d5/df7/node__geo__curve__fill_8cc_source.html

/* SPDX-FileCopyrightText: 2023 Blender Authors

 *

 * SPDX-License-Identifier: GPL-2.0-or-later */


#include "BLI_array.hh"

#include "BLI_delaunay_2d.hh"

#include "BLI_math_vector_types.hh"


#include "BKE_curves.hh"

#include "BKE_grease_pencil.hh"

#include "BKE_instances.hh"

#include "BKE_mesh.hh"


#include "BLI_task.hh"


#include "NOD_rna_define.hh"


#include "UI_interface.hh"

#include "UI_resources.hh"


#include "node_geometry_util.hh"


namespace blender::nodes::node_geo_curve_fill_cc {


NODE_STORAGE_FUNCS(NodeGeometryCurveFill)


static void node_declare(NodeDeclarationBuilder &b)

{

  b.add_input<decl::Geometry>("Curve").supported_type(

      {GeometryComponent::Type::Curve, GeometryComponent::Type::GreasePencil});

  b.add_input<decl::Int>("Group ID")

      .field_on_all()

      .hide_value()

      .description(

          "An index used to group curves together. Filling is done separately for each group");

  b.add_output<decl::Geometry>("Mesh");

}


static void node_layout(uiLayout *layout, bContext * /*C*/, PointerRNA *ptr)

{

  uiItemR(layout, ptr, "mode", UI_ITEM_R_EXPAND, nullptr, ICON_NONE);

}


static void node_init(bNodeTree * /*tree*/, bNode *node)

{

  NodeGeometryCurveFill *data = MEM_cnew<NodeGeometryCurveFill>(__func__);


  data->mode = GEO_NODE_CURVE_FILL_MODE_TRIANGULATED;

  node->storage = data;

}


static void fill_curve_vert_indices(const OffsetIndices<int> offsets,

                                    MutableSpan<Vector<int>> faces)

{

  threading::parallel_for(faces.index_range(), 1024, [&](const IndexRange range) {

    for (const int i : range) {

      faces[i].resize(offsets[i].size());

      array_utils::fill_index_range<int>(faces[i], offsets[i].start());

    }

  });

}


static meshintersect::CDT_result<double> do_cdt(const bke::CurvesGeometry &curves,

                                                const CDT_output_type output_type)

{

  const OffsetIndices points_by_curve = curves.evaluated_points_by_curve();

  const Span<float3> positions = curves.evaluated_positions();


  Array<double2> positions_2d(positions.size());

  threading::parallel_for(positions.index_range(), 2048, [&](const IndexRange range) {

    for (const int i : range) {

      positions_2d[i] = double2(positions[i].x, positions[i].y);

    }

  });


  Array<Vector<int>> faces(curves.curves_num());

  fill_curve_vert_indices(points_by_curve, faces);


  meshintersect::CDT_input<double> input;

  input.need_ids = false;

  input.vert = std::move(positions_2d);

  input.face = std::move(faces);


  return delaunay_2d_calc(input, output_type);

}


static meshintersect::CDT_result<double> do_cdt_with_mask(const bke::CurvesGeometry &curves,

                                                          const CDT_output_type output_type,

                                                          const IndexMask &mask)

{

  const OffsetIndices points_by_curve = curves.evaluated_points_by_curve();

  const Span<float3> positions = curves.evaluated_positions();


  Array<int> offsets_data(mask.size() + 1);

  const OffsetIndices points_by_curve_masked = offset_indices::gather_selected_offsets(

      points_by_curve, mask, offsets_data);


  Array<double2> positions_2d(points_by_curve_masked.total_size());

  mask.foreach_index(GrainSize(1024), [&](const int src_curve, const int dst_curve) {

    const IndexRange src_points = points_by_curve[src_curve];

    const IndexRange dst_points = points_by_curve_masked[dst_curve];

    for (const int i : src_points.index_range()) {

      const int src = src_points[i];

      const int dst = dst_points[i];

      positions_2d[dst] = double2(positions[src].x, positions[src].y);

