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// -*- c++ -*- //
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/**
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@defgroup paths Path Structures
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@ingroup datas
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\brief Path structures implemented in Hugo.
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Hugolib provides flexible data structures
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to work with paths.
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All of them have the same interface, especially they can be built or extended
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using a standard Builder subclass. This make is easy to have e.g. the Dijkstra
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algorithm to store its result in any kind of path structure.
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*/
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///\ingroup paths
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///\file
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///\brief Classes for representing paths in graphs.
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#ifndef HUGO_PATH_H
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#define HUGO_PATH_H
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#include <deque>
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#include <vector>
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#include <algorithm>
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#include <hugo/invalid.h>
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#include <hugo/error.h>
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#include <debug.h>
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namespace hugo {
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/// \addtogroup paths
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/// @{
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//! \brief A structure for representing directed path in a graph.
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//!
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//! A structure for representing directed path in a graph.
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//! \param Graph The graph type in which the path is.
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//! \param DM DebugMode, defaults to DefaultDebugMode.
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//!
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//! In a sense, the path can be treated as a graph, for is has \c NodeIt
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//! and \c EdgeIt with the same usage. These types converts to the \c Node
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//! and \c Edge of the original graph.
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//!
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//! \todo Thoroughfully check all the range and consistency tests.
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template<typename Graph, typename DM = DefaultDebugMode>
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class DirPath {
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public:
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/// Edge type of the underlying graph.
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typedef typename Graph::Edge GraphEdge;
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/// Node type of the underlying graph.
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typedef typename Graph::Node GraphNode;
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class NodeIt;
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class EdgeIt;
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protected:
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const Graph *gr;
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typedef std::vector<GraphEdge> Container;
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Container edges;
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public:
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/// \param _G The graph in which the path is.
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///
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DirPath(const Graph &_G) : gr(&_G) {}
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/// \brief Subpath constructor.
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///
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/// Subpath defined by two nodes.
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/// \warning It is an error if the two edges are not in order!
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DirPath(const DirPath &P, const NodeIt &a, const NodeIt &b) {
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if( DM::range_check && (!a.valid() || !b.valid) ) {
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// FIXME: this check should be more elaborate...
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fault("DirPath, subpath ctor: invalid bounding nodes");
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}
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gr = P.gr;
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edges.insert(edges.end(), P.edges.begin()+a.idx, P.edges.begin()+b.idx);
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}
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/// \brief Subpath constructor.
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///
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/// Subpath defined by two edges. Contains edges in [a,b)
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/// \warning It is an error if the two edges are not in order!
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DirPath(const DirPath &P, const EdgeIt &a, const EdgeIt &b) {
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if( DM::range_check && (!a.valid() || !b.valid) ) {
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// FIXME: this check should be more elaborate...
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fault("DirPath, subpath ctor: invalid bounding nodes");
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}
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gr = P.gr;
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edges.insert(edges.end(), P.edges.begin()+a.idx, P.edges.begin()+b.idx);
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}
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/// Length of the path.
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size_t length() const { return edges.size(); }
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/// Returns whether the path is empty.
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bool empty() const { return edges.empty(); }
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/// Resets the path to an empty path.
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void clear() { edges.clear(); }
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/// \brief Starting point of the path.
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///
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/// Starting point of the path.
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/// Returns INVALID if the path is empty.
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GraphNode from() const {
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return empty() ? INVALID : gr->tail(edges[0]);
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}
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/// \brief End point of the path.
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///
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/// End point of the path.
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/// Returns INVALID if the path is empty.
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GraphNode to() const {
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return empty() ? INVALID : gr->head(edges[length()-1]);
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}
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/// \brief Initializes node or edge iterator to point to the first
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/// node or edge.
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///
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/// \sa nth
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template<typename It>
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It& first(It &i) const { return i=It(*this); }
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/// \brief Initializes node iterator to point to the node of a given index.
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NodeIt& nth(NodeIt &i, int n) const {
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if( DM::range_check && (n<0 || n>int(length())) )
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fault("DirPath::nth: index out of range");
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return i=NodeIt(*this, n);
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}
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/// \brief Initializes edge iterator to point to the edge of a given index.
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EdgeIt& nth(EdgeIt &i, int n) const {
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if( DM::range_check && (n<0 || n>=int(length())) )
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fault("DirPath::nth: index out of range");
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return i=EdgeIt(*this, n);
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}
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/// Checks validity of a node or edge iterator.
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template<typename It>
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static
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bool valid(const It &i) { return i.valid(); }
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/// Steps the given node or edge iterator.
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template<typename It>
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static
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It& next(It &e) {
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if( DM::range_check && !e.valid() )
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fault("DirPath::next() on invalid iterator");
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return ++e;
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}
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/// \brief Returns node iterator pointing to the head node of the
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/// given edge iterator.
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NodeIt head(const EdgeIt& e) const {
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if( DM::range_check && !e.valid() )
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fault("DirPath::head() on invalid iterator");
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return NodeIt(*this, e.idx+1);
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}
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/// \brief Returns node iterator pointing to the tail node of the
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/// given edge iterator.
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NodeIt tail(const EdgeIt& e) const {
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if( DM::range_check && !e.valid() )
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fault("DirPath::tail() on invalid iterator");
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return NodeIt(*this, e.idx);
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}
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alpar@686
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/* Iterator classes */
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/**
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* \brief Iterator class to iterate on the edges of the paths
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*
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* \ingroup paths
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* This class is used to iterate on the edges of the paths
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*
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* Of course it converts to Graph::Edge
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*
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* \todo Its interface differs from the standard edge iterator.
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* Yes, it shouldn't.
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*/
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class EdgeIt {
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friend class DirPath;
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int idx;
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const DirPath *p;
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public:
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/// Default constructor
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EdgeIt() {}
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/// Invalid constructor
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EdgeIt(Invalid) : idx(-1), p(0) {}
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/// Constructor with starting point
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EdgeIt(const DirPath &_p, int _idx = 0) :
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idx(_idx), p(&_p) { validate(); }
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///Validity check
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bool valid() const { return idx!=-1; }
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///Conversion to Graph::Edge
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operator GraphEdge () const {
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return valid() ? p->edges[idx] : INVALID;
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}
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/// Next edge
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EdgeIt& operator++() { ++idx; validate(); return *this; }
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/// Comparison operator
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bool operator==(const EdgeIt& e) const { return idx==e.idx; }
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/// Comparison operator
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bool operator!=(const EdgeIt& e) const { return idx!=e.idx; }
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/// Comparison operator
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bool operator<(const EdgeIt& e) const { return idx<e.idx; }
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private:
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// FIXME: comparison between signed and unsigned...
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// Jo ez igy? Vagy esetleg legyen a length() int?
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void validate() { if( size_t(idx) >= p->length() ) idx=-1; }
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};
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/**
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* \brief Iterator class to iterate on the nodes of the paths
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*
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* \ingroup paths
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* This class is used to iterate on the nodes of the paths
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*
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* Of course it converts to Graph::Node
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*
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* \todo Its interface differs from the standard node iterator.
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* Yes, it shouldn't.
