/* * 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) 2017 Blender Foundation. * All rights reserved. */ /** \file * \ingroup depsgraph * * Implementation of Querying and Filtering API's */ /* Silence warnings from copying deprecated fields. */ #define DNA_DEPRECATED_ALLOW #include "MEM_guardedalloc.h" extern "C" { #include "BLI_utildefines.h" #include "BLI_math.h" #include "BKE_anim.h" #include "BKE_idprop.h" #include "BKE_layer.h" #include "BKE_node.h" #include "BKE_object.h" } /* extern "C" */ #include "DNA_object_types.h" #include "DNA_scene_types.h" #include "DEG_depsgraph.h" #include "DEG_depsgraph_query.h" #include "intern/depsgraph.h" #include "intern/node/deg_node_id.h" #ifndef NDEBUG # include "intern/eval/deg_eval_copy_on_write.h" #endif // If defined, all working data will be set to an invalid state, helping // to catch issues when areas accessing data which is considered to be no // longer available. #undef INVALIDATE_WORK_DATA #ifndef NDEBUG # define INVALIDATE_WORK_DATA #endif /* ************************ DEG ITERATORS ********************* */ namespace { void deg_invalidate_iterator_work_data(DEGObjectIterData *data) { #ifdef INVALIDATE_WORK_DATA BLI_assert(data != NULL); memset(&data->temp_dupli_object, 0xff, sizeof(data->temp_dupli_object)); #else (void)data; #endif } void verify_id_properties_freed(DEGObjectIterData *data) { if (data->dupli_object_current == NULL) { // We didn't enter duplication yet, so we can't have any dangling // pointers. return; } const Object *dupli_object = data->dupli_object_current->ob; Object *temp_dupli_object = &data->temp_dupli_object; if (temp_dupli_object->id.properties == NULL) { // No ID properties in temp datablock -- no leak is possible. return; } if (temp_dupli_object->id.properties == dupli_object->id.properties) { // Temp copy of object did not modify ID properties. return; } // Free memory which is owned by temporary storage which is about to // get overwritten. IDP_FreeProperty(temp_dupli_object->id.properties); temp_dupli_object->id.properties = NULL; } static bool deg_object_hide_original(eEvaluationMode eval_mode, Object *ob, DupliObject *dob) { /* Automatic hiding if this object is being instanced on verts/faces/frames * by its parent. Ideally this should not be needed, but due to the wrong * dependency direction in the data design there is no way to keep the object * visible otherwise. The better solution eventually would be for objects * to specify which object they instance, instead of through parenting. */ if (eval_mode == DAG_EVAL_RENDER || dob) { const int hide_original_types = OB_DUPLIVERTS | OB_DUPLIFACES; if (!dob || !(dob->type & hide_original_types)) { if (ob->parent && (ob->parent->transflag & hide_original_types)) { return true; } } } return false; } bool deg_objects_dupli_iterator_next(BLI_Iterator *iter) { DEGObjectIterData *data = (DEGObjectIterData *)iter->data; while (data->dupli_object_next != NULL) { DupliObject *dob = data->dupli_object_next; Object *obd = dob->ob; data->dupli_object_next = data->dupli_object_next->next; if (dob->no_draw) { continue; } if (obd->type == OB_MBALL) { continue; } if (deg_object_hide_original(data->eval_mode, dob->ob, dob)) { continue; } verify_id_properties_freed(data); data->dupli_object_current = dob; /* Temporary object to evaluate. */ Object *dupli_parent = data->dupli_parent; Object *temp_dupli_object = &data->temp_dupli_object; *temp_dupli_object = *dob->ob; temp_dupli_object->base_flag = dupli_parent->base_flag | BASE_FROM_DUPLI; temp_dupli_object->base_local_view_bits = dupli_parent->base_local_view_bits; temp_dupli_object->runtime.local_collections_bits = dupli_parent->runtime.local_collections_bits; temp_dupli_object->dt = MIN2(temp_dupli_object->dt, dupli_parent->dt); copy_v4_v4(temp_dupli_object->color, dupli_parent->color); /* Duplicated elements shouldn't care whether their original collection is visible or not. */ temp_dupli_object->base_flag |= BASE_VISIBLE_DEPSGRAPH; int ob_visibility = BKE_object_visibility(temp_dupli_object, data->eval_mode); if ((ob_visibility & (OB_VISIBLE_SELF | OB_VISIBLE_PARTICLES)) == 0) { continue; } /* This could be avoided by refactoring make_dupli() in order to track all negative scaling * recursively. */ bool is_neg_scale = is_negative_m4(dob->mat); SET_FLAG_FROM_TEST(data->temp_dupli_object.transflag, is_neg_scale, OB_NEG_SCALE); copy_m4_m4(data->temp_dupli_object.obmat, dob->mat); invert_m4_m4(data->temp_dupli_object.imat, data->temp_dupli_object.obmat); iter->current = &data->temp_dupli_object; BLI_assert(DEG::deg_validate_copy_on_write_datablock(&data->temp_dupli_object.id)); return true; } return false; } void deg_iterator_objects_step(BLI_Iterator *iter, DEG::IDNode *id_node) { /* Set it early in case we need to exit and we are running from within a loop. */ iter->skip = true; if (!id_node->is_directly_visible) { return; } DEGObjectIterData *data = (DEGObjectIterData *)iter->data; const ID_Type id_type = GS(id_node->id_orig->name); if (id_type != ID_OB) { return; } switch (id_node->linked_state) { case DEG::DEG_ID_LINKED_DIRECTLY: if ((data->flag & DEG_ITER_OBJECT_FLAG_LINKED_DIRECTLY) == 0) { return; } break; case DEG::DEG_ID_LINKED_VIA_SET: if ((data->flag & DEG_ITER_OBJECT_FLAG_LINKED_VIA_SET) == 0) { return; } break; case DEG::DEG_ID_LINKED_INDIRECTLY: if ((data->flag & DEG_ITER_OBJECT_FLAG_LINKED_INDIRECTLY) == 0) { return; } break; } Object *object = (Object *)id_node->id_cow; BLI_assert(DEG::deg_validate_copy_on_write_datablock(&object->id)); int ob_visibility = OB_VISIBLE_ALL; if (data->flag & DEG_ITER_OBJECT_FLAG_VISIBLE) { ob_visibility = BKE_object_visibility(object, data->eval_mode); if (deg_object_hide_original(data->eval_mode, object, NULL)) { return; } } if (ob_visibility & OB_VISIBLE_INSTANCES) { if ((data->flag & DEG_ITER_OBJECT_FLAG_DUPLI) && (object->transflag & OB_DUPLI)) { data->dupli_parent = object; data->dupli_list = object_duplilist(data->graph, data->scene, object); data->dupli_object_next = (DupliObject *)data->dupli_list->first; } } if (ob_visibility & (OB_VISIBLE_SELF | OB_VISIBLE_PARTICLES)) { iter->current = object; iter->skip = false; } } } // namespace void DEG_iterator_objects_begin(BLI_Iterator *iter, DEGObjectIterData *data) { Depsgraph *depsgraph = data->graph; DEG::Depsgraph *deg_graph = reinterpret_cast(depsgraph); const size_t num_id_nodes = deg_graph->id_nodes.size(); iter->data = data; if (num_id_nodes == 0) { iter->valid = false; return; } data->dupli_parent = NULL; data->dupli_list = NULL; data->dupli_object_next = NULL; data->dupli_object_current = NULL; data->scene = DEG_get_evaluated_scene(depsgraph); data->id_node_index = 0; data->num_id_nodes = num_id_nodes; data->eval_mode = DEG_get_mode(depsgraph); deg_invalidate_iterator_work_data(data); DEG::IDNode *id_node = deg_graph->id_nodes[data->id_node_index]; deg_iterator_objects_step(iter, id_node); if (iter->skip) { DEG_iterator_objects_next(iter); } } void DEG_iterator_objects_next(BLI_Iterator *iter) { DEGObjectIterData *data = (DEGObjectIterData *)iter->data; Depsgraph *depsgraph = data->graph; DEG::Depsgraph *deg_graph = reinterpret_cast(depsgraph); do { iter->skip = false; if (data->dupli_list) { if (deg_objects_dupli_iterator_next(iter)) { return; } else { verify_id_properties_freed(data); free_object_duplilist(data->dupli_list); data->dupli_parent = NULL; data->dupli_list = NULL; data->dupli_object_next = NULL; data->dupli_object_current = NULL; deg_invalidate_iterator_work_data(data); } } ++data->id_node_index; if (data->id_node_index == data->num_id_nodes) { iter->valid = false; return; } DEG::IDNode *id_node = deg_graph->id_nodes[data->id_node_index]; deg_iterator_objects_step(iter, id_node); } while (iter->skip); } void DEG_iterator_objects_end(BLI_Iterator *iter) { DEGObjectIterData *data = (DEGObjectIterData *)iter->data; if (data != NULL) { /* Force crash in case the iterator data is referenced and accessed down * the line. (T51718) */ deg_invalidate_iterator_work_data(data); } } /* ************************ DEG ID ITERATOR ********************* */ static void DEG_iterator_ids_step(BLI_Iterator *iter, DEG::IDNode *id_node, bool only_updated) { ID *id_cow = id_node->id_cow; if (!id_node->is_directly_visible) { iter->skip = true; return; } else if (only_updated && !(id_cow->recalc & ID_RECALC_ALL)) { bNodeTree *ntree = ntreeFromID(id_cow); /* Nodetree is considered part of the datablock. */ if (!(ntree && (ntree->id.recalc & ID_RECALC_ALL))) { iter->skip = true; return; } } iter->current = id_cow; iter->skip = false; } void DEG_iterator_ids_begin(BLI_Iterator *iter, DEGIDIterData *data) { Depsgraph *depsgraph = data->graph; DEG::Depsgraph *deg_graph = reinterpret_cast(depsgraph); const size_t num_id_nodes = deg_graph->id_nodes.size(); iter->data = data; if ((num_id_nodes == 0) || (data->only_updated && !DEG_id_type_any_updated(depsgraph))) { iter->valid = false; return; } data->id_node_index = 0; data->num_id_nodes = num_id_nodes; DEG::IDNode *id_node = deg_graph->id_nodes[data->id_node_index]; DEG_iterator_ids_step(iter, id_node, data->only_updated); if (iter->skip) { DEG_iterator_ids_next(iter); } } void DEG_iterator_ids_next(BLI_Iterator *iter) { DEGIDIterData *data = (DEGIDIterData *)iter->data; Depsgraph *depsgraph = data->graph; DEG::Depsgraph *deg_graph = reinterpret_cast(depsgraph); do { iter->skip = false; ++data->id_node_index; if (data->id_node_index == data->num_id_nodes) { iter->valid = false; return; } DEG::IDNode *id_node = deg_graph->id_nodes[data->id_node_index]; DEG_iterator_ids_step(iter, id_node, data->only_updated); } while (iter->skip); } void DEG_iterator_ids_end(BLI_Iterator *UNUSED(iter)) { }