    }

  });


  Array<Vector<int>> faces(points_by_curve_masked.size());

  fill_curve_vert_indices(points_by_curve_masked, faces);


  meshintersect::CDT_input<double> input;

  input.need_ids = false;

  input.vert = std::move(positions_2d);

  input.face = std::move(faces);


  return delaunay_2d_calc(input, output_type);

}


static Array<meshintersect::CDT_result<double>> do_group_aware_cdt(

    const bke::CurvesGeometry &curves,

    const CDT_output_type output_type,

    const Field<int> &group_index_field)

{

  const bke::GeometryFieldContext field_context{curves, AttrDomain::Curve};

  fn::FieldEvaluator data_evaluator{field_context, curves.curves_num()};

  data_evaluator.add(group_index_field);

  data_evaluator.evaluate();

  const VArray<int> curve_group_ids = data_evaluator.get_evaluated<int>(0);


  if (curve_group_ids.is_single()) {

    return {do_cdt(curves, output_type)};

  }


  VectorSet<int> group_indexing;

  IndexMaskMemory mask_memory;

  const Vector<IndexMask> group_masks = IndexMask::from_group_ids(

      curve_group_ids, mask_memory, group_indexing);

  const int groups_num = group_masks.size();


  Array<meshintersect::CDT_result<double>> cdt_results(groups_num);


  /* The grain size should be larger as each group gets smaller. */

  const int domain_size = curve_group_ids.size();

  const int avg_group_size = domain_size / groups_num;

  const int grain_size = std::max(8192 / avg_group_size, 1);

  threading::parallel_for(IndexRange(groups_num), grain_size, [&](const IndexRange range) {

    for (const int group_index : range) {

      const IndexMask &mask = group_masks[group_index];

      cdt_results[group_index] = do_cdt_with_mask(curves, output_type, mask);

    }

  });


  return cdt_results;

}


/* Converts multiple CDT results into a single Mesh. */


static Mesh *cdts_to_mesh(const Span<meshintersect::CDT_result<double>> results)

{

  /* Converting a single CDT result to a Mesh would be simple because the indices could be re-used.

   * However, in the general case here we need to combine several CDT results into a single Mesh,

   * which requires us to map the original indices to a new set of indices.

   * In order to allow for parallelization when appropriate, this implementation starts by

   * determining (for each domain) what range of indices in the final mesh data will be used for

   * each CDT result. The index ranges are represented as offsets, which are referred to as "group

   * offsets" to distinguish them from the other types of offsets we need to work with here.

   * Since it's likely that most invocations will only have a single CDT result, it's important

   * that case is made as optimal as feasible. */


  Array<int> vert_groups_data(results.size() + 1);

  Array<int> edge_groups_data(results.size() + 1);

  Array<int> face_groups_data(results.size() + 1);

  Array<int> loop_groups_data(results.size() + 1);

  threading::parallel_for(results.index_range(), 1024, [&](const IndexRange results_range) {

    for (const int i_result : results_range) {

      const meshintersect::CDT_result<double> &result = results[i_result];

      vert_groups_data[i_result] = result.vert.size();

      edge_groups_data[i_result] = result.edge.size();

      face_groups_data[i_result] = result.face.size();

      int loop_len = 0;

      for (const Vector<int> &face : result.face) {

        loop_len += face.size();

      }

      loop_groups_data[i_result] = loop_len;

    }

  });


  const OffsetIndices vert_groups = offset_indices::accumulate_counts_to_offsets(vert_groups_data);

  const OffsetIndices edge_groups = offset_indices::accumulate_counts_to_offsets(edge_groups_data);

  const OffsetIndices face_groups = offset_indices::accumulate_counts_to_offsets(face_groups_data);

  const OffsetIndices loop_groups = offset_indices::accumulate_counts_to_offsets(loop_groups_data);


