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b0d9e6797fb866e7a58876c7977c98a190070310
test/source/blender/blenkernel/intern/lib_query.c
Bastien Montagne 1d06d35034 LibOverride: Do not report embedded IDs as non-overridable in 'foreach_id' code. 
Embedded IDs (root nodetrees, master collection, etc.) pointer itself is
not editable, but their content may be overridden.

LibOverride code is supposed to know how to handle those embedded IDs.
2021-08-18 16:49:20 +02:00

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/*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* The Original Code is Copyright (C) 2014 by Blender Foundation.
* All rights reserved.
*/
/** \file
* \ingroup bke
*/
#include <stdlib.h>
#include "DNA_anim_types.h"
#include "BLI_ghash.h"
#include "BLI_linklist_stack.h"
#include "BLI_listbase.h"
#include "BLI_utildefines.h"
#include "BKE_anim_data.h"
#include "BKE_idprop.h"
#include "BKE_idtype.h"
#include "BKE_lib_id.h"
#include "BKE_lib_query.h"
#include "BKE_main.h"
#include "BKE_node.h"
/* status */
enum {
IDWALK_STOP = 1 << 0,
};
typedef struct LibraryForeachIDData {
Main *bmain;
/**
* 'Real' ID, the one that might be in `bmain`, only differs from self_id when the later is a
* private one.
*/
ID *owner_id;
/**
* ID from which the current ID pointer is being processed. It may be an embedded ID like master
* collection or root node tree.
*/
ID *self_id;
/** Flags controlling the behavior of the 'foreach id' looping code. */
int flag;
/** Generic flags to be passed to all callback calls for current processed data. */
int cb_flag;
/** Callback flags that are forbidden for all callback calls for current processed data. */
int cb_flag_clear;
/* Function to call for every ID pointers of current processed data, and its opaque user data
* pointer. */
LibraryIDLinkCallback callback;
void *user_data;
/** Store the returned value from the callback, to decide how to continue the processing of ID
* pointers for current data. */
int status;
/* To handle recursion. */
GSet *ids_handled; /* All IDs that are either already done, or still in ids_todo stack. */
BLI_LINKSTACK_DECLARE(ids_todo, ID *);
} LibraryForeachIDData;
bool BKE_lib_query_foreachid_process(LibraryForeachIDData *data, ID **id_pp, int cb_flag)
{
if (!(data->status & IDWALK_STOP)) {
const int flag = data->flag;
ID *old_id = *id_pp;
/* Update the callback flags with the ones defined (or forbidden) in `data` by the generic
* caller code. */
cb_flag = ((cb_flag | data->cb_flag) & ~data->cb_flag_clear);
/* Update the callback flags with some extra information regarding overrides: all 'loopback',
* 'internal', 'embedded' etc. ID pointers are never overridable. */
if (cb_flag &
(IDWALK_CB_INTERNAL | IDWALK_CB_LOOPBACK | IDWALK_CB_OVERRIDE_LIBRARY_REFERENCE)) {
cb_flag |= IDWALK_CB_OVERRIDE_LIBRARY_NOT_OVERRIDABLE;
}
const int callback_return = data->callback(
&(struct LibraryIDLinkCallbackData){.user_data = data->user_data,
.bmain = data->bmain,
.id_owner = data->owner_id,
.id_self = data->self_id,
.id_pointer = id_pp,
.cb_flag = cb_flag});
if (flag & IDWALK_READONLY) {
BLI_assert(*(id_pp) == old_id);
}
if (old_id && (flag & IDWALK_RECURSE)) {
if (BLI_gset_add((data)->ids_handled, old_id)) {
if (!(callback_return & IDWALK_RET_STOP_RECURSION)) {
BLI_LINKSTACK_PUSH(data->ids_todo, old_id);
}
}
}
if (callback_return & IDWALK_RET_STOP_ITER) {
data->status |= IDWALK_STOP;
return false;
}
return true;
}
return false;
}
int BKE_lib_query_foreachid_process_flags_get(LibraryForeachIDData *data)
{
return data->flag;
}
int BKE_lib_query_foreachid_process_callback_flag_override(LibraryForeachIDData *data,
const int cb_flag,
const bool do_replace)
{
const int cb_flag_backup = data->cb_flag;
if (do_replace) {
data->cb_flag = cb_flag;
}
else {
data->cb_flag |= cb_flag;
}
return cb_flag_backup;
}
static void library_foreach_ID_link(Main *bmain,
ID *id_owner,
ID *id,
LibraryIDLinkCallback callback,
void *user_data,
int flag,
LibraryForeachIDData *inherit_data);
void BKE_lib_query_idpropertiesForeachIDLink_callback(IDProperty *id_prop, void *user_data)
{
BLI_assert(id_prop->type == IDP_ID);
LibraryForeachIDData *data = (LibraryForeachIDData *)user_data;
const int cb_flag = IDWALK_CB_USER | ((id_prop->flag & IDP_FLAG_OVERRIDABLE_LIBRARY) ?
