23 N_(
"The number of control points to create on the segment following each point"));
45 evaluator.
add(cuts_field);
47 const VArray<int> cuts = evaluator.get_evaluated<
int>(0);
48 if (cuts.is_single() && cuts.get_internal_single() < 1) {
53 src_curves, src_curves.curves_range(), cuts);
59 params.set_output(
"Curve", geometry_set);
Low-level operations for curves.
@ GEO_COMPONENT_TYPE_CURVE
#define NODE_CLASS_GEOMETRY
#define GEO_NODE_SUBDIVIDE_CURVE
void nodeRegisterType(struct bNodeType *ntype)
static uint8 component(Color32 c, uint i)
static void remember_deformed_curve_positions_if_necessary(GeometrySet &geometry)
static CurvesGeometry & wrap(::CurvesGeometry &dna_struct)
int add(GField field, GVArray *varray_ptr)
StringRefNull description() const
void curves_copy_parameters(const Curves &src, Curves &dst)
Curves * curves_new_nomain(int points_num, int curves_num)
bke::CurvesGeometry subdivide_curves(const bke::CurvesGeometry &src_curves, IndexMask selection, const VArray< int > &cuts)
static void node_declare(NodeDeclarationBuilder &b)
static void node_geo_exec(GeoNodeExecParams params)
static const pxr::TfToken b("b", pxr::TfToken::Immortal)
void register_node_type_geo_curve_subdivide()
void geo_node_type_base(bNodeType *ntype, int type, const char *name, short nclass)
void replace_curves(Curves *curves, GeometryOwnershipType ownership=GeometryOwnershipType::Owned)
const GeometryComponent * get_component_for_read(GeometryComponentType component_type) const
void modify_geometry_sets(ForeachSubGeometryCallback callback)
NodeGeometryExecFunction geometry_node_execute
NodeDeclareFunction declare