private void storeGraph(Graph graph) { if (numPatternsToStore < 1) return; if (topGraphs.isEmpty() || score > topGraphs.first().getScore()) { Graph graphCopy = new EdgeListGraphSingleConnections(graph); topGraphs.add(new ScoredGraph(graphCopy, score)); if (topGraphs.size() > getNumPatternsToStore()) { topGraphs.remove(topGraphs.first()); } } }
private void bes(Graph graph) { TetradLogger.getInstance().log("info", "** BACKWARD EQUIVALENCE SEARCH"); initializeArrowsBackward(graph); while (!sortedArrows.isEmpty()) { Arrow arrow = sortedArrows.first(); sortedArrows.remove(arrow); Node x = arrow.getX(); Node y = arrow.getY(); clearArrow(x, y); if (!validDelete(arrow.getHOrT(), arrow.getNaYX(), graph)) { continue; } List<Node> h = arrow.getHOrT(); double bump = arrow.getBump(); delete(x, y, h, graph, bump); score += bump; rebuildPattern(graph); storeGraph(graph); initializeArrowsBackward( graph); // Rebuilds Arrows from scratch each time. Fast enough for backwards. } }
/** * Forward equivalence search. * * @param graph The graph in the state prior to the forward equivalence search. */ private void fes(Graph graph, List<Node> nodes) { TetradLogger.getInstance().log("info", "** FORWARD EQUIVALENCE SEARCH"); lookupArrows = new HashMap<OrderedPair, Set<Arrow>>(); initializeArrowsForward(nodes); while (!sortedArrows.isEmpty()) { Arrow arrow = sortedArrows.first(); sortedArrows.remove(arrow); Node x = arrow.getX(); Node y = arrow.getY(); clearArrow(x, y); if (graph.isAdjacentTo(x, y)) { continue; } if (!validInsert(x, y, arrow.getHOrT(), arrow.getNaYX(), graph)) { continue; } List<Node> t = arrow.getHOrT(); double bump = arrow.getBump(); Set<Edge> edges = graph.getEdges(); insert(x, y, t, graph, bump); score += bump; rebuildPattern(graph); // Try to avoid duplicating scoring calls. First clear out all of the edges that need to be // changed, // then change them, checking to see if they're already been changed. I know, roundabout, but // there's // a performance boost. for (Edge edge : graph.getEdges()) { if (!edges.contains(edge)) { reevaluateForward(graph, nodes, edge.getNode1(), edge.getNode2()); } } storeGraph(graph); } }