@login_not_failed Have you read any hardware books you would like to recommend? I have Computer Architecture: A Quantitative Approach and Art of Electronics
@wilx Obviously not worth reading--simply glancing at the name "Areo" it's clear that this is a product of an Aryan supremacy group, and the article itself nonsense, no matter how logical and sensible its arguments may seem.
is it normal, when learning to code to look up other peoples algorithms and copy them in order to learn. At least, up until you know enough to create your own stuff?
I always feel so discouraged having to look up answers online because I dont know how to problem solve, even when spending hours on a problem
@fredoverflow I'm following this forum cplusplus.com/forum/beginner/147214 and trying to understand the code line for line so I can use it for a homework problem
becausse I dont know how to write something like this from scratch
Seriously, why would you ever think that code like # define msg std::cout is a good idea? It will break any code that contains the name msg, which is not that uncommon a name, in my experience. — Neil Butterworth1 min ago
I played with a fidget spinner and am officially cool now. Unfortunately it got boring after 3 seconds and all attempts to get amusement out of it afterwards failed.
Suppose I want to create a generic Serialize function that allows me to serialize built-in types, composed types and user-defined types. Then I see two ways to do it:
Overload based:
Serialize() is overloaded for all (supported) builtin-types
function template overloads are added for vector/m...
There are proposals to expand namespaces from anywhere else with a syntax like namespace ::std { /* stuff */ } but it won't be availlable before a while.
boost::serialization uses ADL for finding the user type. But then each member variable will be serialized using a class template specialization. One of which does ADL.
@StackedCrooked I haven't been hit by unintended ADL. But I have been into a few cases where I unintentionally relied on it. And then suddenly a small refactor broke the ADL and everything stopped compiling.
sure, then you go something like client::client(){ asio::callback = this.callback; }
and then client is moved.
and then you wonder why valgrind complains about a stack allocated object. That is exactly what you wanted.
And then you realised, this is not this anymore and you feel like the earth is sinking. But there will probably other days when you feel more like an idiot, so this day isn't that bad.
@StackedCrooked Yeah. The case that got me into it was that in my pi program, I originally had two very large algorithms (each about 30k LOC) which were almost completely identical at the top level, but completely different at the low-level.
But each of them rested in different namespaces.
So I refactored out all the top-level code (20k LOC) into a 3rd namespace as templates. And that had hundreds of calls into low-level functions defined in each of the two algorithms in their original namespaces.
And that worked, until I changed one of those functions, which broke the ADL and everything fell apart. lol
@Mysticial Depending on the situation, there's often some middle ground where you pass the lower-level class as a strategy parameter to the higher-level template.
@Morwenn I'd enjoy a nice glass of Petrus right about now (but I'd probably enjoy even more having the money that a bottle of Petrus would cost). Anyway, good night.
@Morwenn I could truly enjoy it. A friend of mine bought a case of Petrus back before wine prices got so inflated. By the time he shared some with me, a single bottle was probably worth more than he'd paid for the whole case. I'm not sure it's worth its current prices, but it really is very good wine.
@Mysticial Life would be so much easier if we could just get the hardware vendors to pick a spec and stick to it. Given that we now want vector ops in consumer machines, I vote that AMD and Intel standardize on the Cray 4 ISA, and make our lives a lot simpler (at least for a few years).
@StackedCrooked Yeah, if the compiler can prove that the type can only be one thing, it'll devirtualize it. Even if it can't it is theoretically allowed to speculate on which is the most likely, branch on it, and inline it.
@Mysticial Pretty sure the latter remains mostly theoretical though. I suppose Intel might implement it, but I'm pretty sure I've never seen it from gcc, Clang, or VC++.
@StackedCrooked It always strikes me as strange how the vast majority on SO (and Reddit, for that matter) seem to think the compiler is nearly magical in its ability to optimize any "equivalent" input to the most optimum possible object code, but all of us who actually look at the object code find that we need to pretty much force-feed it hints just to keep it from doing horribly stupid things.
Well another problem is that the static analysis might need to evaluate across function boundaries in a way that would exploded the inline limit. Its trivial to make something on GodBolt that shows de-virtualization in action.
@JerryCoffin I suppose the compiler really wants to avoid the worst-case scenarios. So it remains conservative unless you force it to optimize further.
@Mikhail This code was based on real code in our company.
I didn't know it inlined the virtual calls until I noticed in callgrind's output.