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test/source/blender/blenkernel/intern/lib_override.c
Bastien Montagne 74ec37b70c Enable (deep) copy of overrides. 
This commit enables basic copy of overrides on generic ID level, as well
as from (deep) copy operators for objects and collections.

So e.g. if your linked overridden caracter is in a collection, you can
now (from the outliner) Duplicate that override collection to get a new
overriding copy of the character.

We still need operators (new or modifying existing ones) to handle that
from 3DView e.g.

Note that deep copy code for objects/collections (and incidently
animdata) had to be modified to avoid duplicating/making local IDs that
remain linked ones being used by overrides ones.
2020-06-10 16:48:49 +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) 2016 by Blender Foundation.
* All rights reserved.
*/
/** \file
* \ingroup bke
*/
#include <stdlib.h>
#include <string.h>
#include "MEM_guardedalloc.h"
#include "DNA_ID.h"
#include "DNA_object_types.h"
#include "DEG_depsgraph.h"
#include "BKE_armature.h"
#include "BKE_lib_id.h"
#include "BKE_lib_override.h"
#include "BKE_lib_remap.h"
#include "BKE_main.h"
#include "BLI_ghash.h"
#include "BLI_listbase.h"
#include "BLI_string.h"
#include "BLI_utildefines.h"
#include "RNA_access.h"
#include "RNA_types.h"
#define OVERRIDE_AUTO_CHECK_DELAY 0.2 /* 200ms between auto-override checks. */
//#define DEBUG_OVERRIDE_TIMEIT
#ifdef DEBUG_OVERRIDE_TIMEIT
# include "PIL_time_utildefines.h"
#endif
static void lib_override_library_property_copy(IDOverrideLibraryProperty *op_dst,
IDOverrideLibraryProperty *op_src);
static void lib_override_library_property_operation_copy(
IDOverrideLibraryPropertyOperation *opop_dst, IDOverrideLibraryPropertyOperation *opop_src);
static void lib_override_library_property_clear(IDOverrideLibraryProperty *op);
static void lib_override_library_property_operation_clear(
IDOverrideLibraryPropertyOperation *opop);
/* Temp, for until library override is ready and tested enough to go 'public',
* we hide it by default in UI and such. */
static bool _lib_override_library_enabled = true;
void BKE_lib_override_library_enable(const bool do_enable)
{
_lib_override_library_enabled = do_enable;
}
bool BKE_lib_override_library_is_enabled()
{
return _lib_override_library_enabled;
}
/** Initialize empty overriding of \a reference_id by \a local_id. */
IDOverrideLibrary *BKE_lib_override_library_init(ID *local_id, ID *reference_id)
{
/* If reference_id is NULL, we are creating an override template for purely local data.
* Else, reference *must* be linked data. */
BLI_assert(reference_id == NULL || reference_id->lib != NULL);
BLI_assert(local_id->override_library == NULL);
ID *ancestor_id;
for (ancestor_id = reference_id; ancestor_id != NULL && ancestor_id->override_library != NULL &&
ancestor_id->override_library->reference != NULL;
ancestor_id = ancestor_id->override_library->reference) {
/* pass */
}
if (ancestor_id != NULL && ancestor_id->override_library != NULL) {
/* Original ID has a template, use it! */
BKE_lib_override_library_copy(local_id, ancestor_id, true);
if (local_id->override_library->reference != reference_id) {
id_us_min(local_id->override_library->reference);
local_id->override_library->reference = reference_id;
id_us_plus(local_id->override_library->reference);
}
return local_id->override_library;
}
/* Else, generate new empty override. */
local_id->override_library = MEM_callocN(sizeof(*local_id->override_library), __func__);
local_id->override_library->reference = reference_id;
id_us_plus(local_id->override_library->reference);
local_id->tag &= ~LIB_TAG_OVERRIDE_LIBRARY_REFOK;
/* TODO do we want to add tag or flag to referee to mark it as such? */
return local_id->override_library;
}
/** Shalow or deep copy of a whole override from \a src_id to \a dst_id. */
void BKE_lib_override_library_copy(ID *dst_id, const ID *src_id, const bool do_full_copy)
{
BLI_assert(src_id->override_library != NULL);
if (dst_id->override_library != NULL) {
if (src_id->override_library == NULL) {
BKE_lib_override_library_free(&dst_id->override_library, true);
return;
}
else {
BKE_lib_override_library_clear(dst_id->override_library, true);
}
}
else if (src_id->override_library == NULL) {
return;
}
else {
BKE_lib_override_library_init(dst_id, NULL);
}
/* Source is already overriding data, we copy it but reuse its reference for dest ID.
