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test2/source/blender/blenkernel/intern/main_idmap.cc
Bastien Montagne 7aced80eec Cleanup: blenkernel: Replace 'void' MEM_[cm]allocN with templated, type-safe MEM_[cm]allocN<T>. 
The main issue of 'type-less' standard C allocations is that there is no check on
allocated type possible.

This is a serious source of annoyance (and crashes) when making some
low-level structs non-trivial, as tracking down all usages of these
structs in higher-level other structs and their allocation is... really
painful.

MEM_[cm]allocN<T> templates on the other hand do check that the
given type is trivial, at build time (static assert), which makes such issue...
trivial to catch.

NOTE: New code should strive to use MEM_new (i.e. allocation and
construction) as much as possible, even for trivial PoD types.

Pull Request: https://projects.blender.org/blender/blender/pulls/136134
2025-03-20 11:25:19 +01:00

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/* SPDX-FileCopyrightText: 2023 Blender Authors
*
* SPDX-License-Identifier: GPL-2.0-or-later */
#include <cstdlib>
#include <cstring>
#include "MEM_guardedalloc.h"
#include "BLI_ghash.h"
#include "BLI_mempool.h"
#include "BLI_utildefines.h"
#include "DNA_ID.h"
#include "BKE_idtype.hh"
#include "BKE_lib_id.hh"
#include "BKE_main.hh"
#include "BKE_main_idmap.hh" /* own include */
/** \file
* \ingroup bke
*
* Utility functions for faster ID lookups.
*/
/* -------------------------------------------------------------------- */
/** \name BKE_main_idmap API
*
* Cache ID (name, library lookups).
* This doesn't account for adding/removing data-blocks,
* and should only be used when performing many lookups.
*
* \note GHash's are initialized on demand,
* since its likely some types will never have lookups run on them,
* so its a waste to create and never use.
* \{ */
struct IDNameLib_Key {
/** `ID.name + 2`: without the ID type prefix, since each id type gets its own 'map'. */
const char *name;
/** `ID.lib`: */
const Library *lib;
};
struct IDNameLib_TypeMap {
GHash *map;
short id_type;
};
/**
* Opaque structure, external API users only see this.
*/
struct IDNameLib_Map {
IDNameLib_TypeMap type_maps[INDEX_ID_MAX];
GHash *uid_map;
Main *bmain;
GSet *valid_id_pointers;
int idmap_types;
/* For storage of keys for the #TypeMap #GHash, avoids many single allocations. */
BLI_mempool *type_maps_keys_pool;
};
static IDNameLib_TypeMap *main_idmap_from_idcode(IDNameLib_Map *id_map, short id_type)
{
if (id_map->idmap_types & MAIN_IDMAP_TYPE_NAME) {
for (int i = 0; i < INDEX_ID_MAX; i++) {
if (id_map->type_maps[i].id_type == id_type) {
return &id_map->type_maps[i];
}
}
}
return nullptr;
}
IDNameLib_Map *BKE_main_idmap_create(Main *bmain,
const bool create_valid_ids_set,
Main *old_bmain,
const int idmap_types)
{
IDNameLib_Map *id_map = MEM_mallocN<IDNameLib_Map>(__func__);
id_map->bmain = bmain;
id_map->idmap_types = idmap_types;
int index = 0;
while (index < INDEX_ID_MAX) {
IDNameLib_TypeMap *type_map = &id_map->type_maps[index];
type_map->map = nullptr;
type_map->id_type = BKE_idtype_idcode_iter_step(&index);
