So I was debugging code in Netbeans and the only output was "build failed" and some random shit that there was an error in a library that hadn't been changed. It turned out that an argument was added that was passed to a std::thread constructor which hadn't been updated to pass the new argument. Is there any list of situations when a C++ compiler tends to give misleading or bizarre errors? IIRC other situations include missing a semicolon at the end of a class deceleration or prototype.
Write a short program, that would generate the longest possible error message, in a standard C++ compiler (gcc, cl.exe, icc, or clang).
The score of each entry is the number of characters in the longest error message the compiler emitted. Types included in your source code and quoted by the comp...
19 characters
Create a file a.cpp with this content :
#include __FILE__
p;
Compile as :
g++ a.cpp
and get amazing 21300 lines error messages :
In file included from a.cpp:1:0,
from a.cpp:1,
from a.cpp:1,
from a.cpp:1,
...
... 2...
IMO, it's wrong to kill any warm blood mammals unless you have raised them by providing shelter and food for them. The only exception would be if they cause immediate danger to you or people around you.
@Mysticial I don't see AVX512 being a huge priority for MS? I'm guessing they are under the impression that anyone who really wants to use AVX512 will probably be using Intel or doing it in assembly directly
You can try algorithm like Strassen or Coppersmith-Winograd and here is also a good example.
Or maybe try Parallel computing like future::task or std::thread
^^ He's recommending the OP implement Coppersmith-Winograd. hahaha
For command lines, where do you even get that many options? There aren't even that many options in the compiler. Unless you're spamming the program with macros.
@Mgetz I've found that compilers are really had optimizing arrays on the stack.
So it's better to have 50 separate variables then to use an array of 50.
By removing the constraint that the variables are in memory in a specific order, they all get promoted into separate values in the IR which then gets fed into the register allocator as individual pieces. The compiler spills only what is needed as opposed to having array accesses everywhere.
The compiler is also unlikely to inline a function with 20+ parameters on it. Their heuristics usually go by the size of a function. And if you have 20+ parameters that are all being used, chances are it's large enough to be above the threshold.
@StackedCrooked correct
Basically, I don't want to keep copy-pasting the same 50+ instruction transpose code everywhere. So I make a force-inline function for it.
But I can't pass in an array because: 1. The inputs aren't necessarily arrays in the caller. 2. It suppresses compiler optimization.
I have functions like this that go up to 40+ parameters. That's way over the # of registers. But once it's all inlined into the caller, the spilling is actually pretty sparse in most cases.
In fact, if the code has a low density of load/stores to memory, it becomes beneficial to increase the working size to intentionally spill to use up the idle load/store resources. Assuming that there is material benefit to increasing the working size.
@StackedCrooked Yes. It's "just" a graph coloring algorithm.
There's a sort of rule-of-thumb to unroll something just enough to use all the registers, but not more. But it's not a sharp cutoff. Once you go into spilling territory, the degradation is gradual. And there's a lot of room to penetrate into that area to extract other benefits.
But with 32 registers, it does lead to some pretty impressively sized code that would never pass a code review. :)
I think there's more room to exploit locality in variable usage.
That said, I really don't like writing massive code bodies like this. But there are enough cases where the choice is between: - Branch-heavy sequential implementation. - Fully unrolled AVX512 implementation that has 50 live variables.
This happens a lot when I'm trying to vectorize something that's inherently not vectorizable. So the approach is see how much data is needed to align properly, then multiply it by the SIMD width. Then do a massive transpose on the data.
So if the algorithm is operating on chunks of 29x64-bits. And I'm on AVX512 with a SIMD width of 8x64-bits. 29 and 8 share no common factors. So I need to load 29 x 512-bit chunks into 29 AVX512 registers. Do a 29x8 transpose. Then apply the sequential algorithm on 8 lanes at once. Then transpose back.
The result is a 1000 lines of completely unrolled, transpose-heavy AVX512 code that runs way over the register count. But it's really fucking fast nevertheless.
Evidently this is a very very bad joke on the part of the Stack Overflow team. But if you want to know what's wrong with Stack Overflow:
No longer curating a definitive list of questions and answers
Instead recreating Usenet comp.lang.* only somehow worse...
Full of rep-farming users asking ...
Instead recreating Usenet comp.lang.* only somehow worse...
boomer detected
I had a weird tech issue today. Reinstall Windows, import a foreign dynamic disk (RAID 5). Disk shows up as failed and Windows won't let me recover it.
Potential loss of 20+ TB of publishable data
Somehow software RAID solutions on Windows are particularly fucked.
HighPoint (no problem yet, but no Linux drivers for 4.19, requires you build the module, but code doesn't stay updated) Adaptec (Array breaks when power is pulled, often can rebuild, once couldn't rebuild due to firmware bugs, also potentially breaks due to firmware bugs) Intel RST (Array break when power is pulled, can't rebuild) ZFS (massive performance hit) Windows (massive, massive performance hit, 24 drives behave as two, can't rebuild)
Fuck, I just wanted to make designer babies in test tubes but my RAID array keeps failing.
Linux software RAID solutions are less buggy, but have horrible performance problems that Linux users aren't aware of because they have never used real RAID controllers.
Or because they are hooked up to a 1G network.
Also debian is shit, if you're going to work for it use Gentoo
I'm working on a lot of shit, but really its about understanding light to see things better
But then the experimental part of the work is mostly fixing broken equipment, yelling at people, and the analysis is p-hacking to justify why we did all the yelling
Right now I need to fix a GUI omission/bug, but I gotta phrase the fix (and time spent working on it) in terms of how many cancers I can cure