/* SPDX-License-Identifier: GPL-2.0-or-later * Copyright 2017 Blender Foundation. All rights reserved. */ /** \file * \ingroup spoutliner */ #include #include "BLI_listbase.h" #include "BLI_utildefines.h" #include "DNA_action_types.h" #include "DNA_screen_types.h" #include "DNA_space_types.h" #include "BKE_armature.h" #include "BKE_context.h" #include "BKE_layer.h" #include "BKE_object.h" #include "BKE_outliner_treehash.hh" #include "ED_outliner.h" #include "ED_screen.h" #include "UI_interface.h" #include "UI_view2d.h" #include "outliner_intern.hh" #include "tree/tree_display.hh" #include "tree/tree_iterator.hh" namespace blender::ed::outliner { /* -------------------------------------------------------------------- */ /** \name Tree View Context * \{ */ void outliner_viewcontext_init(const bContext *C, TreeViewContext *tvc) { memset(tvc, 0, sizeof(*tvc)); /* Scene level. */ tvc->scene = CTX_data_scene(C); tvc->view_layer = CTX_data_view_layer(C); /* Objects. */ BKE_view_layer_synced_ensure(tvc->scene, tvc->view_layer); tvc->obact = BKE_view_layer_active_object_get(tvc->view_layer); if (tvc->obact != nullptr) { tvc->ob_edit = OBEDIT_FROM_OBACT(tvc->obact); if ((tvc->obact->type == OB_ARMATURE) || /* This could be made into its own function. */ ((tvc->obact->type == OB_MESH) && tvc->obact->mode & OB_MODE_WEIGHT_PAINT)) { tvc->ob_pose = BKE_object_pose_armature_get(tvc->obact); } } } /** \} */ TreeElement *outliner_find_item_at_y(const SpaceOutliner *space_outliner, const ListBase *tree, float view_co_y) { LISTBASE_FOREACH (TreeElement *, te_iter, tree) { if (view_co_y < (te_iter->ys + UI_UNIT_Y)) { if (view_co_y >= te_iter->ys) { /* co_y is inside this element */ return te_iter; } if (BLI_listbase_is_empty(&te_iter->subtree) || !TSELEM_OPEN(TREESTORE(te_iter), space_outliner)) { /* No need for recursion. */ continue; } /* If the coordinate is lower than the next element, we can continue with that one and skip * recursion too. */ const TreeElement *te_next = te_iter->next; if (te_next && (view_co_y < (te_next->ys + UI_UNIT_Y))) { continue; } /* co_y is lower than current element (but not lower than the next one), possibly inside * children */ TreeElement *te_sub = outliner_find_item_at_y(space_outliner, &te_iter->subtree, view_co_y); if (te_sub) { return te_sub; } } } return nullptr; } static TreeElement *outliner_find_item_at_x_in_row_recursive(const TreeElement *parent_te, float view_co_x, bool *r_is_merged_icon) { TreeElement *child_te = static_cast(parent_te->subtree.first); while (child_te) { const bool over_element = (view_co_x > child_te->xs) && (view_co_x < child_te->xend); if ((child_te->flag & TE_ICONROW) && over_element) { return child_te; } if ((child_te->flag & TE_ICONROW_MERGED) && over_element) { if (r_is_merged_icon) { *r_is_merged_icon = true; } return child_te; } TreeElement *te = outliner_find_item_at_x_in_row_recursive( child_te, view_co_x, r_is_merged_icon); if (te != child_te) { return te; } child_te = child_te->next; } /* return parent if no child is hovered */ return (TreeElement *)parent_te; } TreeElement *outliner_find_item_at_x_in_row(const SpaceOutliner *space_outliner, TreeElement *parent_te, float view_co_x, bool *r_is_merged_icon, bool *r_is_over_icon) { /* if parent_te is opened, it doesn't show children in row */ TreeElement *te = parent_te; if (!TSELEM_OPEN(TREESTORE(parent_te), space_outliner)) { te = outliner_find_item_at_x_in_row_recursive(parent_te, view_co_x, r_is_merged_icon); } if ((te != parent_te) || outliner_item_is_co_over_icon(parent_te, view_co_x)) { *r_is_over_icon = true; } return te; } TreeElement *outliner_find_tree_element(ListBase *lb, const TreeStoreElem *store_elem) { LISTBASE_FOREACH (TreeElement *, te, lb) { if (te->store_elem == store_elem) { return