diff options
-rw-r--r-- | release/scripts/startup/nodeitems_builtins.py | 1 | ||||
-rw-r--r-- | source/blender/blenkernel/BKE_node.h | 1 | ||||
-rw-r--r-- | source/blender/blenkernel/intern/node.cc | 1 | ||||
-rw-r--r-- | source/blender/makesrna/intern/rna_nodetree.c | 32 | ||||
-rw-r--r-- | source/blender/nodes/CMakeLists.txt | 1 | ||||
-rw-r--r-- | source/blender/nodes/NOD_geometry.h | 1 | ||||
-rw-r--r-- | source/blender/nodes/NOD_static_types.h | 3 | ||||
-rw-r--r-- | source/blender/nodes/geometry/nodes/legacy/node_geo_curve_to_points.cc | 14 | ||||
-rw-r--r-- | source/blender/nodes/geometry/nodes/node_geo_curve_to_points.cc | 390 |
9 files changed, 431 insertions, 13 deletions
diff --git a/release/scripts/startup/nodeitems_builtins.py b/release/scripts/startup/nodeitems_builtins.py index a9112727daa..c870ce13f7d 100644 --- a/release/scripts/startup/nodeitems_builtins.py +++ b/release/scripts/startup/nodeitems_builtins.py @@ -103,6 +103,7 @@ def curve_node_items(context): yield NodeItem("GeometryNodeCurveLength") yield NodeItem("GeometryNodeCurveToMesh") + yield NodeItem("GeometryNodeCurveToPoints") yield NodeItem("GeometryNodeFillCurve") yield NodeItem("GeometryNodeFilletCurve") yield NodeItem("GeometryNodeResampleCurve") diff --git a/source/blender/blenkernel/BKE_node.h b/source/blender/blenkernel/BKE_node.h index 2d3b24630b1..a9bba3908ce 100644 --- a/source/blender/blenkernel/BKE_node.h +++ b/source/blender/blenkernel/BKE_node.h @@ -1545,6 +1545,7 @@ int ntreeTexExecTree(struct bNodeTree *ntree, #define GEO_NODE_SUBDIVISION_SURFACE 1126 #define GEO_NODE_CURVE_ENDPOINT_SELECTION 1127 #define GEO_NODE_RAYCAST 1128 +#define GEO_NODE_CURVE_TO_POINTS 1130 /** \} */ diff --git a/source/blender/blenkernel/intern/node.cc b/source/blender/blenkernel/intern/node.cc index b47fe45c868..6b626af7dd2 100644 --- a/source/blender/blenkernel/intern/node.cc +++ b/source/blender/blenkernel/intern/node.cc @@ -5752,6 +5752,7 @@ static void registerGeometryNodes() register_node_type_geo_legacy_edge_split(); register_node_type_geo_legacy_subdivision_surface(); register_node_type_geo_legacy_raycast(); + register_node_type_geo_legacy_curve_to_points(); register_node_type_geo_align_rotation_to_vector(); register_node_type_geo_attribute_capture(); diff --git a/source/blender/makesrna/intern/rna_nodetree.c b/source/blender/makesrna/intern/rna_nodetree.c index dfefc774b3d..438344304cf 100644 --- a/source/blender/makesrna/intern/rna_nodetree.c +++ b/source/blender/makesrna/intern/rna_nodetree.c @@ -10528,6 +10528,38 @@ static void def_geo_curve_fillet(StructRNA *srna) RNA_def_property_update(prop, NC_NODE | NA_EDITED, "rna_Node_socket_update"); } +static void def_geo_legacy_curve_to_points(StructRNA *srna) +{ + PropertyRNA *prop; + + static EnumPropertyItem mode_items[] = { + {GEO_NODE_CURVE_RESAMPLE_EVALUATED, + "EVALUATED", + 0, + "Evaluated", + "Create points from the curve's evaluated points, based on the resolution attribute for " + "NURBS and Bezier splines"}, + {GEO_NODE_CURVE_RESAMPLE_COUNT, + "COUNT", + 0, + "Count", + "Sample each spline by evenly distributing the specified number of points"}, + {GEO_NODE_CURVE_RESAMPLE_LENGTH, + "LENGTH", + 0, + "Length", + "Sample each spline by splitting it into segments with the specified length"}, + {0, NULL, 0, NULL, NULL}, + }; + + RNA_def_struct_sdna_from(srna, "NodeGeometryCurveToPoints", "storage"); + + prop = RNA_def_property(srna, "mode", PROP_ENUM, PROP_NONE); + RNA_def_property_enum_items(prop, mode_items); + RNA_def_property_ui_text(prop, "Mode", "How to generate points from the input curve"); + RNA_def_property_update(prop, NC_NODE | NA_EDITED, "rna_Node_socket_update"); +} + static void