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*/
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class NodeIt {
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friend class DirPath;
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int idx;
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const DirPath *p;
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public:
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/// Default constructor
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NodeIt() {}
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/// Invalid constructor
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NodeIt(Invalid) : idx(-1), p(0) {}
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/// Constructor with starting point
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NodeIt(const DirPath &_p, int _idx = 0) :
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idx(_idx), p(&_p) { validate(); }
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///Validity check
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bool valid() const { return idx!=-1; }
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///Conversion to Graph::Node
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operator const GraphNode& () const {
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if(idx >= p->length())
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return p->to();
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else if(idx >= 0)
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return p->gr->tail(p->edges[idx]);
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else
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return INVALID;
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}
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/// Next node
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NodeIt& operator++() { ++idx; validate(); return *this; }
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/// Comparison operator
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bool operator==(const NodeIt& e) const { return idx==e.idx; }
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/// Comparison operator
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bool operator!=(const NodeIt& e) const { return idx!=e.idx; }
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/// Comparison operator
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bool operator<(const NodeIt& e) const { return idx<e.idx; }
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private:
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void validate() { if( size_t(idx) > p->length() ) idx=-1; }
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};
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friend class Builder;
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/**
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* \brief Class to build paths
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*
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* \ingroup paths
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* This class is used to fill a path with edges.
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*
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* You can push new edges to the front and to the back of the path in
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* arbitrary order then you should commit these changes to the graph.
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*
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* Fundamentally, for most "Paths" (classes fulfilling the
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* PathConcept) while the builder is active (after the first modifying
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* operation and until the commit()) the original Path is in a
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* "transitional" state (operations on it have undefined result). But
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alpar@682
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* in the case of DirPath the original path remains unchanged until the
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* commit. However we don't recomend that you use this feature.
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*/
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class Builder {
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DirPath &P;
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Container front, back;
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public:
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///\param _P the path you want to fill in.
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///
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Builder(DirPath &_P) : P(_P) {}
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/// Sets the starting node of the path.
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/// Sets the starting node of the path. Edge added to the path
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/// afterwards have to be incident to this node.
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/// It should be called iff the path is empty and before any call to
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/// \ref pushFront() or \ref pushBack()
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void setStart(const GraphNode &) {}
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///Push a new edge to the front of the path
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///Push a new edge to the front of the path.
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///\sa setStart
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void pushFront(const GraphEdge& e) {
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if( DM::consistensy_check && !empty() && P.gr->head(e)!=from() ) {
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fault("DirPath::Builder::pushFront: nonincident edge");
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}
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front.push_back(e);
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}
|
klao@493
|
318 |
|
alpar@434
|
319 |
///Push a new edge to the back of the path
|
alpar@434
|
320 |
|
alpar@434
|
321 |
///Push a new edge to the back of the path.
|
klao@619
|
322 |
///\sa setStart
|
klao@493
|
323 |
void pushBack(const GraphEdge& e) {
|
klao@493
|
324 |
if( DM::consistensy_check && !empty() && P.gr->tail(e)!=to() ) {
|
klao@493
|
325 |
fault("DirPath::Builder::pushBack: nonincident edge");
|
klao@369
|
326 |
}
|
klao@493
|
327 |
back.push_back(e);
|
klao@369
|
328 |
}
|
klao@369
|
329 |
|
alpar@434
|
330 |
///Commit the changes to the path.
|
klao@369
|
331 |
void commit() {
|
klao@493
|
332 |
if( !(front.empty() && back.empty()) ) {
|
klao@493
|
333 |
Container tmp;
|
klao@493
|
334 |
tmp.reserve(front.size()+back.size()+P.length());
|
klao@493
|
335 |
tmp.insert(tmp.end(), front.rbegin(), front.rend());
|
klao@493
|
336 |
tmp.insert(tmp.end(), P.edges.begin(), P.edges.end());
|
klao@493
|
337 |
tmp.insert(tmp.end(), back.begin(), back.end());
|
klao@493
|
338 |
P.edges.swap(tmp);
|
klao@493
|
339 |
front.clear();
|
klao@493
|
340 |
back.clear();
|
klao@369
|
341 |
}
|
klao@369
|
342 |
}
|
klao@369
|
343 |
|
klao@619
|
344 |
// FIXME: Hmm, pontosan hogy is kene ezt csinalni?
|
klao@619
|
345 |
// Hogy kenyelmes egy ilyet hasznalni?
|
alpar@686
|
346 |
|
alpar@686
|
347 |
///Reserve storage in advance for the builder
|
alpar@686
|
348 |
|
alpar@686
|
349 |
///If you know an reasonable upper bound of the number of the edges
|
alpar@686
|
350 |
///to add, using this function you can speed up the building.
|
klao@619
|
351 |
void reserve(size_t r) {
|
klao@619
|
352 |
front.reserve(r);
|
klao@619
|
353 |
back.reserve(r);
|
klao@619
|
354 |
}
|
alpar@434
|
355 |
|
klao@619
|
356 |
private:
|
klao@619
|
357 |
bool empty() {
|
klao@619
|
358 |
return front.empty() && back.empty() && P.empty();
|
klao@619
|
359 |
}
|
klao@619
|
360 |
|
klao@619
|
361 |
GraphNode from() const {
|
klao@619
|
362 |
if( ! front.empty() )
|
klao@619
|
363 |
return P.gr->tail(front[front.size()-1]);
|
klao@619
|
364 |
else if( ! P.empty() )
|
klao@619
|
365 |
return P.gr->tail(P.edges[0]);
|
klao@619
|
366 |
else if( ! back.empty() )
|
klao@619
|
367 |
return P.gr->tail(back[0]);
|
klao@619
|
368 |
else
|
klao@619
|
369 |
return INVALID;
|
klao@619
|
370 |
}
|
klao@619
|
371 |
GraphNode to() const {
|
klao@619
|
372 |
if( ! back.empty() )
|
klao@619
|
373 |
return P.gr->head(back[back.size()-1]);
|
klao@619
|
374 |
else if( ! P.empty() )
|
klao@619
|
375 |
return P.gr->head(P.edges[P.length()-1]);
|
klao@619
|
376 |
else if( ! front.empty() )
|
klao@619
|
377 |
return P.gr->head(front[0]);
|
klao@619
|
378 |
else
|
klao@619
|
379 |
return INVALID;
|
klao@619
|
380 |
}
|
klao@619
|
381 |
|
klao@619
|
382 |
};
|
klao@619
|
383 |
|
klao@619
|
384 |
};
|
klao@619
|
385 |
|
klao@619
|
386 |
|
klao@619
|
387 |
|
klao@619
|
388 |
|
klao@619
|
389 |
|
klao@619
|
390 |
|
klao@619
|
391 |
|
klao@619
|
392 |
|
klao@619
|
393 |
|
klao@619
|
394 |
|
klao@619
|
395 |
/**********************************************************************/
|
klao@619
|
396 |
|
klao@619
|
397 |
|
klao@619
|
398 |
//! \brief A structure for representing undirected path in a graph.
|
klao@619
|
399 |
//!
|
klao@619
|
400 |
//! A structure for representing undirected path in a graph. Ie. this is
|
klao@619
|
401 |
//! a path in a \e directed graph but the edges should not be directed
|
klao@619
|
402 |
//! forward.
|
klao@619
|
403 |
//!
|
klao@619
|
404 |
//! \param Graph The graph type in which the path is.
|
klao@619
|
405 |
//! \param DM DebugMode, defaults to DefaultDebugMode.
|
klao@619
|
406 |
//!
|
klao@619
|
407 |
//! In a sense, the path can be treated as a graph, for is has \c NodeIt
|
klao@619
|
408 |
//! and \c EdgeIt with the same usage. These types converts to the \c Node
|
klao@619
|
409 |
//! and \c Edge of the original graph.
|
klao@619
|
410 |
//!
|
klao@619
|
411 |
//! \todo Thoroughfully check all the range and consistency tests.
|
klao@619
|
412 |
template<typename Graph, typename DM = DefaultDebugMode>
|
klao@619
|
413 |
class UndirPath {
|
klao@619
|
414 |
public:
|
alpar@686
|
415 |
/// Edge type of the underlying graph.
