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| author | Dan Goodliffe <dan@randomdan.homeip.net> | 2023-02-25 03:31:12 +0000 |
|---|---|---|
| committer | Dan Goodliffe <dan@randomdan.homeip.net> | 2023-02-25 03:31:12 +0000 |
| commit | 43856fbd3b4a23e9ce41a85a641479a11413602d (patch) | |
| tree | dcf025d8e848df7261914096766dd3be842dcf2e | |
| parent | Helpers to create container instances from ranges (diff) | |
| download | ilt-43856fbd3b4a23e9ce41a85a641479a11413602d.tar.bz2 ilt-43856fbd3b4a23e9ce41a85a641479a11413602d.tar.xz ilt-43856fbd3b4a23e9ce41a85a641479a11413602d.zip | |
Name new faces based on adjacent faces when extruding
| -rw-r--r-- | assetFactory/faceController.cpp | 33 |
1 files changed, 22 insertions, 11 deletions
diff --git a/assetFactory/faceController.cpp b/assetFactory/faceController.cpp index 9f057da..b485c80 100644 --- a/assetFactory/faceController.cpp +++ b/assetFactory/faceController.cpp @@ -7,23 +7,30 @@ void FaceController::apply(ModelFactoryMesh & mesh, const StyleStack & parents, const std::string & name, Shape::CreatedFaces & faces) const { - const auto controlledFacesRange = faces.equal_range(name); - const std::vector controlledFaces(controlledFacesRange.first, controlledFacesRange.second); + 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 face vertices - const auto faceVertexRange = mesh.fv_range(cf.second); // get points - const std::vector baseVertices(faceVertexRange.begin(), faceVertexRange.end()); - std::vector<glm::vec3> points; - std::transform( - faceVertexRange.begin(), faceVertexRange.end(), std::back_inserter(points), [&mesh](auto && v) { - return mesh.point(v); + 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 @@ -40,11 +47,15 @@ FaceController::apply(ModelFactoryMesh & mesh, const StyleStack & parents, const return mesh.add_vertex({p.x, p.y, p.z}); }); // 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; - newFaces.emplace("extrusion", - mesh.add_face({baseVertices[idx], baseVertices[next], vertices[next], vertices[idx]})); + 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) { |