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test/source/blender/blenkernel/intern/main.cc
Bastien Montagne 48e26c3afe MEM_guardedalloc: Refactor to add more type-safety. 
The main goal of these changes are to improve static (i.e. build-time)
checks on whether a given data can be allocated and freed with `malloc`
and `free` (C-style), or requires proper C++-style construction and
destruction (`new` and `delete`).

* Add new `MEM_malloc_arrayN_aligned` API.
* Make `MEM_freeN` a template function in C++, which does static assert on
  type triviality.
* Add `MEM_SAFE_DELETE`, similar to `MEM_SAFE_FREE` but calling
  `MEM_delete`.

The changes to `MEM_freeN` was painful and useful, as it allowed to fix a bunch
of invalid calls in existing codebase already.

It also highlighted a fair amount of places where it is called to free incomplete
type pointers, which is likely a sign of badly designed code (there should
rather be an API to destroy and free these data then, if the data type is not fully
publicly exposed). For now, these are 'worked around' by explicitly casting the
freed pointers to `void *` in these cases - which also makes them easy to search for.
Some of these will be addressed separately (see blender/blender!134765).

Finally, MSVC seems to consider structs defining new/delete operators (e.g. by
using the `MEM_CXX_CLASS_ALLOC_FUNCS` macro) as non-trivial. This does not
seem to follow the definition of type triviality, so for now static type checking in
`MEM_freeN` has been disabled for Windows. We'll likely have to do the same
with type-safe `MEM_[cm]allocN` API being worked on in blender/blender!134771

Based on ideas from Brecht in blender/blender!134452

Pull Request: https://projects.blender.org/blender/blender/pulls/134463
2025-02-20 10:37:10 +01:00

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/* SPDX-FileCopyrightText: 2001-2002 NaN Holding BV. All rights reserved.
*
* SPDX-License-Identifier: GPL-2.0-or-later */
/** \file
* \ingroup bke
*
* Contains management of #Main database itself.
*/
#include <cstring>
#include <iostream>
#include "CLG_log.h"
#include "MEM_guardedalloc.h"
#include "BLI_ghash.h"
#include "BLI_listbase.h"
#include "BLI_map.hh"
#include "BLI_mempool.h"
#include "BLI_path_utils.hh"
#include "BLI_string.h"
#include "BLI_threads.h"
#include "BLI_vector.hh"
#include "DNA_ID.h"
#include "BKE_bpath.hh"
#include "BKE_global.hh"
#include "BKE_idtype.hh"
#include "BKE_lib_id.hh"
#include "BKE_lib_query.hh"
#include "BKE_lib_remap.hh"
#include "BKE_library.hh"
#include "BKE_main.hh"
#include "BKE_main_idmap.hh"
#include "BKE_main_namemap.hh"
#include "BKE_report.hh"
#include "IMB_imbuf.hh"
#include "IMB_imbuf_types.hh"
using namespace blender::bke;
static CLG_LogRef LOG = {"bke.main"};
Main *BKE_main_new()
{
Main *bmain = static_cast<Main *>(MEM_callocN(sizeof(Main), "new main"));
BKE_main_init(*bmain);
return bmain;
}
void BKE_main_init(Main &bmain)
{
bmain.lock = static_cast<MainLock *>(MEM_mallocN(sizeof(SpinLock), "main lock"));
BLI_spin_init(reinterpret_cast<SpinLock *>(bmain.lock));
bmain.is_global_main = false;
/* Just rebuilding the Action Slot to ID* map once is likely cheaper than,
* for every ID, when it's loaded from disk, check whether it's animated or
* not, and then figure out which Main it went into, and then set the flag. */
bmain.is_action_slot_to_id_map_dirty = true;
}
void BKE_main_clear(Main &bmain)
{
/* Also call when reading a file, erase all, etc */
/* Since we are removing whole main, no need to bother 'properly' (and slowly) removing each ID
* from it. */
const int free_flag = (LIB_ID_FREE_NO_MAIN | LIB_ID_FREE_NO_UI_USER |
LIB_ID_FREE_NO_USER_REFCOUNT | LIB_ID_FREE_NO_DEG_TAG);