|
klao@619
|
416 |
typedef typename Graph::Edge GraphEdge;
|
alpar@686
|
417 |
/// Node type of the underlying graph.
|
alpar@686
|
418 |
typedef typename Graph::Node GraphNode;
|
klao@619
|
419 |
class NodeIt;
|
klao@619
|
420 |
class EdgeIt;
|
klao@619
|
421 |
|
klao@619
|
422 |
protected:
|
klao@619
|
423 |
const Graph *gr;
|
klao@619
|
424 |
typedef std::vector<GraphEdge> Container;
|
klao@619
|
425 |
Container edges;
|
klao@619
|
426 |
|
klao@619
|
427 |
public:
|
klao@619
|
428 |
|
klao@619
|
429 |
/// \param _G The graph in which the path is.
|
klao@619
|
430 |
///
|
klao@619
|
431 |
UndirPath(const Graph &_G) : gr(&_G) {}
|
klao@619
|
432 |
|
klao@619
|
433 |
/// \brief Subpath constructor.
|
klao@619
|
434 |
///
|
klao@619
|
435 |
/// Subpath defined by two nodes.
|
klao@619
|
436 |
/// \warning It is an error if the two edges are not in order!
|
klao@619
|
437 |
UndirPath(const UndirPath &P, const NodeIt &a, const NodeIt &b) {
|
klao@619
|
438 |
if( DM::range_check && (!a.valid() || !b.valid) ) {
|
klao@619
|
439 |
// FIXME: this check should be more elaborate...
|
klao@619
|
440 |
fault("UndirPath, subpath ctor: invalid bounding nodes");
|
klao@619
|
441 |
}
|
klao@619
|
442 |
gr = P.gr;
|
klao@619
|
443 |
edges.insert(edges.end(), P.edges.begin()+a.idx, P.edges.begin()+b.idx);
|
klao@619
|
444 |
}
|
klao@619
|
445 |
|
klao@619
|
446 |
/// \brief Subpath constructor.
|
klao@619
|
447 |
///
|
klao@619
|
448 |
/// Subpath defined by two edges. Contains edges in [a,b)
|
klao@619
|
449 |
/// \warning It is an error if the two edges are not in order!
|
klao@619
|
450 |
UndirPath(const UndirPath &P, const EdgeIt &a, const EdgeIt &b) {
|
klao@619
|
451 |
if( DM::range_check && (!a.valid() || !b.valid) ) {
|
klao@619
|
452 |
// FIXME: this check should be more elaborate...
|
klao@619
|
453 |
fault("UndirPath, subpath ctor: invalid bounding nodes");
|
klao@619
|
454 |
}
|
klao@619
|
455 |
gr = P.gr;
|
klao@619
|
456 |
edges.insert(edges.end(), P.edges.begin()+a.idx, P.edges.begin()+b.idx);
|
klao@619
|
457 |
}
|
klao@619
|
458 |
|
klao@619
|
459 |
/// Length of the path.
|
klao@619
|
460 |
size_t length() const { return edges.size(); }
|
klao@619
|
461 |
/// Returns whether the path is empty.
|
klao@619
|
462 |
bool empty() const { return edges.empty(); }
|
klao@619
|
463 |
|
klao@619
|
464 |
/// Resets the path to an empty path.
|
klao@619
|
465 |
void clear() { edges.clear(); }
|
klao@619
|
466 |
|
klao@619
|
467 |
/// \brief Starting point of the path.
|
klao@619
|
468 |
///
|
klao@619
|
469 |
/// Starting point of the path.
|
klao@619
|
470 |
/// Returns INVALID if the path is empty.
|
klao@619
|
471 |
GraphNode from() const {
|
klao@619
|
472 |
return empty() ? INVALID : gr->tail(edges[0]);
|
klao@619
|
473 |
}
|
klao@619
|
474 |
/// \brief End point of the path.
|
klao@619
|
475 |
///
|
klao@619
|
476 |
/// End point of the path.
|
klao@619
|
477 |
/// Returns INVALID if the path is empty.
|
klao@619
|
478 |
GraphNode to() const {
|
klao@619
|
479 |
return empty() ? INVALID : gr->head(edges[length()-1]);
|
klao@619
|
480 |
}
|
klao@619
|
481 |
|
klao@619
|
482 |
/// \brief Initializes node or edge iterator to point to the first
|
klao@619
|
483 |
/// node or edge.
|
klao@619
|
484 |
///
|
klao@619
|
485 |
/// \sa nth
|
klao@619
|
486 |
template<typename It>
|
klao@619
|
487 |
It& first(It &i) const { return i=It(*this); }
|
klao@619
|
488 |
|
klao@619
|
489 |
/// \brief Initializes node iterator to point to the node of a given index.
|
klao@619
|
490 |
NodeIt& nth(NodeIt &i, int n) const {
|
klao@619
|
491 |
if( DM::range_check && (n<0 || n>int(length())) )
|
klao@619
|
492 |
fault("UndirPath::nth: index out of range");
|
klao@619
|
493 |
return i=NodeIt(*this, n);
|
klao@619
|
494 |
}
|
klao@619
|
495 |
|
klao@619
|
496 |
/// \brief Initializes edge iterator to point to the edge of a given index.
|
klao@619
|
497 |
EdgeIt& nth(EdgeIt &i, int n) const {
|
klao@619
|
498 |
if( DM::range_check && (n<0 || n>=int(length())) )
|
klao@619
|
499 |
fault("UndirPath::nth: index out of range");
|
klao@619
|
500 |
return i=EdgeIt(*this, n);
|
klao@619
|
501 |
}
|
klao@619
|
502 |
|
klao@619
|
503 |
/// Checks validity of a node or edge iterator.
|
klao@619
|
504 |
template<typename It>
|
klao@619
|
505 |
static
|
klao@619
|
506 |
bool valid(const It &i) { return i.valid(); }
|
klao@619
|
507 |
|
klao@619
|
508 |
/// Steps the given node or edge iterator.
|
klao@619
|
509 |
template<typename It>
|
klao@619
|
510 |
static
|
klao@619
|
511 |
It& next(It &e) {
|
klao@619
|
512 |
if( DM::range_check && !e.valid() )
|
klao@619
|
513 |
fault("UndirPath::next() on invalid iterator");
|
klao@619
|
514 |
return ++e;
|
klao@619
|
515 |
}
|
klao@619
|
516 |
|
klao@619
|
517 |
/// \brief Returns node iterator pointing to the head node of the
|
klao@619
|
518 |
/// given edge iterator.
|
klao@619
|
519 |
NodeIt head(const EdgeIt& e) const {
|
klao@619
|
520 |
if( DM::range_check && !e.valid() )
|
klao@619
|
521 |
fault("UndirPath::head() on invalid iterator");
|
klao@619
|
522 |
return NodeIt(*this, e.idx+1);
|
klao@619
|
523 |
}
|
klao@619
|
524 |
|
klao@619
|
525 |
/// \brief Returns node iterator pointing to the tail node of the
|
klao@619
|
526 |
/// given edge iterator.
