/* SPDX-FileCopyrightText: 2023 Blender Authors * * SPDX-License-Identifier: GPL-2.0-or-later */ /** \file * \ingroup edobj */ #include #include #include "DNA_armature_types.h" #include "DNA_curve_types.h" #include "DNA_meta_types.h" #include "DNA_object_types.h" #include "BLI_listbase.h" #include "BLI_math_matrix.h" #include "BLI_math_vector.h" #include "BKE_action.hh" #include "BKE_armature.hh" #include "BKE_editmesh.hh" #include "BKE_lattice.hh" #include "BKE_layer.hh" #include "BKE_object.hh" #include "BKE_scene.hh" #include "DEG_depsgraph_query.hh" #include "ED_curve.hh" #include "ED_object.hh" /* own include */ #include "WM_api.hh" #include "MEM_guardedalloc.h" namespace blender::ed::object { /* -------------------------------------------------------------------- */ /** \name Material Functions * \{ */ bool material_active_index_set(Object *ob, const int index) { if (ob->totcol > 0) { const short actcol_test = std::clamp(index + 1, 1, ob->totcol); if (ob->actcol != actcol_test) { ob->actcol = actcol_test; WM_main_add_notifier(NC_MATERIAL | ND_SHADING_LINKS, nullptr); return true; } } return false; } /** \} */ /* -------------------------------------------------------------------- */ /** \name Active Element Center * \{ */ bool calc_active_center_for_editmode(Object *obedit, const bool select_only, float r_center[3]) { switch (obedit->type) { case OB_MESH: { BMEditMesh *em = BKE_editmesh_from_object(obedit); BMEditSelection ese; if (BM_select_history_active_get(em->bm, &ese)) { BM_editselection_center(&ese, r_center); return true; } break; } case OB_ARMATURE: { bArmature *arm = static_cast(obedit->data); EditBone *ebo = arm->act_edbone; if (ebo && (!select_only || (ebo->flag & (BONE_SELECTED | BONE_ROOTSEL)))) { copy_v3_v3(r_center, ebo->head); return true; } break; } case OB_CURVES_LEGACY: case OB_SURF: { Curve *cu = static_cast(obedit->data); if (ED_curve_active_center(cu, r_center)) { return true; } break; } case OB_MBALL: { MetaBall *mb = static_cast(obedit->data); MetaElem *ml_act = mb->lastelem; if (ml_act && (!select_only || (ml_act->flag & SELECT))) { copy_v3_v3(r_center, &ml_act->x); return true; } break; } case OB_LATTICE: { BPoint *actbp = BKE_lattice_active_point_get(static_cast(obedit->data)); if (actbp) { copy_v3_v3(r_center, actbp->vec); return true; } break; } case OB_GREASE_PENCIL: { copy_v3_v3(r_center, obedit->loc); mul_m4_v3(obedit->world_to_object().ptr(), r_center); return true; } } return false; } bool calc_active_center_for_posemode(Object *ob, const bool select_only, float r_center[3]) { bPoseChannel *pchan = BKE_pose_channel_active_if_bonecoll_visible(ob); if (pchan && (!select_only || (pchan->flag & POSE_SELECTED))) { const bArmature *arm = static_cast(ob->data); BKE_pose_channel_transform_location(arm, pchan, r_center); return true; } return false; } bool calc_active_center(Object *ob, const bool select_only, float r_center[3]) { if (ob->mode & OB_MODE_EDIT) { if (calc_active_center_for_editmode(ob, select_only, r_center)) { mul_m4_v3(ob->object_to_world().ptr(), r_center); return true; } return false; } if (ob->mode & OB_MODE_POSE) { if (calc_active_center_for_posemode(ob, select_only, r_center)) { mul_m4_v3(ob->object_to_world().ptr(), r_center); return