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#include "faceController.h"
#include "collections.hpp"
#include "maths.h"
#include "modelFactoryMesh.h"
void
FaceController::apply(ModelFactoryMesh & mesh, const StyleStack & parents, const std::string & name,
Shape::CreatedFaces & faces) const
{
const auto getAdjacentFaceName = [&mesh](const auto & ofrange, OpenMesh::FaceHandle nf) -> std::string {
const auto nfrange = mesh.ff_range(nf);
if (const auto target = std::find_first_of(ofrange.begin(), ofrange.end(), nfrange.begin(), nfrange.end());
target != ofrange.end()) {
return mesh.property(mesh.nameFaceProperty, *target);
};
return {};
};
const auto controlledFaces {materializeRange(faces.equal_range(name))};
if (controlledFaces.empty()) {
throw std::runtime_error("Named face(s) do not exist: " + name);
}
if (!type.empty()) {
const auto mutation = getMatrix();
faces.erase(name);
for (const auto & cf : controlledFaces) {
// get points
const auto baseVertices {materializeRange(mesh.fv_range(cf.second))};
auto points = std::accumulate(baseVertices.begin(), baseVertices.end(), std::vector<glm::vec3> {},
[&mesh](auto && out, auto && v) {
out.push_back(mesh.point(v));
return std::move(out);
});
const auto vertexCount = points.size();
const auto centre = mesh.calc_face_centroid(cf.second);
if (type == "extrude") {
Shape::CreatedFaces newFaces;
// mutate points
std::for_each(points.begin(), points.end(), [&mutation, ¢re](auto && p) {
p = centre + ((p - centre) % mutation);
});
// create new vertices
std::vector<OpenMesh::VertexHandle> vertices;
std::transform(points.begin(), points.end(), std::back_inserter(vertices), [&mesh](auto && p) {
return mesh.add_vertex(p);
});
// create new faces
const auto ofrange = materializeRange(mesh.ff_range(cf.second));
mesh.delete_face(cf.second);
for (size_t idx {}; idx < vertexCount; ++idx) {
const auto next = (idx + 1) % vertexCount;
const auto newFace
= mesh.add_face({baseVertices[idx], baseVertices[next], vertices[next], vertices[idx]});
auto & name = mesh.property(mesh.nameFaceProperty, newFace);
name = getAdjacentFaceName(ofrange, newFace);
newFaces.emplace(name, newFace);
}
newFaces.emplace(name, mesh.add_face(vertices));
if (smooth) {
for (const auto & [name, face] : newFaces) {
mesh.property(mesh.smoothFaceProperty, face) = true;
}
}
applyStyle(mesh, parents + this, newFaces);
for (const auto & [name, faceController] : faceControllers) {
faceController->apply(mesh, parents + this, name, newFaces);
}
faces.merge(std::move(newFaces));
}
else {
mesh.property(mesh.smoothFaceProperty, cf.second) = smooth;
applyStyle(mesh, parents + this, cf.second);
}
}
}
else {
for (const auto & cf : controlledFaces) {
applyStyle(mesh, parents + this, cf.second);
}
}
}
bool
FaceController::persist(Persistence::PersistenceStore & store)
{
return STORE_TYPE && STORE_MEMBER(id) && Style::persist(store) && STORE_MEMBER(type) && STORE_MEMBER(smooth)
&& Mutation::persist(store)
&& STORE_NAME_HELPER("face", faceControllers, Persistence::MapByMember<FaceControllers>);
}
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