private void tallyTree( Tree<String> tree, Counter<String> symbolCounter, Counter<UnaryRule> unaryRuleCounter, Counter<BinaryRule> binaryRuleCounter) { if (tree.isLeaf()) return; if (tree.isPreTerminal()) return; if (tree.getChildren().size() == 1) { UnaryRule unaryRule = makeUnaryRule(tree); symbolCounter.incrementCount(tree.getLabel(), 1.0); unaryRuleCounter.incrementCount(unaryRule, 1.0); } if (tree.getChildren().size() == 2) { BinaryRule binaryRule = makeBinaryRule(tree); symbolCounter.incrementCount(tree.getLabel(), 1.0); binaryRuleCounter.incrementCount(binaryRule, 1.0); } if (tree.getChildren().size() < 1 || tree.getChildren().size() > 2) { throw new RuntimeException( "Attempted to construct a Grammar with an illegal tree: " + tree); } for (Tree<String> child : tree.getChildren()) { tallyTree(child, symbolCounter, unaryRuleCounter, binaryRuleCounter); } }
private static Tree<String> binarizeTreeHelper( Tree<String> tree, int numChildrenGenerated, String intermediateLabel) { Tree<String> leftTree = tree.getChildren().get(numChildrenGenerated); List<Tree<String>> children = new ArrayList<Tree<String>>(); children.add(binarizeTree(leftTree)); // Wait! Don't binarize too much. The last child doesn't need to have a new node. // It can be paired with the 2nd to last child! if (numChildrenGenerated == tree.getChildren().size() - 2) { children.add(binarizeTree(tree.getChildren().get(numChildrenGenerated + 1))); } else if (numChildrenGenerated < tree.getChildren().size() - 1) { Tree<String> rightTree = binarizeTreeHelper( tree, numChildrenGenerated + 1, intermediateLabel + "_" + leftTree.getLabel()); children.add(rightTree); } return new Tree<String>(intermediateLabel, children); }
private int tallySpans(Tree<String> tree, int start) { if (tree.isLeaf() || tree.isPreTerminal()) return 1; int end = start; for (Tree<String> child : tree.getChildren()) { int childSpan = tallySpans(child, end); end += childSpan; } String category = tree.getLabel(); if (!category.equals("ROOT")) spanToCategories.incrementCount(end - start, category, 1.0); return end - start; }
private static Tree<String> binarizeTree(Tree<String> tree) { String label = tree.getLabel(); if (tree.isLeaf()) return new Tree<String>(label); if (tree.getChildren().size() == 1) { return new Tree<String>( label, Collections.singletonList(binarizeTree(tree.getChildren().get(0)))); } // I think it tries to binarize a binary tree. This is silly. Just binarize the subtrees. if (tree.getChildren().size() == 2) { List<Tree<String>> children = new ArrayList<Tree<String>>(); children.add(binarizeTree(tree.getChildren().get(0))); children.add(binarizeTree(tree.getChildren().get(1))); return new Tree<String>(label, children); } // otherwise, it's a TERNARY-or-more local tree, // so decompose it into a sequence of binary and unary trees. String intermediateLabel = "@" + label + "->"; Tree<String> intermediateTree = binarizeTreeHelper(tree, 0, intermediateLabel); return new Tree<String>(label, intermediateTree.getChildren()); }
private static Tree<String> markovizeTree(Tree<String> tree, String parentLabel) { String label = tree.getLabel(); // Tried using ^ but unannotate didn't remove it. Instead using - since that is properly // removed if (parentLabel != null) { label = label + "-" + parentLabel; } // If you're a preterminal, don't bother markovizing if (tree.isPreTerminal()) return tree; List<Tree<String>> children = new ArrayList<Tree<String>>(); for (Tree<String> child : tree.getChildren()) { children.add(markovizeTree(child, tree.getLabel())); } Tree<String> newTree = new Tree<String>(label, children); return newTree; }
private BinaryRule makeBinaryRule(Tree<String> tree) { return new BinaryRule( tree.getLabel(), tree.getChildren().get(0).getLabel(), tree.getChildren().get(1).getLabel()); }
public Tree<String> getParseTreeOld( List<String> sentence, HashMap<String, Triplet<Integer, String, String>> backHash, int begin, int end, String parent) { // Start from the root and keep going down till you reach the leafs. // System.out.println("In recursion!!"); if (begin == end - 1) { if ((begin + " " + end).equals("0 1")) { // System.out.println("CounterMap"); // System.out.println(parseScores.getCounter(begin+" "+end).toString()); // backHash.get(begin+ " " + end+ " "+parent); } // String parent = parseScores.getCounter(begin+" "+end).argMax(); // System.out.println("Terminal cond :"+begin+ " "+ end+ " "+parent); Triplet<Integer, String, String> triplet = backHash.get(begin + " " + end + " " + parent); int split = -1; if (triplet != null) { split = triplet.getFirst(); } if ((begin + " " + end).equals("0 