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source: branches/HeuristicLab.EvolutionTracking/HeuristicLab.Problems.DataAnalysis.Symbolic/3.4/Tracking/TraceCalculator.cs @ 16130

Last change on this file since 16130 was 14575, checked in by bburlacu, 8 years ago

#1772: Minor refactoring in the TraceCalculator (use Tuple.Create factory method to make the code more readable).

File size: 14.7 KB
RevLine 
[11493]1#region License Information
2/* HeuristicLab
[13877]3 * Copyright (C) 2002-2016 Heuristic and Evolutionary Algorithms Laboratory (HEAL)
[11493]4 *
5 * This file is part of HeuristicLab.
6 *
7 * HeuristicLab is free software: you can redistribute it and/or modify
8 * it under the terms of the GNU General Public License as published by
9 * the Free Software Foundation, either version 3 of the License, or
10 * (at your option) any later version.
11 *
12 * HeuristicLab is distributed in the hope that it will be useful,
13 * but WITHOUT ANY WARRANTY; without even the implied warranty of
14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
15 * GNU General Public License for more details.
16 *
17 * You should have received a copy of the GNU General Public License
18 * along with HeuristicLab. If not, see <http://www.gnu.org/licenses/>.
19 */
20#endregion
21
22using System;
[11458]23using System.Collections.Generic;
[11493]24using System.Diagnostics;
[11458]25using System.Linq;
26using HeuristicLab.Common;
27using HeuristicLab.Core;
28using HeuristicLab.Encodings.SymbolicExpressionTreeEncoding;
29using HeuristicLab.EvolutionTracking;
30using HeuristicLab.Persistence.Default.CompositeSerializers.Storable;
31
32namespace HeuristicLab.Problems.DataAnalysis.Symbolic {
33  [Item("TraceCalculator", "Walks a genealogy graph and produces a trace of the specified subtree")]
34  [StorableClass]
35  public class TraceCalculator : Item {
[11855]36    private Dictionary<ISymbolicExpressionTree, List<ISymbolicExpressionTreeNode>> nodeListCache;
[14575]37    // the trace cache consits of tuples of the current and last vertices, the subtree index to be traced in the current vertex, and the last subtree and fragment indexes
[13479]38    private HashSet<Tuple<IGenealogyGraphNode<ISymbolicExpressionTree>, int, IGenealogyGraphNode<ISymbolicExpressionTree>, int, int>> traceCache;
[11979]39    public IGenealogyGraph<ISymbolicExpressionTree> TraceGraph { get; private set; }
[11458]40
[12225]41    public bool UpdateVertexWeights { get; set; }
42    public bool UpdateSubtreeWeights { get; set; }
43    public bool CacheTraceNodes { get; set; }
44
[13479]45    public int TraceCacheHits { get; set; }
46
[11458]47    public TraceCalculator() {
[12225]48      ResetState();
[11458]49    }
50
[12966]51    [StorableConstructor]
52    protected TraceCalculator(bool deserializing) : base(deserializing) { }
53
[11458]54    protected TraceCalculator(TraceCalculator original, Cloner cloner)
55      : base(original, cloner) {
56    }
57
58    public override IDeepCloneable Clone(Cloner cloner) {
59      return new TraceCalculator(this, cloner);
60    }
61
[12225]62    public void ResetState() {
63      TraceGraph = new GenealogyGraph<ISymbolicExpressionTree>();
64      nodeListCache = new Dictionary<ISymbolicExpressionTree, List<ISymbolicExpressionTreeNode>>();
[13479]65      traceCache = new HashSet<Tuple<IGenealogyGraphNode<ISymbolicExpressionTree>, int, IGenealogyGraphNode<ISymbolicExpressionTree>, int, int>>();
[12225]66    }
67
68    public static IGenealogyGraph<ISymbolicExpressionTree> TraceSubtree(IGenealogyGraphNode<ISymbolicExpressionTree> node, int subtreeIndex, bool updateVertexWeights = false, bool updateSubtreeWeights = false, bool cacheTraceNodes = true) {
69      var tc = new TraceCalculator {
70        UpdateVertexWeights = updateSubtreeWeights,
71        UpdateSubtreeWeights = updateSubtreeWeights,
72        CacheTraceNodes = cacheTraceNodes
73      };
[11458]74      tc.Trace(node, subtreeIndex);
75      return tc.TraceGraph;
76    }
77
[12225]78    public IGenealogyGraph<ISymbolicExpressionTree> Trace(IGenealogyGraphNode<ISymbolicExpressionTree> node, int subtreeIndex, bool resetState = true) {
79      if (resetState) ResetState();
[11751]80      TraceRecursive(node, subtreeIndex);
[11979]81      return TraceGraph;
[11476]82    }
83
[11473]84    /// <summary>
85    /// This method starts from a given vertex in the genealogy graph and works its way
86    /// up the ancestry trying to track the structure of the subtree given by subtreeIndex.
