f999f52f0a
Adds a FramebufferCache singletion that operates the same way as UniformSetCache. Allows creating framebuffers on the fly (and keep them cached if re-requested) such as: ```C++ RID fb = FramebufferCache::get_singleton()->get_cache(texture1,texture2); ```
487 lines
13 KiB
C++
487 lines
13 KiB
C++
/*************************************************************************/
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/* rid_owner.h */
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/*************************************************************************/
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/* This file is part of: */
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/* GODOT ENGINE */
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/* https://godotengine.org */
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/*************************************************************************/
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/* Copyright (c) 2007-2022 Juan Linietsky, Ariel Manzur. */
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/* Copyright (c) 2014-2022 Godot Engine contributors (cf. AUTHORS.md). */
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/* */
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/* Permission is hereby granted, free of charge, to any person obtaining */
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/* a copy of this software and associated documentation files (the */
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/* "Software"), to deal in the Software without restriction, including */
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/* without limitation the rights to use, copy, modify, merge, publish, */
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/* distribute, sublicense, and/or sell copies of the Software, and to */
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/* permit persons to whom the Software is furnished to do so, subject to */
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/* the following conditions: */
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/* */
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/* The above copyright notice and this permission notice shall be */
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/* included in all copies or substantial portions of the Software. */
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/* */
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/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
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/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
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/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.*/
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/* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
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/* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
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/* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
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/* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
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/*************************************************************************/
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#ifndef RID_OWNER_H
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#define RID_OWNER_H
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#include "core/os/memory.h"
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#include "core/os/spin_lock.h"
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#include "core/string/print_string.h"
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#include "core/templates/hash_set.h"
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#include "core/templates/list.h"
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#include "core/templates/oa_hash_map.h"
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#include "core/templates/rid.h"
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#include "core/templates/safe_refcount.h"
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#include <stdio.h>
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#include <typeinfo>
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class RID_AllocBase {
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static SafeNumeric<uint64_t> base_id;
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protected:
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static RID _make_from_id(uint64_t p_id) {
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RID rid;
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rid._id = p_id;
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return rid;
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}
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static RID _gen_rid() {
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return _make_from_id(_gen_id());
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}
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friend struct VariantUtilityFunctions;
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static uint64_t _gen_id() {
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return base_id.increment();
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}
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public:
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virtual ~RID_AllocBase() {}
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};
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template <class T, bool THREAD_SAFE = false>
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class RID_Alloc : public RID_AllocBase {
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T **chunks = nullptr;
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uint32_t **free_list_chunks = nullptr;
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uint32_t **validator_chunks = nullptr;
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uint32_t elements_in_chunk;
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uint32_t max_alloc = 0;
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uint32_t alloc_count = 0;
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const char *description = nullptr;
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mutable SpinLock spin_lock;
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_FORCE_INLINE_ RID _allocate_rid() {
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if (THREAD_SAFE) {
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spin_lock.lock();
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}
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if (alloc_count == max_alloc) {
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//allocate a new chunk
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uint32_t chunk_count = alloc_count == 0 ? 0 : (max_alloc / elements_in_chunk);
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//grow chunks
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chunks = (T **)memrealloc(chunks, sizeof(T *) * (chunk_count + 1));
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chunks[chunk_count] = (T *)memalloc(sizeof(T) * elements_in_chunk); //but don't initialize
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//grow validators
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validator_chunks = (uint32_t **)memrealloc(validator_chunks, sizeof(uint32_t *) * (chunk_count + 1));
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validator_chunks[chunk_count] = (uint32_t *)memalloc(sizeof(uint32_t) * elements_in_chunk);
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//grow free lists
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free_list_chunks = (uint32_t **)memrealloc(free_list_chunks, sizeof(uint32_t *) * (chunk_count + 1));
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free_list_chunks[chunk_count] = (uint32_t *)memalloc(sizeof(uint32_t) * elements_in_chunk);
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//initialize
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for (uint32_t i = 0; i < elements_in_chunk; i++) {
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// Don't initialize chunk.