  Mesh *mesh = BKE_mesh_new_nomain(vert_groups.total_size(),

                                   edge_groups.total_size(),

                                   face_groups.total_size(),

                                   loop_groups.total_size());


  MutableSpan<float3> all_positions = mesh->vert_positions_for_write();

  MutableSpan<int2> all_edges = mesh->edges_for_write();

  MutableSpan<int> all_face_offsets = mesh->face_offsets_for_write();

  MutableSpan<int> all_corner_verts = mesh->corner_verts_for_write();


  threading::parallel_for(results.index_range(), 1024, [&](const IndexRange results_range) {

    for (const int i_result : results_range) {

      const meshintersect::CDT_result<double> &result = results[i_result];

      const IndexRange verts_range = vert_groups[i_result];

      const IndexRange edges_range = edge_groups[i_result];

      const IndexRange faces_range = face_groups[i_result];

      const IndexRange loops_range = loop_groups[i_result];


      MutableSpan<float3> positions = all_positions.slice(verts_range);

      for (const int i : result.vert.index_range()) {

        positions[i] = float3(float(result.vert[i].x), float(result.vert[i].y), 0.0f);

      }


      MutableSpan<int2> edges = all_edges.slice(edges_range);

      for (const int i : result.edge.index_range()) {

        edges[i] = int2(result.edge[i].first + verts_range.start(),

                        result.edge[i].second + verts_range.start());

      }


      MutableSpan<int> face_offsets = all_face_offsets.slice(faces_range);

      MutableSpan<int> corner_verts = all_corner_verts.slice(loops_range);

      int i_face_corner = 0;

      for (const int i_face : result.face.index_range()) {

        face_offsets[i_face] = i_face_corner + loops_range.start();

        for (const int i_corner : result.face[i_face].index_range()) {

          corner_verts[i_face_corner] = result.face[i_face][i_corner] + verts_range.start();

          i_face_corner++;

        }

      }

    }

  });


  /* The delaunay triangulation doesn't seem to return all of the necessary all_edges, even in

   * triangulation mode. */

  bke::mesh_calc_edges(*mesh, true, false);

  bke::mesh_smooth_set(*mesh, false);


  mesh->tag_overlapping_none();


  return mesh;

}


static void curve_fill_calculate(GeometrySet &geometry_set,

                                 const GeometryNodeCurveFillMode mode,

                                 const Field<int> &group_index)

{

  const CDT_output_type output_type = (mode == GEO_NODE_CURVE_FILL_MODE_NGONS) ?

                                          CDT_CONSTRAINTS_VALID_BMESH_WITH_HOLES :

                                          CDT_INSIDE_WITH_HOLES;

  if (geometry_set.has_curves()) {

    const Curves &curves_id = *geometry_set.get_curves();

    const bke::CurvesGeometry &curves = curves_id.geometry.wrap();

    if (curves.curves_num() > 0) {

      const Array<meshintersect::CDT_result<double>> results = do_group_aware_cdt(

          curves, output_type, group_index);

      Mesh *mesh = cdts_to_mesh(results);

      geometry_set.replace_mesh(mesh);

    }

    geometry_set.replace_curves(nullptr);

  }


  if (geometry_set.has_grease_pencil()) {

    using namespace blender::bke::greasepencil;

    const GreasePencil &grease_pencil = *geometry_set.get_grease_pencil();

    Vector<Mesh *> mesh_by_layer(grease_pencil.layers().size(), nullptr);

    for (const int layer_index : grease_pencil.layers().index_range()) {

      const Drawing *drawing = grease_pencil.get_eval_drawing(grease_pencil.layer(layer_index));

      if (drawing == nullptr) {

        continue;

      }

      const bke::CurvesGeometry &src_curves = drawing->strokes();

      if (src_curves.curves_num() == 0) {

        continue;

      }

      const Array<meshintersect::CDT_result<double>> results = do_group_aware_cdt(

          src_curves, output_type, group_index);

      mesh_by_layer[layer_index] = cdts_to_mesh(results);

    }

    if (!mesh_by_layer.is_empty()) {

      InstancesComponent &instances_component =

          geometry_set.get_component_for_write<InstancesComponent>();

      bke::Instances *instances = instances_component.get_for_write();

      if (instances == nullptr) {

        instances = new bke::Instances();

        instances_component.replace(instances);

      }

      for (Mesh *mesh : mesh_by_layer) {

        if (!mesh) {

          /* Add an empty reference so the number of layers and instances match.

