/*
* Copyright 2014 Google Inc. All rights reserved.
*
* 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 SEMISTATIC_GRAPH_DEFN_H
#define SEMISTATIC_GRAPH_DEFN_H
#include <fruit/impl/data_structures/semistatic_graph.h>
namespace fruit {
namespace impl {
inline bool SemistaticGraphInternalNodeId::operator==(const SemistaticGraphInternalNodeId& x) const {
return id == x.id;
}
inline bool SemistaticGraphInternalNodeId::operator<(const SemistaticGraphInternalNodeId& x) const {
return id < x.id;
}
template <typename NodeId, typename Node>
inline SemistaticGraph<NodeId, Node>::node_iterator::node_iterator(NodeData* itr) : itr(itr) {}
template <typename NodeId, typename Node>
inline Node& SemistaticGraph<NodeId, Node>::node_iterator::getNode() {
FruitAssert(itr->edges_begin != 1);
return itr->node;
}
template <typename NodeId, typename Node>
inline bool SemistaticGraph<NodeId, Node>::node_iterator::isTerminal() {
FruitAssert(itr->edges_begin != 1);
return itr->edges_begin == 0;
}
template <typename NodeId, typename Node>
inline void SemistaticGraph<NodeId, Node>::node_iterator::setTerminal() {
FruitAssert(itr->edges_begin != 1);
itr->edges_begin = 0;
}
template <typename NodeId, typename Node>
inline bool SemistaticGraph<NodeId, Node>::node_iterator::operator==(const node_iterator& other) const {
return itr == other.itr;
}
template <typename NodeId, typename Node>
inline SemistaticGraph<NodeId, Node>::const_node_iterator::const_node_iterator(const NodeData* itr) : itr(itr) {}
template<typename NodeId, typename Node>
inline SemistaticGraph<NodeId, Node>::const_node_iterator::const_node_iterator(node_iterator itr) : itr(itr.itr) {}
template <typename NodeId, typename Node>
inline const Node& SemistaticGraph<NodeId, Node>::const_node_iterator::getNode() {
FruitAssert(itr->edges_begin != 1);
return itr->node;
}
template <typename NodeId, typename Node>
inline bool SemistaticGraph<NodeId, Node>::const_node_iterator::isTerminal() {
FruitAssert(itr->edges_begin != 1);
return itr->edges_begin == 0;
}
template <typename NodeId, typename Node>
inline bool SemistaticGraph<NodeId, Node>::const_node_iterator::operator==(const const_node_iterator& other) const {
return itr == other.itr;
}
template <typename NodeId, typename Node>
inline typename SemistaticGraph<NodeId, Node>::edge_iterator
SemistaticGraph<NodeId, Node>::node_iterator::neighborsBegin() {
FruitAssert(itr->edges_begin != 0);
FruitAssert(itr->edges_begin != 1);
return edge_iterator{reinterpret_cast<InternalNodeId*>(itr->edges_begin)};
}
template <typename NodeId, typename Node>
inline SemistaticGraph<NodeId, Node>::edge_iterator::edge_iterator(InternalNodeId* itr) : itr(itr) {}
template <typename NodeId, typename Node>
inline typename SemistaticGraph<NodeId, Node>::node_iterator
SemistaticGraph<NodeId, Node>::edge_iterator::getNodeIterator(node_iterator nodes_begin) {
return node_iterator{nodeAtId(nodes_begin.itr, *itr)};
}
template <typename NodeId, typename Node>
inline void SemistaticGraph<NodeId, Node>::edge_iterator::operator++() {
++itr;
}
template <typename NodeId, typename Node>
inline typename SemistaticGraph<NodeId, Node>::node_iterator
SemistaticGraph<NodeId, Node>::edge_iterator::getNodeIterator(std::size_t i, node_iterator nodes_begin) {
itr += i;
return getNodeIterator(nodes_begin);
}
template <typename NodeId, typename Node>
