Bleep are clearly classes given that you're assigning a new
Bleep to a
Plugin variable, and there's no
plugin's declaration. So,
plugin is a reference, not a pointer.
&plugin is returning a pointer to a reference - in this case, one which is a local variable (hence the error). It's not what you want at all. You can explicitly cast
void* if you really want a pointer, but that is a somewhat abnormal thing to do. I assume that you're interfacing with C code, otherwise there really shouldn't be a reason to cast to
void*. Class objects are references, not pointers, and should be left as such if possible. If you're passing it to C code (presumably which will then call your D code later, since C doesn't know what to do with a D class), then you're more or less stuck using
void*, but I'd advise avoiding it otherwise.
The GC won't free the object as long as your D code has a reference to it, but if you pass it to a C function and don't leave any reference to it in your D code, it will be collected at some point by the GC.
If you're going to be explicitly freeing the object yourself, then don't use the GC.
delete is scheduled for deprecation, and you're not normally supposed to be freeing stuff on the GC heap yourself. That's the GC's job. You can call
destroy on an object to destroy it (e.g.
destroy(obj);), but the memory won't be freed (rather the destructor will be called, and the object's vtable will be zeroed out so that using it will result in a segfault).
If you really want to be allocating and deallocating an object yourself, then you should be using
free, though that's definitely more complicated. You'd have to allocate a chunk of memory the size of the object with
malloc, and then use
std.conv.emplace to construct the class in that chunk of memory in order to create the object. Then to free it, you'd have to explicitly call its destructor, and then call
free on that memory. Work is being done on custom allocators which should definitely make this easier (probably making it much closer to
alloc.free(obj)), but they haven't been completed yet and so aren't yet in the standard library.
One way to handle allocating and freeing the object using the GC if you don't need deterministic destruction would be to simply keep a reference to the object in your D code and then set that reference to
null when you want to free the object. It won't free it until the GC decides to collect it, but it makes it so that the GC won't collect before you're done with it and so that it will be able to collect it once you are.