MEM_SAFE_FREE(bmain.blen_thumb);
MainListsArray lbarray = BKE_main_lists_get(bmain);
int a = lbarray.size();
while (a--) {
ListBase *lb = lbarray[a];
ID *id, *id_next;
for (id = static_cast<ID *>(lb->first); id != nullptr; id = id_next) {
id_next = static_cast<ID *>(id->next);
#if 1
BKE_id_free_ex(&bmain, id, free_flag, false);
#else
/* Errors freeing ID's can be hard to track down,
* enable this so VALGRIND or ASAN will give the line number in its error log. */
# define CASE_ID_INDEX(id_index) \
case id_index: \
BKE_id_free_ex(&bmain, id, free_flag, false); \
break
switch ((eID_Index)a) {
CASE_ID_INDEX(INDEX_ID_LI);
CASE_ID_INDEX(INDEX_ID_IP);
CASE_ID_INDEX(INDEX_ID_AC);
CASE_ID_INDEX(INDEX_ID_GD_LEGACY);
CASE_ID_INDEX(INDEX_ID_NT);
CASE_ID_INDEX(INDEX_ID_VF);
CASE_ID_INDEX(INDEX_ID_TXT);
CASE_ID_INDEX(INDEX_ID_SO);
CASE_ID_INDEX(INDEX_ID_MSK);
CASE_ID_INDEX(INDEX_ID_IM);
CASE_ID_INDEX(INDEX_ID_MC);
CASE_ID_INDEX(INDEX_ID_TE);
CASE_ID_INDEX(INDEX_ID_MA);
CASE_ID_INDEX(INDEX_ID_LS);
CASE_ID_INDEX(INDEX_ID_WO);
CASE_ID_INDEX(INDEX_ID_CF);
CASE_ID_INDEX(INDEX_ID_SIM);
CASE_ID_INDEX(INDEX_ID_PA);
CASE_ID_INDEX(INDEX_ID_KE);
CASE_ID_INDEX(INDEX_ID_AR);
CASE_ID_INDEX(INDEX_ID_ME);
CASE_ID_INDEX(INDEX_ID_CU_LEGACY);
CASE_ID_INDEX(INDEX_ID_MB);
CASE_ID_INDEX(INDEX_ID_CV);
CASE_ID_INDEX(INDEX_ID_PT);
CASE_ID_INDEX(INDEX_ID_VO);
CASE_ID_INDEX(INDEX_ID_LT);
CASE_ID_INDEX(INDEX_ID_LA);
CASE_ID_INDEX(INDEX_ID_CA);
CASE_ID_INDEX(INDEX_ID_SPK);
CASE_ID_INDEX(INDEX_ID_LP);
CASE_ID_INDEX(INDEX_ID_OB);
CASE_ID_INDEX(INDEX_ID_GR);
CASE_ID_INDEX(INDEX_ID_PAL);
CASE_ID_INDEX(INDEX_ID_PC);
CASE_ID_INDEX(INDEX_ID_BR);
CASE_ID_INDEX(INDEX_ID_SCE);
CASE_ID_INDEX(INDEX_ID_SCR);
CASE_ID_INDEX(INDEX_ID_WS);
CASE_ID_INDEX(INDEX_ID_WM);
case INDEX_ID_NULL: {
BLI_assert_unreachable();
break;
}
}
# undef CASE_ID_INDEX
#endif
}
BLI_listbase_clear(lb);
}
if (bmain.relations) {
BKE_main_relations_free(&bmain);
}
if (bmain.id_map) {
BKE_main_idmap_destroy(bmain.id_map);
}
/* NOTE: `name_map` in libraries are freed together with the library IDs above. */
if (bmain.name_map) {
BKE_main_namemap_destroy(&bmain.name_map);
}
if (bmain.name_map_global) {
BKE_main_namemap_destroy(&bmain.name_map_global);
}
}
void BKE_main_destroy(Main &bmain)
{
BKE_main_clear(bmain);
BLI_spin_end(reinterpret_cast<SpinLock *>(bmain.lock));
MEM_freeN(static_cast<void *>(bmain.lock));
bmain.lock = nullptr;
}
void BKE_main_free(Main *bmain)
{
/* In case this is called on a 'split-by-libraries' list of mains.
*
* Should not happen in typical usages, but can occur e.g. if a file reading is aborted. */
if (bmain->next) {
BKE_main_free(bmain->next);
}
/* Include this check here as the path may be manipulated after creation. */
BLI_assert_msg(!(bmain->filepath[0] == '/' && bmain->filepath[1] == '/'),
"'.blend' relative \"//\" must not be used in Main!");
BKE_main_destroy(*bmain);
MEM_freeN(bmain);
}
static bool are_ids_from_different_mains_matching(Main *bmain_1, ID *id_1, Main *bmain_2, ID *id_2)
{
/* Both IDs should not be null at the same time.
*
* NOTE: E.g. `id_1` may be null, in case `id_2` is a Library ID which path is the filepath of
* `bmain_1`. */
BLI_assert(id_1 || id_2);
/* Special handling for libraries, since their filepaths is used then, not their ID names.
*
* NOTE: In library case, this call should always return true, since given data should always
* match. The asserts below merely ensure that expected conditions are always met:
* - A given library absolute filepath should never match its own bmain filepath.
* - If both given libraries are non-null:
* - Their absolute filepath should match.
* - Neither of their absolute filepaths should match any of the bmain filepaths.