0 :
IDWALK_CB_OVERRIDE_LIBRARY_NOT_OVERRIDABLE);
BKE_LIB_FOREACHID_PROCESS_ID(data, id_prop->data.pointer, cb_flag);
}
bool BKE_library_foreach_ID_embedded(LibraryForeachIDData *data, ID **id_pp)
{
/* Needed e.g. for callbacks handling relationships. This call shall be absolutely read-only. */
ID *id = *id_pp;
const int flag = data->flag;
if (!BKE_lib_query_foreachid_process(data, id_pp, IDWALK_CB_EMBEDDED)) {
return false;
}
BLI_assert(id == *id_pp);
if (id == NULL) {
return true;
}
if (flag & IDWALK_IGNORE_EMBEDDED_ID) {
/* Do Nothing. */
}
else if (flag & IDWALK_RECURSE) {
/* Defer handling into main loop, recursively calling BKE_library_foreach_ID_link in
* IDWALK_RECURSE case is troublesome, see T49553. */
/* XXX note that this breaks the 'owner id' thing now, we likely want to handle that
* differently at some point, but for now it should not be a problem in practice. */
if (BLI_gset_add(data->ids_handled, id)) {
BLI_LINKSTACK_PUSH(data->ids_todo, id);
}
}
else {
library_foreach_ID_link(
data->bmain, data->owner_id, id, data->callback, data->user_data, data->flag, data);
}
return true;
}
static void library_foreach_ID_link(Main *bmain,
ID *id_owner,
ID *id,
LibraryIDLinkCallback callback,
void *user_data,
int flag,
LibraryForeachIDData *inherit_data)
{
LibraryForeachIDData data = {.bmain = bmain};
BLI_assert(inherit_data == NULL || data.bmain == inherit_data->bmain);
if (flag & IDWALK_RECURSE) {
/* For now, recursion implies read-only, and no internal pointers. */
flag |= IDWALK_READONLY;
flag &= ~IDWALK_DO_INTERNAL_RUNTIME_POINTERS;
data.ids_handled = BLI_gset_new(BLI_ghashutil_ptrhash, BLI_ghashutil_ptrcmp, __func__);
BLI_LINKSTACK_INIT(data.ids_todo);
BLI_gset_add(data.ids_handled, id);
}
else {
data.ids_handled = NULL;
}
data.flag = flag;
data.status = 0;
data.callback = callback;
data.user_data = user_data;
#define CALLBACK_INVOKE_ID(check_id, cb_flag) \
BKE_LIB_FOREACHID_PROCESS_ID(&data, check_id, cb_flag)
#define CALLBACK_INVOKE(check_id_super, cb_flag) \
BKE_LIB_FOREACHID_PROCESS(&data, check_id_super, cb_flag)
for (; id != NULL; id = (flag & IDWALK_RECURSE) ? BLI_LINKSTACK_POP(data.ids_todo) : NULL) {
data.self_id = id;
/* Note that we may call this functions sometime directly on an embedded ID, without any
* knowledge of the owner ID then.
* While not great, and that should be probably sanitized at some point, we cal live with it
* for now. */
data.owner_id = ((id->flag & LIB_EMBEDDED_DATA) != 0 && id_owner != NULL) ? id_owner :
data.self_id;
/* inherit_data is non-NULL when this function is called for some sub-data ID
* (like root node-tree of a material).
* In that case, we do not want to generate those 'generic flags' from our current sub-data ID
* (the node tree), but re-use those generated for the 'owner' ID (the material). */
if (inherit_data == NULL) {
data.cb_flag = ID_IS_LINKED(id) ? IDWALK_CB_INDIRECT_USAGE : 0;
/* When an ID is defined as not refcounting its ID usages, it should never do it. */
data.cb_flag_clear = (id->tag & LIB_TAG_NO_USER_REFCOUNT) ?
