wut I'm confused, I thought linux was the one with shared memory files that can outlive processes, and windows was the one that killed it when the processes were all done?
also, why are you guys asking the same question
I guess, first what is "shared memory" to you
because it could the interprocess communication thingy, I've also heard people use it to mean GPU/CPU main memory segmentation
@PeterT, I have created shared memory to use multiple processes for interprocess communication. When uninstalling the application, wanted to remove the shared memory using the .bat file
I doubt it makes a noticable difference, resolving all the duplicate template instantiations from vector<T>, etc. is going to be a lot more expensive than the handful of static data members most applications have
@PeterT my understanding from the MSVC blog is they focused really hard on reproducibility of the sections, each pre-linked segment contains a hash they used to identify possibly duplicate ones
dunno, what they weren't clear is what happens if you have something like std::vector<int> and std::vector<unsigned> it made it sound like they treat those independently
even though technically they are compatible types from a container perspective
I never tried it. From what I understand it improves performance that should already have been regained by link time optimization. Since I don't care about performance it's not interesting to me.
it's not about link time optimization, it's more about not having to parse thousands to hundreds of thousands of lines of codes multiple times and save you things like template instantiations
where I've seen it used it was about build-times, not runtime performance
I improved compile times by splitting a file before. All of them include SOL2 which is 5KLOC of templates and still splitting them made compiling faster. Mostly because the memory requirement dropped massively and the machines didn't have enough.
But I do think the intention of unity builds is to have a dual kind of build option, where you can split into multiple units for incremental updates and have a monolith for the release.
@nwp How does that work? Now you're including SOL2 in multiple files?
It basically hooks up Qt with Lua, so there are various GUI elements like a button or checkbox that are added to Lua via Sol2. Originally it was just 1 big file where all the elements were added. That proved to not be sustainable. Now it's individual files per GUI element and it compiles much faster and uses a lot less memory.
Somehow there is an n² algorithm somewhere in the compilation process and having too many symbols made it take forever. (n/k)²*k turned out to be a much smaller number.
Oh I think they are fine, it used to be an MSVC thing
but in this case its not an extern template, but rather the object should be extern...
an extern template, from what I recall would require having the completed type immediately after it, and would basically instruct the compiler to not generate the template except for one explicit location
You can do one of the two things.
Make pool a normal variable.
extern PoolType<int> pool;
// in some other file
PoolType<int> pool;
// in main
pool.do_something();
Make pool a variable template.
template <class T> extern PoolType<T> pool;
// in some other file
template <> PoolType<int> pool<int>...
Looks like I got an answer, seems it needed two template tags which is weird...