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validator_chunks[chunk_count][i] = 0xFFFFFFFF;
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free_list_chunks[chunk_count][i] = alloc_count + i;
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}
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max_alloc += elements_in_chunk;
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}
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uint32_t free_index = free_list_chunks[alloc_count / elements_in_chunk][alloc_count % elements_in_chunk];
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uint32_t free_chunk = free_index / elements_in_chunk;
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uint32_t free_element = free_index % elements_in_chunk;
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uint32_t validator = (uint32_t)(_gen_id() & 0x7FFFFFFF);
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uint64_t id = validator;
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id <<= 32;
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id |= free_index;
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validator_chunks[free_chunk][free_element] = validator;
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validator_chunks[free_chunk][free_element] |= 0x80000000; //mark uninitialized bit
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alloc_count++;
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if (THREAD_SAFE) {
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spin_lock.unlock();
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}
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return _make_from_id(id);
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}
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public:
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RID make_rid() {
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RID rid = _allocate_rid();
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initialize_rid(rid);
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return rid;
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}
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RID make_rid(const T &p_value) {
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RID rid = _allocate_rid();
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initialize_rid(rid, p_value);
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return rid;
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}
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//allocate but don't initialize, use initialize_rid afterwards
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RID allocate_rid() {
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return _allocate_rid();
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}
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_FORCE_INLINE_ T *get_or_null(const RID &p_rid, bool p_initialize = false) {
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if (p_rid == RID()) {
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return nullptr;
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}
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if (THREAD_SAFE) {
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spin_lock.lock();
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}
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uint64_t id = p_rid.get_id();
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uint32_t idx = uint32_t(id & 0xFFFFFFFF);
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if (unlikely(idx >= max_alloc)) {
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if (THREAD_SAFE) {
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spin_lock.unlock();
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}
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return nullptr;
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}
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uint32_t idx_chunk = idx / elements_in_chunk;
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uint32_t idx_element = idx % elements_in_chunk;
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uint32_t validator = uint32_t(id >> 32);
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if (unlikely(p_initialize)) {
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if (unlikely(!(validator_chunks[idx_chunk][idx_element] & 0x80000000))) {
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if (THREAD_SAFE) {
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spin_lock.unlock();
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}
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ERR_FAIL_V_MSG(nullptr, "Initializing already initialized RID");
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}
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if (unlikely((validator_chunks[idx_chunk][idx_element] & 0x7FFFFFFF) != validator)) {
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if (THREAD_SAFE) {
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spin_lock.unlock();
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}
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ERR_FAIL_V_MSG(nullptr, "Attempting to initialize the wrong RID");
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return nullptr;
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}
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validator_chunks[idx_chunk][idx_element] &= 0x7FFFFFFF; //initialized
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} else if (unlikely(validator_chunks[idx_chunk][idx_element] != validator)) {
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if (THREAD_SAFE) {
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spin_lock.unlock();
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}
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if ((validator_chunks[idx_chunk][idx_element] & 0x80000000) && validator_chunks[idx_chunk][idx_element] != 0xFFFFFFFF) {
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ERR_FAIL_V_MSG(nullptr, "Attempting to use an uninitialized RID");
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}
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return nullptr;
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}
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T *ptr = &chunks[idx_chunk][idx_element];
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if (THREAD_SAFE) {
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spin_lock.unlock();
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}
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return ptr;
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}
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void initialize_rid(RID p_rid) {
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T *mem = get_or_null(p_rid, true);
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ERR_FAIL_COND(!mem);
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memnew_placement(mem, T);
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}
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void initialize_rid(RID p_rid, const T &p_value) {
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T *mem = get_or_null(p_rid, true);
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ERR_FAIL_COND(!mem);
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memnew_placement(mem, T(p_value));
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}
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_FORCE_INLINE_ bool owns(const RID &p_rid) const {
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if (THREAD_SAFE) {
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spin_lock.lock();
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}
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uint64_t id = p_rid.get_id();
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uint32_t idx = uint32_t(id & 0xFFFFFFFF);
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if (unlikely(idx >= max_alloc)) {
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if (THREAD_SAFE) {
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spin_lock.unlock();
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}
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return false;