* otherwise, source is only an override template, it then becomes reference of dest ID. */
dst_id->override_library->reference = src_id->override_library->reference ?
src_id->override_library->reference :
(ID *)src_id;
id_us_plus(dst_id->override_library->reference);
if (do_full_copy) {
BLI_duplicatelist(&dst_id->override_library->properties,
&src_id->override_library->properties);
for (IDOverrideLibraryProperty *op_dst = dst_id->override_library->properties.first,
*op_src = src_id->override_library->properties.first;
op_dst;
op_dst = op_dst->next, op_src = op_src->next) {
lib_override_library_property_copy(op_dst, op_src);
}
}
dst_id->tag &= ~LIB_TAG_OVERRIDE_LIBRARY_REFOK;
}
/** Clear any overriding data from given \a override. */
void BKE_lib_override_library_clear(IDOverrideLibrary *override, const bool do_id_user)
{
BLI_assert(override != NULL);
if (override->runtime != NULL) {
BLI_ghash_clear(override->runtime, NULL, NULL);
}
LISTBASE_FOREACH (IDOverrideLibraryProperty *, op, &override->properties) {
lib_override_library_property_clear(op);
}
BLI_freelistN(&override->properties);
if (do_id_user) {
id_us_min(override->reference);
/* override->storage should never be refcounted... */
}
}
/** Free given \a override. */
void BKE_lib_override_library_free(struct IDOverrideLibrary **override, const bool do_id_user)
{
BLI_assert(*override != NULL);
if ((*override)->runtime != NULL) {
BLI_ghash_free((*override)->runtime, NULL, NULL);
(*override)->runtime = NULL;
}
BKE_lib_override_library_clear(*override, do_id_user);
MEM_freeN(*override);
*override = NULL;
}
static ID *lib_override_library_create_from(Main *bmain, ID *reference_id)
{
ID *local_id;
if (!BKE_id_copy(bmain, reference_id, (ID **)&local_id)) {
return NULL;
}
id_us_min(local_id);
BKE_lib_override_library_init(local_id, reference_id);
local_id->override_library->flag |= OVERRIDE_LIBRARY_AUTO;
return local_id;
}
/** Create an overridden local copy of linked reference. */
ID *BKE_lib_override_library_create_from_id(Main *bmain,
ID *reference_id,
const bool do_tagged_remap)
{
BLI_assert(reference_id != NULL);
BLI_assert(reference_id->lib != NULL);
ID *local_id = lib_override_library_create_from(bmain, reference_id);
if (do_tagged_remap) {
ID *other_id;
FOREACH_MAIN_ID_BEGIN (bmain, other_id) {
if ((other_id->tag & LIB_TAG_DOIT) != 0 && other_id->lib == NULL) {
/* Note that using ID_REMAP_SKIP_INDIRECT_USAGE below is superfluous, as we only remap
* local IDs usages anyway... */
BKE_libblock_relink_ex(bmain,
other_id,
reference_id,
local_id,
ID_REMAP_SKIP_INDIRECT_USAGE | ID_REMAP_SKIP_OVERRIDE_LIBRARY);
}
}
FOREACH_MAIN_ID_END;
}
return local_id;
}
/**
* Create overridden local copies of all tagged data-blocks in given Main.
*
* \note Set id->newid of overridden libs with newly created overrides,
* caller is responsible to clean those pointers before/after usage as needed.
*
* \note By default, it will only remap newly created local overriding data-blocks between
* themselves, to avoid 'enforcing' those overrides into all other usages of the linked data in
* main. You can add more local IDs to be remapped to use new overriding ones by setting their
* LIB_TAG_DOIT tag.
*
* \return \a true on success, \a false otherwise.
*/
bool BKE_lib_override_library_create_from_tag(Main *bmain)
{
ID *reference_id;
bool ret = true;
ListBase todo_ids = {NULL};
LinkData *todo_id_iter;
/* Get all IDs we want to override. */
FOREACH_MAIN_ID_BEGIN (bmain, reference_id) {
if ((reference_id->tag & LIB_TAG_DOIT) != 0 && reference_id->lib != NULL) {
todo_id_iter = MEM_callocN(sizeof(*todo_id_iter), __func__);
todo_id_iter->data = reference_id;
BLI_addtail(&todo_ids, todo_id_iter);
}
}
FOREACH_MAIN_ID_END;
/* Override the IDs. */
for (todo_id_iter = todo_ids.first; todo_id_iter != NULL; todo_id_iter = todo_id_iter->next) {
reference_id = todo_id_iter->data;
if ((reference_id->newid = lib_override_library_create_from(bmain, reference_id)) == NULL) {
ret = false;
}
else {
/* We also tag the new IDs so that in next step we can remap their pointers too. */
reference_id->newid->tag |= LIB_TAG_DOIT;
}
}
/* Only remap new local ID's pointers, we don't want to force our new overrides onto our whole
* existing linked IDs usages. */
for (todo_id_iter = todo_ids.first; todo_id_iter != NULL; todo_id_iter = todo_id_iter->next) {
ID *other_id;
reference_id = todo_id_iter->data;
if (reference_id->newid == NULL) {
continue;
}
/* Still checking the whole Main, that way we can tag other local IDs as needing to be remapped
* to use newly created overriding IDs, if needed. */
FOREACH_MAIN_ID_BEGIN (bmain, other_id) {
if ((other_id->tag & LIB_TAG_DOIT) != 0 && other_id->lib == NULL) {
ID *local_id = reference_id->newid;
/* Note that using ID_REMAP_SKIP_INDIRECT_USAGE below is superfluous, as we only remap
* local IDs usages anyway... */
BKE_libblock_relink_ex(bmain,
other_id,
reference_id,
local_id,
ID_REMAP_SKIP_INDIRECT_USAGE | ID_REMAP_SKIP_OVERRIDE_LIBRARY);
}
}
FOREACH_MAIN_ID_END;
}
BLI_freelistN(&todo_ids);
return ret;
}
/* We only build override GHash on request. */
BLI_INLINE IDOverrideLibraryRuntime *override_library_rna_path_mapping_ensure(
IDOverrideLibrary *override)
{
if (override->runtime == NULL) {
override->runtime = BLI_ghash_new(BLI_ghashutil_strhash_p, BLI_ghashutil_strcmp, __func__);
for (IDOverrideLibraryProperty *op = override->properties.first; op != NULL; op = op->next) {
BLI_ghash_insert(override->runtime, op->rna_path, op);
}
}
return override->runtime;
}
/**
* Find override property from given RNA path, if it exists.
