/* SPDX-License-Identifier: GPL-2.0-or-later */ #include "BLI_listbase.h" #include "BLI_string_search.h" #include "DNA_space_types.h" #include "BKE_context.h" #include "NOD_socket_search_link.hh" #include "BLT_translation.h" #include "RNA_access.h" #include "WM_api.h" #include "ED_node.h" #include "node_intern.hh" using blender::nodes::SocketLinkOperation; namespace blender::ed::space_node { struct LinkDragSearchStorage { bNode &from_node; bNodeSocket &from_socket; float2 cursor; Vector search_link_ops; char search[256]; eNodeSocketInOut in_out() const { return static_cast(from_socket.in_out); } }; static void add_reroute_node_fn(nodes::LinkSearchOpParams ¶ms) { bNode &reroute = params.add_node("NodeReroute"); if (params.socket.in_out == SOCK_IN) { nodeAddLink(¶ms.node_tree, &reroute, static_cast(reroute.outputs.first), ¶ms.node, ¶ms.socket); } else { nodeAddLink(¶ms.node_tree, ¶ms.node, ¶ms.socket, &reroute, static_cast(reroute.inputs.first)); } } static void add_group_input_node_fn(nodes::LinkSearchOpParams ¶ms) { /* Add a group input based on the connected socket, and add a new group input node. */ bNodeSocket *interface_socket = ntreeAddSocketInterfaceFromSocket( ¶ms.node_tree, ¶ms.node, ¶ms.socket); const int group_input_index = BLI_findindex(¶ms.node_tree.inputs, interface_socket); bNode &group_input = params.add_node("NodeGroupInput"); /* This is necessary to create the new sockets in the other input nodes. */ ED_node_tree_propagate_change(¶ms.C, CTX_data_main(¶ms.C), ¶ms.node_tree); /* Hide the new input in all other group input nodes, to avoid making them taller. */ LISTBASE_FOREACH (bNode *, node, ¶ms.node_tree.nodes) { if (node->type == NODE_GROUP_INPUT) { bNodeSocket *new_group_input_socket = (bNodeSocket *)BLI_findlink(&node->outputs, group_input_index); new_group_input_socket->flag |= SOCK_HIDDEN; } } /* Hide all existing inputs in the new group input node, to only display the new one. */ LISTBASE_FOREACH (bNodeSocket *, socket, &group_input.outputs) { socket->flag |= SOCK_HIDDEN; } bNodeSocket *socket = (bNodeSocket *)BLI_findlink(&group_input.outputs, group_input_index); if (socket == nullptr) { /* Adding sockets can fail in some cases. There's no good reason not to be safe here. */ return; } /* Unhide the socket for the new input in the new node and make a connection to it. */ socket->flag &= ~SOCK_HIDDEN; nodeAddLink(¶ms.node_tree, &group_input, socket, ¶ms.node, ¶ms.socket); } static void add_existing_group_input_fn(nodes::LinkSearchOpParams ¶ms, const bNodeSocket &interface_socket) { const int group_input_index = BLI_findindex(¶ms.node_tree.inputs, &interface_socket); bNode &group_input = params.add_node("NodeGroupInput"); LISTBASE_FOREACH (bNodeSocket *, socket, &group_input.outputs) { socket->flag |= SOCK_HIDDEN; } bNodeSocket *socket = (bNodeSocket *)BLI_findlink(&group_input.outputs, group_input_index); if (socket == nullptr) { /* Adding sockets can fail in some cases. There's no good reason not to be safe here. */ return; } socket->flag &= ~SOCK_HIDDEN; nodeAddLink(¶ms.node_tree, &group_input, socket, ¶ms.node, ¶ms.socket); } /** * Call the callback to gather compatible socket connections for all node types, and the operations * that will actually make the connections. Also add some custom operations like connecting a group * output node. */ static void gather_socket_link_operations(bNodeTree &node_tree, const bNodeSocket &socket, Vector &search_link_ops) { NODE_TYPES_BEGIN (node_type) { if (StringRef(node_type->idname).find("Legacy") != StringRef::not_found) { continue; } const char *disabled_hint; if (!(node_type->poll && node_type->poll(node_type, &node_tree, &disabled_hint))) { continue; } if (node_type->gather_link_search_ops) { nodes::GatherLinkSearchOpParams params{*node_type, node_tree, socket, search_link_ops}; node_type->gather_link_search_ops(params); } } NODE_TYPES_END; search_link_ops.append({IFACE_("Reroute"), add_reroute_node_fn}); const bool is_node_group = !