87    /// This method will skip genealogy graph nodes that did not have an influence on the
88    /// structure of the tracked subtree.
89    ///
90    /// Only genealogy nodes which did have an influence are added (as copies) to the trace
91    /// and are consequently called 'trace nodes'.
92    ///
93    /// The arcs connecting trace nodes hold information about the locations of the subtrees
94    /// and fragments that have been swapped in the form of a tuple (si, fi, lastSi, lastFi),
95    /// where:
96    /// - si is the subtree index in the current trace node
97    /// - fi is the fragment index in the current trace node
98    /// - lastSi is the subtree index in the previous trace node
99    /// - lastFi is the subtree index in the previous trace node
100    /// </summary>
[11751]101    /// <param name="node">The current node in the genealogy graph</param>
102    /// <param name="subtreeIndex">The index of the traced subtree</param>
[11473]103    /// <param name="last">The last added node in the trace graph</param>
[13424]104    /// <param name="lastSi">The subtree index in the last added individual</param>
105    /// <param name="lastFi">The fragment index in the last added individual</param>
106    private void TraceRecursive(IGenealogyGraphNode<ISymbolicExpressionTree> node, int subtreeIndex, IGenealogyGraphNode<ISymbolicExpressionTree> last = null, int lastSi = -1, int lastFi = -1) {
[11751]107      var g = node;
[14575]108      var si = subtreeIndex; // subtree index
109      var fi = 0; // fragment index
[11968]110      while (((List<IArc>)((IVertex)g).InArcs).Count > 0) {
[13424]111        if (!(si < g.Data.Length)) throw new ArgumentOutOfRangeException("The subtree index exceeds the size of the tree.");
[11858]112        var inArcs = (List<IArc>)((IVertex)g).InArcs;
[11925]113        var fragment = (IFragment<ISymbolicExpressionTreeNode>)((IGenealogyGraphArc)inArcs.Last()).Data;
[11458]114        if (fragment == null) {
[11855]115          // TODO: think about what the correct behavior should be here (seems good so far)
[11458]116          // the node is either an elite node or (in rare cases) no fragment was transferred
[11858]117          g = (IGenealogyGraphNode<ISymbolicExpressionTree>)inArcs[0].Source;
[11458]118          continue;
119        }
120
[11979]121        fi = fragment.Index1; // fragment index
122        int fl = fragment.Root.GetLength(); // fragment length
[11855]123        int sl = NodeAt(g.Data, si).GetLength(); // subtree length
[11458]124
125        #region trace crossover
[11858]126        if (inArcs.Count == 2) {
127          var parent0 = (IGenealogyGraphNode<ISymbolicExpressionTree>)inArcs[0].Source;
128          var parent1 = (IGenealogyGraphNode<ISymbolicExpressionTree>)inArcs[1].Source;
[11493]129          if (fi == si) {
[11858]130            g = parent1;
[11473]131            si = fragment.Index2;
[11458]132            continue;
133          }
[11493]134          if (fi < si) {
135            if (fi + fl > si) {
[11458]136              // fragment contains subtree
[11858]137              g = parent1;
[11493]138              si += fragment.Index2 - fi;
[11458]139            } else {
140              // fragment distinct from subtree
[11858]141              g = parent0;
[11855]142              si += NodeAt(g.Data, fi).GetLength() - fl;
[11458]143            }
144            continue;
145          }
[11493]146          if (fi > si) {
147            if (fi < si + sl) {
[11458]148              // subtree contains fragment => branching point in the fragment graph
[13424]149              var n = AddTraceNode(g); // current node becomes "last" as we restart tracing from the parent
[13479]150              if (CacheTraceNodes) {
[14575]151                var t0 = Tuple.Create(parent0, si, n, si, fi);
152                var t1 = Tuple.Create(parent1, fragment.Index2, n, si, fi);
153                // trace subtree
154                if (traceCache.Add(t0))
[13479]155                  TraceRecursive(parent0, si, n, si, fi);
[14575]156                else
[13479]157                  TraceCacheHits++;
[14575]158                // trace fragment
159                if (traceCache.Add(t1))
[13479]160                  TraceRecursive(parent1, fragment.Index2, n, si, fi);
[14575]161                else
[13479]162                  TraceCacheHits++;
163              } else {
[13424]164                TraceRecursive(parent0, si, n, si, fi);
165                TraceRecursive(parent1, fragment.Index2, n, si, fi);
[12225]166              }
[11458]167              break;
168            } else {
169              // subtree and fragment are distinct.