*/
IDOverrideLibraryProperty *BKE_lib_override_library_property_find(IDOverrideLibrary *override,
const char *rna_path)
{
IDOverrideLibraryRuntime *override_runtime = override_library_rna_path_mapping_ensure(override);
return BLI_ghash_lookup(override_runtime, rna_path);
}
/**
* Find override property from given RNA path, or create it if it does not exist.
*/
IDOverrideLibraryProperty *BKE_lib_override_library_property_get(IDOverrideLibrary *override,
const char *rna_path,
bool *r_created)
{
IDOverrideLibraryProperty *op = BKE_lib_override_library_property_find(override, rna_path);
if (op == NULL) {
op = MEM_callocN(sizeof(IDOverrideLibraryProperty), __func__);
op->rna_path = BLI_strdup(rna_path);
BLI_addtail(&override->properties, op);
IDOverrideLibraryRuntime *override_runtime = override_library_rna_path_mapping_ensure(
override);
BLI_ghash_insert(override_runtime, op->rna_path, op);
if (r_created) {
*r_created = true;
}
}
else if (r_created) {
*r_created = false;
}
return op;
}
void lib_override_library_property_copy(IDOverrideLibraryProperty *op_dst,
IDOverrideLibraryProperty *op_src)
{
op_dst->rna_path = BLI_strdup(op_src->rna_path);
BLI_duplicatelist(&op_dst->operations, &op_src->operations);
for (IDOverrideLibraryPropertyOperation *opop_dst = op_dst->operations.first,
*opop_src = op_src->operations.first;
opop_dst;
opop_dst = opop_dst->next, opop_src = opop_src->next) {
lib_override_library_property_operation_copy(opop_dst, opop_src);
}
}
void lib_override_library_property_clear(IDOverrideLibraryProperty *op)
{
BLI_assert(op->rna_path != NULL);
MEM_freeN(op->rna_path);
LISTBASE_FOREACH (IDOverrideLibraryPropertyOperation *, opop, &op->operations) {
lib_override_library_property_operation_clear(opop);
}
BLI_freelistN(&op->operations);
}
/**
* Remove and free given \a override_property from given ID \a override.
*/
void BKE_lib_override_library_property_delete(IDOverrideLibrary *override,
IDOverrideLibraryProperty *override_property)
{
if (override->runtime != NULL) {
BLI_ghash_remove(override->runtime, override_property->rna_path, NULL, NULL);
}
lib_override_library_property_clear(override_property);
BLI_freelinkN(&override->properties, override_property);
}
/**
* Find override property operation from given sub-item(s), if it exists.
*/
IDOverrideLibraryPropertyOperation *BKE_lib_override_library_property_operation_find(
IDOverrideLibraryProperty *override_property,
const char *subitem_refname,
const char *subitem_locname,
const int subitem_refindex,
const int subitem_locindex,
const bool strict,
bool *r_strict)
{
IDOverrideLibraryPropertyOperation *opop;
const int subitem_defindex = -1;
if (r_strict) {
*r_strict = true;
}
if (subitem_locname != NULL) {
opop = BLI_findstring_ptr(&override_property->operations,
subitem_locname,
offsetof(IDOverrideLibraryPropertyOperation, subitem_local_name));
if (opop == NULL) {
return NULL;
}
if (subitem_refname == NULL || opop->subitem_reference_name == NULL) {
return subitem_refname == opop->subitem_reference_name ? opop : NULL;
}
return (subitem_refname != NULL && opop->subitem_reference_name != NULL &&
STREQ(subitem_refname, opop->subitem_reference_name)) ?
