private boolean testVanishing(int x, int y, int z, int w) { if (testType == TestType.TETRAD_DELTA) { Tetrad t1 = new Tetrad(variables.get(x), variables.get(y), variables.get(z), variables.get(w)); Tetrad t2 = new Tetrad(variables.get(x), variables.get(y), variables.get(w), variables.get(z)); double p = deltaTest.getPValue(t1, t2); return p > alpha; } else { return test.tetradHolds(x, y, z, w) && test.tetradHolds(x, y, w, z); } }
private Void findSeeds() { Tetrad tetrad = null; List<Node> empty = new ArrayList(); if (variables.size() < 4) { Set<Set<Integer>> ESeeds = new HashSet<Set<Integer>>(); } Map<Node, Set<Node>> adjacencies; if (depth == -2) { adjacencies = new HashMap<Node, Set<Node>>(); for (Node node : variables) { HashSet<Node> _nodes = new HashSet<Node>(variables); _nodes.remove(node); adjacencies.put(node, _nodes); } } else { // System.out.println("Running PC adjacency search..."); Graph graph = new EdgeListGraph(variables); Fas fas = new Fas(graph, indTest); fas.setVerbose(false); fas.setDepth(depth); // 1? adjacencies = fas.searchMapOnly(); // System.out.println("...done."); } List<Integer> allVariables = new ArrayList<Integer>(); for (int i = 0; i < variables.size(); i++) allVariables.add(i); log("Finding seeds.", true); ChoiceGenerator gen = new ChoiceGenerator(allVariables.size(), 3); int[] choice; CHOICE: while ((choice = gen.next()) != null) { int n1 = allVariables.get(choice[0]); int n2 = allVariables.get(choice[1]); int n3 = allVariables.get(choice[2]); Node v1 = variables.get(choice[0]); Node v2 = variables.get(choice[1]); Node v3 = variables.get(choice[2]); Set<Integer> triple = triple(n1, n2, n3); if (!clique(triple, adjacencies)) { continue; } boolean EPure = true; boolean CPure1 = true; boolean CPure2 = true; boolean CPure3 = true; for (int o : allVariables) { if (triple.contains(o)) { continue; } Node v4 = variables.get(o); tetrad = new Tetrad(v1, v2, v3, v4); if (deltaTest.getPValue(tetrad) > alpha) { EPure = false; if (indTest.isDependent(v1, v4, empty)) { CPure1 = false; } if (indTest.isDependent(v2, v4, empty)) { CPure2 = false; } } tetrad = new Tetrad(v1, v3, v2, v4); if (deltaTest.getPValue(tetrad) > alpha) { EPure = false; if (indTest.isDependent(v3, v4, empty)) { CPure3 = false; } } if (!(EPure || CPure1 || CPure2 || CPure3)) { continue CHOICE; } } HashSet<Integer> _cluster = new HashSet<Integer>(triple); if (verbose) { log("++" + variablesForIndices(new ArrayList<Integer>(triple)), false); } if (EPure) { ESeeds.add(_cluster); } if (!EPure) { if (CPure1) { Set<Integer> _cluster1 = new HashSet<Integer>(n2, n3); _cluster1.addAll(CSeeds.get(n1)); CSeeds.set(n1, _cluster1); } if (CPure2) { Set<Integer> _cluster2 = new HashSet<Integer>(n1, n3); _cluster2.addAll(CSeeds.get(n2)); CSeeds.set(n2, _cluster2); } if (CPure3) { Set<Integer> _cluster3 = new HashSet<Integer>(n1, n2); _cluster3.addAll(CSeeds.get(n3)); CSeeds.set(n3, _cluster3); } } } return null; }