[11858]170              g = parent0;
[11458]171              continue;
172            }
173          }
174        }
175        #endregion
176        #region trace mutation
[11493]177        // mutation is handled in a simple way: we branch every time there is an overlap between the subtree and the fragment
178        // (since mutation effects can be quite unpredictable: replace branch, change node, shake tree, etc)
[11858]179        if (inArcs.Count == 1) {
180          var parent0 = (IGenealogyGraphNode<ISymbolicExpressionTree>)inArcs[0].Source;
[11493]181          Debug.Assert(fragment.Index1 == fragment.Index2);
182          // check if the subtree and the fragment overlap => branch out
[14575]183          // optionally we could ignore the case when the fragment contains the subtree:
184          // ((si == fi) || fi < si && si < fi + fl)
[11493]185          if ((si == fi) || (si < fi && fi < si + sl) || (fi < si && si < fi + fl)) {
[13424]186            var n = AddTraceNode(g); // current node becomes "last" as we restart tracing from the parent
[11493]187            int i = si < fi ? si : fi;
[14575]188            var t = Tuple.Create(parent0, i, n, si, fi);
189            if (CacheTraceNodes) {
190              if (traceCache.Add(t))
191                TraceRecursive(parent0, i, n, si, fi);
192              else
193                TraceCacheHits++;
194            } else {
[13424]195              TraceRecursive(parent0, i, n, si, fi);
[12225]196            }
[11473]197            break;
[11493]198          } else {
199            // if they don't overlap, go up
[11858]200            g = parent0;
[11493]201            if (fi < si)
[11855]202              si += NodeAt(g.Data, fi).GetLength() - fl;
[11473]203            continue;
[11458]204          }
[14575]205
[11473]206        }
[11458]207        #endregion
[11473]208        throw new InvalidOperationException("A node cannot have more than two parents");
[11458]209      }
[11473]210      // when we are out of the while the last vertex must be connected with the current one
[11881]211      // if there is no last vertex, it means the tracing reached the top of the genealogy graph
[13424]212      if (last != null) {
213        var current = AddTraceNode(g);
214        if (current.Rank.IsAlmost(0)) fi = -1; // if current is part of the initial population there will be no fragment
215        var td = new TraceData(si, fi, lastSi, lastFi);
216#if DEBUG
217        var currentLength = current.Data.Length;
218        var lastLength = last.Data.Length;
219
220        if (!(si < currentLength))
221          throw new ArgumentOutOfRangeException(string.Format("Subtree index {0} exceeds tree length ({1}", si, currentLength));
222
223        if (!(fi < currentLength))
224          throw new ArgumentOutOfRangeException(string.Format("Fragment index {0} exceeds tree length ({1}", fi, currentLength));
225
226        if (!(lastSi < lastLength))
227          throw new ArgumentOutOfRangeException(string.Format("Last subtree index {0} exceeds tree length ({1}", lastSi, lastLength));
228
229        if (!(lastFi < lastLength))
230          throw new ArgumentOutOfRangeException(string.Format("Last fragment index {0} exceeds tree length ({1}", lastFi, lastLength));
231#endif
232        ConnectLast(current, last, td);
233      }
[11458]234    }
[11473]235
236    /// <summary>
[11493]237    /// Get the trace node from the trace graph which corresponds to node g from the genealogy graph.
238    /// If the trace graph does not contain such a node, one is created by performing a shallow copy of g, then inserted into the trace graph.