opop :
NULL;
}
if (subitem_refname != NULL) {
opop = BLI_findstring_ptr(
&override_property->operations,
subitem_refname,
offsetof(IDOverrideLibraryPropertyOperation, subitem_reference_name));
if (opop == NULL) {
return NULL;
}
if (subitem_locname == NULL || opop->subitem_local_name == NULL) {
return subitem_locname == opop->subitem_local_name ? opop : NULL;
}
return (subitem_locname != NULL && opop->subitem_local_name != NULL &&
STREQ(subitem_locname, opop->subitem_local_name)) ?
opop :
NULL;
}
if ((opop = BLI_listbase_bytes_find(
&override_property->operations,
&subitem_locindex,
sizeof(subitem_locindex),
offsetof(IDOverrideLibraryPropertyOperation, subitem_local_index)))) {
return ELEM(subitem_refindex, -1, opop->subitem_reference_index) ? opop : NULL;
}
if ((opop = BLI_listbase_bytes_find(
&override_property->operations,
&subitem_refindex,
sizeof(subitem_refindex),
offsetof(IDOverrideLibraryPropertyOperation, subitem_reference_index)))) {
return ELEM(subitem_locindex, -1, opop->subitem_local_index) ? opop : NULL;
}
/* index == -1 means all indices, that is valid fallback in case we requested specific index. */
if (!strict && (subitem_locindex != subitem_defindex) &&
(opop = BLI_listbase_bytes_find(
&override_property->operations,
&subitem_defindex,
sizeof(subitem_defindex),
offsetof(IDOverrideLibraryPropertyOperation, subitem_local_index)))) {
if (r_strict) {
*r_strict = false;
}
return opop;
}
return NULL;
}
/**
* Find override property operation from given sub-item(s), or create it if it does not exist.
*/
IDOverrideLibraryPropertyOperation *BKE_lib_override_library_property_operation_get(
IDOverrideLibraryProperty *override_property,
const short operation,
const char *subitem_refname,
const char *subitem_locname,
const int subitem_refindex,
const int subitem_locindex,
const bool strict,
bool *r_strict,
bool *r_created)
{
IDOverrideLibraryPropertyOperation *opop = BKE_lib_override_library_property_operation_find(
override_property,
subitem_refname,
subitem_locname,
subitem_refindex,
subitem_locindex,
strict,
r_strict);
if (opop == NULL) {
opop = MEM_callocN(sizeof(IDOverrideLibraryPropertyOperation), __func__);
opop->operation = operation;
if (subitem_locname) {
opop->subitem_local_name = BLI_strdup(subitem_locname);
}
if (subitem_refname) {
opop->subitem_reference_name = BLI_strdup(subitem_refname);
}
opop->subitem_local_index = subitem_locindex;
opop->subitem_reference_index = subitem_refindex;
BLI_addtail(&override_property->operations, opop);
if (r_created) {
*r_created = true;
}
}
else if (r_created) {
*r_created = false;
}
return opop;
}
void lib_override_library_property_operation_copy(IDOverrideLibraryPropertyOperation *opop_dst,
IDOverrideLibraryPropertyOperation *opop_src)
{
if (opop_src->subitem_reference_name) {
opop_dst->subitem_reference_name = BLI_strdup(opop_src->subitem_reference_name);
}
if (opop_src->subitem_local_name) {
opop_dst->subitem_local_name = BLI_strdup(opop_src->subitem_local_name);
}
}
void lib_override_library_property_operation_clear(IDOverrideLibraryPropertyOperation *opop)
{
if (opop->subitem_reference_name) {
MEM_freeN(opop->subitem_reference_name);
}
if (opop->subitem_local_name) {
MEM_freeN(opop->subitem_local_name);
}
}
/**
* Remove and free given \a override_property_operation from given ID \a override_property.
*/
void BKE_lib_override_library_property_operation_delete(
IDOverrideLibraryProperty *override_property,
IDOverrideLibraryPropertyOperation *override_property_operation)
{
lib_override_library_property_operation_clear(override_property_operation);
BLI_freelinkN(&override_property->operations, override_property_operation);
}
/**
* Validate that required data for a given operation are available.
