The whole alien thing was fun when I was in my teens but now I feel like if they landed on the Whitehouse lawn I would say "oh yeah, cool", and carry on with my day.
So I ran into this issue where I have this vector<objects> but the objects have members that refer to indexes in the vector. The vector<objects> is that object pool that I've been struggling to get right. The objects need to manipulate other items in the vector as part of their destruction or construction. When when vector.resize() is called it isn't clear if they refer to the original or resized vector. Among other issues.
Not really sure how that would work. One alternative to facilitate resizing the vector<object> pool is to copy everything into a new vector<object> and then somehow std::move() the copy into the old place. But I'm not sure if this will fix anything.
Fuck, explaining why its taking so long to get this right will be challenging, especially since I find myself, once again, the only person who is doing C++ (or really any language that requires memory management).
I mean, I have an std::vector<shared_ptr_data_blocks> and a free list. I'm trying to write, among other things, a object pool backed version of std::shared_ptr to avoid malloc overhead for small allocations.
But ultimately, I'll need to reallocate the objects on my pool. It's just that while a re- allocation is happening the objects may need to refer to things on the pool.
maybe, but here Mikhail wants to avoid small allocations and have pointer stability, in this way he isn't bound to the implementation of std::deque to achieve that
Melsort 2018: `std::list` with `std::allocator` Melsort 2021.0: `std::list` with libstdc++ `bitmap_allocator` Melsort 2021.1: custom list implementation based one a fixed-size node pool
The others are my custom list implementation with a gradually better list::merge algorithm
The takeaway is that bitmap_allocator, when available, is pretty much always better than std::allocator for std::list
But at the end of the day, when it really matters you're better off writing your own list
@ratchetfreak So related to this approach, have you ever thought about how to scale it really large allocations? Have an optimal solution for allocating hundreds of gigs as well as a few kilobytes, maybe have the size of the chunk scale? Or maybe just always allocate like 10 megabytes (I think memory pages are usually fixed..).