikhail and without fail it involves knowing the application, so it's not very applicable to general purpose libraries. Which happens to be exactly the area in which heuristics shine.
(It's easy to shine in areas where darkness is the norm)
@Mikhail When you get down to it, nearly all of "knowing what you're doing" still comes down to some heuristics. For example, the general theory of relativity is basically a collection of heuristics, which might be explained to a greater level of detail by some quantum theory of gravity--but even that's still basically a collection of more detailed heuristics that we can't entirely explain either.
@JerryCoffin What? Special relativity was the heuristics one. General reletivity is pretty self contained and can be expressed in a single EFE equation. Problem is not the equation, but weather that equation models reality...
Anyways, when the hardware vendor is bragging about all the "heuristics" in their library, it really asks if they actually know what they are doing!
It really just says that they realize they cannot know what YOU are going to be doing with it.
They know what they're doing.
Take prefetch: heuristics drive whether prefetch goes in one direction or the other. Branch prediction is heuristics. Why? Not because they "don't know what they're doing". It's because they can't know what you're doing
@Mikhail The equation, by itself, is not the theory. The theory is about gravity itself, so your "weather [sic] that equation models reality..." is crucial to the theory itself--and although general relativity describes reality to some degree, we know that at the bottom, it's still heuristics--rules of thumb about how things work.
@Mikhail Then you don't really understand what "heuristics" means. Whether it is or isn't designed as a bunch of special cases is irrelevant to its being a heuristic.
In computer science, artificial intelligence, and mathematical optimization, a heuristic (from Greek εὑρίσκω "I find, discover") is a technique designed for solving a problem more quickly when classic methods are too slow, or for finding an approximate solution when classic methods fail to find any exact solution. This is achieved by trading optimality, completeness, accuracy, or precision for speed. In a way, it can be considered a shortcut.
@Mikhail Equations are basically a language, so they're one possible way of expressing (all or part of) a theory. In the case of a purely mathematical theory, we can sometimes express essentially the entire theory in equations. For almost anything else, there's at least an implication (if not explicit statement) that the theory explains some part of reality.
Nuclear binding energy per nucleon is a well established formula, but is basically a linear interpolation across the periodic table
But in this sense, neither GR nor SR are heuristic
They describe the geometry of an arbitrary (4d) surface, it can be derived from first principles that doesn't require any direct observation. But when we say, this surface is our universe that is based on experimental observations of its validity and can be considered a heuristic theory of the universe
And impossible. Again, the hardware manufacturer cannot know all the parameters, so heuristics is all there is.
Knowing things exactly is possible but self-defeating (it involves doing most work twice, once to figure out how best to do it, and once to actually do it optimally. Yay)
@Mikhail "Better" is a value judgement. Whether it's true or not depends heavily upon exactly what you value. For one obvious example, consider the graphics in lots of games. Most of them use lots of heuristics. For most people, displaying at 20+ frames per second while looking inaccurate but still at least halfway reasonable is drastically superior to a more accurate display that takes half an hour per frame.
There is no equation to tell you the mass of an electron, but it is experimentally determined.I just disagree that there is something "more exact" about an analytical result unconfirmed by experiment.