true; } return false; } if (!select_only || (ob->base_flag & BASE_SELECTED)) { copy_v3_v3(r_center, ob->object_to_world().location()); return true; } return false; } /** \} */ /* -------------------------------------------------------------------- */ /** \name Object Child Skip * * Don't transform unselected children, this is done using the parent inverse matrix. * * \note The complex logic here is caused by mixed selection within a single selection chain, * otherwise we only need #XFORM_OB_SKIP_CHILD_PARENT_IS_XFORM for single objects. * * \{ */ struct XFormObjectSkipChild { float obmat_orig[4][4] = {}; float parent_obmat_orig[4][4] = {}; float parent_obmat_inv_orig[4][4] = {}; float parent_recurse_obmat_orig[4][4] = {}; float parentinv_orig[4][4] = {}; Object *ob_parent_recurse = nullptr; int mode = OB_MODE_OBJECT; }; struct XFormObjectSkipChild_Container { Map> obchild_in_obmode_map; }; XFormObjectSkipChild_Container *xform_skip_child_container_create() { XFormObjectSkipChild_Container *xcs = MEM_new(__func__); return xcs; } void xform_skip_child_container_item_ensure_from_array(XFormObjectSkipChild_Container *xcs, const Scene *scene, ViewLayer *view_layer, Object **objects, uint objects_len) { Set objects_in_transdata(Span(objects, objects_len)); BKE_view_layer_synced_ensure(scene, view_layer); ListBase *object_bases = BKE_view_layer_object_bases_get(view_layer); LISTBASE_FOREACH (Base *, base, object_bases) { Object *ob = base->object; if (ob->parent != nullptr) { if (!objects_in_transdata.contains(ob)) { if (objects_in_transdata.contains(ob->parent)) { object_xform_skip_child_container_item_ensure( xcs, ob, nullptr, XFORM_OB_SKIP_CHILD_PARENT_IS_XFORM); } } else { if (!objects_in_transdata.contains(ob->parent)) { Object *ob_parent_recurse = ob->parent; if (ob_parent_recurse != nullptr) { while (ob_parent_recurse != nullptr) { if (objects_in_transdata.contains(ob_parent_recurse)) { break; } ob_parent_recurse = ob_parent_recurse->parent; } if (ob_parent_recurse) { object_xform_skip_child_container_item_ensure( xcs, ob, ob_parent_recurse, XFORM_OB_SKIP_CHILD_PARENT_APPLY); } } } } } } LISTBASE_FOREACH (Base *, base, object_bases) { Object *ob = base->object; if (objects_in_transdata.contains(ob)) { /* pass. */ } else if (ob->parent != nullptr) { if (objects_in_transdata.contains(ob->parent)) { if (!objects_in_transdata.contains(ob)) { object_xform_skip_child_container_item_ensure( xcs, ob, nullptr, XFORM_OB_SKIP_CHILD_PARENT_IS_XFORM); } } } } } void object_xform_skip_child_container_destroy(XFormObjectSkipChild_Container *xcs) { MEM_delete(xcs); } void object_xform_skip_child_container_item_ensure(XFormObjectSkipChild_Container *xcs, Object *ob, Object *ob_parent_recurse, int mode) { xcs->obchild_in_obmode_map.lookup_or_add_cb(ob, [&]() { std::unique_ptr xf = std::make_unique(); copy_m4_m4(xf->parentinv_orig, ob->parentinv); copy_m4_m4(xf->obmat_orig, ob->object_to_world().ptr()); copy_m4_m4(xf->parent_obmat_orig, ob->parent->object_to_world().ptr()); invert_m4_m4(xf->parent_obmat_inv_orig, ob->parent->object_to_world().ptr()); if (ob_parent_recurse) { copy_m4_m4(xf->parent_recurse_obmat_orig, ob_parent_recurse->object_to_world().ptr()); } xf->mode = mode; xf->ob_parent_recurse = ob_parent_recurse; return xf; }); } void object_xform_skip_child_container_update_all(XFormObjectSkipChild_Container *xcs, Main *bmain, Depsgraph *depsgraph) { BKE_scene_graph_evaluated_ensure(depsgraph, bmain); for (auto item : xcs->obchild_in_obmode_map.items()) { Object *ob = item.key; XFormObjectSkipChild *xf = item.value.get(); /* The following blocks below assign 'dmat'. */ float dmat[4][4]; if (xf->mode == XFORM_OB_SKIP_CHILD_PARENT_IS_XFORM) { /* Parent is transformed, this isn't so compensate. */ Object *ob_parent_eval = DEG_get_evaluated(depsgraph, ob->parent); mul_m4_m4m4(dmat, xf->parent_obmat_inv_orig, ob_parent_eval->object_to_world().ptr()); invert_m4(dmat); } else if (xf->mode == XFORM_OB_SKIP_CHILD_PARENT_IS_XFORM_INDIRECT) { /* Calculate parent matrix (from the root transform). */ Object *ob_parent_recurse_eval = DEG_get_evaluated(depsgraph, xf->ob_parent_recurse); float parent_recurse_obmat_inv[4][4]; invert_m4_m4(parent_recurse_obmat_inv, ob_parent_recurse_eval->object_to_world().ptr()); mul_m4_m4m4(dmat, xf->parent_recurse_obmat_orig, parent_recurse_obmat_inv); invert_m4(dmat); float parent_obmat_calc[4][4]; mul_m4_m4m4(parent_obmat_calc, dmat, xf->parent_obmat_orig); /* Apply to the parent inverse matrix. */ mul_m4_m4m4(dmat, xf->parent_obmat_inv_orig, parent_obmat_calc); invert_m4(dmat); } else { BLI_assert(xf->mode == XFORM_OB_SKIP_CHILD_PARENT_APPLY); /* Transform this - without transform data. */ Object *ob_parent_recurse_eval = DEG_get_evaluated(depsgraph, xf->ob_parent_recurse); float parent_recurse_obmat_inv[4][4]; invert_m4_m4(parent_recurse_obmat_inv, ob_parent_recurse_eval->object_to_world().ptr()); mul_m4_m4m4(dmat, xf->parent_recurse_obmat_orig, parent_recurse_obmat_inv); invert_m4(dmat); float obmat_calc[4][4]; mul_m4_m4m4(obmat_calc, dmat, xf->obmat_orig); /* obmat_calc is just obmat. */ /* Get the matrices relative to the parent. */ float obmat_parent_relative_orig[4][4]; float obmat_parent_relative_calc[4][4]; float obmat_parent_relative_inv_orig[4][4]; mul_m4_m4m4(obmat_parent_relative_orig, xf->parent_obmat_inv_orig, xf->obmat_orig); mul_m4_m4m4(obmat_parent_relative_calc, xf->parent_obmat_inv_orig, obmat_calc); invert_m4_m4(obmat_parent_relative_inv_orig, obmat_parent_relative_orig); /* Apply to the parent inverse matrix. */ mul_m4_m4m4(dmat, obmat_parent_relative_calc, obmat_parent_relative_inv_orig); } mul_m4_m4m4(ob->parentinv, dmat, xf->parentinv_orig); DEG_id_tag_update(&ob->id, ID_RECALC_TRANSFORM); } } /** \} */ /* -------------------------------------------------------------------- */ /** \name Object Data Transform Container * * Use to implement 'Affect Only Origins' feature. * * \{ */ struct XFormObjectData_Container { GHash *obdata_in_obmode_map = nullptr; }; struct XFormObjectData_Extra { Object *ob = nullptr; float obmat_orig[4][4] = {}; std::unique_ptr xod; }; void data_xform_container_item_ensure(XFormObjectData_Container *xds, Object *ob) { if (xds->obdata_in_obmode_map == nullptr) { xds->obdata_in_obmode_map = BLI_ghash_ptr_new(__func__); } void **xf_p; if (!BLI_ghash_ensure_p(xds->obdata_in_obmode_map, ob->data, &xf_p)) { XFormObjectData_Extra *xf = MEM_new(__func__); copy_m4_m4(xf->obmat_orig, ob->object_to_world().ptr()); xf->ob = ob; /* Result may be nullptr, that's OK. */ xf->xod = data_xform_create(static_cast(ob->data)); *xf_p = xf; } } void data_xform_container_update_all(XFormObjectData_Container *xds, Main *bmain, Depsgraph *depsgraph) { if (xds->obdata_in_obmode_map == nullptr) { return; } BKE_scene_graph_evaluated_ensure(depsgraph, bmain); GHashIterator gh_iter; GHASH_ITER (gh_iter, xds->obdata_in_obmode_map) { ID *id = static_cast(BLI_ghashIterator_getKey(&gh_iter)); XFormObjectData_Extra *xf = static_cast( BLI_ghashIterator_getValue(&gh_iter)); if (!xf->xod) { continue; } Object *ob_eval = DEG_get_evaluated(depsgraph, xf->ob); float4x4 imat, dmat; invert_m4_m4(imat.ptr(), xf->obmat_orig); mul_m4_m4m4(dmat.ptr(), imat.ptr(), ob_eval->object_to_world().ptr()); invert_m4(dmat.ptr()); data_xform_by_mat4(*xf->xod, dmat); if (xf->ob->type == OB_ARMATURE) { /* TODO: none of the current flags properly update armatures, needs investigation. */ DEG_id_tag_update(id, 0); } else { DEG_id_tag_update(id, ID_RECALC_GEOMETRY); } } } /** Callback for #GHash free. */ static void trans_obdata_in_obmode_free_elem(void *xf_p) { XFormObjectData_Extra *xf = static_cast(xf_p); MEM_delete(xf); } XFormObjectData_Container *data_xform_container_create() { XFormObjectData_Container *xds = MEM_new(__func__); xds->obdata_in_obmode_map = BLI_ghash_ptr_new(__func__); return xds; } void data_xform_container_destroy(XFormObjectData_Container *xds) { BLI_ghash_free(xds->obdata_in_obmode_map, nullptr, trans_obdata_in_obmode_free_elem); MEM_delete(xds); } /** \} */ /* -------------------------------------------------------------------- */ /** \name Transform Object Array * * Low level object transform function, transforming objects by `matrix`. * Simple alternative to full transform logic. * \{ */ static bool object_parent_in_set(const Set &objects_set, Object *ob) { for (Object *parent = ob->parent; parent; parent = parent->parent) { if (objects_set.contains(parent)) { return true; } } return false; } void object_xform_array_m4(Object **objects, uint objects_len, const float matrix[4][4]) { /* Filter out objects that have parents in `objects_set`. */ { Set objects_set(Span(objects, objects_len)); for (uint i = 0; i < objects_len;) { if (object_parent_in_set(objects_set, objects[i])) { objects[i] = objects[--objects_len]; } else { i++; } } } /* Detect translation only matrix, prevent rotation/scale channels from being touched at all. */ bool is_translation_only; { float test_m4_a[4][4], test_m4_b[4][4]; unit_m4(test_m4_a); copy_m4_m4(test_m4_b, matrix); zero_v3(test_m4_b[3]); is_translation_only = equals_m4m4(test_m4_a, test_m4_b); } if (is_translation_only) { for (uint i = 0; i < objects_len; i++) { Object *ob = objects[i]; add_v3_v3(ob->loc, matrix[3]); DEG_id_tag_update(&ob->id, ID_RECALC_TRANSFORM); } } else { for (uint i = 0; i < objects_len; i++) { float m4[4][4]; Object *ob = objects[i]; BKE_object_to_mat4(ob, m4); mul_m4_m4m4(m4, matrix, m4); BKE_object_apply_mat4(ob, m4, true, true); DEG_id_tag_update(&ob->id, ID_RECALC_TRANSFORM); } } } /** \} */ } // namespace blender::ed::object