* - If one of the library is null:
* - The other library should match the bmain filepath of the null library. */
if ((!id_1 && GS(id_2->name) == ID_LI) || GS(id_1->name) == ID_LI) {
BLI_assert(!id_1 || !ID_IS_LINKED(id_1));
BLI_assert(!id_2 || !ID_IS_LINKED(id_2));
Library *lib_1 = reinterpret_cast<Library *>(id_1);
Library *lib_2 = reinterpret_cast<Library *>(id_2);
if (lib_1 && lib_2) {
BLI_assert(STREQ(lib_1->runtime->filepath_abs, lib_2->runtime->filepath_abs));
}
if (lib_1) {
BLI_assert(!STREQ(lib_1->runtime->filepath_abs, bmain_1->filepath));
if (lib_2) {
BLI_assert(!STREQ(lib_1->runtime->filepath_abs, bmain_2->filepath));
}
else {
BLI_assert(STREQ(lib_1->runtime->filepath_abs, bmain_2->filepath));
}
}
if (lib_2) {
BLI_assert(!STREQ(lib_2->runtime->filepath_abs, bmain_2->filepath));
if (lib_1) {
BLI_assert(!STREQ(lib_2->runtime->filepath_abs, bmain_1->filepath));
}
else {
BLI_assert(STREQ(lib_2->runtime->filepath_abs, bmain_1->filepath));
}
}
return true;
}
/* Now both IDs are expected to be valid data, and caller is expected to have ensured already
* that they have the same name. */
BLI_assert(id_1 && id_2);
BLI_assert(STREQ(id_1->name, id_2->name));
if (!id_1->lib && !id_2->lib) {
return true;
}
if (id_1->lib && id_2->lib) {
if (id_1->lib == id_2->lib) {
return true;
}
if (STREQ(id_1->lib->runtime->filepath_abs, id_2->lib->runtime->filepath_abs)) {
return true;
}
return false;
}
/* In case one Main is the library of the ID from the other Main. */
if (id_1->lib) {
if (STREQ(id_1->lib->runtime->filepath_abs, bmain_2->filepath)) {
return true;
}
return false;
}
if (id_2->lib) {
if (STREQ(id_2->lib->runtime->filepath_abs, bmain_1->filepath)) {
return true;
}
return false;
}
BLI_assert_unreachable();
return false;
}
static void main_merge_add_id_to_move(Main *bmain_dst,
blender::Map<std::string, blender::Vector<ID *>> &id_map_dst,
ID *id_src,
id::IDRemapper &id_remapper,
blender::Vector<ID *> &ids_to_move,
const bool is_library,
MainMergeReport &reports)
{
const bool is_id_src_linked(id_src->lib);
bool is_id_src_from_bmain_dst = false;
if (is_id_src_linked) {
BLI_assert(!is_library);
UNUSED_VARS_NDEBUG(is_library);
blender::Vector<ID *> id_src_lib_dst = id_map_dst.lookup_default(
id_src->lib->runtime->filepath_abs, {});
/* The current library of the source ID would be remapped to null, which means that it comes
* from the destination Main. */
is_id_src_from_bmain_dst = !id_src_lib_dst.is_empty() && !id_src_lib_dst[0];
}
std::cout << id_src->name << " is linked from dst Main: " << is_id_src_from_bmain_dst << "\n";
std::cout.flush();
if (is_id_src_from_bmain_dst) {
/* Do not move an ID supposed to be from `bmain_dst` (used as library in `bmain_src`) into
* `bmain_src`. Fact that no match was found is worth a warning, although it could happen
* e.g. in case `bmain_dst` has been updated since it file was loaded as library in
* `bmain_src`. */
CLOG_WARN(&LOG,
"ID '%s' defined in source Main as linked from destination Main (file '%s') not "
"found in given destination Main",
id_src->name,
bmain_dst->filepath);
id_remapper.add(id_src, nullptr);
reports.num_unknown_ids++;
}
else {
ids_to_move.append(id_src);
}
}
void BKE_main_merge(Main *bmain_dst, Main **r_bmain_src, MainMergeReport &reports)
{
Main *bmain_src = *r_bmain_src;
/* NOTE: Dedicated mapping type is needed here, to handle properly the library cases. */
blender::Map<std::string, blender::Vector<ID *>> id_map_dst;
ID *id_iter_dst, *id_iter_src;
FOREACH_MAIN_ID_BEGIN (bmain_dst, id_iter_dst) {
if (GS(id_iter_dst->name) == ID_LI) {
/* Libraries need specific handling, as we want to check them by their filepath, not the IDs
* themselves. */
