/* SPDX-License-Identifier: GPL-2.0-or-later */ #include "UI_interface.h" #include "UI_resources.h" #include "BKE_attribute_math.hh" #include "NOD_socket_search_link.hh" #include "node_geometry_util.hh" namespace blender::nodes::node_geo_attribute_capture_cc { NODE_STORAGE_FUNCS(NodeGeometryAttributeCapture) static void node_declare(NodeDeclarationBuilder &b) { b.add_input(N_("Geometry")); b.add_input(N_("Value")).supports_field(); b.add_input(N_("Value"), "Value_001").supports_field(); b.add_input(N_("Value"), "Value_002").supports_field(); b.add_input(N_("Value"), "Value_003").supports_field(); b.add_input(N_("Value"), "Value_004").supports_field(); b.add_output(N_("Geometry")); b.add_output(N_("Attribute")).field_source(); b.add_output(N_("Attribute"), "Attribute_001").field_source(); b.add_output(N_("Attribute"), "Attribute_002").field_source(); b.add_output(N_("Attribute"), "Attribute_003").field_source(); b.add_output(N_("Attribute"), "Attribute_004").field_source(); } static void node_layout(uiLayout *layout, bContext * /*C*/, PointerRNA *ptr) { uiLayoutSetPropSep(layout, true); uiLayoutSetPropDecorate(layout, false); uiItemR(layout, ptr, "data_type", 0, "", ICON_NONE); uiItemR(layout, ptr, "domain", 0, "", ICON_NONE); } static void node_init(bNodeTree * /*tree*/, bNode *node) { NodeGeometryAttributeCapture *data = MEM_cnew(__func__); data->data_type = CD_PROP_FLOAT; data->domain = ATTR_DOMAIN_POINT; node->storage = data; } static void node_update(bNodeTree *ntree, bNode *node) { const NodeGeometryAttributeCapture &storage = node_storage(*node); const eCustomDataType data_type = eCustomDataType(storage.data_type); bNodeSocket *socket_value_geometry = static_cast(node->inputs.first); bNodeSocket *socket_value_vector = socket_value_geometry->next; bNodeSocket *socket_value_float = socket_value_vector->next; bNodeSocket *socket_value_color4f = socket_value_float->next; bNodeSocket *socket_value_boolean = socket_value_color4f->next; bNodeSocket *socket_value_int32 = socket_value_boolean->next; nodeSetSocketAvailability(ntree, socket_value_vector, data_type == CD_PROP_FLOAT3); nodeSetSocketAvailability(ntree, socket_value_float, data_type == CD_PROP_FLOAT); nodeSetSocketAvailability(ntree, socket_value_color4f, data_type == CD_PROP_COLOR); nodeSetSocketAvailability(ntree, socket_value_boolean, data_type == CD_PROP_BOOL); nodeSetSocketAvailability(ntree, socket_value_int32, data_type == CD_PROP_INT32); bNodeSocket *out_socket_value_geometry = static_cast(node->outputs.first); bNodeSocket *out_socket_value_vector = out_socket_value_geometry->next; bNodeSocket *out_socket_value_float = out_socket_value_vector->next; bNodeSocket *out_socket_value_color4f = out_socket_value_float->next; bNodeSocket *out_socket_value_boolean = out_socket_value_color4f->next; bNodeSocket *out_socket_value_int32 = out_socket_value_boolean->next; nodeSetSocketAvailability(ntree, out_socket_value_vector, data_type == CD_PROP_FLOAT3); nodeSetSocketAvailability(ntree, out_socket_value_float, data_type == CD_PROP_FLOAT); nodeSetSocketAvailability(ntree, out_socket_value_color4f, data_type == CD_PROP_COLOR); nodeSetSocketAvailability(ntree, out_socket_value_boolean, data_type == CD_PROP_BOOL); nodeSetSocketAvailability(ntree, out_socket_value_int32, data_type == CD_PROP_INT32); } static void node_gather_link_searches(GatherLinkSearchOpParams ¶ms) { const NodeDeclaration &declaration = *params.node_type().fixed_declaration; search_link_ops_for_declarations(params, declaration.inputs().take_front(1)); search_link_ops_for_declarations(params, declaration.outputs().take_front(1)); const bNodeType &node_type = params.node_type(); const std::optional type = node_data_type_to_custom_data_type( (eNodeSocketDatatype)params.other_socket().type); if (type && *type != CD_PROP_STRING) { if (params.in_out() == SOCK_OUT) { params.add_item(IFACE_("Attribute"), [node_type, type](LinkSearchOpParams ¶ms) { bNode &node = params.add_node(node_type); node_storage(node).data_type = *type; params.update_and_connect_available_socket(node, "Attribute"); }); } else { params.add_item(IFACE_("Value"), [node_type, type](LinkSearchOpParams ¶ms) { bNode &node = params.add_node(node_type); node_storage(node).data_type = *type; params.update_and_connect_available_socket(node, "Value"); }); } } } static StringRefNull identifier_suffix(eCustomDataType data_type) { switch (data_type) { case CD_PROP_FLOAT: return "_001"; case CD_PROP_INT32: return "_004"; case CD_PROP_COLOR: return "_002"; case CD_PROP_BOOL: return "_003"; case CD_PROP_FLOAT3: return ""; default: BLI_assert_unreachable(); return ""; } } static void node_geo_exec(GeoNodeExecParams params) { GeometrySet geometry_set = params.extract_input("Geometry"); if (!params.output_is_required("Geometry")) { params.error_message_add( NodeWarningType::Info, TIP_("The attribute output can not be used without the geometry output")); params.set_default_remaining_outputs(); return; } const NodeGeometryAttributeCapture &storage = node_storage(params.node()); const eCustomDataType data_type = eCustomDataType(storage.data_type); const eAttrDomain domain = eAttrDomain(storage.domain); const std::string output_identifier = "Attribute" + identifier_suffix(data_type); if (!params.output_is_required(output_identifier)) { params.set_output("Geometry", geometry_set); return; } const std::string input_identifier = "Value" + identifier_suffix(data_type); GField field; switch (data_type) { case CD_PROP_FLOAT: field = params.get_input>(input_identifier); break; case CD_PROP_FLOAT3: field = params.get_input>(input_identifier); break; case CD_PROP_COLOR: field = params.get_input>(input_identifier); break; case CD_PROP_BOOL: field = params.get_input>(input_identifier); break; case CD_PROP_INT32: field = params.get_input>(input_identifier); break; default: break; } WeakAnonymousAttributeID anonymous_id{"Attribute"}; const CPPType &type = field.cpp_type(); /* Run on the instances component separately to only affect the top level of instances. */ if (domain == ATTR_DOMAIN_INSTANCE) { if (geometry_set.has_instances()) { GeometryComponent &component = geometry_set.get_component_for_write( GEO_COMPONENT_TYPE_INSTANCES); bke::try_capture_field_on_geometry(component, anonymous_id.get(), domain, field); } } else { static const Array types = { GEO_COMPONENT_TYPE_MESH, GEO_COMPONENT_TYPE_POINT_CLOUD, GEO_COMPONENT_TYPE_CURVE}; geometry_set.modify_geometry_sets([&](GeometrySet &geometry_set) { for (const GeometryComponentType type : types) { if (geometry_set.has(type)) { GeometryComponent &component = geometry_set.get_component_for_write(type); bke::try_capture_field_on_geometry(component, anonymous_id.get(), domain, field); } } }); } GField output_field{std::make_shared( std::move(anonymous_id), type, params.attribute_producer_name())}; switch (data_type) { case CD_PROP_FLOAT: { params.set_output(output_identifier, Field(output_field)); break; } case CD_PROP_FLOAT3: { params.set_output(output_identifier, Field(output_field)); break; } case CD_PROP_COLOR: { params.set_output(output_identifier, Field(output_field)); break; } case CD_PROP_BOOL: { params.set_output(output_identifier, Field(output_field)); break; } case CD_PROP_INT32: { params.set_output(output_identifier, Field(output_field)); break; } default: break; } params.set_output("Geometry", geometry_set); } } // namespace blender::nodes::node_geo_attribute_capture_cc void register_node_type_geo_attribute_capture() { namespace file_ns = blender::nodes::node_geo_attribute_capture_cc; static bNodeType ntype; geo_node_type_base( &ntype, GEO_NODE_CAPTURE_ATTRIBUTE, "Capture Attribute", NODE_CLASS_ATTRIBUTE); node_type_storage(&ntype, "NodeGeometryAttributeCapture", node_free_standard_storage, node_copy_standard_storage); node_type_init(&ntype, file_ns::node_init); node_type_update(&ntype, file_ns::node_update); ntype.declare = file_ns::node_declare; ntype.geometry_node_execute = file_ns::node_geo_exec; ntype.draw_buttons = file_ns::node_layout; ntype.gather_link_search_ops = file_ns::node_gather_link_searches; nodeRegisterType(&ntype); }