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/* SPDX-License-Identifier: GPL-2.0-or-later */
#include "DNA_mesh_types.h"
#include "DNA_meshdata_types.h"
#include "BKE_mesh.h"
#include "node_geometry_util.hh"
namespace blender::nodes::node_geo_input_mesh_face_neighbors_cc {
static void node_declare(NodeDeclarationBuilder &b)
{
b.add_output<decl::Int>(N_("Vertex Count"))
.field_source()
.description(N_("Number of edges or points in the face"));
b.add_output<decl::Int>(N_("Face Count"))
.field_source()
.description(N_("Number of faces which share an edge with the face"));
}
static VArray<int> construct_neighbor_count_gvarray(const MeshComponent &component,
const AttributeDomain domain)
{
const Mesh *mesh = component.get_for_read();
if (mesh == nullptr) {
return {};
}
Array<int> edge_count(mesh->totedge, 0);
for (const int i : IndexRange(mesh->totloop)) {
edge_count[mesh->mloop[i].e]++;
}
Array<int> poly_count(mesh->totpoly, 0);
for (const int poly_num : IndexRange(mesh->totpoly)) {
MPoly &poly = mesh->mpoly[poly_num];
for (const int loop_num : IndexRange(poly.loopstart, poly.totloop)) {
poly_count[poly_num] += edge_count[mesh->mloop[loop_num].e] - 1;
}
}
return component.attribute_try_adapt_domain<int>(
VArray<int>::ForContainer(std::move(poly_count)), ATTR_DOMAIN_FACE, domain);
}
class FaceNeighborCountFieldInput final : public GeometryFieldInput {
public:
FaceNeighborCountFieldInput()
: GeometryFieldInput(CPPType::get<int>(), "Face Neighbor Count Field")
{
category_ = Category::Generated;
}
GVArray get_varray_for_context(const GeometryComponent &component,
const AttributeDomain domain,
IndexMask UNUSED(mask)) const final
{
if (component.type() == GEO_COMPONENT_TYPE_MESH) {
const MeshComponent &mesh_component = static_cast<const MeshComponent &>(component);
return construct_neighbor_count_gvarray(mesh_component, domain);
}
return {};
}
uint64_t hash() const override
{
/* Some random constant hash. */
return 823543774;
}
bool is_equal_to(const fn::FieldNode &other) const override
{
return dynamic_cast<const FaceNeighborCountFieldInput *>(&other) != nullptr;
}
};
static VArray<int> construct_vertex_count_gvarray(const MeshComponent &component,
const AttributeDomain domain)
{
const Mesh *mesh = component.get_for_read();
if (mesh == nullptr) {
return {};
}
return component.attribute_try_adapt_domain<int>(
VArray<int>::ForFunc(mesh->totpoly,
[mesh](const int i) -> float { return mesh->mpoly[i].totloop; }),
ATTR_DOMAIN_FACE,
domain);
}
class FaceVertexCountFieldInput final : public GeometryFieldInput {
public:
FaceVertexCountFieldInput() : GeometryFieldInput(CPPType::get<int>(), "Vertex Count Field")
{
category_ = Category::Generated;
}
GVArray get_varray_for_context(const GeometryComponent &component,
const AttributeDomain domain,
IndexMask UNUSED(mask)) const final
{
if (component.type() == GEO_COMPONENT_TYPE_MESH) {
const MeshComponent &mesh_component = static_cast<const MeshComponent &>(component);
return construct_vertex_count_gvarray(mesh_component, domain);
}
return {};
}
uint64_t hash() const override
{
/* Some random constant hash. */
return 236235463634;
}
bool is_equal_to(const fn::FieldNode &other) const override
{
return dynamic_cast<const FaceVertexCountFieldInput *>(&other) != nullptr;
}
};
static void node_geo_exec(GeoNodeExecParams params)
{
Field<int> vertex_count_field{std::make_shared<FaceVertexCountFieldInput>()};
Field<int> neighbor_count_field{std::make_shared<FaceNeighborCountFieldInput>()};
params.set_output("Vertex Count", std::move(vertex_count_field));
params.set_output("Face Count", std::move(neighbor_count_field));
}
} // namespace blender::nodes::node_geo_input_mesh_face_neighbors_cc
void register_node_type_geo_input_mesh_face_neighbors()
{
namespace file_ns = blender::nodes::node_geo_input_mesh_face_neighbors_cc;
static bNodeType ntype;
geo_node_type_base(
&ntype, GEO_NODE_INPUT_MESH_FACE_NEIGHBORS, "Face Neighbors", NODE_CLASS_INPUT);
node_type_size_preset(&ntype, NODE_SIZE_MIDDLE);
ntype.declare = file_ns::node_declare;
ntype.geometry_node_execute = file_ns::node_geo_exec;
nodeRegisterType(&ntype);
}
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