Library *lib_dst = reinterpret_cast<Library *>(id_iter_dst);
BLI_assert(!id_map_dst.contains(lib_dst->runtime->filepath_abs));
id_map_dst.add(lib_dst->runtime->filepath_abs, {id_iter_dst});
}
else {
id_map_dst.lookup_or_add(id_iter_dst->name, {}).append(id_iter_dst);
}
}
FOREACH_MAIN_ID_END;
/* Add the current `bmain_dst` filepath in the mapping as well, as it may be a library of the
* `bmain_src` Main. */
id_map_dst.add(bmain_dst->filepath, {nullptr});
/* A dedicated remapper for libraries is needed because these need to be remapped _before_ IDs
* are moved from `bmain_src` to `bmain_dst`, to avoid having to fix naming and ordering of IDs
* afterwards (especially in case some source linked IDs become local in `bmain_dst`). */
id::IDRemapper id_remapper;
id::IDRemapper id_remapper_libraries;
blender::Vector<ID *> ids_to_move;
FOREACH_MAIN_ID_BEGIN (bmain_src, id_iter_src) {
const bool is_library = GS(id_iter_src->name) == ID_LI;
blender::Vector<ID *> ids_dst = id_map_dst.lookup_default(
is_library ? reinterpret_cast<Library *>(id_iter_src)->runtime->filepath_abs :
id_iter_src->name,
{});
if (is_library) {
BLI_assert(ids_dst.size() <= 1);
}
if (ids_dst.is_empty()) {
main_merge_add_id_to_move(
bmain_dst, id_map_dst, id_iter_src, id_remapper, ids_to_move, is_library, reports);
continue;
}
bool src_has_match_in_dst = false;
for (ID *id_iter_dst : ids_dst) {
if (are_ids_from_different_mains_matching(bmain_dst, id_iter_dst, bmain_src, id_iter_src)) {
/* There should only ever be one potential match, never more. */
BLI_assert(!src_has_match_in_dst);
if (!src_has_match_in_dst) {
if (is_library) {
id_remapper_libraries.add(id_iter_src, id_iter_dst);
reports.num_remapped_libraries++;
}
else {
id_remapper.add(id_iter_src, id_iter_dst);
reports.num_remapped_ids++;
}
src_has_match_in_dst = true;
}
#ifdef NDEBUG /* In DEBUG builds, keep looping to ensure there is only one match. */
break;
#endif
}
}
if (!src_has_match_in_dst) {
main_merge_add_id_to_move(
bmain_dst, id_map_dst, id_iter_src, id_remapper, ids_to_move, is_library, reports);
}
}
FOREACH_MAIN_ID_END;
reports.num_merged_ids = int(ids_to_move.size());
/* Rebase relative filepaths in `bmain_src` using `bmain_dst` path as new reference, or make them
* absolute if destination bmain has no filepath. */
if (bmain_src->filepath[0] != '\0') {
char dir_src[FILE_MAXDIR];
BLI_path_split_dir_part(bmain_src->filepath, dir_src, sizeof(dir_src));
BLI_path_normalize_native(dir_src);
if (bmain_dst->filepath[0] != '\0') {
char dir_dst[FILE_MAXDIR];
BLI_path_split_dir_part(bmain_dst->filepath, dir_dst, sizeof(dir_dst));
BLI_path_normalize_native(dir_dst);
BKE_bpath_relative_rebase(bmain_src, dir_src, dir_dst, reports.reports);
}
else {
BKE_bpath_absolute_convert(bmain_src, dir_src, reports.reports);
}
}
/* Libraries need to be remapped before moving IDs into `bmain_dst`, to ensure that the sorting
* of inserted IDs is correct. Note that no bmain is given here, so this is only a 'raw'
* remapping. */
BKE_libblock_relink_multiple(nullptr,
ids_to_move,
ID_REMAP_TYPE_REMAP,
id_remapper_libraries,
ID_REMAP_DO_LIBRARY_POINTERS);
for (ID *id_iter_src : ids_to_move) {
BKE_libblock_management_main_remove(bmain_src, id_iter_src);
BKE_libblock_management_main_add(bmain_dst, id_iter_src);
}
/* The other data has to be remapped once all IDs are in `bmain_dst`, to ensure that additional
* update process (e.g. collection hierarchy handling) happens as expected with the correct set
* of data. */
BKE_libblock_relink_multiple(bmain_dst, ids_to_move, ID_REMAP_TYPE_REMAP, id_remapper, 0);
BKE_reportf(
reports.reports,
RPT_INFO,
"Merged %d IDs from '%s' Main into '%s' Main; %d IDs and %d Libraries already existed as "