BLI_assert(type_map->id_type != 0);
}
BLI_assert(index == INDEX_ID_MAX);
id_map->type_maps_keys_pool = nullptr;
if (idmap_types & MAIN_IDMAP_TYPE_UID) {
ID *id;
id_map->uid_map = BLI_ghash_int_new(__func__);
FOREACH_MAIN_ID_BEGIN (bmain, id) {
BLI_assert(id->session_uid != MAIN_ID_SESSION_UID_UNSET);
void **id_ptr_v;
const bool existing_key = BLI_ghash_ensure_p(
id_map->uid_map, POINTER_FROM_UINT(id->session_uid), &id_ptr_v);
BLI_assert(existing_key == false);
UNUSED_VARS_NDEBUG(existing_key);
*id_ptr_v = id;
}
FOREACH_MAIN_ID_END;
}
else {
id_map->uid_map = nullptr;
}
if (create_valid_ids_set) {
id_map->valid_id_pointers = BKE_main_gset_create(bmain, nullptr);
if (old_bmain != nullptr) {
id_map->valid_id_pointers = BKE_main_gset_create(old_bmain, id_map->valid_id_pointers);
}
}
else {
id_map->valid_id_pointers = nullptr;
}
return id_map;
}
void BKE_main_idmap_insert_id(IDNameLib_Map *id_map, ID *id)
{
if (id_map->idmap_types & MAIN_IDMAP_TYPE_NAME) {
const short id_type = GS(id->name);
IDNameLib_TypeMap *type_map = main_idmap_from_idcode(id_map, id_type);
/* No need to do anything if map has not been lazily created yet. */
if (LIKELY(type_map != nullptr) && type_map->map != nullptr) {
BLI_assert(id_map->type_maps_keys_pool != nullptr);
IDNameLib_Key *key = static_cast<IDNameLib_Key *>(
BLI_mempool_alloc(id_map->type_maps_keys_pool));
key->name = id->name + 2;
key->lib = id->lib;
BLI_ghash_insert(type_map->map, key, id);
}
}
if (id_map->idmap_types & MAIN_IDMAP_TYPE_UID) {
BLI_assert(id_map->uid_map != nullptr);
BLI_assert(id->session_uid != MAIN_ID_SESSION_UID_UNSET);
void **id_ptr_v;
const bool existing_key = BLI_ghash_ensure_p(
id_map->uid_map, POINTER_FROM_UINT(id->session_uid), &id_ptr_v);
BLI_assert(existing_key == false);
UNUSED_VARS_NDEBUG(existing_key);
*id_ptr_v = id;
}
}
void BKE_main_idmap_remove_id(IDNameLib_Map *id_map, const ID *id)
{
if (id_map->idmap_types & MAIN_IDMAP_TYPE_NAME) {
const short id_type = GS(id->name);
IDNameLib_TypeMap *type_map = main_idmap_from_idcode(id_map, id_type);
/* No need to do anything if map has not been lazily created yet. */
if (LIKELY(type_map != nullptr) && type_map->map != nullptr) {
BLI_assert(id_map->type_maps_keys_pool != nullptr);
/* NOTE: We cannot free the key from the MemPool here, would need new API from GHash to also
* retrieve key pointer. Not a big deal for now */
IDNameLib_Key key{id->name + 2, id->lib};
BLI_ghash_remove(type_map->map, &key, nullptr, nullptr);
}
}
if (id_map->idmap_types & MAIN_IDMAP_TYPE_UID) {
BLI_assert(id_map->uid_map != nullptr);
BLI_assert(id->session_uid != MAIN_ID_SESSION_UID_UNSET);
BLI_ghash_remove(id_map->uid_map, POINTER_FROM_UINT(id->session_uid), nullptr, nullptr);
}
}
Main *BKE_main_idmap_main_get(IDNameLib_Map *id_map)
{
return id_map->bmain;
}
static uint idkey_hash(const void *ptr)
{
const IDNameLib_Key *idkey = static_cast<const IDNameLib_Key *>(ptr);
uint key = BLI_ghashutil_strhash(idkey->name);
if (idkey->lib) {
key ^= BLI_ghashutil_ptrhash(idkey->lib);
}
return key;
}
static bool idkey_cmp(const void *a, const void *b)
{
const IDNameLib_Key *idkey_a = static_cast<const IDNameLib_Key *>(a);