239    /// </summary>
240    /// <param name="g">The genealogy graph node</param>
241    /// <returns></returns>
[13424]242    private IGenealogyGraphNode<ISymbolicExpressionTree> AddTraceNode(IGenealogyGraphNode<ISymbolicExpressionTree> g) {
[11979]243      var n = TraceGraph.GetByContent(g.Data);
[11493]244      if (n == null) {
245        n = g.Copy();
[11979]246        TraceGraph.AddVertex(n);
[11493]247      }
248      return n;
249    }
250
[11855]251    // caching node lists brings ~2.5-2.7x speed improvement (since graph nodes are visited multiple times)
252    // this caching will be even more effective with larger tree sizes
253    private ISymbolicExpressionTreeNode NodeAt(ISymbolicExpressionTree tree, int index) {
254      List<ISymbolicExpressionTreeNode> list;
255      nodeListCache.TryGetValue(tree, out list);
256      if (list == null) {
257        list = tree.IterateNodesPrefix().ToList();
258        nodeListCache[tree] = list;
259      }
260      return list[index];
261    }
262
[11493]263    /// <summary>
[11473]264    /// Connect the current node of the trace graph with the node that was previously added (@last). The current node of the trace graph is determined by the content
265    /// of the genealogy graph node @g. 
266    /// </summary>
[11881]267    /// <param name="current">The current node in the genealogy graph</param>
[13424]268    /// <param name="last">The last added node in the trace graph</param>
269    /// <param name="td">The trace data specifying the preorder indices of the subtree and fragment in the @current and @last vertices</param>   
270    private void ConnectLast(IGenealogyGraphNode<ISymbolicExpressionTree> current, IGenealogyGraphNode<ISymbolicExpressionTree> last, TraceData td) {
[11979]271      // TODO: more testing
[12265]272      var inArcs = (List<IArc>)((IVertex)last).InArcs; // using the InArcs seems to be slightly more efficient than using the OutArcs
[11979]273      var arc = inArcs.FirstOrDefault(a => a.Source == current && ((IArc<IDeepCloneable>)a).Data.Equals(td));
[11503]274      if (arc == null) {
[11881]275        arc = new GenealogyGraphArc(current, last) { Data = td };
[11979]276        TraceGraph.AddArc(arc);
[11503]277      }
[12283]278      if (UpdateVertexWeights) {
279        arc.Weight++;
280        current.Weight++;
281      }
282      if (UpdateSubtreeWeights) {
283        var subtree = NodeAt(current.Data, td.SubtreeIndex);
284        foreach (var s in subtree.IterateNodesPrefix())
285          s.NodeWeight++;
286      }
[11473]287    }
[11458]288  }
[11979]289
[11925]290  public class TraceData : Tuple<int, int, int, int>, IDeepCloneable {
[11866]291    public TraceData(int currentSubtreeIndex, int currentFragmentIndex, int lastSubtreeIndex, int lastFragmentIndex)
292      : base(currentSubtreeIndex, currentFragmentIndex, lastSubtreeIndex, lastFragmentIndex) {
293    }
[11458]294
[11866]295    public int SubtreeIndex { get { return Item1; } }
296    public int FragmentIndex { get { return Item2; } }
297    public int LastSubtreeIndex { get { return Item3; } }
298    public int LastFragmentIndex { get { return Item4; } }
[11925]299    public object Clone() {
300      return new TraceData(SubtreeIndex, FragmentIndex, LastSubtreeIndex, LastFragmentIndex);
301    }
302
[12966]303    protected TraceData(TraceData original, Cloner cloner) :
304      base(original.SubtreeIndex, original.FragmentIndex, original.LastFragmentIndex, original.LastFragmentIndex) {
305    }
306
[11925]307    public IDeepCloneable Clone(Cloner cloner) {
308      return cloner.Clone(this);
309    }
[11866]310  }
311
[11458]312  internal static class Util {
[11473]313    // shallow node copy (does not clone the data or the arcs)
[11751]314    #region some helper methods for shortening the tracing code
[11458]315    public static IGenealogyGraphNode<ISymbolicExpressionTree> Copy(this IGenealogyGraphNode<ISymbolicExpressionTree> node) {
316      return new GenealogyGraphNode<ISymbolicExpressionTree>(node.Data) { Rank = node.Rank, Quality = node.Quality };
317    }
318    #endregion
319  }
320}
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