"part of the destination Main, and %d IDs missing from destination Main, were freed "
"together with the source Main",
reports.num_merged_ids,
bmain_src->filepath,
bmain_dst->filepath,
reports.num_remapped_ids,
reports.num_remapped_libraries,
reports.num_unknown_ids);
/* Remapping above may have made some IDs local. So namemap needs to be cleared, and moved IDs
* need to be re-sorted. */
BKE_main_namemap_clear(bmain_dst);
BLI_assert(BKE_main_namemap_validate(bmain_dst));
BKE_main_free(bmain_src);
*r_bmain_src = nullptr;
}
bool BKE_main_is_empty(Main *bmain)
{
bool result = true;
ID *id_iter;
FOREACH_MAIN_ID_BEGIN (bmain, id_iter) {
result = false;
break;
}
FOREACH_MAIN_ID_END;
return result;
}
bool BKE_main_has_issues(const Main *bmain)
{
return bmain->has_forward_compatibility_issues || bmain->is_asset_edit_file;
}
bool BKE_main_needs_overwrite_confirm(const Main *bmain)
{
return bmain->has_forward_compatibility_issues || bmain->is_asset_edit_file;
}
void BKE_main_lock(Main *bmain)
{
BLI_spin_lock((SpinLock *)bmain->lock);
}
void BKE_main_unlock(Main *bmain)
{
BLI_spin_unlock((SpinLock *)bmain->lock);
}
static int main_relations_create_idlink_cb(LibraryIDLinkCallbackData *cb_data)
{
MainIDRelations *bmain_relations = static_cast<MainIDRelations *>(cb_data->user_data);
ID *self_id = cb_data->self_id;
ID **id_pointer = cb_data->id_pointer;
const LibraryForeachIDCallbackFlag cb_flag = cb_data->cb_flag;
if (*id_pointer) {
MainIDRelationsEntry **entry_p;
/* Add `id_pointer` as child of `self_id`. */
{
if (!BLI_ghash_ensure_p(
bmain_relations->relations_from_pointers, self_id, (void ***)&entry_p))
{
*entry_p = static_cast<MainIDRelationsEntry *>(MEM_callocN(sizeof(**entry_p), __func__));
(*entry_p)->session_uid = self_id->session_uid;
}
else {
BLI_assert((*entry_p)->session_uid == self_id->session_uid);
}
MainIDRelationsEntryItem *to_id_entry = static_cast<MainIDRelationsEntryItem *>(
BLI_mempool_alloc(bmain_relations->entry_items_pool));
to_id_entry->next = (*entry_p)->to_ids;
to_id_entry->id_pointer.to = id_pointer;
to_id_entry->session_uid = (*id_pointer != nullptr) ? (*id_pointer)->session_uid :
MAIN_ID_SESSION_UID_UNSET;
to_id_entry->usage_flag = cb_flag;
(*entry_p)->to_ids = to_id_entry;
}
/* Add `self_id` as parent of `id_pointer`. */
if (*id_pointer != nullptr) {
if (!BLI_ghash_ensure_p(
bmain_relations->relations_from_pointers, *id_pointer, (void ***)&entry_p))
{
*entry_p = static_cast<MainIDRelationsEntry *>(MEM_callocN(sizeof(**entry_p), __func__));
(*entry_p)->session_uid = (*id_pointer)->session_uid;
}
else {
BLI_assert((*entry_p)->session_uid == (*id_pointer)->session_uid);
}
MainIDRelationsEntryItem *from_id_entry = static_cast<MainIDRelationsEntryItem *>(
BLI_mempool_alloc(bmain_relations->entry_items_pool));
from_id_entry->next = (*entry_p)->from_ids;
from_id_entry->id_pointer.from = self_id;
from_id_entry->session_uid = self_id->session_uid;
from_id_entry->usage_flag = cb_flag;
(*entry_p)->from_ids = from_id_entry;
}
}
return IDWALK_RET_NOP;
}
void BKE_main_relations_create(Main *bmain, const short flag)
{
if (bmain->relations != nullptr) {
BKE_main_relations_free(bmain);
}
bmain->relations = static_cast<MainIDRelations *>(
MEM_mallocN(sizeof(*bmain->relations), __func__));
bmain->relations->relations_from_pointers = BLI_ghash_new(
BLI_ghashutil_ptrhash, BLI_ghashutil_ptrcmp, __func__);
bmain->relations->entry_items_pool = BLI_mempool_create(
sizeof(MainIDRelationsEntryItem), 128, 128, BLI_MEMPOOL_NOP);
bmain->relations->flag = flag;
ID *id;
FOREACH_MAIN_ID_BEGIN (bmain, id) {
const LibraryForeachIDFlag idwalk_flag = IDWALK_READONLY |
((flag & MAINIDRELATIONS_INCLUDE_UI) != 0 ?