           * This makes it easy to reconstruct the layers afterwards and keep their attributes.

           * Although in this particular case we don't propagate the attributes. */

          const int handle = instances->add_reference(bke::InstanceReference());

          instances->add_instance(handle, float4x4::identity());

          continue;

        }

        GeometrySet temp_set = GeometrySet::from_mesh(mesh);

        const int handle = instances->add_reference(bke::InstanceReference{temp_set});

        instances->add_instance(handle, float4x4::identity());

      }

    }

    geometry_set.replace_grease_pencil(nullptr);

  }

}


static void node_geo_exec(GeoNodeExecParams params)

{

  GeometrySet geometry_set = params.extract_input<GeometrySet>("Curve");

  Field<int> group_index = params.extract_input<Field<int>>("Group ID");


  const NodeGeometryCurveFill &storage = node_storage(params.node());

  const GeometryNodeCurveFillMode mode = (GeometryNodeCurveFillMode)storage.mode;


  geometry_set.modify_geometry_sets(

      [&](GeometrySet &geometry_set) { curve_fill_calculate(geometry_set, mode, group_index); });


  params.set_output("Mesh", std::move(geometry_set));

}


static void node_rna(StructRNA *srna)

{

  static const EnumPropertyItem mode_items[] = {

      {GEO_NODE_CURVE_FILL_MODE_TRIANGULATED, "TRIANGLES", 0, "Triangles", ""},

      {GEO_NODE_CURVE_FILL_MODE_NGONS, "NGONS", 0, "N-gons", ""},

      {0, nullptr, 0, nullptr, nullptr},

  };


  RNA_def_node_enum(srna,

                    "mode",

                    "Mode",

                    "",

                    mode_items,

                    NOD_storage_enum_accessors(mode),

                    GEO_NODE_CURVE_FILL_MODE_TRIANGULATED);

}


static void node_register()

{

  static blender::bke::bNodeType ntype;


  geo_node_type_base(&ntype, GEO_NODE_FILL_CURVE, "Fill Curve", NODE_CLASS_GEOMETRY);


  ntype.initfunc = node_init;

  blender::bke::node_type_storage(

      &ntype, "NodeGeometryCurveFill", node_free_standard_storage, node_copy_standard_storage);

  ntype.declare = node_declare;

  ntype.geometry_node_execute = node_geo_exec;

  ntype.draw_buttons = node_layout;

  blender::bke::node_register_type(&ntype);


  node_rna(ntype.rna_ext.srna);

}


NOD_REGISTER_NODE(node_register)


}  // namespace blender::nodes::node_geo_curve_fill_cc


BKE_curves.hh
Low-level operations for curves.

BKE_grease_pencil.hh
Low-level operations for grease pencil.

BKE_instances.hh

BKE_mesh_new_nomain
Mesh * BKE_mesh_new_nomain(int verts_num, int edges_num, int faces_num, int corners_num)
Definition blenkernel/intern/mesh.cc:704

BKE_mesh.hh

NODE_STORAGE_FUNCS
#define NODE_STORAGE_FUNCS(StorageT)
Definition BKE_node.hh:1799