*/
bool BKE_lib_override_library_property_operation_operands_validate(
struct IDOverrideLibraryPropertyOperation *override_property_operation,
struct PointerRNA *ptr_dst,
struct PointerRNA *ptr_src,
struct PointerRNA *ptr_storage,
struct PropertyRNA *prop_dst,
struct PropertyRNA *prop_src,
struct PropertyRNA *prop_storage)
{
switch (override_property_operation->operation) {
case IDOVERRIDE_LIBRARY_OP_NOOP:
return true;
case IDOVERRIDE_LIBRARY_OP_ADD:
ATTR_FALLTHROUGH;
case IDOVERRIDE_LIBRARY_OP_SUBTRACT:
ATTR_FALLTHROUGH;
case IDOVERRIDE_LIBRARY_OP_MULTIPLY:
if (ptr_storage == NULL || ptr_storage->data == NULL || prop_storage == NULL) {
BLI_assert(!"Missing data to apply differential override operation.");
return false;
}
ATTR_FALLTHROUGH;
case IDOVERRIDE_LIBRARY_OP_INSERT_AFTER:
ATTR_FALLTHROUGH;
case IDOVERRIDE_LIBRARY_OP_INSERT_BEFORE:
ATTR_FALLTHROUGH;
case IDOVERRIDE_LIBRARY_OP_REPLACE:
if ((ptr_dst == NULL || ptr_dst->data == NULL || prop_dst == NULL) ||
(ptr_src == NULL || ptr_src->data == NULL || prop_src == NULL)) {
BLI_assert(!"Missing data to apply override operation.");
return false;
}
}
return true;
}
/**
* Check that status of local data-block is still valid against current reference one.
*
* It means that all overridable, but not overridden, properties' local values must be equal to
* reference ones. Clears #LIB_TAG_OVERRIDE_OK if they do not.
*
* This is typically used to detect whether some property has been changed in local and a new
* #IDOverrideProperty (of #IDOverridePropertyOperation) has to be added.
*
* \return true if status is OK, false otherwise. */
bool BKE_lib_override_library_status_check_local(Main *bmain, ID *local)
{
BLI_assert(local->override_library != NULL);
ID *reference = local->override_library->reference;
if (reference == NULL) {
/* This is an override template, local status is always OK! */
return true;
}
BLI_assert(GS(local->name) == GS(reference->name));
if (GS(local->name) == ID_OB) {
/* Our beloved pose's bone cross-data pointers... Usually, depsgraph evaluation would ensure
* this is valid, but in some cases (like hidden collections etc.) this won't be the case, so
* we need to take care of this ourselves. */
Object *ob_local = (Object *)local;
if (ob_local->data != NULL && ob_local->type == OB_ARMATURE && ob_local->pose != NULL &&
ob_local->pose->flag & POSE_RECALC) {
BKE_pose_rebuild(bmain, ob_local, ob_local->data, true);
}
}
/* Note that reference is assumed always valid, caller has to ensure that itself. */
PointerRNA rnaptr_local, rnaptr_reference;
RNA_id_pointer_create(local, &rnaptr_local);
RNA_id_pointer_create(reference, &rnaptr_reference);
if (!RNA_struct_override_matches(bmain,
&rnaptr_local,
&rnaptr_reference,
NULL,
local->override_library,
RNA_OVERRIDE_COMPARE_IGNORE_NON_OVERRIDABLE |
RNA_OVERRIDE_COMPARE_IGNORE_OVERRIDDEN,
NULL)) {
local->tag &= ~LIB_TAG_OVERRIDE_LIBRARY_REFOK;
return false;
}
return true;
}
/**
* Check that status of reference data-block is still valid against current local one.
*
* It means that all non-overridden properties' local values must be equal to reference ones.
* Clears LIB_TAG_OVERRIDE_OK if they do not.
*
* This is typically used to detect whether some reference has changed and local
* needs to be updated against it.
*
* \return true if status is OK, false otherwise. */
bool BKE_lib_override_library_status_check_reference(Main *bmain, ID *local)
{
BLI_assert(local->override_library != NULL);
ID *reference = local->override_library->reference;
if (reference == NULL) {
/* This is an override template, reference is virtual, so its status is always OK! */
return true;
}
BLI_assert(GS(local->name) == GS(reference->name));
if (reference->override_library && (reference->tag & LIB_TAG_OVERRIDE_LIBRARY_REFOK) == 0) {
if (!BKE_lib_override_library_status_check_reference(bmain, reference)) {
/* If reference is also override of another data-block, and its status is not OK,
* then this override is not OK either.
* Note that this should only happen when reloading libraries... */
local->tag &= ~LIB_TAG_OVERRIDE_LIBRARY_REFOK;
return false;
}
}
if (GS(local->name) == ID_OB) {
/* Our beloved pose's bone cross-data pointers... Usually, depsgraph evaluation would ensure
* this is valid, but in some cases (like hidden collections etc.) this won't be the case, so
* we need to take care of this ourselves. */
Object *ob_local = (Object *)local;
if (ob_local->data != NULL && ob_local->type == OB_ARMATURE && ob_local->pose != NULL &&
ob_local->pose->flag & POSE_RECALC) {
BKE_pose_rebuild(bmain, ob_local, ob_local->data, true);
}
}
PointerRNA rnaptr_local, rnaptr_reference;
RNA_id_pointer_create(local, &rnaptr_local);
RNA_id_pointer_create(reference, &rnaptr_reference);
if (!RNA_struct_override_matches(bmain,
&rnaptr_local,
&rnaptr_reference,
NULL,
local->override_library,
RNA_OVERRIDE_COMPARE_IGNORE_OVERRIDDEN,
NULL)) {
local->tag &= ~LIB_TAG_OVERRIDE_LIBRARY_REFOK;
return false;
}
return true;
}
/**
* Compares local and reference data-blocks and create new override operations as needed,
* or reset to reference values if overriding is not allowed.