inline typename SemistaticGraph<NodeId, Node>::node_iterator SemistaticGraph<NodeId, Node>::begin() {
return node_iterator{nodes.begin()};
}
template <typename NodeId, typename Node>
inline typename SemistaticGraph<NodeId, Node>::node_iterator SemistaticGraph<NodeId, Node>::end() {
return node_iterator{nodes.end()};
}
template <typename NodeId, typename Node>
inline typename SemistaticGraph<NodeId, Node>::const_node_iterator SemistaticGraph<NodeId, Node>::end() const {
return const_node_iterator{nodes.end()};
}
template <typename NodeId, typename Node>
inline typename SemistaticGraph<NodeId, Node>::node_iterator SemistaticGraph<NodeId, Node>::at(NodeId nodeId) {
InternalNodeId internalNodeId = node_index_map.at(nodeId);
return node_iterator{nodeAtId(internalNodeId)};
}
template <typename NodeId, typename Node>
inline typename SemistaticGraph<NodeId, Node>::const_node_iterator
SemistaticGraph<NodeId, Node>::find(NodeId nodeId) const {
const InternalNodeId* internalNodeIdPtr = node_index_map.find(nodeId);
if (internalNodeIdPtr == nullptr) {
return const_node_iterator{nodes.end()};
} else {
const NodeData* p = nodeAtId(*internalNodeIdPtr);
if (p->edges_begin == 1) {
return const_node_iterator{nodes.end()};
}
return const_node_iterator{p};
}
}
template <typename NodeId, typename Node>
inline typename SemistaticGraph<NodeId, Node>::node_iterator SemistaticGraph<NodeId, Node>::find(NodeId nodeId) {
const InternalNodeId* internalNodeIdPtr = node_index_map.find(nodeId);
if (internalNodeIdPtr == nullptr) {
return node_iterator{nodes.end()};
} else {
NodeData* p = nodeAtId(*internalNodeIdPtr);
if (p->edges_begin == 1) {
return node_iterator{nodes.end()};
}
return node_iterator{p};
}
}
template <typename NodeId, typename Node>
inline typename SemistaticGraph<NodeId, Node>::NodeData*
SemistaticGraph<NodeId, Node>::nodeAtId(InternalNodeId internalNodeId) {
return nodeAtId(nodes.data(), internalNodeId);
}
template <typename NodeId, typename Node>
inline const typename SemistaticGraph<NodeId, Node>::NodeData*
SemistaticGraph<NodeId, Node>::nodeAtId(InternalNodeId internalNodeId) const {
return nodeAtId(nodes.data(), internalNodeId);
}
template <typename NodeId, typename Node>
inline typename SemistaticGraph<NodeId, Node>::NodeData*
SemistaticGraph<NodeId, Node>::nodeAtId(NodeData* nodes_begin, InternalNodeId internalNodeId) {
FruitAssert(internalNodeId.id % sizeof(NodeData) == 0);
NodeData* p = reinterpret_cast<NodeData*>(reinterpret_cast<char*>(nodes_begin) + internalNodeId.id);
// The code above is faster (the compiler doesn't have to worry about internalNodeId.id%sizeof(NodeData), that we know
// to be 0).
FruitAssert(p == nodes_begin + internalNodeId.id / sizeof(NodeData));
return p;
}
template <typename NodeId, typename Node>
inline const typename SemistaticGraph<NodeId, Node>::NodeData*
SemistaticGraph<NodeId, Node>::nodeAtId(const NodeData* nodes_begin, InternalNodeId internalNodeId) {
FruitAssert(internalNodeId.id % sizeof(NodeData) == 0);
const NodeData* p = reinterpret_cast<const NodeData*>(reinterpret_cast<const char*>(nodes_begin) + internalNodeId.id);
// The code above is faster (the compiler doesn't have to worry about internalNodeId.id%sizeof(NodeData), that we know
// to be 0).
FruitAssert(p == nodes_begin + internalNodeId.id / sizeof(NodeData));
return p;
}
} // namespace impl
} // namespace fruit
#endif // SEMISTATIC_GRAPH_INLINES_H