On Wednesday, 5 November 2014 at 20:31:54 UTC, Patrick Jeeves
wrote:
On Wednesday, 5 November 2014 at 19:44:57 UTC, luminousone
wrote:
On Wednesday, 5 November 2014 at 19:05:32 UTC, Patrick Jeeves
wrote:
On Wednesday, 5 November 2014 at 18:56:08 UTC, luminousone
wrote:
unless delete is explicitly called, I don't believe the
destructor would ever be called, it would still have a
reference in the static foo_list object that would stop it
from being collected by the gc.
This is exactly why I asked about it, and even if delete is
explicitly called-- which i believe is deprecated, wouldn't
the runtime fill the space with the default construtor until
the GC decides to remove it? meaning it would be immediatly
added back into the list?
I don't believe that the default constructor is called. I am
pretty sure delete immediately deallocates the object,
deregistering its memory from the gc.
In fact I am 99% sure no constructor is called after delete,
it would cause problems for objects with no default
constructor, or for system related stuff done in constructors,
and I haven't seen anything like that in my X11 work in d.
I guess I got confused by something... I don't know. But what
I'd really like is for it to be garbage colleceted when no
references outside of that static array exist, as i mentioned
at the bottom of my first post. I illustrated my example with
that specific class because when i looked up weak pointers on
the site I found discussions getting caught up with how to
avoid dangling pointers when weak pointers are used; and I
wanted to illustrate that that's a non-issue in this case,
because I wasn't sure how much that contributed to the
solutions given.
I suppose it doesn't matter because this is based on something
I do with multiple inheritance in C++, I felt like I may be
able to get it to work in D because the only public members of
those classes were always pure virtual functions.
As an aside, how does scope(success) work in the context of a
constructor? given:
abstract class foo
{
this()
{
scope(success) onAdd();
}
~this()
{
onRemove();
}
onAdd();
onRemove();
}
class bar : foo
{
int _a;
this(int a)
{
_a = a;
}
void onAdd(){ writeln(_a); }
void onRemove() { writeln(_a); }
}
is _a defined as anything in either of writes? or would it be
called at the wrong time relative to setting _a?
As of yet their are no built in weak references/pointers, you can
jerry rig them however.
constructors will implicitly call super at the top of the
function if no super call is made within the function body, so
this( int a ) {
// super(); is called here if not defined below
_a = a;
}
I'd really like is for it to be garbage colleceted when no
references outside of that static array exist, as i mentioned
at the bottom of my first post.
Can't easily do this yet, would require you writing your own list
class, as std.container, does not have any way of passing an
allocator to it.
They are coming, slowly but surely we will eventually have them.
Allocators would allow container classes to create objects(nodes
and such) that are in memory that is not scanned by the garbage
collector.
You can in fact allocate memory manually right now, via
std.c.memory or std.c.stdlib (don't member which one has c malloc
and free).
Just be sure to familiarize your self with the manual gc
registration and deregistration functions in core.memory.