you should still let yourself be inspired by the shared_mutex example because it encapsulates the mutex better (users don't need to care about mutexes) whereas in the mutex example you must remember to do locking every time which will get annoying soon
you could also think about how to make something that gives you a reference to a map under a lock so you don't need to copy all of std::map's functions
ah well - anyway. I have a small test voxel engine written in C++. The chunk/geometry generation part works perfectly (i checked it multiple times), but i have some immense problems with my camera/view/projection setup. Blocks either render mirrored in the middle or completely upside down, and camera movement has the opposite effect. I have absolutely no idea what is causing it, and i checked the code multiple times.
@SzymonMarczak your read function doesn't let me read properly. For example, I want to be able to say auto value_of_element_5 = read([](std::map<...> *map){return map[5];}); but your read doesn't return anything.
@calcyss it's all about projection/view/model/whatever matrices, pay really close attention to what other people are doing, we were building game engine with friends from scratch with opengl for almost two years now
these kinds of problems are really annoying but it's more linear algebra than programming really, pay really close attention to your c++ code, shaders (glsl) and what you are expecting to see
hmm, always if something goes wrong (for example: memory leak or deleting the same pointer 2 times by 2 threads (because they hadn't have lock yet), or accessing deleted pointer) ASAN tells me about that
@SzymonMarczak there are different bugs like the classic one, when you access a variable from another thread when it is not initialized yet — you would get garbage in the best case
can a library be both static and shared at the same time? meaning it is self sufficient and other libraries can refer to it. on stackoverflow, looking at some answers made me think that a library can either be shared or static.
in the answer, shared library is described as "All the code relating to the library is in this file, and it is referenced by programs using it at run-time". This implies self sufficiency. But this is not the case.
ok. so static and dynamic/shared only decides, that whether the program using it, takes a copy for itself, or references the original library for future use.
another question that i have is, when we do, gcc -c somefile.c -o sf.o, is the resulting file a static library or shared one?
sup? How do static variables in templates and generic lambdas work? 1) Does every instance of template gets own variable? How does this work with lambdas if it's true? 2) Is it different if static variable type depends on template argument or lambda argument?
Well yuck. What generic lambda instance gets passed when I try to pass it?
Oh I may as well try it.
Kinda understand it now. std::function is a template and whenever I pass a lambda to something templated it gets instatiated according to what I pass it to.
@EuriPinhollow It's possible to pass an un-instantiated template as an argument to another template (it's called a template-template parameter). template <typename T, template<typename> holder> foo, then instantiate as: foo<int, my_template>(...) is fine (and inside that template, holder will mean "my_template". Default template parameters can be tricky though. e.g., vector isn't a template<class>, it's a template<class, class>.
@EuriPinhollow Because I sometimes find it humorous to do some borderline trolling (or maybe I don't, and just thought it was a cute play on words...sometimes I'm uncertain).
I have a local code which has two very similar branches (there are few additional lines of code and few more members in class definition in one of them). Is it nice to put that into generic lambda and put enable_if in certain places?