def_geo_curve_to_points(StructRNA *srna) { PropertyRNA *prop; diff --git a/source/blender/nodes/CMakeLists.txt b/source/blender/nodes/CMakeLists.txt index 39265c13a1f..8630bcd3b73 100644 --- a/source/blender/nodes/CMakeLists.txt +++ b/source/blender/nodes/CMakeLists.txt @@ -219,6 +219,7 @@ set(SRC geometry/nodes/node_geo_curve_spline_type.cc geometry/nodes/node_geo_curve_subdivide.cc geometry/nodes/node_geo_curve_to_mesh.cc + geometry/nodes/node_geo_curve_to_points.cc geometry/nodes/node_geo_curve_trim.cc geometry/nodes/node_geo_delete_geometry.cc geometry/nodes/node_geo_distribute_points_on_faces.cc diff --git a/source/blender/nodes/NOD_geometry.h b/source/blender/nodes/NOD_geometry.h index 4d75303363c..890825fdcc0 100644 --- a/source/blender/nodes/NOD_geometry.h +++ b/source/blender/nodes/NOD_geometry.h @@ -33,6 +33,7 @@ void register_node_type_geo_legacy_attribute_transfer(void); void register_node_type_geo_legacy_curve_set_handles(void); void register_node_type_geo_legacy_attribute_proximity(void); void register_node_type_geo_legacy_attribute_randomize(void); +void register_node_type_geo_legacy_curve_to_points(void); void register_node_type_geo_legacy_delete_geometry(void); void register_node_type_geo_legacy_material_assign(void); void register_node_type_geo_legacy_mesh_to_curve(void); diff --git a/source/blender/nodes/NOD_static_types.h b/source/blender/nodes/NOD_static_types.h index 78a3735c5b8..b5254f2e898 100644 --- a/source/blender/nodes/NOD_static_types.h +++ b/source/blender/nodes/NOD_static_types.h @@ -304,7 +304,7 @@ DefNode(GeometryNode, GEO_NODE_LEGACY_CURVE_SELECT_HANDLES, def_geo_curve_select DefNode(GeometryNode, GEO_NODE_LEGACY_CURVE_SET_HANDLES, def_geo_legacy_curve_set_handles, "LEGACY_CURVE_SET_HANDLES", LegacyCurveSetHandles, "Set Handle Type", "") DefNode(GeometryNode, GEO_NODE_LEGACY_CURVE_SPLINE_TYPE, def_geo_curve_spline_type, "LEGACY_CURVE_SPLINE_TYPE", LegacyCurveSplineType, "Set Spline Type", "") DefNode(GeometryNode, GEO_NODE_LEGACY_CURVE_SUBDIVIDE, def_geo_legacy_curve_subdivide, "LEGACY_CURVE_SUBDIVIDE", LegacyCurveSubdivide, "Curve Subdivide", "") -DefNode(GeometryNode, GEO_NODE_LEGACY_CURVE_TO_POINTS, def_geo_curve_to_points, "LEGACY_CURVE_TO_POINTS", LegacyCurveToPoints, "Curve to Points", "") +DefNode(GeometryNode, GEO_NODE_LEGACY_CURVE_TO_POINTS, def_geo_legacy_curve_to_points, "LEGACY_CURVE_TO_POINTS", LegacyCurveToPoints, "Curve to Points", "") DefNode(GeometryNode, GEO_NODE_LEGACY_DELETE_GEOMETRY, 0, "LEGACY_DELETE_GEOMETRY", LegacyDeleteGeometry, "Delete Geometry", "") DefNode(GeometryNode, GEO_NODE_LEGACY_EDGE_SPLIT, 0, "LEGACY_EDGE_SPLIT", LegacyEdgeSplit, "Edge Split", "") DefNode(GeometryNode, GEO_NODE_LEGACY_MATERIAL_ASSIGN, 0, "LEGACY_MATERIAL_ASSIGN", LegacyMaterialAssign, "Material Assign", "") @@ -333,6 +333,7 @@ DefNode(GeometryNode, GEO_NODE_FILLET_CURVE, def_geo_curve_fillet, "FILLET_CURVE DefNode(GeometryNode, GEO_NODE_CURVE_HANDLE_TYPE_SELECTION, def_geo_curve_handle_type_selection, "CURVE_HANDLE_TYPE_SELECTION", CurveHandleTypeSelection, "Handle Type Selection", "") DefNode(GeometryNode, GEO_NODE_CURVE_LENGTH, 0, "CURVE_LENGTH", CurveLength, "Curve Length", "") DefNode(GeometryNode, GEO_NODE_CURVE_PARAMETER, 0, "CURVE_PARAMETER", CurveParameter, "Curve Parameter", "") +DefNode(GeometryNode, GEO_NODE_CURVE_TO_POINTS, def_geo_curve_to_points, "CURVE_TO_POINTS", CurveToPoints, "Curve to Points", "") DefNode(GeometryNode, GEO_NODE_CURVE_PRIMITIVE_BEZIER_SEGMENT, def_geo_curve_primitive_bezier_segment, "CURVE_PRIMITIVE_BEZIER_SEGMENT", CurvePrimitiveBezierSegment, "Bezier Segment", "") DefNode(GeometryNode, GEO_NODE_CURVE_PRIMITIVE_CIRCLE, def_geo_curve_primitive_circle, "CURVE_PRIMITIVE_CIRCLE", CurvePrimitiveCircle, "Curve