NODE_CLASS_GEOMETRY
#define NODE_CLASS_GEOMETRY
Definition BKE_node.hh:418

GEO_NODE_FILL_CURVE
#define GEO_NODE_FILL_CURVE
Definition BKE_node.hh:1205

BLI_array.hh

BLI_delaunay_2d.hh

CDT_output_type
CDT_output_type
Definition BLI_delaunay_2d.hh:54

CDT_CONSTRAINTS_VALID_BMESH_WITH_HOLES
@ CDT_CONSTRAINTS_VALID_BMESH_WITH_HOLES
Definition BLI_delaunay_2d.hh:71

CDT_INSIDE_WITH_HOLES
@ CDT_INSIDE_WITH_HOLES
Definition BLI_delaunay_2d.hh:60

x
x
Definition BLI_expr_pylike_eval_test.cc:345

BLI_math_vector_types.hh

BLI_task.hh

GeometryNodeCurveFillMode
GeometryNodeCurveFillMode
Definition DNA_node_types.h:3032

GEO_NODE_CURVE_FILL_MODE_TRIANGULATED
@ GEO_NODE_CURVE_FILL_MODE_TRIANGULATED
Definition DNA_node_types.h:3033

GEO_NODE_CURVE_FILL_MODE_NGONS
@ GEO_NODE_CURVE_FILL_MODE_NGONS
Definition DNA_node_types.h:3034

NOD_REGISTER_NODE
#define NOD_REGISTER_NODE(REGISTER_FUNC)
Definition NOD_register.hh:34

NOD_rna_define.hh

NOD_storage_enum_accessors
#define NOD_storage_enum_accessors(member)
Definition NOD_rna_define.hh:50

UI_interface.hh

uiItemR
void uiItemR(uiLayout *layout, PointerRNA *ptr, const char *propname, eUI_Item_Flag flag, const char *name, int icon)
Definition interface_layout.cc:2536

UI_ITEM_R_EXPAND
@ UI_ITEM_R_EXPAND
Definition UI_interface_c.hh:2156

UI_resources.hh

data
data
Definition bmesh_operator_api_inline.hh:159

IndexMask::from_group_ids
static Vector< IndexMask, 4 > from_group_ids(const VArray< int > &group_ids, IndexMaskMemory &memory, VectorSet< int > &r_index_by_group_id)
Definition index_mask.cc:1170

blender::Array
Definition BLI_array.hh:50

blender::IndexRange
Definition BLI_index_range.hh:50

blender::IndexRange::index_range
constexpr IndexRange index_range() const
Definition BLI_index_range.hh:157

blender::MutableSpan
Definition BLI_span.hh:444

blender::Span
Definition BLI_span.hh:75

blender::Span::size
constexpr int64_t size() const
Definition BLI_span.hh:253

blender::Span::index_range
constexpr IndexRange index_range() const
Definition BLI_span.hh:402

blender::VArrayCommon::size
int64_t size() const
Definition BLI_virtual_array.hh:643

blender::VArrayCommon::is_single
bool is_single() const
Definition BLI_virtual_array.hh:702

blender::VArray
Definition BLI_virtual_array.hh:799

blender::VectorSet
Definition BLI_vector_set.hh:90

blender::Vector::size
int64_t size() const
Definition BLI_vector.hh:691

blender::Vector::is_empty
bool is_empty() const
Definition BLI_vector.hh:703

blender::bke::CurvesGeometry
Definition BKE_curves.hh:135

blender::bke::CurvesGeometry::evaluated_points_by_curve
OffsetIndices< int > evaluated_points_by_curve() const
Definition curves_geometry.cc:574

blender::bke::CurvesGeometry::curves_num
int curves_num() const
Definition BKE_curves.hh:874

blender::bke::CurvesGeometry::evaluated_positions
Span< float3 > evaluated_positions() const
Definition curves_geometry.cc:667

blender::bke::GeometryFieldContext
Definition BKE_geometry_fields.hh:149

blender::bke::InstanceReference
Definition BKE_instances.hh:53

blender::bke::InstancesComponent
Definition BKE_geometry_set.hh:639

blender::bke::InstancesComponent::get_for_write
Instances * get_for_write()
Definition geometry_component_instances.cc:87