IDWALK_CB_USER | IDWALK_CB_USER_ONE :
0;
}
else {
data.cb_flag = inherit_data->cb_flag;
data.cb_flag_clear = inherit_data->cb_flag_clear;
}
if (bmain != NULL && bmain->relations != NULL && (flag & IDWALK_READONLY) &&
(flag & IDWALK_DO_INTERNAL_RUNTIME_POINTERS) == 0 &&
(((bmain->relations->flag & MAINIDRELATIONS_INCLUDE_UI) == 0) ==
((data.flag & IDWALK_INCLUDE_UI) == 0))) {
/* Note that this is minor optimization, even in worst cases (like id being an object with
* lots of drivers and constraints and modifiers, or material etc. with huge node tree),
* but we might as well use it (Main->relations is always assumed valid,
* it's responsibility of code creating it to free it,
* especially if/when it starts modifying Main database). */
MainIDRelationsEntry *entry = BLI_ghash_lookup(bmain->relations->relations_from_pointers,
id);
for (MainIDRelationsEntryItem *to_id_entry = entry->to_ids; to_id_entry != NULL;
to_id_entry = to_id_entry->next) {
BKE_lib_query_foreachid_process(
&data, to_id_entry->id_pointer.to, to_id_entry->usage_flag);
}
continue;
}
/* NOTE: ID.lib pointer is purposefully fully ignored here...
* We may want to add it at some point? */
if (flag & IDWALK_DO_INTERNAL_RUNTIME_POINTERS) {
CALLBACK_INVOKE_ID(id->newid, IDWALK_CB_INTERNAL);
CALLBACK_INVOKE_ID(id->orig_id, IDWALK_CB_INTERNAL);
}
if (id->override_library != NULL) {
CALLBACK_INVOKE_ID(id->override_library->reference,
IDWALK_CB_USER | IDWALK_CB_OVERRIDE_LIBRARY_REFERENCE);
CALLBACK_INVOKE_ID(id->override_library->storage,
IDWALK_CB_USER | IDWALK_CB_OVERRIDE_LIBRARY_REFERENCE);
}
IDP_foreach_property(id->properties,
IDP_TYPE_FILTER_ID,
BKE_lib_query_idpropertiesForeachIDLink_callback,
&data);
AnimData *adt = BKE_animdata_from_id(id);
if (adt) {
BKE_animdata_foreach_id(adt, &data);
}
const IDTypeInfo *id_type = BKE_idtype_get_info_from_id(id);
if (id_type->foreach_id != NULL) {
id_type->foreach_id(id, &data);
if (data.status & IDWALK_STOP) {
break;
}
}
}
if (data.ids_handled) {
BLI_gset_free(data.ids_handled, NULL);
BLI_LINKSTACK_FREE(data.ids_todo);
}
#undef CALLBACK_INVOKE_ID
#undef CALLBACK_INVOKE
}
/**
* Loop over all of the ID's this data-block links to.
*/
void BKE_library_foreach_ID_link(
Main *bmain, ID *id, LibraryIDLinkCallback callback, void *user_data, int flag)
{
library_foreach_ID_link(bmain, NULL, id, callback, user_data, flag, NULL);
}
/**
* re-usable function, use when replacing ID's
*/
void BKE_library_update_ID_link_user(ID *id_dst, ID *id_src, const int cb_flag)
{
if (cb_flag & IDWALK_CB_USER) {
id_us_min(id_src);
id_us_plus(id_dst);
}
else if (cb_flag & IDWALK_CB_USER_ONE) {
id_us_ensure_real(id_dst);
}
}
/**
* Say whether given \a id_owner may use (in any way) a data-block of \a id_type_used.
*
* This is a 'simplified' abstract version of #BKE_library_foreach_ID_link() above,
* quite useful to reduce useless iterations in some cases.