te; } TreeElement *tes = outliner_find_tree_element(&te->subtree, store_elem); if (tes) { return tes; } } return nullptr; } TreeElement *outliner_find_parent_element(ListBase *lb, TreeElement *parent_te, const TreeElement *child_te) { LISTBASE_FOREACH (TreeElement *, te, lb) { if (te == child_te) { return parent_te; } TreeElement *find_te = outliner_find_parent_element(&te->subtree, te, child_te); if (find_te) { return find_te; } } return nullptr; } TreeElement *outliner_find_id(SpaceOutliner *space_outliner, ListBase *lb, const ID *id) { LISTBASE_FOREACH (TreeElement *, te, lb) { TreeStoreElem *tselem = TREESTORE(te); if (tselem->type == TSE_SOME_ID) { if (tselem->id == id) { return te; } } TreeElement *tes = outliner_find_id(space_outliner, &te->subtree, id); if (tes) { return tes; } } return nullptr; } TreeElement *outliner_find_posechannel(ListBase *lb, const bPoseChannel *pchan) { LISTBASE_FOREACH (TreeElement *, te, lb) { if (te->directdata == pchan) { return te; } TreeStoreElem *tselem = TREESTORE(te); if (ELEM(tselem->type, TSE_POSE_BASE, TSE_POSE_CHANNEL)) { TreeElement *tes = outliner_find_posechannel(&te->subtree, pchan); if (tes) { return tes; } } } return nullptr; } TreeElement *outliner_find_editbone(ListBase *lb, const EditBone *ebone) { LISTBASE_FOREACH (TreeElement *, te, lb) { if (te->directdata == ebone) { return te; } TreeStoreElem *tselem = TREESTORE(te); if (ELEM(tselem->type, TSE_SOME_ID, TSE_EBONE)) { TreeElement *tes = outliner_find_editbone(&te->subtree, ebone); if (tes) { return tes; } } } return nullptr; } TreeElement *outliner_search_back_te(TreeElement *te, short idcode) { TreeStoreElem *tselem; te = te->parent; while (te) { tselem = TREESTORE(te); if ((tselem->type == TSE_SOME_ID) && (te->idcode == idcode)) { return te; } te = te->parent; } return nullptr; } ID *outliner_search_back(TreeElement *te, short idcode) { TreeElement *search_te; TreeStoreElem *tselem; search_te = outliner_search_back_te(te, idcode); if (search_te) { tselem = TREESTORE(search_te); return tselem->id; } return nullptr; } bool outliner_tree_traverse(const SpaceOutliner *space_outliner, ListBase *tree, int filter_te_flag, int filter_tselem_flag, TreeTraversalFunc func, void *customdata) { for (TreeElement *te = static_cast(tree->first), *te_next; te; te = te_next) { TreeTraversalAction func_retval = TRAVERSE_CONTINUE; /* in case te is freed in callback */ TreeStoreElem *tselem = TREESTORE(te); ListBase subtree = te->subtree; te_next = te->next; if (filter_te_flag && (te->flag & filter_te_flag) == 0) { /* skip */ } else if (filter_tselem_flag && (tselem->flag & filter_tselem_flag) == 0) { /* skip */ } else { func_retval = func(te, customdata); } /* Don't access te or tselem from now on! Might've been freed... */ if (func_retval == TRAVERSE_BREAK) { return false; } if (func_retval == TRAVERSE_SKIP_CHILDS) { /* skip */ } else if (!outliner_tree_traverse( space_outliner, &subtree, filter_te_flag, filter_tselem_flag, func, customdata)) { return false; } } return true; } float outliner_right_columns_width(const SpaceOutliner *space_outliner) { int num_columns = 0; switch (space_outliner->outlinevis) { case SO_DATA_API: case SO_SEQUENCE: case SO_LIBRARIES: return 0.0f; case SO_OVERRIDES_LIBRARY: switch ((eSpaceOutliner_LibOverrideViewMode)space_outliner->lib_override_view_mode) { case SO_LIB_OVERRIDE_VIEW_PROPERTIES: num_columns = OL_RNA_COL_SIZEX / UI_UNIT_X; break; case SO_LIB_OVERRIDE_VIEW_HIERARCHIES: num_columns = 1; break; } break; case SO_ID_ORPHANS: num_columns = 3; break; case SO_VIEW_LAYER: if (space_outliner->show_restrict_flags & SO_RESTRICT_ENABLE) { num_columns++; } if (space_outliner->show_restrict_flags & SO_RESTRICT_HOLDOUT) { num_columns++; } if (space_outliner->show_restrict_flags & SO_RESTRICT_INDIRECT_ONLY) { num_columns++; } ATTR_FALLTHROUGH; case SO_SCENES: if (space_outliner->show_restrict_flags & SO_RESTRICT_SELECT) { num_columns++; } if (space_outliner->show_restrict_flags & SO_RESTRICT_HIDE) { num_columns++; } if (space_outliner->show_restrict_flags & SO_RESTRICT_VIEWPORT) { num_columns++; } if (space_outliner->show_restrict_flags & SO_RESTRICT_RENDER) { num_columns++; } break; } return (num_columns * UI_UNIT_X + V2D_SCROLL_WIDTH); } TreeElement *outliner_find_element_with_flag(const ListBase *lb, short flag) { LISTBASE_FOREACH (TreeElement *, te, lb) { if ((TREESTORE(te)->flag & flag) == flag) { return te; } TreeElement *active_element = outliner_find_element_with_flag(&te->subtree, flag); if (active_element) { return active_element; } } return nullptr; } bool outliner_is_element_visible(const TreeElement *te) { TreeStoreElem *tselem; while (te->parent) { tselem = TREESTORE(te->parent); if (tselem->flag & TSE_CLOSED) { return false; } te = te->parent; } return true; } bool outliner_is_element_in_view(const TreeElement *te, const View2D *v2d) { return ((te->ys + UI_UNIT_Y) >= v2d->cur.ymin) && (te->ys <= v2d->cur.ymax); } bool outliner_item_is_co_over_name_icons(const TreeElement *te, float view_co_x) { /* Special case: count area left of Scene Collection as empty space */ bool outside_left = (TREESTORE(te)->type == TSE_VIEW_COLLECTION_BASE) ? (view_co_x > te->xs + UI_UNIT_X) : (view_co_x > te->xs); return outside_left && (view_co_x < te->xend); } bool outliner_item_is_co_over_icon(const TreeElement *te, float view_co_x) { return (view_co_x > (te->xs + UI_UNIT_X)) && (view_co_x < (te->xs + UI_UNIT_X * 2)); } bool outliner_item_is_co_over_name(const TreeElement *te, float view_co_x) { return (view_co_x > (te->xs + UI_UNIT_X * 2)) && (view_co_x < te->xend); } bool outliner_item_is_co_within_close_toggle(const TreeElement *te, float view_co_x) { return (view_co_x > te->xs) && (view_co_x < te->xs + UI_UNIT_X); } void outliner_scroll_view(SpaceOutliner *space_outliner, ARegion *region, int delta_y) { int tree_width, tree_height; outliner_tree_dimensions(space_outliner, &tree_width, &tree_height); int y_min = MIN2(region->v2d.cur.ymin, -tree_height); region->v2d.cur.ymax += delta_y; region->v2d.cur.ymin += delta_y; /* Adjust view if delta placed view outside total area */ int offset; if (region->v2d.cur.ymax > -UI_UNIT_Y) { offset = region->v2d.cur.ymax; region->v2d.cur.ymax -= offset; region->v2d.cur.ymin -= offset; } else if (region->v2d.cur.ymin < y_min) { offset = y_min - region->v2d.cur.ymin; region->v2d.cur.ymax += offset; region->v2d.cur.ymin += offset; } } void outliner_tag_redraw_avoid_rebuild_on_open_change(const SpaceOutliner *space_outliner, ARegion *region) { /* Avoid rebuild if possible. */ if (space_outliner->runtime->tree_display->is_lazy_built()) { ED_region_tag_redraw(region); } else { ED_region_tag_redraw_no_rebuild(region); } } } // namespace blender::ed::outliner using namespace blender::ed::outliner; Base *ED_outliner_give_base_under_cursor(bContext *C, const int mval[2]) { ARegion *region = CTX_wm_region(C); const Scene *scene = CTX_data_scene(C); ViewLayer *view_layer = CTX_data_view_layer(C); SpaceOutliner *space_outliner = CTX_wm_space_outliner(C); TreeElement *te; Base *base = nullptr; float view_mval[2]; UI_view2d_region_to_view(®ion->v2d, mval[0], mval[1], &view_mval[0], &view_mval[1]); te = outliner_find_item_at_y(space_outliner, &space_outliner->tree, view_mval[1]); if (te) { TreeStoreElem *tselem = TREESTORE(te); if ((tselem->type == TSE_SOME_ID) && (te->idcode == ID_OB)) { Object *ob = (Object *)tselem->id; BKE_view_layer_synced_ensure(scene, view_layer); base = (te->directdata) ? (Base *)te->directdata : BKE_view_layer_base_find(view_layer, ob); } } return base; }