new operator is C++ specific features. it didn't exist in C. malloc is the C way to do things. Most of the time, you won't need to use it in C++.
new initializes the allocated memory by calling the constructor (if it's an object). Memory allocated with new should be released with delete (which i...
This idiot needs a few downvotes. He copies an answer to the same question almost verbatim, and now he's denying it.
@LucDanton Because the parent knows it's type, and where each sub-object it contains is in memory in relation to itself. But if you want the child to know what it's parent is, there needs to be some sort of runtime generated parent information on every child object
@EtiennedeMartel It is, but in that guy's defense, he linked to the original. But they're both repwhores, they should be voting to close instead of answering.
@MooingDuck I don't care about that. What I care about is when I and the compiler both know there's a parent: then there's still no way (in the general case) to express in the language that.
@LucDanton doing it in the general case requires runtime blah blah. Doing it in a particular "I know it's a child!" case can be done with offsetof +static casts.
I was saying the compiler can't go from child to parent because it can't be certain there is a parent. If you are certain, the only workaround I know of is offsetof (or similar strategy). Otherwise, there are no valid ways.
That would require additional guarantees from new[] strictly speaking. If we had those guarantees already then I feel like static_cast<int(&)[5]>(*p) would be correct.
@Pubby Because otherwise it’s difficult to get the type of the first one. You cannot do like, template<class... T> std::array<T[0], sizeof...(T)> or something.
@MooingDuck indeed, but what I mean is, boost must not be getting informed that I want it to build as 11 and so it's falling back on on overly complex looking build errors
More seriously though if you want to write something in the spirit of the make_foo factories then go with std::decay<T> + std::forward<T>. Won't surprise the user, won't surprise the writer.
@thecoshman Usually those things are left to Boost.Config to detect what features a compiler does or does not support. Perhaps a misdetection in your case?
@thecoshman no, I mean, theoretically boost doesn't need the void stuff now that C++11 is out. Someday, someone will hopefully write a C++11 version. (I'm speculating)
@LucDanton indeed, perhaps my installation of GCC is not up-to-date
@MooingDuck ah, I thought that they had sorted it out. I guess they are taking to logic, this way works with old compilers and new ones, so why break compatibility
still, I have to put such things aside now, got to get my CV scrubbed and sent away
Last time I checked it was still not clear which authors felt more interested in starting from scratch for a C++11 do-over, or were more interested in transitioning.
I have a hard time imagining e.g. Boost.MPL simultaneously available as C++03 and C++11, while benefiting from C++11.
yeah, it would be nice for a new version of boost, everything built from scratch to take advantage of all the new C++11 stuff. Anything that was in C++03 can be simply left in a 'we will fix any bugs, but performance or feature wise, this is dead' sort of state. Get with the times people!
Right, but imagine you invent a super duper convenient feature for your C++11 version, and C++03 users claim it can be implemented for their version and issue a feature request. What do you do?
Those are the sorts of considerations that were being talked on when I last checked. Which was a month ago because I used to have the Internet back then.
but seriously, best hot chocolate you can do. Get you self some fancy Channel island milk, it's full fat and extra creamy. Use actual cocoa rather then crappy instant shit. A spot of sugar, preferably muscavado. Perhaps a bit of cinnamon. And for the grown ups in the rum, a shot of rum :D
> Each cube-shaped node in the octree represents a renderable volume, simply referred to as a cube, where each edge of this cube can be lengthened or shortened to deform the cube into a variety of other shapes. Corners of cubes can also be "pushed" or "pulled" to create crude curves. The what you see is what you get realtime editing has enabled level designers to add a lot of detail to maps, while reducing the time spent on actual creation.
> This is in contrast to traditional modern polygon soup 3D engines which take a model generated as an essentially random batch of triangles from an external modelling program and attempt to spatially subdivide the model's triangles after the fact by splitting them to fit into tree structures, such as a BSP tree or even an octree, that require costly pre-processing to build.
> Cube 2's novelty thus lies in that the world representation is the octree structure itself, from which efficient triangle batches are generated for the graphics processing unit to render, without need for expensive and time consuming pre-processing.
Yes, recursion would work. I think std::generate_n() together with a lambda is simpler than recursion. The generator would be something like int i(-2); <:=:>() mutable <% return i += 2; %> — Dietmar Kühl22 mins ago
you create two GPU buffers- one with the cube vertices/textures/whatever
one with the instance data
then you call a function which is provided that understands instancing, and you just say how much data is in each instance and how many instances and bookkeeping stuff like that
then it loops through and makes each call for you on the GPU in hardware