(node_tree.id.flag & LIB_EMBEDDED_DATA); if (is_node_group && socket.in_out == SOCK_IN) { search_link_ops.append({IFACE_("Group Input"), add_group_input_node_fn}); int weight = -1; LISTBASE_FOREACH (const bNodeSocket *, interface_socket, &node_tree.inputs) { eNodeSocketDatatype from = (eNodeSocketDatatype)interface_socket->type; eNodeSocketDatatype to = (eNodeSocketDatatype)socket.type; if (node_tree.typeinfo->validate_link && !node_tree.typeinfo->validate_link(from, to)) { continue; } search_link_ops.append( {std::string(IFACE_("Group Input ")) + UI_MENU_ARROW_SEP + interface_socket->name, [interface_socket](nodes::LinkSearchOpParams ¶ms) { add_existing_group_input_fn(params, *interface_socket); }, weight}); weight--; } } } static void link_drag_search_update_fn(const bContext *UNUSED(C), void *arg, const char *str, uiSearchItems *items, const bool is_first) { LinkDragSearchStorage &storage = *static_cast(arg); StringSearch *search = BLI_string_search_new(); for (SocketLinkOperation &op : storage.search_link_ops) { BLI_string_search_add(search, op.name.c_str(), &op, op.weight); } /* Don't filter when the menu is first opened, but still run the search * so the items are in the same order they will appear in while searching. */ const char *string = is_first ? "" : str; SocketLinkOperation **filtered_items; const int filtered_amount = BLI_string_search_query(search, string, (void ***)&filtered_items); for (const int i : IndexRange(filtered_amount)) { SocketLinkOperation &item = *filtered_items[i]; if (!UI_search_item_add(items, item.name.c_str(), &item, ICON_NONE, 0, 0)) { break; } } MEM_freeN(filtered_items); BLI_string_search_free(search); } static void link_drag_search_exec_fn(bContext *C, void *arg1, void *arg2) { Main &bmain = *CTX_data_main(C); SpaceNode &snode = *CTX_wm_space_node(C); LinkDragSearchStorage &storage = *static_cast(arg1); SocketLinkOperation *item = static_cast(arg2); if (item == nullptr) { return; } node_deselect_all(snode); Vector new_nodes; nodes::LinkSearchOpParams params{ *C, *snode.edittree, storage.from_node, storage.from_socket, new_nodes}; item->fn(params); if (new_nodes.is_empty()) { return; } /* For now, assume that only one node is created by the callback. */ BLI_assert(new_nodes.size() == 1); bNode *new_node = new_nodes.first(); new_node->locx = storage.cursor.x / UI_DPI_FAC; new_node->locy = storage.cursor.y / UI_DPI_FAC + 20 * UI_DPI_FAC; if (storage.in_out() == SOCK_IN) { new_node->locx -= new_node->width; } nodeSetSelected(new_node, true); nodeSetActive(snode.edittree, new_node); /* Ideally it would be possible to tag the node tree in some way so it updates only after the * translate operation is finished, but normally moving nodes around doesn't cause updates. */ ED_node_tree_propagate_change(C, &bmain, snode.edittree); /* Start translation operator with the new node. */ wmOperatorType *ot = WM_operatortype_find("TRANSFORM_OT_translate", true); BLI_assert(ot); PointerRNA ptr; WM_operator_properties_create_ptr(&ptr, ot); RNA_boolean_set(&ptr, "view2d_edge_pan", true); WM_operator_name_call_ptr(C, ot, WM_OP_INVOKE_DEFAULT, &ptr); WM_operator_properties_free(&ptr); } static void link_drag_search_free_fn(void *arg) { LinkDragSearchStorage *storage = static_cast(arg); delete storage; } static uiBlock *create_search_popup_block(bContext *C, ARegion *region, void *arg_op) { LinkDragSearchStorage &storage = *(LinkDragSearchStorage *)arg_op; bNodeTree *node_tree = CTX_wm_space_node(C)->nodetree; gather_socket_link_operations(*node_tree, storage.from_socket, storage.search_link_ops); uiBlock *block = UI_block_begin(C, region, "_popup", UI_EMBOSS); UI_block_flag_enable(block, UI_BLOCK_LOOP | UI_BLOCK_MOVEMOUSE_QUIT | UI_BLOCK_SEARCH_MENU); UI_block_theme_style_set(block, UI_BLOCK_THEME_STYLE_POPUP); uiBut *but = uiDefSearchBut(block, storage.search, 0, ICON_VIEWZOOM, sizeof(storage.search), storage.in_out() == SOCK_OUT ? 10 : 10 - UI_searchbox_size_x(), 10, UI_searchbox_size_x(), UI_UNIT_Y, 0, 0, ""); UI_but_func_search_set_sep_string(but, UI_MENU_ARROW_SEP); UI_but_func_search_set(but, nullptr, link_drag_search_update_fn, &storage, false, link_drag_search_free_fn, link_drag_search_exec_fn, nullptr); UI_but_flag_enable(but, UI_BUT_ACTIVATE_ON_INIT); /* Fake button to hold space for the search items. */ uiDefBut(block, UI_BTYPE_LABEL, 0, "", storage.in_out() == SOCK_OUT ? 10 : 10 - UI_searchbox_size_x(), 10 - UI_searchbox_size_y(), UI_searchbox_size_x(), UI_searchbox_size_y(), nullptr, 0, 0, 0, 0, nullptr); const int offset[2] = {0, -UI_UNIT_Y}; UI_block_bounds_set_popup(block, 0.3f * U.widget_unit, offset); return block; } void invoke_node_link_drag_add_menu(bContext &C, bNode &node, bNodeSocket &socket, const float2 &cursor) { LinkDragSearchStorage *storage = new LinkDragSearchStorage{node, socket, cursor}; /* Use the "_ex" variant with `can_refresh` false to avoid a double free when closing Blender. */ UI_popup_block_invoke_ex(&C, create_search_popup_block, storage, nullptr, false); } } // namespace blender::ed::space_node