blender::bke::InstancesComponent::replace
void replace(Instances *instances, GeometryOwnershipType ownership=GeometryOwnershipType::Owned)
Definition geometry_component_instances.cc:97

blender::bke::Instances
Definition BKE_instances.hh:112

blender::bke::greasepencil::Drawing
Definition BKE_grease_pencil.hh:82

blender::bke::greasepencil::Drawing::strokes
const bke::CurvesGeometry & strokes() const
Definition grease_pencil.cc:710

blender::fn::FieldEvaluator
Definition FN_field.hh:338

blender::fn::FieldEvaluator::add
int add(GField field, GVArray *varray_ptr)
Definition field.cc:756

blender::fn::FieldEvaluator::evaluate
void evaluate()
Definition field.cc:788

blender::fn::FieldEvaluator::get_evaluated
const GVArray & get_evaluated(const int field_index) const
Definition FN_field.hh:450

blender::fn::Field
Definition FN_field.hh:188

blender::index_mask::IndexMaskMemory
Definition BLI_index_mask.hh:108

blender::index_mask::IndexMask
Definition BLI_index_mask.hh:184

blender::meshintersect::CDT_input
Definition BLI_delaunay_2d.hh:126

blender::meshintersect::CDT_input::need_ids
bool need_ids
Definition BLI_delaunay_2d.hh:132

blender::meshintersect::CDT_input::vert
Array< VecBase< T, 2 > > vert
Definition BLI_delaunay_2d.hh:128

blender::meshintersect::CDT_input::face
Array< Vector< int > > face
Definition BLI_delaunay_2d.hh:130

blender::meshintersect::CDT_result
Definition BLI_delaunay_2d.hh:157

blender::nodes::GeoNodeExecParams
Definition NOD_geometry_exec.hh:71

blender::nodes::NodeDeclarationBuilder
Definition NOD_node_declaration.hh:525

blender::nodes::decl::Geometry
Definition NOD_socket_declarations_geometry.hh:15

blender::nodes::decl::Int
Definition NOD_socket_declarations.hh:48

blender::offset_indices::OffsetIndices
Definition BLI_offset_indices.hh:29

blender::offset_indices::OffsetIndices::size
int64_t size() const
Definition BLI_offset_indices.hh:59

blender::offset_indices::OffsetIndices::total_size
T total_size() const
Definition BLI_offset_indices.hh:50

y
y
Definition compositor_morphological_blur_info.hh:15

b
local_group_size(16, 16) .push_constant(Type b
Definition compositor_morphological_distance_info.hh:16

params
uiWidgetBaseParameters params[MAX_WIDGET_BASE_BATCH]
Definition interface_widgets.cc:1055

mask
ccl_device_inline float4 mask(const int4 mask, const float4 a)
Definition math_float4.h:559

faces
static char faces[256]
Definition mball_tessellate.cc:527

blender::bke::greasepencil
Definition BKE_geometry_fields.hh:24

blender::bke::mesh
Definition BKE_mesh.hh:22

blender::bke::mesh_smooth_set
void mesh_smooth_set(Mesh &mesh, bool use_smooth, bool keep_sharp_edges=false)
Definition blenkernel/intern/mesh.cc:1186

blender::bke::mesh_calc_edges
void mesh_calc_edges(Mesh &mesh, bool keep_existing_edges, bool select_new_edges)
Definition mesh_calc_edges.cc:176

blender::bke::node_type_storage
void node_type_storage(bNodeType *ntype, const char *storagename, void(*freefunc)(bNode *node), void(*copyfunc)(bNodeTree *dest_ntree, bNode *dest_node, const bNode *src_node))
Definition node.cc:4632

blender::bke::node_register_type
void node_register_type(bNodeType *ntype)
Definition node.cc:1708

blender::nodes::node_geo_curve_fill_cc
Definition node_geo_curve_fill.cc:23

blender::nodes::node_geo_curve_fill_cc::node_init
static void node_init(bNodeTree *, bNode *node)
Definition node_geo_curve_fill.cc:44

