forked from blender/blender
WIP: uv-simple-select #1
@ -25,7 +25,7 @@ extern "C" {
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/* Blender file format version. */
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#define BLENDER_FILE_VERSION BLENDER_VERSION
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#define BLENDER_FILE_SUBVERSION 8
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#define BLENDER_FILE_SUBVERSION 9
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/* Minimum Blender version that supports reading file written with the current
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* version. Older Blender versions will test this and show a warning if the file
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@ -3892,6 +3892,21 @@ void blo_do_versions_300(FileData *fd, Library * /*lib*/, Main *bmain)
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}
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}
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if (!MAIN_VERSION_ATLEAST(bmain, 305, 9)) {
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/* Enable legacy normal and rotation outputs in Distribute Points on Faces node. */
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LISTBASE_FOREACH (bNodeTree *, ntree, &bmain->nodetrees) {
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if (ntree->type != NTREE_GEOMETRY) {
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continue;
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}
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LISTBASE_FOREACH (bNode *, node, &ntree->nodes) {
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if (node->type != GEO_NODE_DISTRIBUTE_POINTS_ON_FACES) {
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continue;
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}
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node->custom2 = true;
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}
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}
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}
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/**
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* Versioning code until next subversion bump goes here.
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*
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@ -9645,6 +9645,14 @@ static void def_geo_distribute_points_on_faces(StructRNA *srna)
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RNA_def_property_enum_default(prop, GEO_NODE_POINT_DISTRIBUTE_POINTS_ON_FACES_RANDOM);
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RNA_def_property_ui_text(prop, "Distribution Method", "Method to use for scattering points");
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RNA_def_property_update(prop, NC_NODE | NA_EDITED, "rna_Node_socket_update");
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prop = RNA_def_property(srna, "use_legacy_normal", PROP_BOOLEAN, PROP_NONE);
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RNA_def_property_boolean_sdna(prop, NULL, "custom2", 1);
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RNA_def_property_ui_text(prop,
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"Legacy Normal",
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"Output the normal and rotation values that have been output "
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"before the node started taking smooth normals into account");
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RNA_def_property_update(prop, NC_NODE | NA_EDITED, "rna_Node_socket_update");
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}
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static void def_geo_curve_spline_type(StructRNA *srna)
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@ -67,6 +67,11 @@ static void node_layout(uiLayout *layout, bContext * /*C*/, PointerRNA *ptr)
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uiItemR(layout, ptr, "distribute_method", 0, "", ICON_NONE);
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}
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static void node_layout_ex(uiLayout *layout, bContext * /*C*/, PointerRNA *ptr)
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{
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uiItemR(layout, ptr, "use_legacy_normal", 0, nullptr, ICON_NONE);
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}
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static void node_point_distribute_points_on_faces_update(bNodeTree *ntree, bNode *node)
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{
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bNodeSocket *sock_distance_min = static_cast<bNodeSocket *>(BLI_findlink(&node->inputs, 2));
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@ -325,11 +330,73 @@ struct AttributeOutputs {
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};
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} // namespace
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static void compute_normal_outputs(const Mesh &mesh,
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const Span<float3> bary_coords,
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const Span<int> looptri_indices,
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MutableSpan<float3> r_normals)
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{
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Array<float3> corner_normals(mesh.totloop);
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BKE_mesh_calc_normals_split_ex(
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const_cast<Mesh *>(&mesh), nullptr, reinterpret_cast<float(*)[3]>(corner_normals.data()));
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const Span<MLoopTri> looptris = mesh.looptris();
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threading::parallel_for(bary_coords.index_range(), 512, [&](const IndexRange range) {
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for (const int i : range) {
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const int looptri_index = looptri_indices[i];
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const MLoopTri &looptri = looptris[looptri_index];
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const float3 &bary_coord = bary_coords[i];
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const float3 normal = math::normalize(
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bke::mesh_surface_sample::sample_corner_attrribute_with_bary_coords(
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bary_coord, looptri, corner_normals.as_span()));
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r_normals[i] = normal;
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}
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});
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}
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static void compute_legacy_normal_outputs(const Mesh &mesh,
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const Span<float3> bary_coords,
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const Span<int> looptri_indices,
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MutableSpan<float3> r_normals)
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{
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const Span<float3> positions = mesh.vert_positions();
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const Span<MLoop> loops = mesh.loops();
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const Span<MLoopTri> looptris = mesh.looptris();
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for (const int i : bary_coords.index_range()) {
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const int looptri_index = looptri_indices[i];
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const MLoopTri &looptri = looptris[looptri_index];
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const int v0_index = loops[looptri.tri[0]].v;
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const int v1_index = loops[looptri.tri[1]].v;
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const int v2_index = loops[looptri.tri[2]].v;