*/
bool BKE_library_id_can_use_idtype(ID *id_owner, const short id_type_used)
{
/* any type of ID can be used in custom props. */
if (id_owner->properties) {
return true;
}
const short id_type_owner = GS(id_owner->name);
/* IDProps of armature bones and nodes, and bNode->id can use virtually any type of ID. */
if (ELEM(id_type_owner, ID_NT, ID_AR)) {
return true;
}
if (ntreeFromID(id_owner)) {
return true;
}
if (BKE_animdata_from_id(id_owner)) {
/* AnimationData can use virtually any kind of data-blocks, through drivers especially. */
return true;
}
switch ((ID_Type)id_type_owner) {
case ID_LI:
return ELEM(id_type_used, ID_LI);
case ID_SCE:
return (ELEM(id_type_used,
ID_OB,
ID_WO,
ID_SCE,
ID_MC,
ID_MA,
ID_GR,
ID_TXT,
ID_LS,
ID_MSK,
ID_SO,
ID_GD,
ID_BR,
ID_PAL,
ID_IM,
ID_NT));
case ID_OB:
/* Could be more specific, but simpler to just always say 'yes' here. */
return true;
case ID_ME:
return ELEM(id_type_used, ID_ME, ID_KE, ID_MA, ID_IM);
case ID_CU:
return ELEM(id_type_used, ID_OB, ID_KE, ID_MA, ID_VF);
case ID_MB:
return ELEM(id_type_used, ID_MA);
case ID_MA:
return (ELEM(id_type_used, ID_TE, ID_GR));
case ID_TE:
return (ELEM(id_type_used, ID_IM, ID_OB));
case ID_LT:
return ELEM(id_type_used, ID_KE);
case ID_LA:
return (ELEM(id_type_used, ID_TE));
case ID_CA:
return ELEM(id_type_used, ID_OB);
case ID_KE:
/* Warning! key->from, could be more types in future? */
return ELEM(id_type_used, ID_ME, ID_CU, ID_LT);
case ID_SCR:
return ELEM(id_type_used, ID_SCE);
case ID_WO:
return (ELEM(id_type_used, ID_TE));
case ID_SPK:
return ELEM(id_type_used, ID_SO);
case ID_GR:
return ELEM(id_type_used, ID_OB, ID_GR);
case ID_NT:
/* Could be more specific, but node.id has no type restriction... */
return true;
case ID_BR:
return ELEM(id_type_used, ID_BR, ID_IM, ID_PC, ID_TE, ID_MA);
case ID_PA:
return ELEM(id_type_used, ID_OB, ID_GR, ID_TE);
case ID_MC:
return ELEM(id_type_used, ID_GD, ID_IM);
case ID_MSK:
/* WARNING! mask->parent.id, not typed. */
return ELEM(id_type_used, ID_MC);
case ID_LS:
return (ELEM(id_type_used, ID_TE, ID_OB));
case ID_LP:
return ELEM(id_type_used, ID_IM);
case ID_GD:
return ELEM(id_type_used, ID_MA);
case ID_WS:
return ELEM(id_type_used, ID_SCR, ID_SCE);
case ID_HA:
return ELEM(id_type_used, ID_MA);
case ID_PT:
return ELEM(id_type_used, ID_MA);
case ID_VO:
return ELEM(id_type_used, ID_MA);
case ID_SIM:
return ELEM(id_type_used, ID_OB, ID_IM);
case ID_WM:
return ELEM(id_type_used, ID_SCE, ID_WS);
case ID_IM:
case ID_VF:
case ID_TXT:
case ID_SO:
case ID_AR:
case ID_AC:
case ID_PAL:
case ID_PC:
case ID_CF:
/* Those types never use/reference other IDs... */
return false;
case ID_IP:
/* Deprecated... */
return false;
}
return false;
}
/* ***** ID users iterator. ***** */
typedef struct IDUsersIter {
ID *id;
ListBase *lb_array[INDEX_ID_MAX];
int lb_idx;
ID *curr_id;
int count_direct, count_indirect; /* Set by callback. */
} IDUsersIter;
static int foreach_libblock_id_users_callback(LibraryIDLinkCallbackData *cb_data)
{
ID **id_p = cb_data->id_pointer;
const int cb_flag = cb_data->cb_flag;
IDUsersIter *iter = cb_data->user_data;
if (*id_p) {
/* 'Loopback' ID pointers (the ugly 'from' ones, Object->proxy_from and Key->from).
* Those are not actually ID usage, we can ignore them here.