blender::nodes::node_geo_curve_fill_cc::node_register
static void node_register()
Definition node_geo_curve_fill.cc:338

blender::nodes::node_geo_curve_fill_cc::node_geo_exec
static void node_geo_exec(GeoNodeExecParams params)
Definition node_geo_curve_fill.cc:307

blender::nodes::node_geo_curve_fill_cc::node_rna
static void node_rna(StructRNA *srna)
Definition node_geo_curve_fill.cc:321

blender::nodes::node_geo_curve_fill_cc::node_declare
static void node_declare(NodeDeclarationBuilder &b)
Definition node_geo_curve_fill.cc:27

blender::nodes::node_geo_curve_fill_cc::do_group_aware_cdt
static Array< meshintersect::CDT_result< double > > do_group_aware_cdt(const bke::CurvesGeometry &curves, const CDT_output_type output_type, const Field< int > &group_index_field)
Definition node_geo_curve_fill.cc:120

blender::nodes::node_geo_curve_fill_cc::curve_fill_calculate
static void curve_fill_calculate(GeometrySet &geometry_set, const GeometryNodeCurveFillMode mode, const Field< int > &group_index)
Definition node_geo_curve_fill.cc:245

blender::nodes::node_geo_curve_fill_cc::fill_curve_vert_indices
static void fill_curve_vert_indices(const OffsetIndices< int > offsets, MutableSpan< Vector< int > > faces)
Definition node_geo_curve_fill.cc:52

blender::nodes::node_geo_curve_fill_cc::do_cdt_with_mask
static meshintersect::CDT_result< double > do_cdt_with_mask(const bke::CurvesGeometry &curves, const CDT_output_type output_type, const IndexMask &mask)
Definition node_geo_curve_fill.cc:87

blender::nodes::node_geo_curve_fill_cc::cdts_to_mesh
static Mesh * cdts_to_mesh(const Span< meshintersect::CDT_result< double > > results)
Definition node_geo_curve_fill.cc:158

blender::nodes::node_geo_curve_fill_cc::node_layout
static void node_layout(uiLayout *layout, bContext *, PointerRNA *ptr)
Definition node_geo_curve_fill.cc:39

blender::nodes::node_geo_curve_fill_cc::do_cdt
static meshintersect::CDT_result< double > do_cdt(const bke::CurvesGeometry &curves, const CDT_output_type output_type)
Definition node_geo_curve_fill.cc:63

blender::nodes::RNA_def_node_enum
PropertyRNA * RNA_def_node_enum(StructRNA *srna, const char *identifier, const char *ui_name, const char *ui_description, const EnumPropertyItem *static_items, const EnumRNAAccessors accessors, std::optional< int > default_value, const EnumPropertyItemFunc item_func, const bool allow_animation)
Definition node_rna_define.cc:25

blender::offset_indices::accumulate_counts_to_offsets
OffsetIndices< int > accumulate_counts_to_offsets(MutableSpan< int > counts_to_offsets, int start_offset=0)
Definition offset_indices.cc:11

blender::offset_indices::gather_selected_offsets
OffsetIndices< int > gather_selected_offsets(OffsetIndices< int > src_offsets, const IndexMask &selection, int start_offset, MutableSpan< int > dst_offsets)
Definition offset_indices.cc:122

blender::realtime_compositor::ResultType::Vector
@ Vector
Definition COM_result.hh:28

blender::threading::parallel_for
void parallel_for(const IndexRange range, const int64_t grain_size, const Function &function, const TaskSizeHints &size_hints=detail::TaskSizeHints_Static(1))
Definition BLI_task.hh:95

blender::double2
VecBase< double, 2 > double2
Definition BLI_math_vector_types.hh:615

geo_node_type_base
void geo_node_type_base(blender::bke::bNodeType *ntype, int type, const char *name, short nclass)
Definition node_geometry_util.cc:138

node_geometry_util.hh

node_free_standard_storage
void node_free_standard_storage(bNode *node)
Definition node_util.cc:46

node_copy_standard_storage
void node_copy_standard_storage(bNodeTree *, bNode *dest_node, const bNode *src_node)
Definition node_util.cc:58

