However you can choose not to pass a parameter and it will return a dynamically allocated pointer but if you do pass a pointer then it just fills it in instead of creating one on the heap. This is a single function not overloaded.
Instead of using default arguments, you could overload the function:
point* funct(point *p = some_value)
// fills p
return funct(new point());
It might not be the right way but somewhere I think in the linux libraries there was a function that works exactly like above not sure how it is allocated internally though
I'm not aware of any such function. I would guess you're thinking of realloc which takes a pointer and a
size_t and then decides whether to allocate memory, adjust already allocated memory, or free memory.
Now i can't think if this is right way to do it and if it is then what could be a good some_value? it can't be NULL because when you pass empty pointer it will also be NULL and not sure if it is safe to have it greater than 0. Also you can't have negative numbers on pointers either, so whats a good safe value?
I think your confusion comes from a fundamental misunderstanding of the
int x = 5;
int* px = &x;
int* p_null = NULL;
int* p_new = new int();
px points to x, so it's not
p_null begins life as
NULL which means it doesn't point to anything.
I think you're using the term "empty pointer" to refer to something like
p_new. However, although
p doesn't point to a valid object it wasn't set to
NULL either. It's effectively an invalid pointer, and there is no portable way to tell that it's invalid (on some machines it may be possible to tell if something is obviously not valid, but even then it's not possible to catch all invalid pointers -- see note -- and you probably don't want to anyway -- second half).
p_new points to a valid address in dynamic memory. It's not NULL. It's not empty. In fact,
new will initialize the
int to 0.
In other words,
NULL is the value you pass to functions that expect a pointer to tell them you don't have a pointer. That's what it is. And there isn't really the idea of an empty pointer. Dangling pointers (either uninitialized pointers, or pointers to memory that you don't have access to) aren't
NULL, because if they were
NULL they wouldn't dangle. And it's impossible to validate pointers in all cases to determine if they are valid.
int* p_new2 = new int();
delete does not set
NULL. So after the
p_new2 will have an address in the correct range for a valid pointer (meaning that Windows' VirtualQuery method will say "sure, a pointer could point there"), but will not have permission to actually dereference that memory address.
This is a terribly bad idea, don't do it:
int y = 5;
int* x = funct();
y ceases to exist after
funct() returns. So the the pointer to
funct() hands you points to something that doesn't exist. So you get a dangling pointer. You're not talking about doing this, but it's a common mistake, and it will bite you.