Guys, does any of know about the memory model of C++? I was trying to understand it but got stuck :( there's just too few information about it
That's what I asked at cpplang@slack, maybe some of you could help...
Been trying to understand memory ordering, still somewhat stuck As I understand, the best mental model for understanding it is memory barriers, and immediately there is a thing I'm not sure about Are memory barriers (store-load ones etc.) just constructs that say - these instructions shouldn't go up, these shouldn't go down (in relation to the barrier)? Or is there mutual relation of instructions involved? E.g. say we got a load-store barrier and code like 1) load 2) load-store barrier 3) load 4) store
Well, what I'm used to is the following: there are 4 kinds of barriers - load-store, load-load, store-store and store-load that I guess prevent corresponding instructions to be moved through them They can be combined together like acquire barrier - load-store + load-load, something like load-(store+load), i.e. only store operation can be moved from top of the barrier to the bottom of the barrier The same with release barrier - store-store + load-store, like (store+load)-store, only loads can go up
Thank you!
Maybe I should ask a question?
I mean, on SO
First about 2 models for barriers Then about linking between (load|store)-(load|store) and acquire-release barriers And probably a couple of other ones
When learning about the C++ memory model you should not look into memory barriers first. They are a crude tool for something else, which is the "sequential consistency in the absence of data races"-model which is what you actually should be looking into.
I am getting crazy about a problem.. I have a global vector of classes containg float numbers and a float pointer.. with a function like
void add(float a, float b, float c, float* p);
i have no problems obviously, but what if i want to pass as argument an integer pointer instead of float pointer? I know i can't so i'm trying to search how to do it. I can't use template class, because if i use that, my vector will contains only classes with a single type and not with multiple types
sorry if i explain bad, i am not english and i'm trying to write as well as possible
Loebl's suggestion still works by the way. The animate function can just take a T* and assign to that and let implicit conversion do the job of converting the float to whatever you are using.
You will probably want some better rounding than the implicit conversion gives you though.
@FerencRozsa You could argue that clang is just the frontend and clang+llvm is the compiler, but people don't usually do that and mean clang to include the whole package.
i added template <typename T> in the function (in animations.h and animations.cpp) but in the main file when i call that function there's a compiler error undefined reference to 'void animate<float>(int, float*, int, float, int)'
@nwp o.k....i test at home clion...which compiler i should use was the question ->> gcc or clang. so i stumbled on that. i used clang serveral time as compiler online and i was amazed about accuracy of warnings and errors. not comparable with msvc.
@FerencRozsa I like the warnings and errors of clang more too. It's easy to switch, so when you don't understand what clang is saying you can use gcc instead and see if that helps.
Quote from The C++ standard library: a tutorial and handbook:
The only portable way of using templates at the moment is to implement them in header files by using inline functions.
Why is this?
(Clarification: header files are not the only portable solution. But they are the most convenien...
but i have another problem now.. template function doesn't work because when i pass int* var that takes place of T* var, i can't assign its address to float* variable of the class because they are of different type
animate function is like this: void animate(int anim_easing, T* var, int from, float to, int ms) { animation new_animation; new_animation.var = var; anims.push_back(new_animation); }
if i do new_animation.var = (float*)var; there are no compiler errors but cast is not done correctly
You can fix the assignment issue by not keeping a float * and instead keep a std::function<void(float)> assign;, then do new_animation.assign = [var](float f) { *var = f; };.
@DiCri Don't use C casts. They do bad things.
Later instead of *var = something; you write assign(something);.
The syntax makes a bit of sense when someone tells you that they borrow syntax from regular functions. [](){} is equivalent to auto f(){}. The () and the {} have the same meaning. The [] is new and lets you list the things you want to have available in the body, like [var] making a copy of var or [&var] capturing var by reference.
I have a const T&t and I know std::ostream<<(std::ostream &, const T&) exists. Further I have an output iterator like std::back_inserter_iterator<std::string> it. I feel like there should be a convenient way to serialize the t into it without a temporary std::stringstream, but I can't find it.
Something like std::pretend_to_be_an_std_ostream(it); maybe.
I need help debugging an X error. The relevant code is: #include <iostream> #include <string> #include <set> #include <map> #include <X11/extensions/XInput2.h> #include <X11/Xlib.h> #include <X11/Xutil.h> #include <X11/XKBlib.h>
Hello room... Anyone familiar with Android NDK here? I need help building this github.com/divideon/xvc/tree/dev for Android to run some comparison tests with H.265 codec
Quote from The C++ standard library: a tutorial and handbook:
The only portable way of using templates at the moment is to implement them in header files by using inline functions.
Why is this?
(Clarification: header files are not the only portable solution. But they are the most convenien...