|
klao@619
|
527 |
NodeIt tail(const EdgeIt& e) const {
|
klao@619
|
528 |
if( DM::range_check && !e.valid() )
|
klao@619
|
529 |
fault("UndirPath::tail() on invalid iterator");
|
klao@619
|
530 |
return NodeIt(*this, e.idx);
|
klao@619
|
531 |
}
|
klao@619
|
532 |
|
klao@619
|
533 |
|
alpar@686
|
534 |
|
alpar@686
|
535 |
/**
|
alpar@686
|
536 |
* \brief Iterator class to iterate on the edges of the paths
|
alpar@686
|
537 |
*
|
alpar@686
|
538 |
* \ingroup paths
|
alpar@686
|
539 |
* This class is used to iterate on the edges of the paths
|
alpar@686
|
540 |
*
|
alpar@686
|
541 |
* Of course it converts to Graph::Edge
|
alpar@686
|
542 |
*
|
alpar@686
|
543 |
* \todo Its interface differs from the standard edge iterator.
|
alpar@686
|
544 |
* Yes, it shouldn't.
|
alpar@686
|
545 |
*/
|
klao@619
|
546 |
class EdgeIt {
|
klao@619
|
547 |
friend class UndirPath;
|
klao@619
|
548 |
|
klao@619
|
549 |
int idx;
|
klao@619
|
550 |
const UndirPath *p;
|
klao@619
|
551 |
public:
|
alpar@686
|
552 |
/// Default constructor
|
klao@619
|
553 |
EdgeIt() {}
|
alpar@686
|
554 |
/// Invalid constructor
|
klao@619
|
555 |
EdgeIt(Invalid) : idx(-1), p(0) {}
|
alpar@686
|
556 |
/// Constructor with starting point
|
klao@619
|
557 |
EdgeIt(const UndirPath &_p, int _idx = 0) :
|
klao@619
|
558 |
idx(_idx), p(&_p) { validate(); }
|
klao@619
|
559 |
|
alpar@686
|
560 |
///Validity check
|
klao@619
|
561 |
bool valid() const { return idx!=-1; }
|
klao@619
|
562 |
|
alpar@686
|
563 |
///Conversion to Graph::Edge
|
klao@619
|
564 |
operator GraphEdge () const {
|
klao@619
|
565 |
return valid() ? p->edges[idx] : INVALID;
|
klao@619
|
566 |
}
|
alpar@686
|
567 |
/// Next edge
|
alpar@686
|
568 |
EdgeIt& operator++() { ++idx; validate(); return *this; }
|
klao@619
|
569 |
|
alpar@686
|
570 |
/// Comparison operator
|
klao@619
|
571 |
bool operator==(const EdgeIt& e) const { return idx==e.idx; }
|
alpar@686
|
572 |
/// Comparison operator
|
klao@619
|
573 |
bool operator!=(const EdgeIt& e) const { return idx!=e.idx; }
|
alpar@686
|
574 |
/// Comparison operator
|
klao@619
|
575 |
bool operator<(const EdgeIt& e) const { return idx<e.idx; }
|
klao@619
|
576 |
|
klao@619
|
577 |
private:
|
klao@619
|
578 |
// FIXME: comparison between signed and unsigned...
|
klao@619
|
579 |
// Jo ez igy? Vagy esetleg legyen a length() int?
|
klao@619
|
580 |
void validate() { if( size_t(idx) >= p->length() ) idx=-1; }
|
klao@619
|
581 |
};
|
klao@619
|
582 |
|
alpar@686
|
583 |
/**
|
alpar@686
|
584 |
* \brief Iterator class to iterate on the nodes of the paths
|
alpar@686
|
585 |
*
|
alpar@686
|
586 |
* \ingroup paths
|
alpar@686
|
587 |
* This class is used to iterate on the nodes of the paths
|
alpar@686
|
588 |
*
|
alpar@686
|
589 |
* Of course it converts to Graph::Node
|
alpar@686
|
590 |
*
|
alpar@686
|
591 |
* \todo Its interface differs from the standard node iterator.
|
alpar@686
|
592 |
* Yes, it shouldn't.
|
alpar@686
|
593 |
*/
|
klao@619
|
594 |
class NodeIt {
|
klao@619
|
595 |
friend class UndirPath;
|
klao@619
|
596 |
|
klao@619
|
597 |
int idx;
|
klao@619
|
598 |
const UndirPath *p;
|
klao@619
|
599 |
public:
|
alpar@686
|
600 |
/// Default constructor
|
klao@619
|
601 |
NodeIt() {}
|
alpar@686
|
602 |
/// Invalid constructor
|
klao@619
|
603 |
NodeIt(Invalid) : idx(-1), p(0) {}
|
alpar@686
|
604 |
/// Constructor with starting point
|
klao@619
|
605 |
NodeIt(const UndirPath &_p, int _idx = 0) :
|
klao@619
|
606 |
idx(_idx), p(&_p) { validate(); }
|
klao@619
|
607 |
|
alpar@686
|
608 |
///Validity check
|
klao@619
|
609 |
bool valid() const { return idx!=-1; }
|
klao@619
|
610 |
|
alpar@686
|
611 |
///Conversion to Graph::Node
|
klao@619
|
612 |
operator const GraphNode& () const {
|
klao@619
|
613 |
if(idx >= p->length())
|
klao@619
|
614 |
return p->to();
|
klao@619
|
615 |
else if(idx >= 0)
|
klao@619
|
616 |
return p->gr->tail(p->edges[idx]);
|
klao@619
|
617 |
else
|
klao@619
|
618 |
return INVALID;
|
klao@619
|
619 |
}
|
alpar@686
|
620 |
/// Next node
|
klao@619
|
621 |
NodeIt& operator++() { ++idx; validate(); return *this; }
|
klao@619
|
622 |
|
alpar@686
|
623 |
/// Comparison operator
|
klao@619
|
624 |
bool operator==(const NodeIt& e) const { return idx==e.idx; }
|
alpar@686
|
625 |
/// Comparison operator
|
klao@619
|
626 |
bool operator!=(const NodeIt& e) const { return idx!=e.idx; }
|
alpar@686
|
627 |
/// Comparison operator
|
alpar@686
|
628 |
bool operator<(const NodeIt& e) const { return idx<e.idx; }
|
klao@619
|
629 |
|
klao@619
|
630 |
private:
|
klao@619
|
631 |
void validate() { if( size_t(idx) > p->length() ) idx=-1; }
|
klao@619
|
632 |
};
|
klao@619
|
633 |
|
klao@619
|
634 |
friend class Builder;
|
klao@619
|
635 |
|
klao@619
|
636 |
/**
|
klao@619
|
637 |
* \brief Class to build paths
|
klao@619
|
638 |
*
|
alpar@686
|
639 |
* \ingroup paths
|
klao@619
|
640 |
* This class is used to fill a path with edges.
|
klao@619
|
641 |
*
|
klao@619
|
642 |
* You can push new edges to the front and to the back of the path in
|
klao@619
|
643 |
* arbitrary order then you should commit these changes to the graph.
|
klao@619
|
644 |
*
|
klao@619
|
645 |
* Fundamentally, for most "Paths" (classes fulfilling the
|
klao@619
|
646 |
* PathConcept) while the builder is active (after the first modifying
|
klao@619
|
647 |
* operation and until the commit()) the original Path is in a
|
klao@619
|
648 |
* "transitional" state (operations ot it have undefined result). But
|
klao@619
|
649 |
* in the case of UndirPath the original path is unchanged until the
|
klao@619
|
650 |
* commit. However we don't recomend that you use this feature.
|
klao@619
|
651 |
*/
|
klao@619
|
652 |
class Builder {
|
klao@619
|
653 |
UndirPath &P;
|
klao@619
|
654 |
Container front, back;
|
klao@619
|
655 |
|
klao@619
|
656 |
public:
|
klao@619
|
657 |
///\param _P the path you want to fill in.