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}
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uint32_t idx_chunk = idx / elements_in_chunk;
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uint32_t idx_element = idx % elements_in_chunk;
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uint32_t validator = uint32_t(id >> 32);
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bool owned = (validator_chunks[idx_chunk][idx_element] & 0x7FFFFFFF) == validator;
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if (THREAD_SAFE) {
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spin_lock.unlock();
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}
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return owned;
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}
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_FORCE_INLINE_ void free(const RID &p_rid) {
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if (THREAD_SAFE) {
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spin_lock.lock();
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}
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uint64_t id = p_rid.get_id();
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uint32_t idx = uint32_t(id & 0xFFFFFFFF);
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if (unlikely(idx >= max_alloc)) {
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if (THREAD_SAFE) {
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spin_lock.unlock();
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}
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ERR_FAIL();
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}
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uint32_t idx_chunk = idx / elements_in_chunk;
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uint32_t idx_element = idx % elements_in_chunk;
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uint32_t validator = uint32_t(id >> 32);
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if (unlikely(validator_chunks[idx_chunk][idx_element] & 0x80000000)) {
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if (THREAD_SAFE) {
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spin_lock.unlock();
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}
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ERR_FAIL_MSG("Attempted to free an uninitialized or invalid RID");
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} else if (unlikely(validator_chunks[idx_chunk][idx_element] != validator)) {
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if (THREAD_SAFE) {
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spin_lock.unlock();
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}
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ERR_FAIL();
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}
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chunks[idx_chunk][idx_element].~T();
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validator_chunks[idx_chunk][idx_element] = 0xFFFFFFFF; // go invalid
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alloc_count--;
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free_list_chunks[alloc_count / elements_in_chunk][alloc_count % elements_in_chunk] = idx;
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if (THREAD_SAFE) {
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spin_lock.unlock();
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}
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}
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_FORCE_INLINE_ uint32_t get_rid_count() const {
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return alloc_count;
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}
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void get_owned_list(List<RID> *p_owned) const {
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if (THREAD_SAFE) {
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spin_lock.lock();
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}
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for (size_t i = 0; i < max_alloc; i++) {
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uint64_t validator = validator_chunks[i / elements_in_chunk][i % elements_in_chunk];
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if (validator != 0xFFFFFFFF) {
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p_owned->push_back(_make_from_id((validator << 32) | i));
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}
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}
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if (THREAD_SAFE) {
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spin_lock.unlock();
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}
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}
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//used for fast iteration in the elements or RIDs
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void fill_owned_buffer(RID *p_rid_buffer) const {
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if (THREAD_SAFE) {
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spin_lock.lock();
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}
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uint32_t idx = 0;
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for (size_t i = 0; i < max_alloc; i++) {
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uint64_t validator = validator_chunks[i / elements_in_chunk][i % elements_in_chunk];
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if (validator != 0xFFFFFFFF) {
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p_rid_buffer[idx] = _make_from_id((validator << 32) | i);
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idx++;
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}
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}
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if (THREAD_SAFE) {
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spin_lock.unlock();
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}
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}
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void set_description(const char *p_descrption) {
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description = p_descrption;
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}
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RID_Alloc(uint32_t p_target_chunk_byte_size = 65536) {
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elements_in_chunk = sizeof(T) > p_target_chunk_byte_size ? 1 : (p_target_chunk_byte_size / sizeof(T));
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}
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~RID_Alloc() {
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if (alloc_count) {
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if (description) {
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print_error("ERROR: " + itos(alloc_count) + " RID allocations of type '" + description + "' were leaked at exit.");
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} else {
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#ifdef NO_SAFE_CAST
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print_error("ERROR: " + itos(alloc_count) + " RID allocations of type 'unknown' were leaked at exit.");
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#else
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print_error("ERROR: " + itos(alloc_count) + " RID allocations of type '" + typeid(T).name() + "' were leaked at exit.");
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#endif
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}
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for (size_t i = 0; i < max_alloc; i++) {
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uint64_t validator = validator_chunks[i / elements_in_chunk][i % elements_in_chunk];
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if (validator & 0x80000000) {
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continue; //uninitialized
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}
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if (validator != 0xFFFFFFFF) {
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chunks[i / elements_in_chunk][i % elements_in_chunk].~T();