const IDNameLib_Key *idkey_b = static_cast<const IDNameLib_Key *>(b);
return !STREQ(idkey_a->name, idkey_b->name) || (idkey_a->lib != idkey_b->lib);
}
ID *BKE_main_idmap_lookup_name(IDNameLib_Map *id_map,
short id_type,
const char *name,
const Library *lib)
{
IDNameLib_TypeMap *type_map = main_idmap_from_idcode(id_map, id_type);
if (UNLIKELY(type_map == nullptr)) {
return nullptr;
}
/* Lazy init. */
if (type_map->map == nullptr) {
if (id_map->type_maps_keys_pool == nullptr) {
id_map->type_maps_keys_pool = BLI_mempool_create(
sizeof(IDNameLib_Key), 1024, 1024, BLI_MEMPOOL_NOP);
}
GHash *map = type_map->map = BLI_ghash_new(idkey_hash, idkey_cmp, __func__);
ListBase *lb = which_libbase(id_map->bmain, id_type);
for (ID *id = static_cast<ID *>(lb->first); id; id = static_cast<ID *>(id->next)) {
IDNameLib_Key *key = static_cast<IDNameLib_Key *>(
BLI_mempool_alloc(id_map->type_maps_keys_pool));
key->name = id->name + 2;
key->lib = id->lib;
BLI_ghash_insert(map, key, id);
}
}
const IDNameLib_Key key_lookup = {name, lib};
return static_cast<ID *>(BLI_ghash_lookup(type_map->map, &key_lookup));
}
ID *BKE_main_idmap_lookup_id(IDNameLib_Map *id_map, const ID *id)
{
/* When used during undo/redo, this function cannot assume that given id points to valid memory
* (i.e. has not been freed),
* so it has to check that it does exist in 'old' (aka current) Main database.
* Otherwise, we cannot provide new ID pointer that way (would crash accessing freed memory
* when trying to get ID name).
*/
if (id_map->valid_id_pointers == nullptr || BLI_gset_haskey(id_map->valid_id_pointers, id)) {
return BKE_main_idmap_lookup_name(id_map, GS(id->name), id->name + 2, id->lib);
}
return nullptr;
}
ID *BKE_main_idmap_lookup_uid(IDNameLib_Map *id_map, const uint session_uid)
{
if (id_map->idmap_types & MAIN_IDMAP_TYPE_UID) {
return static_cast<ID *>(BLI_ghash_lookup(id_map->uid_map, POINTER_FROM_UINT(session_uid)));
}
return nullptr;
}
void BKE_main_idmap_clear(IDNameLib_Map &id_map)
{
if (id_map.idmap_types & MAIN_IDMAP_TYPE_NAME) {
for (IDNameLib_TypeMap &type_map : id_map.type_maps) {
if (type_map.map) {
BLI_ghash_clear(type_map.map, nullptr, nullptr);
}
}
}
if (id_map.idmap_types & MAIN_IDMAP_TYPE_UID) {
BLI_ghash_clear(id_map.uid_map, nullptr, nullptr);
}
if (id_map.valid_id_pointers != nullptr) {
BLI_gset_clear(id_map.valid_id_pointers, nullptr);
}
}
void BKE_main_idmap_destroy(IDNameLib_Map *id_map)
{
if (id_map->idmap_types & MAIN_IDMAP_TYPE_NAME) {
for (IDNameLib_TypeMap &type_map : id_map->type_maps) {
if (type_map.map) {
BLI_ghash_free(type_map.map, nullptr, nullptr);
type_map.map = nullptr;
}
}
if (id_map->type_maps_keys_pool != nullptr) {
BLI_mempool_destroy(id_map->type_maps_keys_pool);
id_map->type_maps_keys_pool = nullptr;
}
}
if (id_map->idmap_types & MAIN_IDMAP_TYPE_UID) {
BLI_ghash_free(id_map->uid_map, nullptr, nullptr);
}
BLI_assert(id_map->type_maps_keys_pool == nullptr);
if (id_map->valid_id_pointers != nullptr) {
BLI_gset_free(id_map->valid_id_pointers, nullptr);
}
MEM_freeN(id_map);
}
/** \} */
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