|
klao@619
|
658 |
///
|
klao@619
|
659 |
Builder(UndirPath &_P) : P(_P) {}
|
klao@619
|
660 |
|
klao@619
|
661 |
/// Sets the starting node of the path.
|
klao@619
|
662 |
|
klao@619
|
663 |
/// Sets the starting node of the path. Edge added to the path
|
klao@619
|
664 |
/// afterwards have to be incident to this node.
|
klao@619
|
665 |
/// It should be called iff the path is empty and before any call to
|
klao@619
|
666 |
/// \ref pushFront() or \ref pushBack()
|
klao@619
|
667 |
void setStart(const GraphNode &) {}
|
klao@619
|
668 |
|
klao@619
|
669 |
///Push a new edge to the front of the path
|
klao@619
|
670 |
|
klao@619
|
671 |
///Push a new edge to the front of the path.
|
klao@619
|
672 |
///\sa setStart
|
klao@619
|
673 |
void pushFront(const GraphEdge& e) {
|
klao@619
|
674 |
if( DM::consistensy_check && !empty() && P.gr->head(e)!=from() ) {
|
klao@619
|
675 |
fault("UndirPath::Builder::pushFront: nonincident edge");
|
klao@619
|
676 |
}
|
klao@619
|
677 |
front.push_back(e);
|
klao@619
|
678 |
}
|
klao@619
|
679 |
|
klao@619
|
680 |
///Push a new edge to the back of the path
|
klao@619
|
681 |
|
klao@619
|
682 |
///Push a new edge to the back of the path.
|
klao@619
|
683 |
///\sa setStart
|
klao@619
|
684 |
void pushBack(const GraphEdge& e) {
|
klao@619
|
685 |
if( DM::consistensy_check && !empty() && P.gr->tail(e)!=to() ) {
|
klao@619
|
686 |
fault("UndirPath::Builder::pushBack: nonincident edge");
|
klao@619
|
687 |
}
|
klao@619
|
688 |
back.push_back(e);
|
klao@619
|
689 |
}
|
klao@619
|
690 |
|
klao@619
|
691 |
///Commit the changes to the path.
|
klao@619
|
692 |
void commit() {
|
klao@619
|
693 |
if( !(front.empty() && back.empty()) ) {
|
klao@619
|
694 |
Container tmp;
|
klao@619
|
695 |
tmp.reserve(front.size()+back.size()+P.length());
|
klao@619
|
696 |
tmp.insert(tmp.end(), front.rbegin(), front.rend());
|
klao@619
|
697 |
tmp.insert(tmp.end(), P.edges.begin(), P.edges.end());
|
klao@619
|
698 |
tmp.insert(tmp.end(), back.begin(), back.end());
|
klao@619
|
699 |
P.edges.swap(tmp);
|
klao@619
|
700 |
front.clear();
|
klao@619
|
701 |
back.clear();
|
klao@619
|
702 |
}
|
klao@619
|
703 |
}
|
klao@369
|
704 |
|
klao@369
|
705 |
// FIXME: Hmm, pontosan hogy is kene ezt csinalni?
|
klao@369
|
706 |
// Hogy kenyelmes egy ilyet hasznalni?
|
alpar@686
|
707 |
|
alpar@686
|
708 |
///Reserve storage in advance for the builder
|
alpar@686
|
709 |
|
alpar@686
|
710 |
///If you know an reasonable upper bound of the number of the edges
|
alpar@686
|
711 |
///to add, using this function you can speed up the building.
|
alpar@686
|
712 |
void reserve(size_t r) {
|
klao@493
|
713 |
front.reserve(r);
|
klao@493
|
714 |
back.reserve(r);
|
klao@369
|
715 |
}
|
klao@369
|
716 |
|
klao@369
|
717 |
private:
|
klao@493
|
718 |
bool empty() {
|
klao@493
|
719 |
return front.empty() && back.empty() && P.empty();
|
klao@493
|
720 |
}
|
klao@369
|
721 |
|
klao@369
|
722 |
GraphNode from() const {
|
klao@493
|
723 |
if( ! front.empty() )
|
klao@493
|
724 |
return P.gr->tail(front[front.size()-1]);
|
klao@369
|
725 |
else if( ! P.empty() )
|
klao@369
|
726 |
return P.gr->tail(P.edges[0]);
|
klao@493
|
727 |
else if( ! back.empty() )
|
klao@493
|
728 |
return P.gr->tail(back[0]);
|
klao@369
|
729 |
else
|
klao@369
|
730 |
return INVALID;
|
klao@369
|
731 |
}
|
klao@369
|
732 |
GraphNode to() const {
|
klao@493
|
733 |
if( ! back.empty() )
|
klao@493
|
734 |
return P.gr->head(back[back.size()-1]);
|
klao@493
|
735 |
else if( ! P.empty() )
|
klao@369
|
736 |
return P.gr->head(P.edges[P.length()-1]);
|
klao@493
|
737 |
else if( ! front.empty() )
|
klao@493
|
738 |
return P.gr->head(front[0]);
|
klao@369
|
739 |
else
|
klao@369
|
740 |
return INVALID;
|
klao@369
|
741 |
}
|
klao@369
|
742 |
|
klao@369
|
743 |
};
|
klao@369
|
744 |
|
klao@369
|
745 |
};
|
klao@369
|
746 |
|
klao@369
|
747 |
|
klao@369
|
748 |
|
klao@369
|
749 |
|
klao@369
|
750 |
|
klao@369
|
751 |
|
klao@369
|
752 |
|
klao@369
|
753 |
|
klao@369
|
754 |
|
klao@369
|
755 |
|
klao@369
|
756 |
/**********************************************************************/
|
klao@369
|
757 |
|
klao@369
|
758 |
|
klao@225
|
759 |
/* Ennek az allocatorosdinak sokkal jobban utana kene nezni a hasznalata
|
klao@225
|
760 |
elott. Eleg bonyinak nez ki, ahogyan azokat az STL-ben hasznaljak. */
|
klao@225
|
761 |
|
klao@225
|
762 |
template<typename Graph>
|
klao@369
|
763 |
class DynamicPath {
|
klao@225
|
764 |
|
klao@225
|
765 |
public:
|
klao@225
|
766 |
typedef typename Graph::Edge GraphEdge;
|
klao@225
|
767 |
typedef typename Graph::Node GraphNode;
|
klao@225
|
768 |
class NodeIt;
|
klao@225
|
769 |
class EdgeIt;
|
klao@225
|
770 |
|
klao@225
|
771 |
protected:
|
klao@225
|
772 |
Graph& G;
|
klao@225
|
773 |
// FIXME: ehelyett eleg lenne tarolni ket boolt: a ket szelso el
|
klao@225
|
774 |
// iranyitasat:
|
klao@225
|
775 |
GraphNode _first, _last;
|
klao@225
|
776 |
typedef std::deque<GraphEdge> Container;
|
klao@225
|
777 |
Container edges;
|
klao@225
|
778 |
|
klao@225
|
779 |
public:
|
klao@225
|
780 |
|
klao@369
|
781 |
DynamicPath(Graph &_G) : G(_G), _first(INVALID), _last(INVALID) {}
|
klao@225
|
782 |
|
klao@226
|
783 |
/// Subpath defined by two nodes.
|
klao@226
|
784 |
/// Nodes may be in reversed order, then
|
klao@226
|
785 |
/// we contstruct the reversed path.
|
klao@369
|
786 |
DynamicPath(const DynamicPath &P, const NodeIt &a, const NodeIt &b);
|
klao@226
|
787 |
/// Subpath defined by two edges. Contains edges in [a,b)
|
klao@226
|
788 |
/// It is an error if the two edges are not in order!