Circle", "") DefNode(GeometryNode, GEO_NODE_CURVE_PRIMITIVE_LINE, def_geo_curve_primitive_line, "CURVE_PRIMITIVE_LINE", CurvePrimitiveLine, "Curve Line", "") diff --git a/source/blender/nodes/geometry/nodes/legacy/node_geo_curve_to_points.cc b/source/blender/nodes/geometry/nodes/legacy/node_geo_curve_to_points.cc index b6409290f31..820d52e2259 100644 --- a/source/blender/nodes/geometry/nodes/legacy/node_geo_curve_to_points.cc +++ b/source/blender/nodes/geometry/nodes/legacy/node_geo_curve_to_points.cc @@ -286,17 +286,7 @@ static void copy_spline_domain_attributes(const CurveComponent &curve_component, }); } -void curve_create_default_rotation_attribute(Span<float3> tangents, - Span<float3> normals, - MutableSpan<float3> rotations) -{ - threading::parallel_for(IndexRange(rotations.size()), 512, [&](IndexRange range) { - for (const int i : range) { - rotations[i] = - float4x4::from_normalized_axis_data({0, 0, 0}, normals[i], tangents[i]).to_euler(); - } - }); -} + static void geo_node_curve_to_points_exec(GeoNodeExecParams params) { @@ -354,7 +344,7 @@ static void geo_node_curve_to_points_exec(GeoNodeExecParams params) } // namespace blender::nodes -void register_node_type_geo_curve_to_points() +void register_node_type_geo_legacy_curve_to_points() { static bNodeType ntype; diff --git a/source/blender/nodes/geometry/nodes/node_geo_curve_to_points.cc b/source/blender/nodes/geometry/nodes/node_geo_curve_to_points.cc new file mode 100644 index 00000000000..4f4fde6c7df --- /dev/null +++ b/source/blender/nodes/geometry/nodes/node_geo_curve_to_points.cc @@ -0,0 +1,390 @@ +/* + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License + * as published by the Free Software Foundation; either version 2 + * of the License, or (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software Foundation, + * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. + */ + +#include "BLI_array.hh" +#include "BLI_task.hh" +#include "BLI_timeit.hh" + +#include "BKE_pointcloud.h" +#include "BKE_spline.hh" + +#include "UI_interface.h" +#include "UI_resources.h" + +#include "node_geometry_util.hh" + +namespace blender::nodes { + +static void geo_node_curve_to_points_declare(NodeDeclarationBuilder &b) +{ + b.add_input<decl::Geometry>("Curve"); + b.add_input<decl::Int>("Count").default_value(10).min(2).max(100000); + b.add_input<decl::Float>("Length").default_value(0.1f).min(0.001f).subtype(PROP_DISTANCE); + b.add_output<decl::Geometry>("Points"); + b.add_output<decl::Vector>("Tangent").field_source(); + b.add_output<decl::Vector>("Normal").field_source(); + b.add_output<decl::Vector>("Rotation").field_source(); +} + +static void geo_node_curve_to_points_layout(uiLayout *layout, bContext *UNUSED(C), PointerRNA *ptr) +{ + uiItemR(layout, ptr, "mode", 0, "", ICON_NONE); +} + +static void geo_node_curve_to_points_init(bNodeTree *UNUSED(tree), bNode *node) +{ + NodeGeometryCurveToPoints *data = (NodeGeometryCurveToPoints *)MEM_callocN( + sizeof(NodeGeometryCurveToPoints), __func__); + + data->mode = GEO_NODE_CURVE_RESAMPLE_COUNT; + node->storage = data; +} + +static void geo_node_curve_to_points_update(bNodeTree *UNUSED(ntree), bNode *node) +{ + NodeGeometryCurveToPoints &node_storage = *(NodeGeometryCurveToPoints *)node->storage; + const GeometryNodeCurveResampleMode mode = (GeometryNodeCurveResampleMode)node_storage.mode; + + bNodeSocket *count_socket = ((bNodeSocket *)node->inputs.first)->next; + bNodeSocket *length_socket = count_socket->next; + + nodeSetSocketAvailability(count_socket, mode == GEO_NODE_CURVE_RESAMPLE_COUNT); + nodeSetSocketAvailability(length_socket, mode == GEO_NODE_CURVE_RESAMPLE_LENGTH); +} + +static