*
* \note Defining override operations is only mandatory before saving a `.blend` file on disk
* (not for undo!).
* Knowing that info at runtime is only useful for UI/UX feedback.
*
* \note This is by far the biggest operation (the more time-consuming) of the three so far,
* since it has to go over all properties in depth (all overridable ones at least).
* Generating diff values and applying overrides are much cheaper.
*
* \return true if new overriding op was created, or some local data was reset. */
bool BKE_lib_override_library_operations_create(Main *bmain, ID *local, const bool force_auto)
{
BLI_assert(local->override_library != NULL);
const bool is_template = (local->override_library->reference == NULL);
bool ret = false;
if (!is_template && (force_auto || local->override_library->flag & OVERRIDE_LIBRARY_AUTO)) {
/* Do not attempt to generate overriding rules from an empty place-holder generated by link
* code when it cannot find to actual library/ID. Much better to keep the local datablock as
* is in the file in that case, until broken lib is fixed. */
if (ID_MISSING(local->override_library->reference)) {
return ret;
}
if (GS(local->name) == ID_OB) {
/* Our beloved pose's bone cross-data pointers... Usually, depsgraph evaluation would ensure
* this is valid, but in some situations (like hidden collections etc.) this won't be the
* case, so we need to take care of this ourselves. */
Object *ob_local = (Object *)local;
if (ob_local->data != NULL && ob_local->type == OB_ARMATURE && ob_local->pose != NULL &&
ob_local->pose->flag & POSE_RECALC) {
BKE_pose_rebuild(bmain, ob_local, ob_local->data, true);
}
}
PointerRNA rnaptr_local, rnaptr_reference;
RNA_id_pointer_create(local, &rnaptr_local);
RNA_id_pointer_create(local->override_library->reference, &rnaptr_reference);
eRNAOverrideMatchResult report_flags = 0;
RNA_struct_override_matches(bmain,
&rnaptr_local,
&rnaptr_reference,
NULL,
local->override_library,
RNA_OVERRIDE_COMPARE_CREATE | RNA_OVERRIDE_COMPARE_RESTORE,
&report_flags);
if (report_flags & RNA_OVERRIDE_MATCH_RESULT_CREATED) {
ret = true;
}
#ifndef NDEBUG
if (report_flags & RNA_OVERRIDE_MATCH_RESULT_RESTORED) {
printf("We did restore some properties of %s from its reference.\n", local->name);
}
if (ret) {
printf("We did generate library override rules for %s\n", local->name);
}
else {
printf("No new library override rules for %s\n", local->name);
}
#endif
}
return ret;
}
/** Check all overrides from given \a bmain and create/update overriding operations as needed. */
void BKE_lib_override_library_main_operations_create(Main *bmain, const bool force_auto)
{
ID *id;
/* When force-auto is set, we also remove all unused existing override properties & operations.
*/
if (force_auto) {
BKE_lib_override_library_main_tag(bmain, IDOVERRIDE_LIBRARY_TAG_UNUSED, true);
}
FOREACH_MAIN_ID_BEGIN (bmain, id) {
if ((ID_IS_OVERRIDE_LIBRARY(id) && force_auto) ||
(ID_IS_OVERRIDE_LIBRARY_AUTO(id) && (id->tag & LIB_TAG_OVERRIDE_LIBRARY_AUTOREFRESH))) {
BKE_lib_override_library_operations_create(bmain, id, force_auto);
id->tag &= ~LIB_TAG_OVERRIDE_LIBRARY_AUTOREFRESH;
}
}
FOREACH_MAIN_ID_END;
if (force_auto) {
BKE_lib_override_library_main_unused_cleanup(bmain);
}
}
/** Set or clear given tag in all operations as unused in that override property data. */
void BKE_lib_override_library_operations_tag(struct IDOverrideLibraryProperty *override_property,
const short tag,
const bool do_set)
{
if (override_property != NULL) {
if (do_set) {
override_property->tag |= tag;
}
else {
override_property->tag &= ~tag;
}
LISTBASE_FOREACH (IDOverrideLibraryPropertyOperation *, opop, &override_property->operations) {
if (do_set) {
opop->tag |= tag;
}
else {
opop->tag &= ~tag;
}
}
}
}
/** Set or clear given tag in all properties and operations in that override data. */
void BKE_lib_override_library_properties_tag(struct IDOverrideLibrary *override,
const short tag,
const bool do_set)
{
if (override != NULL) {
LISTBASE_FOREACH (IDOverrideLibraryProperty *, op, &override->properties) {
BKE_lib_override_library_operations_tag(op, tag, do_set);
