/*========================================================================= * * Copyright NumFOCUS * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0.txt * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * *=========================================================================*/ #ifndef itkPolyLineCell_hxx #define itkPolyLineCell_hxx #include // For copy_n. namespace itk { /** * Standard CellInterface: */ template void PolyLineCell::MakeCopy(CellAutoPointer & cellPointer) const { auto * newPolylineCell = new Self; cellPointer.TakeOwnership(newPolylineCell); const PointIdentifier numberOfPoints = this->GetNumberOfPoints(); if (numberOfPoints) { newPolylineCell->SetPointIds(0, numberOfPoints, this->GetPointIds()); } else { newPolylineCell->ClearPoints(); } } /** * Standard CellInterface: * Get the topological dimension of this cell. */ template unsigned int PolyLineCell::GetDimension() const { return Self::CellDimension; } /** * Standard CellInterface: * Get the number of points present in the cell. */ template unsigned int PolyLineCell::GetNumberOfPoints() const { return static_cast(m_PointIds.size()); } /** * Standard CellInterface: * Get the number of boundary entities of the given dimension. */ template auto PolyLineCell::GetNumberOfBoundaryFeatures(int dimension) const -> CellFeatureCount { switch (dimension) { case 0: return GetNumberOfVertices(); default: return 0; } } /** * Standard CellInterface: * Get the boundary feature of the given dimension specified by the given * cell feature Id. * The Id can range from 0 to GetNumberOfBoundaryFeatures(dimension)-1. */ template bool PolyLineCell::GetBoundaryFeature(int dimension, CellFeatureIdentifier featureId, CellAutoPointer & cellPointer) { VertexAutoPointer vertexPointer; if ((dimension == 0) && this->GetVertex(featureId, vertexPointer)) { TransferAutoPointer(cellPointer, vertexPointer); return true; } // else cellPointer.Reset(); return false; } /** * Standard CellInterface: * Set the point id list used by the cell. It is assumed that the given * iterator can be incremented and safely de-referenced enough times to * get all the point ids needed by the cell. */ template void PolyLineCell::SetPointIds(PointIdConstIterator first) { std::copy_n(first, m_PointIds.size(), m_PointIds.begin()); } /** * Standard CellInterface: * Set the point id list used by the cell. It is assumed that the given * iterator can be incremented and safely de-referenced enough times to * get all the point ids needed by the cell. */ template void PolyLineCell::SetPointIds(int itkNotUsed(dummy), int num, PointIdConstIterator first) { PointIdConstIterator ii(first); m_PointIds.clear(); for (int i = 0; i < num; ++i) { m_PointIds.push_back(*ii++); } } /** * Standard CellInterface: * Set the point id list used by the cell. It is assumed that the range * of iterators [first, last) contains the correct number of points needed to * define the cell. The position *last is NOT dereferenced, so it can safely * be one beyond the end of an array or other container. */ template void PolyLineCell::SetPointIds(PointIdConstIterator first, PointIdConstIterator last) { PointIdConstIterator ii(first); m_PointIds.clear(); while (ii != last) { m_PointIds.push_back(*ii++); } } /** * Standard CellInterface: * Set an individual point identifier in the cell. */ template void PolyLineCell::SetPointId(int localId, PointIdentifier ptId) { if (m_PointIds.size() < static_cast(localId + 1)) { m_PointIds.resize(localId + 1); } m_PointIds[localId] = ptId; } /** * Standard CellInterface: * Get a begin iterator to the list of point identifiers used by the cell. */ template auto PolyLineCell::PointIdsBegin() -> PointIdIterator { return &m_PointIds[0]; } /** * Standard CellInterface: * Get a const begin iterator to the list of point identifiers used * by the cell. */ template auto PolyLineCell::PointIdsBegin() const -> PointIdConstIterator { return &m_PointIds[0]; } /** * Standard CellInterface: * Get an end iterator to the list of point identifiers used by the cell. */ template auto PolyLineCell::PointIdsEnd() -> PointIdIterator { if (!m_PointIds.empty()) { return &m_PointIds.back() + 1; } else { return nullptr; } } /** * Standard CellInterface: * Get a const end iterator to the list of point identifiers used * by the cell. */ template auto PolyLineCell::PointIdsEnd() const -> PointIdConstIterator { if (!m_PointIds.empty()) { return &m_PointIds.back() + 1; } else { return nullptr; } } /** * clear all the points in the cell. */ template void PolyLineCell::ClearPoints() { InitializePoints(2); } /** * Line-specific: * Get the number of vertices for this polyline cell. */ template auto PolyLineCell::GetNumberOfVertices() const -> CellFeatureCount { return static_cast(m_PointIds.size()); } /** * Line-specific: * Get the vertex specified by the given cell feature Id. * The Id can range from 0 to GetNumberOfVertices()-1. */ template bool PolyLineCell::GetVertex(CellFeatureIdentifier vertexId, VertexAutoPointer & vertexPointer) { auto * vert = new VertexType; vert->SetPointId(0, m_PointIds[vertexId]); vertexPointer.TakeOwnership(vert); return true; } } // end namespace itk #endif