*/
if (cb_flag & IDWALK_CB_LOOPBACK) {
return IDWALK_RET_NOP;
}
if (*id_p == iter->id) {
#if 0
printf(
"%s uses %s (refcounted: %d, userone: %d, used_one: %d, used_one_active: %d, "
"indirect_usage: %d)\n",
iter->curr_id->name,
iter->id->name,
(cb_flag & IDWALK_USER) ? 1 : 0,
(cb_flag & IDWALK_USER_ONE) ? 1 : 0,
(iter->id->tag & LIB_TAG_EXTRAUSER) ? 1 : 0,
(iter->id->tag & LIB_TAG_EXTRAUSER_SET) ? 1 : 0,
(cb_flag & IDWALK_INDIRECT_USAGE) ? 1 : 0);
#endif
if (cb_flag & IDWALK_CB_INDIRECT_USAGE) {
iter->count_indirect++;
}
else {
iter->count_direct++;
}
}
}
return IDWALK_RET_NOP;
}
/**
* Return the number of times given \a id_user uses/references \a id_used.
*
* \note This only checks for pointer references of an ID, shallow usages
* (like e.g. by RNA paths, as done for FCurves) are not detected at all.
*
* \param id_user: the ID which is supposed to use (reference) \a id_used.
* \param id_used: the ID which is supposed to be used (referenced) by \a id_user.
* \return the number of direct usages/references of \a id_used by \a id_user.
*/
int BKE_library_ID_use_ID(ID *id_user, ID *id_used)
{
IDUsersIter iter;
/* We do not care about iter.lb_array/lb_idx here... */
iter.id = id_used;
iter.curr_id = id_user;
iter.count_direct = iter.count_indirect = 0;
BKE_library_foreach_ID_link(
NULL, iter.curr_id, foreach_libblock_id_users_callback, (void *)&iter, IDWALK_READONLY);
return iter.count_direct + iter.count_indirect;
}
static bool library_ID_is_used(Main *bmain, void *idv, const bool check_linked)
{
IDUsersIter iter;
ListBase *lb_array[INDEX_ID_MAX];
ID *id = idv;
int i = set_listbasepointers(bmain, lb_array);
bool is_defined = false;
iter.id = id;
iter.count_direct = iter.count_indirect = 0;
while (i-- && !is_defined) {
ID *id_curr = lb_array[i]->first;
if (!id_curr || !BKE_library_id_can_use_idtype(id_curr, GS(id->name))) {
continue;
}
for (; id_curr && !is_defined; id_curr = id_curr->next) {
if (id_curr == id) {
/* We are not interested in self-usages (mostly from drivers or bone constraints...). */
continue;
}
iter.curr_id = id_curr;
BKE_library_foreach_ID_link(
bmain, id_curr, foreach_libblock_id_users_callback, &iter, IDWALK_READONLY);
is_defined = ((check_linked ? iter.count_indirect : iter.count_direct) != 0);
}
}
return is_defined;
}
/**
* Check whether given ID is used locally (i.e. by another non-linked ID).
*/
bool BKE_library_ID_is_locally_used(Main *bmain, void *idv)
{
return library_ID_is_used(bmain, idv, false);
}
/**
* Check whether given ID is used indirectly (i.e. by another linked ID).
*/
bool BKE_library_ID_is_indirectly_used(Main *bmain, void *idv)
{
return library_ID_is_used(bmain, idv, true);
}
/**
* Combine #BKE_library_ID_is_locally_used() and #BKE_library_ID_is_indirectly_used()
* in a single call.