}
}
}
/** Set or clear given tag in all properties and operations in that Main's ID override data. */
void BKE_lib_override_library_main_tag(struct Main *bmain, const short tag, const bool do_set)
{
ID *id;
FOREACH_MAIN_ID_BEGIN (bmain, id) {
if (ID_IS_OVERRIDE_LIBRARY(id)) {
BKE_lib_override_library_properties_tag(id->override_library, tag, do_set);
}
}
FOREACH_MAIN_ID_END;
}
/** Remove all tagged-as-unused properties and operations from that ID override data. */
void BKE_lib_override_library_id_unused_cleanup(struct ID *local)
{
if (local->override_library != NULL) {
LISTBASE_FOREACH_MUTABLE (
IDOverrideLibraryProperty *, op, &local->override_library->properties) {
if (op->tag & IDOVERRIDE_LIBRARY_TAG_UNUSED) {
BKE_lib_override_library_property_delete(local->override_library, op);
}
else {
LISTBASE_FOREACH_MUTABLE (IDOverrideLibraryPropertyOperation *, opop, &op->operations) {
if (opop->tag & IDOVERRIDE_LIBRARY_TAG_UNUSED) {
BKE_lib_override_library_property_operation_delete(op, opop);
}
}
}
}
}
}
/** Remove all tagged-as-unused properties and operations from that Main's ID override data. */
void BKE_lib_override_library_main_unused_cleanup(struct Main *bmain)
{
ID *id;
FOREACH_MAIN_ID_BEGIN (bmain, id) {
if (ID_IS_OVERRIDE_LIBRARY(id)) {
BKE_lib_override_library_id_unused_cleanup(id);
}
}
FOREACH_MAIN_ID_END;
}
/** Update given override from its reference (re-applying overridden properties). */
void BKE_lib_override_library_update(Main *bmain, ID *local)
{
if (local->override_library == NULL || local->override_library->reference == NULL) {
return;
}
/* Do not attempt to apply overriding rules over an empty place-holder generated by link code
* when it cannot find to actual library/ID. Much better to keep the local datablock as loaded
* from the file in that case, until broken lib is fixed. */
if (ID_MISSING(local->override_library->reference)) {
return;
}
/* Recursively do 'ancestors' overrides first, if any. */
if (local->override_library->reference->override_library &&
(local->override_library->reference->tag & LIB_TAG_OVERRIDE_LIBRARY_REFOK) == 0) {
BKE_lib_override_library_update(bmain, local->override_library->reference);
}
/* We want to avoid having to remap here, however creating up-to-date override is much simpler
* if based on reference than on current override.
* So we work on temp copy of reference, and 'swap' its content with local. */
/* XXX We need a way to get off-Main copies of IDs (similar to localized mats/texts/ etc.)!
* However, this is whole bunch of code work in itself, so for now plain stupid ID copy will
* do, as inn-efficient as it is. :/
* Actually, maybe not! Since we are swapping with original ID's local content, we want to
* keep user-count in correct state when freeing tmp_id
* (and that user-counts of IDs used by 'new' local data also remain correct). */
/* This would imply change in handling of user-count all over RNA
* (and possibly all over Blender code).
* Not impossible to do, but would rather see first if extra useless usual user handling
* is actually a (performances) issue here. */
ID *tmp_id;
BKE_id_copy(bmain, local->override_library->reference, &tmp_id);
if (tmp_id == NULL) {
return;
}
/* This ID name is problematic, since it is an 'rna name property' it should not be editable or
* different from reference linked ID. But local ID names need to be unique in a given type list
* of Main, so we cannot always keep it identical, which is why we need this special manual
* handling here. */
BLI_strncpy(tmp_id->name, local->name, sizeof(tmp_id->name));
PointerRNA rnaptr_src, rnaptr_dst, rnaptr_storage_stack, *rnaptr_storage = NULL;
RNA_id_pointer_create(local, &rnaptr_src);
RNA_id_pointer_create(tmp_id, &rnaptr_dst);
if (local->override_library->storage) {
rnaptr_storage = &rnaptr_storage_stack;
RNA_id_pointer_create(local->override_library->storage, rnaptr_storage);
}
RNA_struct_override_apply(
bmain, &rnaptr_dst, &rnaptr_src, rnaptr_storage, local->override_library);
/* This also transfers all pointers (memory) owned by local to tmp_id, and vice-versa.