Array<int> calculate_spline_point_offsets(GeoNodeExecParams ¶ms, + const GeometryNodeCurveResampleMode mode, + const CurveEval &curve, + const Span<SplinePtr> splines) +{ + const int size = curve.splines().size(); + switch (mode) { + case GEO_NODE_CURVE_RESAMPLE_COUNT: { + const int count = params.get_input<int>("Count"); + if (count < 1) { + return {0}; + } + Array<int> offsets(size + 1); + for (const int i : offsets.index_range()) { + offsets[i] = count * i; + } + return offsets; + } + case GEO_NODE_CURVE_RESAMPLE_LENGTH: { + /* Don't allow asymptotic count increase for low resolution values. */ + const float resolution = std::max(params.get_input<float>("Length"), 0.0001f); + Array<int> offsets(size + 1); + int offset = 0; + for (const int i : IndexRange(size)) { + offsets[i] = offset; + offset += splines[i]->length() / resolution + 1; + } + offsets.last() = offset; + return offsets; + } + case GEO_NODE_CURVE_RESAMPLE_EVALUATED: { + return curve.evaluated_point_offsets(); + } + } + BLI_assert_unreachable(); + return {0}; +} + +/** + * \note: Relies on the fact that all attributes on point clouds are stored contiguously. + */ +static GMutableSpan ensure_point_attribute(PointCloudComponent &points, + const AttributeIDRef &attribute_id, + const CustomDataType data_type) +{ + points.attribute_try_create(attribute_id, ATTR_DOMAIN_POINT, data_type, AttributeInitDefault()); + WriteAttributeLookup attribute = points.attribute_try_get_for_write(attribute_id); + BLI_assert(attribute); + return attribute.varray->get_internal_span(); +} + +template<typename T> +static MutableSpan<T> ensure_point_attribute(PointCloudComponent &points, + const AttributeIDRef &attribute_id) +{ + GMutableSpan attribute = ensure_point_attribute( + points, attribute_id, bke::cpp_type_to_custom_data_type(CPPType::get<T>())); + return attribute.typed<T>(); +} + +namespace { +struct AnonymousAttributeIDs { + StrongAnonymousAttributeID tangent_id; + StrongAnonymousAttributeID normal_id; + StrongAnonymousAttributeID rotation_id; +}; + +struct ResultAttributes { + MutableSpan<float3> positions; + MutableSpan<float> radii; + + Map<AttributeIDRef, GMutableSpan> point_attributes; + + MutableSpan<float3> tangents; + MutableSpan<float3> normals; + MutableSpan<float3> rotations; +}; +} // namespace + +static ResultAttributes create_attributes_for_transfer(PointCloudComponent &points, + const CurveEval &curve, + const AnonymousAttributeIDs &attributes) +{ + ResultAttributes outputs; + + outputs.positions = ensure_point_attribute<float3>(points, "position"); + outputs.radii = ensure_point_attribute<float>(points, "radius"); + + if (attributes.tangent_id) { + outputs.tangents = ensure_point_attribute<float3>(points, attributes.tangent_id.get()); + } + if (attributes.normal_id) { + outputs.normals = ensure_point_attribute<float3>(points, attributes.normal_id.get()); + } + if (attributes.rotation_id) { + outputs.rotations = ensure_point_attribute<float3>(points, attributes.rotation_id.get()); + } + + /* Because of the invariants of the curve component, we use the attributes of the first spline + * as a representative for the attribute meta data all splines. Attributes from the spline domain + * are handled separately. */ + curve.splines().first()->attributes.foreach_attribute( + [&](const AttributeIDRef &id, const AttributeMetaData &meta_data) { + if (id.should_be_kept()) { + outputs.point_attributes.add_new( + id, ensure_point_attribute(points, id, meta_data.data_type)); + } + return true; + }, + ATTR_DOMAIN_POINT); + + return outputs; +} + +/** + * TODO: For non-poly splines, this has double copies that could be avoided as part + * of a general look at optimizing