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}
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}
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}
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uint32_t chunk_count = max_alloc / elements_in_chunk;
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for (uint32_t i = 0; i < chunk_count; i++) {
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memfree(chunks[i]);
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memfree(validator_chunks[i]);
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memfree(free_list_chunks[i]);
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}
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if (chunks) {
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memfree(chunks);
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memfree(free_list_chunks);
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memfree(validator_chunks);
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}
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}
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};
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template <class T, bool THREAD_SAFE = false>
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class RID_PtrOwner {
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RID_Alloc<T *, THREAD_SAFE> alloc;
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public:
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_FORCE_INLINE_ RID make_rid(T *p_ptr) {
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return alloc.make_rid(p_ptr);
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}
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_FORCE_INLINE_ RID allocate_rid() {
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return alloc.allocate_rid();
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}
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_FORCE_INLINE_ void initialize_rid(RID p_rid, T *p_ptr) {
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alloc.initialize_rid(p_rid, p_ptr);
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}
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_FORCE_INLINE_ T *get_or_null(const RID &p_rid) {
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T **ptr = alloc.get_or_null(p_rid);
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if (unlikely(!ptr)) {
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return nullptr;
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}
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return *ptr;
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}
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_FORCE_INLINE_ void replace(const RID &p_rid, T *p_new_ptr) {
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T **ptr = alloc.get_or_null(p_rid);
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ERR_FAIL_COND(!ptr);
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*ptr = p_new_ptr;
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}
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_FORCE_INLINE_ bool owns(const RID &p_rid) const {
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return alloc.owns(p_rid);
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}
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_FORCE_INLINE_ void free(const RID &p_rid) {
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alloc.free(p_rid);
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}
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_FORCE_INLINE_ uint32_t get_rid_count() const {
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return alloc.get_rid_count();
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}
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_FORCE_INLINE_ void get_owned_list(List<RID> *p_owned) const {
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return alloc.get_owned_list(p_owned);
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}
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void fill_owned_buffer(RID *p_rid_buffer) const {
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alloc.fill_owned_buffer(p_rid_buffer);
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}
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void set_description(const char *p_descrption) {
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alloc.set_description(p_descrption);
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}
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RID_PtrOwner(uint32_t p_target_chunk_byte_size = 65536) :
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alloc(p_target_chunk_byte_size) {}
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};
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template <class T, bool THREAD_SAFE = false>
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class RID_Owner {
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RID_Alloc<T, THREAD_SAFE> alloc;
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public:
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_FORCE_INLINE_ RID make_rid() {
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return alloc.make_rid();
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}
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_FORCE_INLINE_ RID make_rid(const T &p_ptr) {
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return alloc.make_rid(p_ptr);
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}
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_FORCE_INLINE_ RID allocate_rid() {
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return alloc.allocate_rid();
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}
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_FORCE_INLINE_ void initialize_rid(RID p_rid) {
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alloc.initialize_rid(p_rid);
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}
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_FORCE_INLINE_ void initialize_rid(RID p_rid, const T &p_ptr) {
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alloc.initialize_rid(p_rid, p_ptr);
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}
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_FORCE_INLINE_ T *get_or_null(const RID &p_rid) {
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return alloc.get_or_null(p_rid);
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}
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_FORCE_INLINE_ bool owns(const RID &p_rid) const {
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return alloc.owns(p_rid);
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}
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_FORCE_INLINE_ void free(const RID &p_rid) {
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alloc.free(p_rid);
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}
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_FORCE_INLINE_ uint32_t get_rid_count() const {
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return alloc.get_rid_count();
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}
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_FORCE_INLINE_ void get_owned_list(List<RID> *p_owned) const {
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return alloc.get_owned_list(p_owned);
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}
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void fill_owned_buffer(RID *p_rid_buffer) const {
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alloc.fill_owned_buffer(p_rid_buffer);
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}
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void set_description(const char *p_descrption) {
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alloc.set_description(p_descrption);
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}
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RID_Owner(uint32_t p_target_chunk_byte_size = 65536) :
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alloc(p_target_chunk_byte_size) {}
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};
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#endif // RID_OWNER_H
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