* So when we'll free tmp_id, we'll actually free old, outdated data from local. */
BKE_lib_id_swap(bmain, local, tmp_id);
/* Again, horribly inn-efficient in our case, we need something off-Main
* (aka more generic nolib copy/free stuff)! */
/* XXX And crashing in complex cases (e.g. because depsgraph uses same data...). */
BKE_id_free_ex(bmain, tmp_id, LIB_ID_FREE_NO_UI_USER, true);
if (local->override_library->storage) {
/* We know this datablock is not used anywhere besides local->override->storage. */
/* XXX For until we get fully shadow copies, we still need to ensure storage releases
* its usage of any ID pointers it may have. */
BKE_id_free_ex(bmain, local->override_library->storage, LIB_ID_FREE_NO_UI_USER, true);
local->override_library->storage = NULL;
}
local->tag |= LIB_TAG_OVERRIDE_LIBRARY_REFOK;
/* Full rebuild of Depsgraph! */
/* XXX Is this actual valid replacement for old DAG_relations_tag_update(bmain) ? */
DEG_on_visible_update(bmain, true);
}
/** Update all overrides from given \a bmain. */
void BKE_lib_override_library_main_update(Main *bmain)
{
ID *id;
FOREACH_MAIN_ID_BEGIN (bmain, id) {
if (id->override_library != NULL && id->lib == NULL) {
BKE_lib_override_library_update(bmain, id);
}
}
FOREACH_MAIN_ID_END;
}
/**
* Storage (how to store overriding data into `.blend` files).
*
* Basically:
* 1) Only 'differential' storage needs special handling here. All others (replacing values or
* inserting/removing items from a collection) can be handled with simply storing current
* content of local data-block.
* 2) We store the differential value into a second 'ghost' data-block,
* which is an empty ID of same type as local one,
* where we only define values that need differential data.
*
* This avoids us having to modify 'real' data-block at write time (and restoring it afterwards),
* which is inefficient, and potentially dangerous (in case of concurrent access...), while not
* using much extra memory in typical cases. It also ensures stored data-block always contains
* exact same data as "desired" ones (kind of "baked" data-blocks).
*/
/** Initialize an override storage. */
OverrideLibraryStorage *BKE_lib_override_library_operations_store_initialize(void)
{
return BKE_main_new();
}
/**
* Generate suitable 'write' data (this only affects differential override operations).
*
* Note that \a local ID is no more modified by this call,
* all extra data are stored in its temp \a storage_id copy. */
ID *BKE_lib_override_library_operations_store_start(Main *bmain,
OverrideLibraryStorage *override_storage,
ID *local)
{
BLI_assert(local->override_library != NULL);
BLI_assert(override_storage != NULL);
const bool is_template = (local->override_library->reference == NULL);
if (is_template) {
/* This is actually purely local data with an override template, nothing to do here! */
return NULL;
}
/* Forcefully ensure we know about all needed override operations. */
BKE_lib_override_library_operations_create(bmain, local, false);
ID *storage_id;
#ifdef DEBUG_OVERRIDE_TIMEIT
TIMEIT_START_AVERAGED(BKE_lib_override_library_operations_store_start);
#endif
/* XXX TODO We may also want a specialized handling of things here too, to avoid copying heavy
* never-overridable data (like Mesh geometry etc.)? And also maybe avoid lib reference-counting
* completely (shallow copy...). */
/* This would imply change in handling of user-count all over RNA
* (and possibly all over Blender code).
* Not impossible to do, but would rather see first is extra useless usual user handling is
* actually a (performances) issue here, before doing it. */
BKE_id_copy((Main *)override_storage, local, &storage_id);
if (storage_id != NULL) {
PointerRNA rnaptr_reference, rnaptr_final, rnaptr_storage;
RNA_id_pointer_create(local->override_library->reference, &rnaptr_reference);
RNA_id_pointer_create(local, &rnaptr_final);
RNA_id_pointer_create(storage_id, &rnaptr_storage);
if (!RNA_struct_override_store(
bmain, &rnaptr_final, &rnaptr_reference, &rnaptr_storage, local->override_library)) {
BKE_id_free_ex(override_storage, storage_id, LIB_ID_FREE_NO_UI_USER, true);
storage_id = NULL;
}
}
local->override_library->storage = storage_id;
#ifdef DEBUG_OVERRIDE_TIMEIT
TIMEIT_END_AVERAGED(BKE_lib_override_library_operations_store_start);
#endif
return storage_id;
}
/** Restore given ID modified by \a BKE_lib_override_library_operations_store_start, to its
* original state. */
void BKE_lib_override_library_operations_store_end(
OverrideLibraryStorage *UNUSED(override_storage), ID *local)
{
BLI_assert(local->override_library != NULL);
/* Nothing else to do here really, we need to keep all temp override storage data-blocks in
* memory until whole file is written anyway (otherwise we'd get mem pointers overlap...). */
local->override_library->storage = NULL;
}
void BKE_lib_override_library_operations_store_finalize(OverrideLibraryStorage *override_storage)
{
/* We cannot just call BKE_main_free(override_storage), not until we have option to make 'ghost'
* copies of IDs without increasing usercount of used data-blocks. */
ID *id;
FOREACH_MAIN_ID_BEGIN (override_storage, id) {
BKE_id_free_ex(override_storage, id, LIB_ID_FREE_NO_UI_USER, true);
}
FOREACH_MAIN_ID_END;
BKE_main_free(override_storage);
}
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