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// Copyright 2016 The Draco Authors.
//
// 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
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// 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 DRACO_COMPRESSION_MESH_TRAVERSER_TRAVERSER_BASE_H_
#define DRACO_COMPRESSION_MESH_TRAVERSER_TRAVERSER_BASE_H_
#include "draco/mesh/corner_table.h"
namespace draco {
// Class providing the basic traversal functionality needed by traversers (such
// as the DepthFirstTraverser, see depth_first_traverser.h). It keeps a pointer
// to the corner table that is used for the traversal, plus it provides a basic
// bookkeeping of visited faces and vertices during the traversal.
template <class CornerTableT, class TraversalObserverT>
class TraverserBase {
public:
typedef CornerTableT CornerTable;
typedef TraversalObserverT TraversalObserver;
TraverserBase() : corner_table_(nullptr) {}
virtual ~TraverserBase() = default;
virtual void Init(const CornerTable *corner_table,
TraversalObserver traversal_observer) {
corner_table_ = corner_table;
is_face_visited_.assign(corner_table->num_faces(), false);
is_vertex_visited_.assign(corner_table_->num_vertices(), false);
traversal_observer_ = traversal_observer;
}
const CornerTable &GetCornerTable() const { return *corner_table_; }
inline bool IsFaceVisited(FaceIndex face_id) const {
if (face_id == kInvalidFaceIndex)
return true; // Invalid faces are always considered as visited.
return is_face_visited_[face_id.value()];
}
// Returns true if the face containing the given corner was visited.
inline bool IsFaceVisited(CornerIndex corner_id) const {
if (corner_id == kInvalidCornerIndex)
return true; // Invalid faces are always considered as visited.
return is_face_visited_[corner_id.value() / 3];
}
inline void MarkFaceVisited(FaceIndex face_id) {
is_face_visited_[face_id.value()] = true;
}
inline bool IsVertexVisited(VertexIndex vert_id) const {
return is_vertex_visited_[vert_id.value()];
}
inline void MarkVertexVisited(VertexIndex vert_id) {
is_vertex_visited_[vert_id.value()] = true;
}
inline const CornerTable *corner_table() const { return corner_table_; }
inline const TraversalObserverT &traversal_observer() const {
return traversal_observer_;
}
inline TraversalObserverT &traversal_observer() {
return traversal_observer_;
}
private:
const CornerTable *corner_table_;
TraversalObserverT traversal_observer_;
std::vector<bool> is_face_visited_;
std::vector<bool> is_vertex_visited_;
};
} // namespace draco
#endif // DRACO_COMPRESSION_MESH_TRAVERSER_TRAVERSER_BASE_H_
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