IDWALK_INCLUDE_UI :
IDWALK_NOP);
/* Ensure all IDs do have an entry, even if they are not connected to any other. */
MainIDRelationsEntry **entry_p;
if (!BLI_ghash_ensure_p(bmain->relations->relations_from_pointers, id, (void ***)&entry_p)) {
*entry_p = static_cast<MainIDRelationsEntry *>(MEM_callocN(sizeof(**entry_p), __func__));
(*entry_p)->session_uid = id->session_uid;
}
else {
BLI_assert((*entry_p)->session_uid == id->session_uid);
}
BKE_library_foreach_ID_link(
nullptr, id, main_relations_create_idlink_cb, bmain->relations, idwalk_flag);
}
FOREACH_MAIN_ID_END;
}
void BKE_main_relations_free(Main *bmain)
{
if (bmain->relations != nullptr) {
if (bmain->relations->relations_from_pointers != nullptr) {
BLI_ghash_free(bmain->relations->relations_from_pointers, nullptr, MEM_freeN);
}
BLI_mempool_destroy(bmain->relations->entry_items_pool);
MEM_freeN(bmain->relations);
bmain->relations = nullptr;
}
}
void BKE_main_relations_tag_set(Main *bmain, const eMainIDRelationsEntryTags tag, const bool value)
{
if (bmain->relations == nullptr) {
return;
}
GHashIterator *gh_iter;
for (gh_iter = BLI_ghashIterator_new(bmain->relations->relations_from_pointers);
!BLI_ghashIterator_done(gh_iter);
BLI_ghashIterator_step(gh_iter))
{
MainIDRelationsEntry *entry = static_cast<MainIDRelationsEntry *>(
BLI_ghashIterator_getValue(gh_iter));
if (value) {
entry->tags |= tag;
}
else {
entry->tags &= ~tag;
}
}
BLI_ghashIterator_free(gh_iter);
}
GSet *BKE_main_gset_create(Main *bmain, GSet *gset)
{
if (gset == nullptr) {
gset = BLI_gset_new(BLI_ghashutil_ptrhash, BLI_ghashutil_ptrcmp, __func__);
}
ID *id;
FOREACH_MAIN_ID_BEGIN (bmain, id) {
BLI_gset_add(gset, id);
}
FOREACH_MAIN_ID_END;
return gset;
}
/* Utils for ID's library weak reference API. */
struct LibWeakRefKey {
char filepath[FILE_MAX];
char id_name[MAX_ID_NAME];
LibWeakRefKey(const char *lib_path, const char *id_name)
{
STRNCPY(this->filepath, lib_path);
STRNCPY(this->id_name, id_name);
}
friend bool operator==(const LibWeakRefKey &a, const LibWeakRefKey &b)
{
return STREQ(a.filepath, b.filepath) && STREQ(a.id_name, b.id_name);
}
uint64_t hash() const
{
return blender::get_default_hash(blender::StringRef(this->filepath),
blender::StringRef(this->id_name));
}
};
struct MainLibraryWeakReferenceMap {
blender::Map<LibWeakRefKey, ID *> map;
};
MainLibraryWeakReferenceMap *BKE_main_library_weak_reference_create(Main *bmain)
{
auto *library_weak_reference_mapping = MEM_new<MainLibraryWeakReferenceMap>(__func__);
ListBase *lb;
FOREACH_MAIN_LISTBASE_BEGIN (bmain, lb) {
ID *id_iter = static_cast<ID *>(lb->first);
if (id_iter == nullptr) {
continue;
}
if (!BKE_idtype_idcode_append_is_reusable(GS(id_iter->name))) {
continue;
}
BLI_assert(BKE_idtype_idcode_is_linkable(GS(id_iter->name)));
FOREACH_MAIN_LISTBASE_ID_BEGIN (lb, id_iter) {
if (id_iter->library_weak_reference == nullptr) {
continue;
}
const LibWeakRefKey key{id_iter->library_weak_reference->library_filepath,
id_iter->library_weak_reference->library_id_name};
library_weak_reference_mapping->map.add(key, id_iter);
}
FOREACH_MAIN_LISTBASE_ID_END;
}
FOREACH_MAIN_LISTBASE_END;
return library_weak_reference_mapping;
}
void BKE_main_library_weak_reference_destroy(
MainLibraryWeakReferenceMap *library_weak_reference_mapping)
{
MEM_delete(library_weak_reference_mapping);
}
ID *BKE_main_library_weak_reference_search_item(
MainLibraryWeakReferenceMap *library_weak_reference_mapping,
const char *library_filepath,
const char *library_id_name)
{
const LibWeakRefKey key{library_filepath, library_id_name};
return library_weak_reference_mapping->map.lookup_default(key, nullptr);
}
void BKE_main_library_weak_reference_add_item(
MainLibraryWeakReferenceMap *library_weak_reference_mapping,
const char *library_filepath,
const char *library_id_name,
ID *new_id)
{
BLI_assert(GS(library_id_name) == GS(new_id->name));
BLI_assert(new_id->library_weak_reference == nullptr);
BLI_assert(BKE_idtype_idcode_append_is_reusable(GS(new_id->name)));