uses of #Spline::interpolate_to_evaluated. + */ +static void copy_evaluated_point_attributes(const Span<SplinePtr> splines, + const Span<int> offsets, + ResultAttributes &data) +{ + threading::parallel_for(splines.index_range(), 64, [&](IndexRange range) { + for (const int i : range) { + const Spline &spline = *splines[i]; + const int offset = offsets[i]; + const int size = offsets[i + 1] - offsets[i]; + + data.positions.slice(offset, size).copy_from(spline.evaluated_positions()); + spline.interpolate_to_evaluated(spline.radii())->materialize(data.radii.slice(offset, size)); + + for (const Map<AttributeIDRef, GMutableSpan>::Item item : data.point_attributes.items()) { + const AttributeIDRef attribute_id = item.key; + const GMutableSpan dst = item.value; + + BLI_assert(spline.attributes.get_for_read(attribute_id)); + GSpan spline_span = *spline.attributes.get_for_read(attribute_id); + + spline.interpolate_to_evaluated(spline_span)->materialize(dst.slice(offset, size).data()); + } + + if (!data.tangents.is_empty()) { + data.tangents.slice(offset, size).copy_from(spline.evaluated_tangents()); + } + if (!data.normals.is_empty()) { + data.normals.slice(offset, size).copy_from(spline.evaluated_normals()); + } + } + }); +} + +static void copy_uniform_sample_point_attributes(const Span<SplinePtr> splines, + const Span<int> offsets, + ResultAttributes &data) +{ + threading::parallel_for(splines.index_range(), 64, [&](IndexRange range) { + for (const int i : range) { + const Spline &spline = *splines[i]; + const int offset = offsets[i]; + const int size = offsets[i + 1] - offsets[i]; + if (size == 0) { + continue; + } + + const Array<float> uniform_samples = spline.sample_uniform_index_factors(size); + + spline.sample_with_index_factors<float3>( + spline.evaluated_positions(), uniform_samples, data.positions.slice(offset, size)); + spline.sample_with_index_factors<float>(*spline.interpolate_to_evaluated(spline.radii()), + uniform_samples, + data.radii.slice(offset, size)); + + for (const Map<AttributeIDRef, GMutableSpan>::Item item : data.point_attributes.items()) { + const AttributeIDRef attribute_id = item.key; + const GMutableSpan dst = item.value; + + BLI_assert(spline.attributes.get_for_read(attribute_id)); + GSpan spline_span = *spline.attributes.get_for_read(attribute_id); + + spline.sample_with_index_factors(*spline.interpolate_to_evaluated(spline_span), + uniform_samples, + dst.slice(offset, size)); + } + + if (!data.tangents.is_empty()) { + spline.sample_with_index_factors<float3>( + spline.evaluated_tangents(), uniform_samples, data.tangents.slice(offset, size)); + for (float3 &tangent : data.tangents) { + tangent.normalize(); + } + } + + if (!data.normals.is_empty()) { + spline.sample_with_index_factors<float3>( + spline.evaluated_normals(), uniform_samples, data.normals.slice(offset, size)); + for (float3 &normals : data.normals) { + normals.normalize(); + } + } + } + }); +} + +static void copy_spline_domain_attributes(const CurveEval &curve, + const Span<int> offsets, + PointCloudComponent &points) +{ + curve.attributes.foreach_attribute( + [&](const AttributeIDRef &attribute_id, const AttributeMetaData &meta_data) { + const GSpan curve_attribute = *curve.attributes.get_for_read(attribute_id); + const CPPType &type = curve_attribute.type(); + const GMutableSpan dst = ensure_point_attribute(points, attribute_id, meta_data.data_type); + + for (const int i : curve.splines().index_range()) { + const int offset = offsets[i]; + const int size = offsets[i + 1] - offsets[i]; + type.fill_assign_n(curve_attribute[i], dst[offset], size); + } + + return true; + }, + ATTR_DOMAIN_CURVE); +} + +void