|
klao@369
|
789 |
DynamicPath(const DynamicPath &P, const EdgeIt &a, const EdgeIt &b);
|
klao@225
|
790 |
|
klao@225
|
791 |
size_t length() const { return edges.size(); }
|
klao@225
|
792 |
GraphNode from() const { return _first; }
|
klao@225
|
793 |
GraphNode to() const { return _last; }
|
klao@225
|
794 |
|
klao@225
|
795 |
NodeIt& first(NodeIt &n) const { return nth(n, 0); }
|
klao@225
|
796 |
EdgeIt& first(EdgeIt &e) const { return nth(e, 0); }
|
klao@225
|
797 |
template<typename It>
|
klao@225
|
798 |
It first() const {
|
klao@225
|
799 |
It e;
|
klao@225
|
800 |
first(e);
|
klao@225
|
801 |
return e;
|
klao@225
|
802 |
}
|
klao@225
|
803 |
|
klao@225
|
804 |
NodeIt& nth(NodeIt &, size_t) const;
|
klao@225
|
805 |
EdgeIt& nth(EdgeIt &, size_t) const;
|
klao@225
|
806 |
template<typename It>
|
klao@225
|
807 |
It nth(size_t n) const {
|
klao@225
|
808 |
It e;
|
klao@225
|
809 |
nth(e, n);
|
klao@225
|
810 |
return e;
|
klao@225
|
811 |
}
|
klao@225
|
812 |
|
klao@225
|
813 |
bool valid(const NodeIt &n) const { return n.idx <= length(); }
|
klao@225
|
814 |
bool valid(const EdgeIt &e) const { return e.it < edges.end(); }
|
klao@225
|
815 |
|
klao@225
|
816 |
bool isForward(const EdgeIt &e) const { return e.forw; }
|
klao@225
|
817 |
|
klao@226
|
818 |
/// index of a node on the path. Returns length+2 for the invalid NodeIt
|
klao@226
|
819 |
int index(const NodeIt &n) const { return n.idx; }
|
klao@226
|
820 |
/// index of an edge on the path. Returns length+1 for the invalid EdgeIt
|
klao@226
|
821 |
int index(const EdgeIt &e) const { return e.it - edges.begin(); }
|
klao@226
|
822 |
|
klao@225
|
823 |
EdgeIt& next(EdgeIt &e) const;
|
klao@225
|
824 |
NodeIt& next(NodeIt &n) const;
|
klao@225
|
825 |
template <typename It>
|
klao@225
|
826 |
It getNext(It it) const {
|
klao@225
|
827 |
It tmp(it); return next(tmp);
|
klao@225
|
828 |
}
|
klao@225
|
829 |
|
klao@225
|
830 |
// A path is constructed using the following four functions.
|
klao@225
|
831 |
// They return false if the requested operation is inconsistent
|
klao@225
|
832 |
// with the path constructed so far.
|
klao@225
|
833 |
// If your path has only one edge you MUST set either "from" or "to"!
|
klao@225
|
834 |
// So you probably SHOULD call it in any case to be safe (and check the
|
klao@225
|
835 |
// returned value to check if your path is consistent with your idea).
|
klao@225
|
836 |
bool pushFront(const GraphEdge &e);
|
klao@225
|
837 |
bool pushBack(const GraphEdge &e);
|
klao@225
|
838 |
bool setFrom(const GraphNode &n);
|
klao@225
|
839 |
bool setTo(const GraphNode &n);
|
klao@225
|
840 |
|
klao@225
|
841 |
// WARNING: these two functions return the head/tail of an edge with
|
klao@225
|
842 |
// respect to the direction of the path!
|
klao@225
|
843 |
// So G.head(P.graphEdge(e)) == P.graphNode(P.head(e)) holds only if
|
klao@225
|
844 |
// P.forward(e) is true (or the edge is a loop)!
|
klao@225
|
845 |
NodeIt head(const EdgeIt& e) const;
|
klao@225
|
846 |
NodeIt tail(const EdgeIt& e) const;
|
klao@225
|
847 |
|
klao@225
|
848 |
// FIXME: ezeknek valami jobb nev kellene!!!
|
klao@225
|
849 |
GraphEdge graphEdge(const EdgeIt& e) const;
|
klao@225
|
850 |
GraphNode graphNode(const NodeIt& n) const;
|
klao@225
|
851 |
|
klao@225
|
852 |
|
klao@225
|
853 |
/*** Iterator classes ***/
|
klao@225
|
854 |
class EdgeIt {
|
klao@369
|
855 |
friend class DynamicPath;
|
klao@225
|
856 |
|
klao@225
|
857 |
typename Container::const_iterator it;
|
klao@225
|
858 |
bool forw;
|
klao@225
|
859 |
public:
|
klao@225
|
860 |
// FIXME: jarna neki ilyen is...
|
klao@225
|
861 |
// EdgeIt(Invalid);
|
klao@225
|
862 |
|
klao@225
|
863 |
bool forward() const { return forw; }
|
klao@225
|
864 |
|
klao@225
|
865 |
bool operator==(const EdgeIt& e) const { return it==e.it; }
|
klao@225
|
866 |
bool operator!=(const EdgeIt& e) const { return it!=e.it; }
|
klao@225
|
867 |
bool operator<(const EdgeIt& e) const { return it<e.it; }
|
klao@225
|
868 |
};
|
klao@225
|
869 |
|
klao@225
|
870 |
class NodeIt {
|
klao@369
|
871 |
friend class DynamicPath;
|
klao@225
|
872 |
|
klao@226
|
873 |
size_t idx;
|
klao@225
|
874 |
bool tail; // Is this node the tail of the edge with same idx?
|
klao@225
|
875 |
|
klao@225
|
876 |
public:
|
klao@225
|
877 |
// FIXME: jarna neki ilyen is...