1")) { // System.out.println("CounterMap"); // System.out.println(parseScores.getCounter(begin+" "+end).toString()); // System.out.println(backHash.get(begin+ " " + end+ " "+parent).toString()); } Tree<String> topTree = new Tree<String>(parent); Tree<String> tree = topTree; while (triplet != null && split == -1) { Tree<String> singleTree = new Tree<String>(triplet.getSecond()); tree.setChildren(Collections.singletonList(singleTree)); triplet = backHash.get(begin + " " + end + " " + triplet.getSecond()); if (triplet != null) { split = triplet.getFirst(); } tree = tree.getChildren().get(0); } // return new Tree<String>(tree.getLabel(), )); tree.setChildren(Collections.singletonList(new Tree<String>(sentence.get(begin)))); return topTree; } /*if((begin +" " + end).equals("1 5")){ System.out.println("CounterMap"); System.out.println(parseScores.getCounter(begin+" "+end).toString()); //backHash.get(begin+ " " + end+ " "+parent); }*/ // String parent = parseScores.getCounter(begin+" "+end).argMax(); // System.out.println(parent); Triplet<Integer, String, String> triplet = backHash.get(begin + " " + end + " " + parent); // System.out.println(triplet.getSecond() + " " + triplet.getFirst()); if ((begin + " " + end).equals("0 6")) { // System.out.println("CounterMap"); // System.out.println(parent); // System.out.println(backHash.get(begin+ " " + end+ " "+parent).toString()); } if (triplet == null) { System.out.println(begin + " " + end + " " + parent); } int split = triplet.getFirst(); Tree<String> topTree = new Tree<String>(parent); Tree<String> tree = topTree; // System.out.println("parent : " +parent); while (split == -1) { // System.out.println(tree.toString()); Tree<String> singleTree = new Tree<String>(triplet.getSecond()); // System.out.println(triplet.getSecond()); tree.setChildren(Collections.singletonList(singleTree)); // System.out.println(tree.toString()); // System.out.println("XXXXXXXXXXXXXXXXXXXXXXXXXXXxx"); // System.out.println(triplet.getSecond()); triplet = backHash.get(begin + " " + end + " " + triplet.getSecond()); if (triplet != null) { split = triplet.getFirst(); } tree = tree.getChildren().get(0); } // System.out.println(tree.toString()); Tree<String> leftTree = getParseTreeOld(sentence, backHash, begin, split, triplet.getSecond()); Tree<String> rightTree = getParseTreeOld(sentence, backHash, split, end, triplet.getThird()); // System.out.println("leftTree: "+ leftTree.toString()); // System.out.println("rightTree :" +rightTree.toString()); // System.out.println("topTree :"+topTree.toString()); List<Tree<String>> children = new ArrayList<Tree<String>>(); children.add(leftTree); children.add(rightTree); tree.setChildren(children); return topTree; }
public Tree<String> getParseTree( List<String> sentence, HashMap<Triplet<Integer, Integer, String>, Triplet<Integer, String, String>> backHash, int begin, int end, String parent) { // Start from the root and keep going down till you reach the leafs. if (begin == end - 1) { Triplet<Integer, String, String> triplet = backHash.get(new Triplet<Integer, Integer, String>(begin, end, parent)); int split = -1; if (triplet != null) { split = triplet.getFirst(); } Tree<String> topTree = new Tree<String>(parent); Tree<String> tree = topTree; while (triplet != null && split == -1) { Tree<String> singleTree = new Tree<String>(triplet.getSecond()); tree.setChildren(Collections.singletonList(singleTree)); triplet = backHash.get(new Triplet<Integer, Integer, String>(begin, end, triplet.getSecond())); if (triplet != null) { split = triplet.getFirst(); } tree = tree.getChildren().get(0); } tree.setChildren(Collections.singletonList(new Tree<String>(sentence.get(begin)))); return topTree; } Triplet<Integer, String, String> triplet = backHash.get(new Triplet<Integer, Integer, String>(begin, end, parent)); if (triplet == null) { System.out.println(begin + " " + end + " " + parent); } int split = triplet.getFirst(); Tree<String> topTree = new Tree<String>(parent); Tree<String> tree = topTree; while (split == -1) { Tree<String> singleTree = new Tree<String>(triplet.getSecond()); tree.setChildren(Collections.singletonList(singleTree)); triplet = backHash.get(new Triplet<Integer, Integer, String>(begin, end, triplet.getSecond())); if (triplet != null) { split = triplet.getFirst(); } tree = tree.getChildren().get(0); } Tree<String> leftTree = getParseTree(sentence, backHash, begin, split, triplet.getSecond()); Tree<String> rightTree = getParseTree(sentence, backHash, split, end, triplet.getThird()); List<Tree<String>> children = new ArrayList<Tree<String>>(); children.add(leftTree); children.add(rightTree); tree.setChildren(children); return topTree; }