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const float3 v0_pos = positions[v0_index];
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const float3 v1_pos = positions[v1_index];
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const float3 v2_pos = positions[v2_index];
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float3 normal;
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normal_tri_v3(normal, v0_pos, v1_pos, v2_pos);
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r_normals[i] = normal;
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}
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}
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static void compute_rotation_output(const Span<float3> normals, MutableSpan<float3> r_rotations)
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{
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threading::parallel_for(normals.index_range(), 256, [&](const IndexRange range) {
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for (const int i : range) {
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r_rotations[i] = normal_to_euler_rotation(normals[i]);
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}
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});
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}
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BLI_NOINLINE static void compute_attribute_outputs(const Mesh &mesh,
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PointCloud &points,
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const Span<float3> bary_coords,
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const Span<int> looptri_indices,
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const AttributeOutputs &attribute_outputs)
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const AttributeOutputs &attribute_outputs,
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const bool use_legacy_normal)
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{
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MutableAttributeAccessor point_attributes = points.attributes_for_write();
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@ -348,33 +415,24 @@ BLI_NOINLINE static void compute_attribute_outputs(const Mesh &mesh,
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attribute_outputs.rotation_id.get(), ATTR_DOMAIN_POINT);
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}
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const Span<float3> positions = mesh.vert_positions();
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const Span<MLoop> loops = mesh.loops();
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const Span<MLoopTri> looptris = mesh.looptris();
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for (const int i : bary_coords.index_range()) {
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threading::parallel_for(bary_coords.index_range(), 1024, [&](const IndexRange range) {
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for (const int i : range) {
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const int looptri_index = looptri_indices[i];
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const MLoopTri &looptri = looptris[looptri_index];
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const float3 &bary_coord = bary_coords[i];
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const int v0_index = loops[looptri.tri[0]].v;
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const int v1_index = loops[looptri.tri[1]].v;
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const int v2_index = loops[looptri.tri[2]].v;
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const float3 v0_pos = positions[v0_index];
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const float3 v1_pos = positions[v1_index];
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const float3 v2_pos = positions[v2_index];
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ids.span[i] = noise::hash(noise::hash_float(bary_coord), looptri_index);
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}
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});
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float3 normal;
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if (!normals.span.is_empty() || !rotations.span.is_empty()) {
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normal_tri_v3(normal, v0_pos, v1_pos, v2_pos);
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if (normals) {
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if (use_legacy_normal) {
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compute_legacy_normal_outputs(mesh, bary_coords, looptri_indices, normals.span);
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}
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if (!normals.span.is_empty()) {
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normals.span[i] = normal;
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else {
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compute_normal_outputs(mesh, bary_coords, looptri_indices, normals.span);
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}
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if (!rotations.span.is_empty()) {
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rotations.span[i] = normal_to_euler_rotation(normal);
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if (rotations) {
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compute_rotation_output(normals.span, rotations.span);
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}
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}
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@ -507,7 +565,9 @@ static void point_distribution_calculate(GeometrySet &geometry_set,
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propagate_existing_attributes(mesh, attributes, *pointcloud, bary_coords, looptri_indices);
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compute_attribute_outputs(mesh, *pointcloud, bary_coords, looptri_indices, attribute_outputs);
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const bool use_legacy_normal = params.node().custom2 != 0;
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compute_attribute_outputs(
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mesh, *pointcloud, bary_coords, looptri_indices, attribute_outputs, use_legacy_normal);
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}
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static void node_geo_exec(GeoNodeExecParams params)
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@ -521,8 +581,9 @@ static void node_geo_exec(GeoNodeExecParams params)
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const Field<bool> selection_field = params.extract_input<Field<bool>>("Selection");
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AttributeOutputs attribute_outputs;
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attribute_outputs.normal_id = params.get_output_anonymous_attribute_id_if_needed("Normal");
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attribute_outputs.rotation_id = params.get_output_anonymous_attribute_id_if_needed("Rotation");
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attribute_outputs.normal_id = params.get_output_anonymous_attribute_id_if_needed(
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"Normal", bool(attribute_outputs.rotation_id));
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lazy_threading::send_hint();
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@ -567,5 +628,6 @@ void register_node_type_geo_distribute_points_on_faces()
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ntype.declare = file_ns::node_declare;
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ntype.geometry_node_execute = file_ns::node_geo_exec;
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ntype.draw_buttons = file_ns::node_layout;
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ntype.draw_buttons_ex = file_ns::node_layout_ex;
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nodeRegisterType(&ntype);
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}
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Block a user