Curves
Definition DNA_curves_types.h:165

Curves::geometry
CurvesGeometry geometry
Definition DNA_curves_types.h:171

EnumPropertyItem
Definition RNA_types.hh:497

ExtensionRNA::srna
StructRNA * srna
Definition RNA_types.hh:780

GeometrySet::from_mesh
static GeometrySet from_mesh(Mesh *mesh, GeometryOwnershipType ownership=GeometryOwnershipType::Owned)
Definition geometry_set.cc:411

GreasePencil
Definition DNA_grease_pencil_types.h:442

Mesh
Definition DNA_mesh_types.h:56

NodeGeometryCurveFill
Definition DNA_node_types.h:1823

PointerRNA
Definition RNA_types.hh:39

StructRNA
Definition rna_internal_types.hh:545

bContext
Definition blenkernel/intern/context.cc:61

bNodeTree
Definition DNA_node_types.h:675

bNode
Definition DNA_node_types.h:357

bNode::storage
void * storage
Definition DNA_node_types.h:417

blender::GrainSize
Definition BLI_task.hh:47

blender::MatBase< float, 4, 4 >::identity
static MatBase identity()
Definition BLI_math_matrix_types.hh:450

blender::bke::GeometrySet
Definition BKE_geometry_set.hh:146

blender::bke::GeometrySet::has_curves
bool has_curves() const
Definition geometry_set.cc:381

blender::bke::GeometrySet::get_component_for_write
GeometryComponent & get_component_for_write(GeometryComponent::Type component_type)
Definition geometry_set.cc:120

blender::bke::GeometrySet::get_grease_pencil
const GreasePencil * get_grease_pencil() const
Definition geometry_set.cc:356

blender::bke::GeometrySet::get_curves
const Curves * get_curves() const
Definition geometry_set.cc:332

blender::bke::GeometrySet::has_grease_pencil
bool has_grease_pencil() const
Definition geometry_set.cc:399

blender::bke::GeometrySet::replace_curves
void replace_curves(Curves *curves, GeometryOwnershipType ownership=GeometryOwnershipType::Owned)
Definition geometry_set.cc:468

blender::bke::GeometrySet::modify_geometry_sets
void modify_geometry_sets(ForeachSubGeometryCallback callback)
Definition geometry_set.cc:793

blender::bke::GeometrySet::replace_mesh
void replace_mesh(Mesh *mesh, GeometryOwnershipType ownership=GeometryOwnershipType::Owned)
Definition geometry_set.cc:454

blender::bke::GeometrySet::replace_grease_pencil
void replace_grease_pencil(GreasePencil *grease_pencil, GeometryOwnershipType ownership=GeometryOwnershipType::Owned)
Definition geometry_set.cc:524

blender::bke::bNodeType
Defines a node type.
Definition BKE_node.hh:218

blender::bke::bNodeType::rna_ext
ExtensionRNA rna_ext
Definition BKE_node.hh:400

blender::bke::bNodeType::initfunc
void(* initfunc)(bNodeTree *ntree, bNode *node)
Definition BKE_node.hh:267

blender::bke::bNodeType::geometry_node_execute
NodeGeometryExecFunction geometry_node_execute
Definition BKE_node.hh:339

blender::bke::bNodeType::draw_buttons
void(* draw_buttons)(uiLayout *, bContext *C, PointerRNA *ptr)
Definition BKE_node.hh:238

blender::bke::bNodeType::declare
NodeDeclareFunction declare
Definition BKE_node.hh:347

uiLayout
Definition interface_layout.cc:147

ptr
PointerRNA * ptr
Definition wm_files.cc:4126