|
klao@225
|
878 |
// NodeIt(Invalid);
|
klao@225
|
879 |
|
klao@225
|
880 |
bool operator==(const NodeIt& n) const { return idx==n.idx; }
|
klao@225
|
881 |
bool operator!=(const NodeIt& n) const { return idx!=n.idx; }
|
klao@225
|
882 |
bool operator<(const NodeIt& n) const { return idx<n.idx; }
|
klao@225
|
883 |
};
|
klao@225
|
884 |
|
klao@225
|
885 |
private:
|
klao@225
|
886 |
bool edgeIncident(const GraphEdge &e, const GraphNode &a,
|
klao@225
|
887 |
GraphNode &b);
|
klao@225
|
888 |
bool connectTwoEdges(const GraphEdge &e, const GraphEdge &f);
|
klao@225
|
889 |
};
|
klao@225
|
890 |
|
klao@225
|
891 |
template<typename Gr>
|
klao@369
|
892 |
typename DynamicPath<Gr>::EdgeIt&
|
klao@369
|
893 |
DynamicPath<Gr>::next(DynamicPath::EdgeIt &e) const {
|
klao@225
|
894 |
if( e.it == edges.end() )
|
klao@225
|
895 |
return e;
|
klao@225
|
896 |
|
klao@225
|
897 |
GraphNode common_node = ( e.forw ? G.head(*e.it) : G.tail(*e.it) );
|
klao@225
|
898 |
++e.it;
|
klao@225
|
899 |
|
klao@225
|
900 |
// Invalid edgeit is always forward :)
|
klao@225
|
901 |
if( e.it == edges.end() ) {
|
klao@225
|
902 |
e.forw = true;
|
klao@225
|
903 |
return e;
|
klao@225
|
904 |
}
|
klao@225
|
905 |
|
klao@225
|
906 |
e.forw = ( G.tail(*e.it) == common_node );
|
klao@225
|
907 |
return e;
|
klao@225
|
908 |
}
|
klao@225
|
909 |
|
klao@225
|
910 |
template<typename Gr>
|
klao@369
|
911 |
typename DynamicPath<Gr>::NodeIt& DynamicPath<Gr>::next(NodeIt &n) const {
|
klao@225
|
912 |
if( n.idx >= length() ) {
|
klao@225
|
913 |
// FIXME: invalid
|
klao@225
|
914 |
n.idx = length()+1;
|
klao@225
|
915 |
return n;
|
klao@225
|
916 |
}
|
klao@225
|
917 |
|
klao@225
|
918 |
|
klao@225
|
919 |
GraphNode next_node = ( n.tail ? G.head(edges[n.idx]) :
|
klao@225
|
920 |
G.tail(edges[n.idx]) );
|
klao@225
|
921 |
++n.idx;
|
klao@225
|
922 |
if( n.idx < length() ) {
|
klao@225
|
923 |
n.tail = ( next_node == G.tail(edges[n.idx]) );
|
klao@225
|
924 |
}
|
klao@225
|
925 |
else {
|
klao@225
|
926 |
n.tail = true;
|
klao@225
|
927 |
}
|
klao@225
|
928 |
|
klao@225
|
929 |
return n;
|
klao@225
|
930 |
}
|
klao@225
|
931 |
|
klao@225
|
932 |
template<typename Gr>
|
klao@369
|
933 |
bool DynamicPath<Gr>::edgeIncident(const GraphEdge &e, const GraphNode &a,
|
klao@225
|
934 |
GraphNode &b) {
|
klao@225
|
935 |
if( G.tail(e) == a ) {
|
klao@225
|
936 |
b=G.head(e);
|
klao@225
|
937 |
return true;
|
klao@225
|
938 |
}
|
klao@225
|
939 |
if( G.head(e) == a ) {
|
klao@225
|
940 |
b=G.tail(e);
|
klao@225
|
941 |
return true;
|
klao@225
|
942 |
}
|
klao@225
|
943 |
return false;
|
klao@225
|
944 |
}
|
klao@225
|
945 |
|
klao@225
|
946 |
template<typename Gr>
|
klao@369
|
947 |
bool DynamicPath<Gr>::connectTwoEdges(const GraphEdge &e,
|
klao@225
|
948 |
const GraphEdge &f) {
|
klao@225
|
949 |
if( edgeIncident(f, G.tail(e), _last) ) {
|
klao@225
|
950 |
_first = G.head(e);
|
klao@225
|
951 |
return true;
|
klao@225
|
952 |
}
|
klao@225
|
953 |
if( edgeIncident(f, G.head(e), _last) ) {
|
klao@225
|
954 |
_first = G.tail(e);
|
klao@225
|
955 |
return true;
|
klao@225
|
956 |
}
|
klao@225
|
957 |
return false;
|
klao@225
|
958 |
}
|
klao@225
|
959 |
|
klao@225
|
960 |
template<typename Gr>
|
klao@369
|
961 |
bool DynamicPath<Gr>::pushFront(const GraphEdge &e) {
|
klao@225
|
962 |
if( G.valid(_first) ) {
|
klao@225
|
963 |
if( edgeIncident(e, _first, _first) ) {
|
klao@225
|
964 |
edges.push_front(e);
|
klao@225
|
965 |
return true;
|
klao@225
|
966 |
}
|
klao@225
|
967 |
else
|
klao@225
|
968 |
return false;
|
klao@225
|
969 |
}
|
klao@225
|
970 |
else if( length() < 1 || connectTwoEdges(e, edges[0]) ) {
|
klao@225
|
971 |
edges.push_front(e);
|
klao@225
|
972 |
return true;
|
klao@225
|
973 |
}
|
klao@225
|
974 |
else
|
klao@225
|
975 |
return false;
|
klao@225
|
976 |
}
|
klao@225
|
977 |
|
klao@225
|
978 |
template<typename Gr>
|
klao@369
|
979 |
bool DynamicPath<Gr>::pushBack(const GraphEdge &e) {
|
klao@225
|
980 |
if( G.valid(_last) ) {
|
klao@225
|
981 |
if( edgeIncident(e, _last, _last) ) {
|
klao@225
|
982 |
edges.push_back(e);
|
klao@225
|
983 |
return true;
|
klao@225
|
984 |
}
|
klao@225
|
985 |
else
|
klao@225
|
986 |
return false;
|
klao@225
|
987 |
}
|
klao@225
|
988 |
else if( length() < 1 || connectTwoEdges(edges[0], e) ) {
|
klao@225
|
989 |
edges.push_back(e);
|
klao@225
|
990 |
return true;
|
klao@225
|
991 |
}
|
klao@225
|
992 |
else
|
klao@225
|
993 |
return false;
|
klao@225
|
994 |
}
|
klao@225
|
995 |
|
klao@225
|
996 |
|
klao@225
|
997 |
template<typename Gr>
|
klao@369
|
998 |
bool DynamicPath<Gr>::setFrom(const GraphNode &n) {
|
klao@225
|
999 |
if( G.valid(_first) ) {
|
klao@225
|
1000 |
return _first == n;
|
klao@225
|
1001 |
}
|
klao@225
|
1002 |
else {
|
klao@225
|
1003 |
if( length() > 0) {
|
klao@225
|
1004 |
if( edgeIncident(edges[0], n, _last) ) {
|
klao@225
|
1005 |
_first = n;
|
klao@225
|
1006 |
return true;
|
klao@225
|
1007 |
}
|
klao@225
|
1008 |
else return false;
|
klao@225
|
1009 |
}
|
klao@225
|
1010 |
else {
|
klao@225
|
1011 |
_first = _last = n;
|
klao@225
|
1012 |
return true;
|
klao@225
|
1013 |
}
|
klao@225
|
1014 |
}
|
klao@225
|
1015 |
}
|
klao@225
|
1016 |
|
klao@225
|
1017 |
template<typename Gr>
|
klao@369
|
1018 |
bool DynamicPath<Gr>::setTo(const GraphNode &n) {
|
klao@225
|
1019 |
if( G.valid(_last) ) {
|
klao@225
|
1020 |
return _last == n;
|
klao@225
|
1021 |
}
|
klao@225
|
1022 |
else {
|
klao@225
|
1023 |
if( length() > 0) {
|
klao@225
|
1024 |
if( edgeIncident(edges[0], n, _first) ) {