curve_create_default_rotation_attribute(Span<float3> tangents, + Span<float3> normals, + MutableSpan<float3> rotations) +{ + threading::parallel_for(IndexRange(rotations.size()), 512, [&](IndexRange range) { + for (const int i : range) { + rotations[i] = + float4x4::from_normalized_axis_data({0, 0, 0}, normals[i], tangents[i]).to_euler(); + } + }); +} + +static void geo_node_curve_to_points_exec(GeoNodeExecParams params) +{ + NodeGeometryCurveToPoints &node_storage = *(NodeGeometryCurveToPoints *)params.node().storage; + const GeometryNodeCurveResampleMode mode = (GeometryNodeCurveResampleMode)node_storage.mode; + GeometrySet geometry_set = params.extract_input<GeometrySet>("Curve"); + + AnonymousAttributeIDs attribute_outputs; + attribute_outputs.tangent_id = StrongAnonymousAttributeID("Tangent"); + attribute_outputs.normal_id = StrongAnonymousAttributeID("Normal"); + attribute_outputs.rotation_id = StrongAnonymousAttributeID("Rotation"); + + geometry_set.modify_geometry_sets([&](GeometrySet &geometry_set) { + if (!geometry_set.has_curve()) { + geometry_set.keep_only({GEO_COMPONENT_TYPE_INSTANCES}); + return; + } + const CurveEval &curve = *geometry_set.get_curve_for_read(); + const Span<SplinePtr> splines = curve.splines(); + curve.assert_valid_point_attributes(); + + const Array<int> offsets = calculate_spline_point_offsets(params, mode, curve, splines); + const int total_size = offsets.last(); + if (total_size == 0) { + geometry_set.keep_only({GEO_COMPONENT_TYPE_INSTANCES}); + return; + } + + geometry_set.replace_pointcloud(BKE_pointcloud_new_nomain(total_size)); + PointCloudComponent &points = geometry_set.get_component_for_write<PointCloudComponent>(); + ResultAttributes point_attributes = create_attributes_for_transfer( + points, curve, attribute_outputs); + + switch (mode) { + case GEO_NODE_CURVE_RESAMPLE_COUNT: + case GEO_NODE_CURVE_RESAMPLE_LENGTH: + copy_uniform_sample_point_attributes(splines, offsets, point_attributes); + break; + case GEO_NODE_CURVE_RESAMPLE_EVALUATED: + copy_evaluated_point_attributes(splines, offsets, point_attributes); + break; + } + + copy_spline_domain_attributes(curve, offsets, points); + + if (!point_attributes.rotations.is_empty()) { + curve_create_default_rotation_attribute( + point_attributes.tangents, point_attributes.normals, point_attributes.rotations); + } + + geometry_set.keep_only({GEO_COMPONENT_TYPE_INSTANCES, GEO_COMPONENT_TYPE_POINT_CLOUD}); + }); + + params.set_output("Points", std::move(geometry_set)); + if (attribute_outputs.tangent_id) { + params.set_output( + "Tangent", + AnonymousAttributeFieldInput::Create<float3>(std::move(attribute_outputs.tangent_id))); + } + if (attribute_outputs.normal_id) { + params.set_output( + "Normal", + AnonymousAttributeFieldInput::Create<float3>(std::move(attribute_outputs.normal_id))); + } + if (attribute_outputs.rotation_id) { + params.set_output( + "Rotation", + AnonymousAttributeFieldInput::Create<float3>(std::move(attribute_outputs.rotation_id))); + } +} + +} // namespace blender::nodes + +void register_node_type_geo_curve_to_points() +{ + static bNodeType ntype; + + geo_node_type_base(&ntype, GEO_NODE_CURVE_TO_POINTS, "Curve to Points", NODE_CLASS_GEOMETRY, 0); + ntype.declare = blender::nodes::geo_node_curve_to_points_declare; + ntype.geometry_node_execute = blender::nodes::geo_node_curve_to_points_exec; + ntype.draw_buttons = blender::nodes::geo_node_curve_to_points_layout; + node_type_storage( + &ntype, "NodeGeometryCurveToPoints", node_free_standard_storage, node_copy_standard_storage); + node_type_init(&ntype, blender::nodes::geo_node_curve_to_points_init); + node_type_update(&ntype, blender::nodes::geo_node_curve_to_points_update); + + nodeRegisterType(&ntype); +} |