const LibWeakRefKey key{library_filepath, library_id_name};
library_weak_reference_mapping->map.add_new(key, new_id);
BKE_main_library_weak_reference_add(new_id, library_filepath, library_id_name);
}
void BKE_main_library_weak_reference_update_item(
MainLibraryWeakReferenceMap *library_weak_reference_mapping,
const char *library_filepath,
const char *library_id_name,
ID *old_id,
ID *new_id)
{
BLI_assert(GS(library_id_name) == GS(old_id->name));
BLI_assert(GS(library_id_name) == GS(new_id->name));
BLI_assert(old_id->library_weak_reference != nullptr);
BLI_assert(new_id->library_weak_reference == nullptr);
BLI_assert(STREQ(old_id->library_weak_reference->library_filepath, library_filepath));
BLI_assert(STREQ(old_id->library_weak_reference->library_id_name, library_id_name));
const LibWeakRefKey key{library_filepath, library_id_name};
BLI_assert(library_weak_reference_mapping->map.lookup(key) == old_id);
library_weak_reference_mapping->map.add_overwrite(key, new_id);
new_id->library_weak_reference = old_id->library_weak_reference;
old_id->library_weak_reference = nullptr;
}
void BKE_main_library_weak_reference_remove_item(
MainLibraryWeakReferenceMap *library_weak_reference_mapping,
const char *library_filepath,
const char *library_id_name,
ID *old_id)
{
BLI_assert(GS(library_id_name) == GS(old_id->name));
BLI_assert(old_id->library_weak_reference != nullptr);
const LibWeakRefKey key{library_filepath, library_id_name};
BLI_assert(library_weak_reference_mapping->map.lookup(key) == old_id);
library_weak_reference_mapping->map.remove(key);
MEM_SAFE_FREE(old_id->library_weak_reference);
}
ID *BKE_main_library_weak_reference_find(Main *bmain,
const char *library_filepath,
const char *library_id_name)
{
ListBase *id_list = which_libbase(bmain, GS(library_id_name));
LISTBASE_FOREACH (ID *, existing_id, id_list) {
if (existing_id->library_weak_reference &&
STREQ(existing_id->library_weak_reference->library_id_name, library_id_name) &&
STREQ(existing_id->library_weak_reference->library_filepath, library_filepath))
{
return existing_id;
}
}
return nullptr;
}
void BKE_main_library_weak_reference_add(ID *local_id,
const char *library_filepath,
const char *library_id_name)
{
if (local_id->library_weak_reference == nullptr) {
local_id->library_weak_reference = MEM_cnew<LibraryWeakReference>(__func__);
}
STRNCPY(local_id->library_weak_reference->library_filepath, library_filepath);
STRNCPY(local_id->library_weak_reference->library_id_name, library_id_name);
}
BlendThumbnail *BKE_main_thumbnail_from_buffer(Main *bmain, const uint8_t *rect, const int size[2])
{
BlendThumbnail *data = nullptr;
if (bmain) {
MEM_SAFE_FREE(bmain->blen_thumb);
}
if (rect) {
const size_t data_size = BLEN_THUMB_MEMSIZE(size[0], size[1]);
data = static_cast<BlendThumbnail *>(MEM_mallocN(data_size, __func__));
data->width = size[0];
data->height = size[1];
memcpy(data->rect, rect, data_size - sizeof(*data));
}
if (bmain) {
bmain->blen_thumb = data;
}
return data;
}
BlendThumbnail *BKE_main_thumbnail_from_imbuf(Main *bmain, ImBuf *img)
{
BlendThumbnail *data = nullptr;
if (bmain) {
MEM_SAFE_FREE(bmain->blen_thumb);
}
if (img) {
const size_t data_size = BLEN_THUMB_MEMSIZE(img->x, img->y);
data = static_cast<BlendThumbnail *>(MEM_mallocN(data_size, __func__));
IMB_rect_from_float(img); /* Just in case... */
data->width = img->x;
data->height = img->y;
memcpy(data->rect, img->byte_buffer.data, data_size - sizeof(*data));
}
if (bmain) {
bmain->blen_thumb = data;
}
return data;
}
ImBuf *BKE_main_thumbnail_to_imbuf(Main *bmain, BlendThumbnail *data)
{
ImBuf *img = nullptr;
if (!data && bmain) {
data = bmain->blen_thumb;
}
if (data) {
img = IMB_allocFromBuffer(
(const uint8_t *)data->rect, nullptr, uint(data->width), uint(data->height), 4);
}
return img;
}
void BKE_main_thumbnail_create(Main *bmain)
{
MEM_SAFE_FREE(bmain->blen_thumb);
bmain->blen_thumb = static_cast<BlendThumbnail *>(
MEM_callocN(BLEN_THUMB_MEMSIZE(BLEN_THUMB_SIZE, BLEN_THUMB_SIZE), __func__));