|
klao@225
|
1025 |
_last = n;
|
klao@225
|
1026 |
return true;
|
klao@225
|
1027 |
}
|
klao@225
|
1028 |
else return false;
|
klao@225
|
1029 |
}
|
klao@225
|
1030 |
else {
|
klao@225
|
1031 |
_first = _last = n;
|
klao@225
|
1032 |
return true;
|
klao@225
|
1033 |
}
|
klao@225
|
1034 |
}
|
klao@225
|
1035 |
}
|
klao@225
|
1036 |
|
klao@225
|
1037 |
|
klao@225
|
1038 |
template<typename Gr>
|
klao@369
|
1039 |
typename DynamicPath<Gr>::NodeIt
|
klao@369
|
1040 |
DynamicPath<Gr>::tail(const EdgeIt& e) const {
|
klao@225
|
1041 |
NodeIt n;
|
klao@225
|
1042 |
|
klao@225
|
1043 |
if( e.it == edges.end() ) {
|
klao@225
|
1044 |
// FIXME: invalid-> invalid
|
klao@225
|
1045 |
n.idx = length() + 1;
|
klao@225
|
1046 |
n.tail = true;
|
klao@225
|
1047 |
return n;
|
klao@225
|
1048 |
}
|
klao@225
|
1049 |
|
klao@225
|
1050 |
n.idx = e.it-edges.begin();
|
klao@225
|
1051 |
n.tail = e.forw;
|
klao@226
|
1052 |
return n;
|
klao@225
|
1053 |
}
|
klao@225
|
1054 |
|
klao@225
|
1055 |
template<typename Gr>
|
klao@369
|
1056 |
typename DynamicPath<Gr>::NodeIt
|
klao@369
|
1057 |
DynamicPath<Gr>::head(const EdgeIt& e) const {
|
klao@225
|
1058 |
if( e.it == edges.end()-1 ) {
|
klao@225
|
1059 |
return _last;
|
klao@225
|
1060 |
}
|
klao@225
|
1061 |
|
klao@225
|
1062 |
EdgeIt next_edge = e;
|
klao@225
|
1063 |
next(next_edge);
|
klao@225
|
1064 |
return tail(next_edge);
|
klao@225
|
1065 |
}
|
klao@225
|
1066 |
|
klao@225
|
1067 |
template<typename Gr>
|
klao@369
|
1068 |
typename DynamicPath<Gr>::GraphEdge
|
klao@369
|
1069 |
DynamicPath<Gr>::graphEdge(const EdgeIt& e) const {
|
klao@225
|
1070 |
if( e.it != edges.end() ) {
|
klao@225
|
1071 |
return *e.it;
|
klao@225
|
1072 |
}
|
klao@225
|
1073 |
else {
|
klao@225
|
1074 |
return INVALID;
|
klao@225
|
1075 |
}
|
klao@225
|
1076 |
}
|
klao@225
|
1077 |
|
klao@225
|
1078 |
template<typename Gr>
|
klao@369
|
1079 |
typename DynamicPath<Gr>::GraphNode
|
klao@369
|
1080 |
DynamicPath<Gr>::graphNode(const NodeIt& n) const {
|
klao@225
|
1081 |
if( n.idx < length() ) {
|
klao@225
|
1082 |
return n.tail ? G.tail(edges[n.idx]) : G.head(edges[n.idx]);
|
klao@225
|
1083 |
}
|
klao@225
|
1084 |
else if( n.idx == length() ) {
|
klao@225
|
1085 |
return _last;
|
klao@225
|
1086 |
}
|
klao@225
|
1087 |
else {
|
klao@225
|
1088 |
return INVALID;
|
klao@225
|
1089 |
}
|
klao@225
|
1090 |
}
|
klao@225
|
1091 |
|
klao@225
|
1092 |
template<typename Gr>
|
klao@369
|
1093 |
typename DynamicPath<Gr>::EdgeIt&
|
klao@369
|
1094 |
DynamicPath<Gr>::nth(EdgeIt &e, size_t k) const {
|
klao@450
|
1095 |
if( k>=length() ) {
|
klao@225
|
1096 |
// FIXME: invalid EdgeIt
|
klao@225
|
1097 |
e.it = edges.end();
|
klao@225
|
1098 |
e.forw = true;
|
klao@225
|
1099 |
return e;
|
klao@225
|
1100 |
}
|
klao@225
|
1101 |
|
klao@225
|
1102 |
e.it = edges.begin()+k;
|
klao@225
|
1103 |
if(k==0) {
|
klao@225
|
1104 |
e.forw = ( G.tail(*e.it) == _first );
|
klao@225
|
1105 |
}
|
klao@225
|
1106 |
else {
|
klao@225
|
1107 |
e.forw = ( G.tail(*e.it) == G.tail(edges[k-1]) ||
|
klao@225
|
1108 |
G.tail(*e.it) == G.head(edges[k-1]) );
|
klao@225
|
1109 |
}
|
klao@225
|
1110 |
return e;
|
klao@225
|
1111 |
}
|
klao@225
|
1112 |
|
klao@225
|
1113 |
template<typename Gr>
|
klao@369
|
1114 |
typename DynamicPath<Gr>::NodeIt&
|
klao@369
|
1115 |
DynamicPath<Gr>::nth(NodeIt &n, size_t k) const {
|
klao@450
|
1116 |
if( k>length() ) {
|
klao@225
|
1117 |
// FIXME: invalid NodeIt
|
klao@225
|
1118 |
n.idx = length()+1;
|
klao@225
|
1119 |
n.tail = true;
|
klao@225
|
1120 |
return n;
|
klao@225
|
1121 |
}
|
klao@225
|
1122 |
if( k==length() ) {
|
klao@225
|
1123 |
n.idx = length();
|
klao@225
|
1124 |
n.tail = true;
|
klao@225
|
1125 |
return n;
|
klao@225
|
1126 |
}
|
klao@225
|
1127 |
n = tail(nth<EdgeIt>(k));
|
klao@225
|
1128 |
return n;
|
klao@225
|
1129 |
}
|
klao@225
|
1130 |
|
klao@226
|
1131 |
// Reszut konstruktorok:
|
klao@226
|
1132 |
|
klao@226
|
1133 |
|
klao@226
|
1134 |
template<typename Gr>
|
klao@369
|
1135 |
DynamicPath<Gr>::DynamicPath(const DynamicPath &P, const EdgeIt &a,
|
klao@369
|
1136 |
const EdgeIt &b) :
|
klao@226
|
1137 |
G(P.G), edges(a.it, b.it) // WARNING: if b.it < a.it this will blow up!
|
klao@226
|
1138 |
{
|
klao@226
|
1139 |
if( G.valid(P._first) && a.it < P.edges.end() ) {
|
klao@226
|
1140 |
_first = ( a.forw ? G.tail(*a.it) : G.head(*a.it) );
|
klao@226
|
1141 |
if( b.it < P.edges.end() ) {
|
klao@226
|
1142 |
_last = ( b.forw ? G.tail(*b.it) : G.head(*b.it) );
|
klao@226
|
1143 |
}
|
klao@226
|
1144 |
else {
|
klao@226
|
1145 |
_last = P._last;
|
klao@226
|
1146 |
}
|
klao@226
|
1147 |
}
|
klao@226
|
1148 |
}
|
klao@226
|
1149 |
|
klao@226
|
1150 |
template<typename Gr>
|
klao@369
|
1151 |
DynamicPath<Gr>::DynamicPath(const DynamicPath &P, const NodeIt &a,
|
klao@369
|
1152 |
const NodeIt &b) : G(P.G)
|
klao@226
|
1153 |
{
|
klao@226
|
1154 |
if( !P.valid(a) || !P.valid(b) )
|
klao@226
|
1155 |
return;
|
klao@226
|
1156 |
|
klao@226
|
1157 |
int ai = a.idx, bi = b.idx;
|
klao@226
|
1158 |
if( bi<ai )
|
klao@450
|
1159 |
std::swap(ai,bi);
|
klao@226
|
1160 |
|
klao@226
|
1161 |
edges.resize(bi-ai);
|
klao@226
|
1162 |
copy(P.edges.begin()+ai, P.edges.begin()+bi, edges.begin());
|
klao@226
|
1163 |
|
klao@226
|
1164 |
_first = P.graphNode(a);
|
klao@226
|
1165 |
_last = P.graphNode(b);
|
klao@226
|
1166 |
}
|
klao@226
|
1167 |
|
alpar@434
|
1168 |
///@}
|
klao@225
|
1169 |
|
klao@225
|
1170 |
} // namespace hugo
|
klao@225
|
1171 |
|
klao@225
|
1172 |
#endif // HUGO_PATH_H
|