*/
void BKE_library_ID_test_usages(Main *bmain, void *idv, bool *is_used_local, bool *is_used_linked)
{
IDUsersIter iter;
ListBase *lb_array[INDEX_ID_MAX];
ID *id = idv;
int i = set_listbasepointers(bmain, lb_array);
bool is_defined = false;
iter.id = id;
iter.count_direct = iter.count_indirect = 0;
while (i-- && !is_defined) {
ID *id_curr = lb_array[i]->first;
if (!id_curr || !BKE_library_id_can_use_idtype(id_curr, GS(id->name))) {
continue;
}
for (; id_curr && !is_defined; id_curr = id_curr->next) {
if (id_curr == id) {
/* We are not interested in self-usages (mostly from drivers or bone constraints...). */
continue;
}
iter.curr_id = id_curr;
BKE_library_foreach_ID_link(
bmain, id_curr, foreach_libblock_id_users_callback, &iter, IDWALK_READONLY);
is_defined = (iter.count_direct != 0 && iter.count_indirect != 0);
}
}
*is_used_local = (iter.count_direct != 0);
*is_used_linked = (iter.count_indirect != 0);
}
/* ***** IDs usages.checking/tagging. ***** */
static void lib_query_unused_ids_tag_recurse(Main *bmain,
const int tag,
const bool do_local_ids,
const bool do_linked_ids,
ID *id,
int *r_num_tagged)
{
/* We should never deal with embedded, not-in-main IDs here. */
BLI_assert((id->flag & LIB_EMBEDDED_DATA) == 0);
if ((!do_linked_ids && ID_IS_LINKED(id)) || (!do_local_ids && !ID_IS_LINKED(id))) {
return;
}
MainIDRelationsEntry *id_relations = BLI_ghash_lookup(bmain->relations->relations_from_pointers,
id);
if ((id_relations->tags & MAINIDRELATIONS_ENTRY_TAGS_PROCESSED) != 0) {
return;
}
id_relations->tags |= MAINIDRELATIONS_ENTRY_TAGS_PROCESSED;
if ((id->tag & tag) != 0) {
return;
}
if ((id->flag & LIB_FAKEUSER) != 0) {
/* This ID is forcefully kept around, and therefore never unused, no need to check it further.
*/
return;
}
if (ELEM(GS(id->name), ID_WM, ID_WS, ID_SCE, ID_SCR, ID_LI)) {
/* Some 'root' ID types are never unused (even though they may not have actual users), unless
* their actual user-count is set to 0. */
return;
}
/* An ID user is 'valid' (i.e. may affect the 'used'/'not used' status of the ID it uses) if it
* does not match `ignored_usages`, and does match `required_usages`. */
const int ignored_usages = (IDWALK_CB_LOOPBACK | IDWALK_CB_EMBEDDED);
const int required_usages = (IDWALK_CB_USER | IDWALK_CB_USER_ONE);
/* This ID may be tagged as unused if none of its users are 'valid', as defined above.
*
* First recursively check all its valid users, if all of them can be tagged as
* unused, then we can tag this ID as such too. */
bool has_valid_from_users = false;
for (MainIDRelationsEntryItem *id_from_item = id_relations->from_ids; id_from_item != NULL;
id_from_item = id_from_item->next) {
if ((id_from_item->usage_flag & ignored_usages) != 0 ||
(id_from_item->usage_flag & required_usages) == 0) {
continue;
}
ID *id_from = id_from_item->id_pointer.from;
if ((id_from->flag & LIB_EMBEDDED_DATA) != 0) {
/* Directly 'by-pass' to actual real ID owner. */
const IDTypeInfo *type_info_from = BKE_idtype_get_info_from_id(id_from);
BLI_assert(type_info_from->owner_get != NULL);
id_from = type_info_from->owner_get(bmain, id_from);
}
lib_query_unused_ids_tag_recurse(
bmain, tag, do_local_ids, do_linked_ids, id_from, r_num_tagged);
if ((id_from->tag & tag) == 0) {
has_valid_from_users = true;
break;
}
}
if (!has_valid_from_users) {
/* This ID has no 'valid' users, tag it as unused. */
id->tag |= tag;
if (r_num_tagged != NULL) {
r_num_tagged[INDEX_ID_NULL]++;
r_num_tagged[BKE_idtype_idcode_to_index(GS(id->name))]++;
}
}
}
/**
* Tag all unused IDs (a.k.a 'orphaned').
*
* By default only tag IDs with `0` user count.
* If `do_tag_recursive` is set, it will check dependencies to detect all IDs that are not actually
* used in current file, including 'archipelagos` (i.e. set of IDs referencing each other in
* loops, but without any 'external' valid usages.
*
* Valid usages here are defined as ref-counting usages, which are not towards embedded or
* loop-back data.
*
* \param r_num_tagged If non-NULL, must be a zero-initialized array of #INDEX_ID_MAX integers.
* Number of tagged-as-unused IDs is then set for each type, and as total in
* #INDEX_ID_NULL item.
*/
void BKE_lib_query_unused_ids_tag(Main *bmain,
const int tag,
const bool do_local_ids,
const bool do_linked_ids,
const bool do_tag_recursive,
int *r_num_tagged)
{
/* First loop, to only check for immediately unused IDs (those with 0 user count).
