The basic idea would be to have a static vector (or other collection) of instances, and overload the ctor(s) to insert (and dtor to delete) the address of each object you create into/from this collection. Then in your timer code, just walk through that collection and do your thing.
I'm using both a physics library and a graphics library unawares of each other, and I will need to be able to create objects onscreen on the fly, update the positions of the sprites with the values returned by the physics library, and delete them as necessary
@IDWMaster Hard wired! (and I do mean "hard" -- the Modular Moog quite literally weighed about a ton, but Keith took it on tour anyway. It was still pretty light compared to the drum set that British Steel gave to Carl Palmer...
@CaptainLightning You can, but in this case you don't want to. You just have it hold their addresses.
@RMartinhoFernandes Yeah. Guess it does. I never use C++/CLI though; I usually will write a library entirely in native code, then P/Invoke into it from a managed application (or write a native application and call a library that references a managed component)
@StackedCrooked Why? Does the order of the pointers matter? Do you expect to see multiple objects of the same type at the same address (without intervening destruction)?
@StackedCrooked push_back doesn't seem any more complex than using a set. Erasure speed may be better, but isn't necessarily. Depending on the number of items in the collection, it could easily be slower.
I don't know...hopefully. I know if they ask me to write quicksort I'm basically done for. Unless they give me the algorithm. I don't know what's going to happen...its only work experience anyways (that's what I tell myself xD)
most people write C# code because they're under-informed about how usable modern C++ is, and because Microsoft wrote a ton of Windows-specific libs for it, like WPF/Windows Forms
C++ is also portable, but can't have one bytecode for all CPU types
@CatPlusPlus At the moment, my port only runs on Windows-based OS's, but I'm working on expanding it to support Unix. It currently compiles under MSVCC and GCC
I guess the question is; when should native code be used, and when should managed code be used? Also; should all managed code be replaced with native code for performance? Is the trade-off worth it?
@RMartinhoFernandes Maybe -- but then again, maybe not. GC advocates consistently compare the most sophisticated garbage collector they can find to some of the most naive manual managers possible. You also need to take more into account than the allocation itself to compare the two meaningfully at all. That said, writing new code in C++ using malloc is a lousy idea in any case.
@DeadMG The problem is that it's been tried, (at least twice -- Managed C++ and C++/CLI) but inevitably degenerates into something almost, but not quite completely, unlike C++.
@JerryCoffin I honestly don't see why they can't play nice.
it is, however, a relatively simple fact that the CLR doesn't really support the pointers and stuff that the Standard basically mandates
for example, I believe that the Standard defines that a pointer can be reinterpret-cast to and from an integer of the appropriate size, and the resulting pointer shall be valid
how can you mix that with a compacting garbage collector?
@DeadMG In theory no -- but unless you know about something everybody else has missed, one of the first steps toward getting decent performance out of GC is making it non-deterministic.
Anyways; back to the performance question. Once both native and managed code have been compiled; has anyone proven what the performance difference is between the two resulting binaries?