bmain->blen_thumb->width = BLEN_THUMB_SIZE;
bmain->blen_thumb->height = BLEN_THUMB_SIZE;
}
const char *BKE_main_blendfile_path(const Main *bmain)
{
return bmain->filepath;
}
const char *BKE_main_blendfile_path_from_global()
{
return BKE_main_blendfile_path(G_MAIN);
}
ListBase *which_libbase(Main *bmain, short type)
{
switch ((ID_Type)type) {
case ID_SCE:
return &(bmain->scenes);
case ID_LI:
return &(bmain->libraries);
case ID_OB:
return &(bmain->objects);
case ID_ME:
return &(bmain->meshes);
case ID_CU_LEGACY:
return &(bmain->curves);
case ID_MB:
return &(bmain->metaballs);
case ID_MA:
return &(bmain->materials);
case ID_TE:
return &(bmain->textures);
case ID_IM:
return &(bmain->images);
case ID_LT:
return &(bmain->lattices);
case ID_LA:
return &(bmain->lights);
case ID_CA:
return &(bmain->cameras);
case ID_IP:
return &(bmain->ipo);
case ID_KE:
return &(bmain->shapekeys);
case ID_WO:
return &(bmain->worlds);
case ID_SCR:
return &(bmain->screens);
case ID_VF:
return &(bmain->fonts);
case ID_TXT:
return &(bmain->texts);
case ID_SPK:
return &(bmain->speakers);
case ID_LP:
return &(bmain->lightprobes);
case ID_SO:
return &(bmain->sounds);
case ID_GR:
return &(bmain->collections);
case ID_AR:
return &(bmain->armatures);
case ID_AC:
return &(bmain->actions);
case ID_NT:
return &(bmain->nodetrees);
case ID_BR:
return &(bmain->brushes);
case ID_PA:
return &(bmain->particles);
case ID_WM:
return &(bmain->wm);
case ID_GD_LEGACY:
return &(bmain->gpencils);
case ID_GP:
return &(bmain->grease_pencils);
case ID_MC:
return &(bmain->movieclips);
case ID_MSK:
return &(bmain->masks);
case ID_LS:
return &(bmain->linestyles);
case ID_PAL:
return &(bmain->palettes);
case ID_PC:
return &(bmain->paintcurves);
case ID_CF:
return &(bmain->cachefiles);
case ID_WS:
return &(bmain->workspaces);
case ID_CV:
return &(bmain->hair_curves);
case ID_PT:
return &(bmain->pointclouds);
case ID_VO:
return &(bmain->volumes);
}
return nullptr;
}
MainListsArray BKE_main_lists_get(Main &bmain)
{
MainListsArray lb{};
/* Libraries may be accessed from pretty much any other ID. */
lb[INDEX_ID_LI] = &bmain.libraries;
lb[INDEX_ID_IP] = &bmain.ipo;
/* Moved here to avoid problems when freeing with animato (aligorith). */
lb[INDEX_ID_AC] = &bmain.actions;
lb[INDEX_ID_KE] = &bmain.shapekeys;
/* Referenced by gpencil, so needs to be before that to avoid crashes. */
lb[INDEX_ID_PAL] = &bmain.palettes;
/* Referenced by nodes, objects, view, scene etc, before to free after. */
lb[INDEX_ID_GD_LEGACY] = &bmain.gpencils;
lb[INDEX_ID_GP] = &bmain.grease_pencils;
lb[INDEX_ID_NT] = &bmain.nodetrees;
lb[INDEX_ID_IM] = &bmain.images;
lb[INDEX_ID_TE] = &bmain.textures;
lb[INDEX_ID_MA] = &bmain.materials;
lb[INDEX_ID_VF] = &bmain.fonts;
/* Important!: When adding a new object type,
* the specific data should be inserted here. */
lb[INDEX_ID_AR] = &bmain.armatures;
lb[INDEX_ID_CF] = &bmain.cachefiles;
lb[INDEX_ID_ME] = &bmain.meshes;
lb[INDEX_ID_CU_LEGACY] = &bmain.curves;
lb[INDEX_ID_MB] = &bmain.metaballs;
lb[INDEX_ID_CV] = &bmain.hair_curves;
lb[INDEX_ID_PT] = &bmain.pointclouds;
lb[INDEX_ID_VO] = &bmain.volumes;
lb[INDEX_ID_LT] = &bmain.lattices;
lb[INDEX_ID_LA] = &bmain.lights;
lb[INDEX_ID_CA] = &bmain.cameras;
lb[INDEX_ID_TXT] = &bmain.texts;
lb[INDEX_ID_SO] = &bmain.sounds;
lb[INDEX_ID_GR] = &bmain.collections;
lb[INDEX_ID_PAL] = &bmain.palettes;
lb[INDEX_ID_PC] = &bmain.paintcurves;
lb[INDEX_ID_BR] = &bmain.brushes;
lb[INDEX_ID_PA] = &bmain.particles;
lb[INDEX_ID_SPK] = &bmain.speakers;
lb[INDEX_ID_LP] = &bmain.lightprobes;
lb[INDEX_ID_WO] = &bmain.worlds;
lb[INDEX_ID_MC] = &bmain.movieclips;
lb[INDEX_ID_SCR] = &bmain.screens;
lb[INDEX_ID_OB] = &bmain.objects;
/* referenced by scenes */
lb[INDEX_ID_LS] = &bmain.linestyles;
lb[INDEX_ID_SCE] = &bmain.scenes;
/* before wm, so it's freed after it! */
lb[INDEX_ID_WS] = &bmain.workspaces;
lb[INDEX_ID_WM] = &bmain.wm;
lb[INDEX_ID_MSK] = &bmain.masks;
return lb;
}
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