* NOTE: It also takes care of clearing given tag for used IDs. */
ID *id;
FOREACH_MAIN_ID_BEGIN (bmain, id) {
if ((!do_linked_ids && ID_IS_LINKED(id)) || (!do_local_ids && !ID_IS_LINKED(id))) {
id->tag &= ~tag;
}
else if (id->us == 0) {
id->tag |= tag;
if (r_num_tagged != NULL) {
r_num_tagged[INDEX_ID_NULL]++;
r_num_tagged[BKE_idtype_idcode_to_index(GS(id->name))]++;
}
}
else {
id->tag &= ~tag;
}
}
FOREACH_MAIN_ID_END;
if (!do_tag_recursive) {
return;
}
BKE_main_relations_create(bmain, 0);
FOREACH_MAIN_ID_BEGIN (bmain, id) {
lib_query_unused_ids_tag_recurse(bmain, tag, do_local_ids, do_linked_ids, id, r_num_tagged);
}
FOREACH_MAIN_ID_END;
BKE_main_relations_free(bmain);
}
static int foreach_libblock_used_linked_data_tag_clear_cb(LibraryIDLinkCallbackData *cb_data)
{
ID *self_id = cb_data->id_self;
ID **id_p = cb_data->id_pointer;
const int cb_flag = cb_data->cb_flag;
bool *is_changed = cb_data->user_data;
if (*id_p) {
/* The infamous 'from' pointers (Key.from, Object.proxy_from, ...).
* those are not actually ID usage, so we ignore them here. */
if (cb_flag & IDWALK_CB_LOOPBACK) {
return IDWALK_RET_NOP;
}
/* If checked id is used by an assumed used ID,
* then it is also used and not part of any linked archipelago. */
if (!(self_id->tag & LIB_TAG_DOIT) && ((*id_p)->tag & LIB_TAG_DOIT)) {
(*id_p)->tag &= ~LIB_TAG_DOIT;
*is_changed = true;
}
}
return IDWALK_RET_NOP;
}
/**
* Detect orphaned linked data blocks (i.e. linked data not used (directly or indirectly)
* in any way by any local data), including complex cases like 'linked archipelagoes', i.e.
* linked data-blocks that use each other in loops,
* which prevents their deletion by 'basic' usage checks.
*
* \param do_init_tag: if \a true, all linked data are checked, if \a false,
* only linked data-blocks already tagged with #LIB_TAG_DOIT are checked.
*/
void BKE_library_unused_linked_data_set_tag(Main *bmain, const bool do_init_tag)
{
ID *id;
if (do_init_tag) {
FOREACH_MAIN_ID_BEGIN (bmain, id) {
if (id->lib && (id->tag & LIB_TAG_INDIRECT) != 0) {
id->tag |= LIB_TAG_DOIT;
}
else {
id->tag &= ~LIB_TAG_DOIT;
}
}
FOREACH_MAIN_ID_END;
}
for (bool do_loop = true; do_loop;) {
do_loop = false;
FOREACH_MAIN_ID_BEGIN (bmain, id) {
/* We only want to check that ID if it is currently known as used... */
if ((id->tag & LIB_TAG_DOIT) == 0) {
BKE_library_foreach_ID_link(
bmain, id, foreach_libblock_used_linked_data_tag_clear_cb, &do_loop, IDWALK_READONLY);
}
}
FOREACH_MAIN_ID_END;
}
}
/**
* Untag linked data blocks used by other untagged linked data-blocks.
* Used to detect data-blocks that we can forcefully make local
* (instead of copying them to later get rid of original):
* All data-blocks we want to make local are tagged by caller,
* after this function has ran caller knows data-blocks still tagged can directly be made local,
* since they are only used by other data-blocks that will also be made fully local.
*/
void BKE_library_indirectly_used_data_tag_clear(Main *bmain)
{
ListBase *lb_array[INDEX_ID_MAX];
bool do_loop = true;
while (do_loop) {
int i = set_listbasepointers(bmain, lb_array);
do_loop = false;
while (i--) {
LISTBASE_FOREACH (ID *, id, lb_array[i]) {
if (id->lib == NULL || id->tag & LIB_TAG_DOIT) {
/* Local or non-indirectly-used ID (so far), no need to check it further. */
continue;
}
BKE_library_foreach_ID_link(
bmain, id, foreach_libblock_used_linked_data_tag_clear_cb, &do_loop, IDWALK_READONLY);
}
}
}
}
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