/** * Return information about the objects in this Tree. * * @param t The tree to examine. * @return A human-readable String */ public static String toDebugStructureString(Tree t) { StringBuilder sb = new StringBuilder(); String tCl = StringUtils.getShortClassName(t); String tfCl = StringUtils.getShortClassName(t.treeFactory()); String lCl = StringUtils.getShortClassName(t.label()); String lfCl = StringUtils.getShortClassName(t.label().labelFactory()); Set<String> otherClasses = new HashSet<String>(); for (Tree st : t) { String stCl = StringUtils.getShortClassName(st); String stfCl = StringUtils.getShortClassName(st.treeFactory()); String slCl = StringUtils.getShortClassName(st.label()); String slfCl = StringUtils.getShortClassName(st.label().labelFactory()); if (!tCl.equals(stCl)) { otherClasses.add(stCl); } if (!tfCl.equals(stfCl)) { otherClasses.add(stfCl); } if (!lCl.equals(slCl)) { otherClasses.add(slCl); } if (!lfCl.equals(slfCl)) { otherClasses.add(slfCl); } } sb.append("Tree with root of class ").append(tCl).append(" and factory ").append(tfCl); sb.append(" with label class ").append(lCl).append(" and factory ").append(lfCl); if (!otherClasses.isEmpty()) { sb.append(" with the following classes also found within the tree: ").append(otherClasses); } return sb.toString(); }
public static Tree copyHelper(Tree t, Map<Tree, Tree> newToOld, Map<Tree, Tree> oldToNew) { Tree[] kids = t.children(); Tree[] newKids = new Tree[kids.length]; for (int i = 0, n = kids.length; i < n; i++) { newKids[i] = copyHelper(kids[i], newToOld, oldToNew); } TreeFactory tf = t.treeFactory(); if (kids.length == 0) { Tree newLeaf = tf.newLeaf(t.label()); newToOld.put(newLeaf, t); oldToNew.put(newLeaf, t); return newLeaf; } Tree newNode = tf.newTreeNode(t.label(), Arrays.asList(newKids)); newToOld.put(newNode, t); oldToNew.put(t, newNode); return newNode; }
public static Tree untransformTree(Tree tree) { TreeFactory tf = tree.treeFactory(); if (tree.isPrePreTerminal()) { if (tree.firstChild().label().value().matches(".*_.")) { StringBuilder word = new StringBuilder(); for (int i = 0; i < tree.children().length; i++) { Tree child = tree.children()[i]; word.append(child.firstChild().label().value()); } Tree newChild = tf.newLeaf(word.toString()); tree.setChildren(Collections.singletonList(newChild)); } } else { for (int i = 0; i < tree.children().length; i++) { Tree child = tree.children()[i]; untransformTree(child); } } return tree; }
public Tree transformTree(Tree tree) { TreeFactory tf = tree.treeFactory(); String tag = tree.label().value(); if (tree.isPreTerminal()) { String word = tree.firstChild().label().value(); List<Tree> newPreterms = new ArrayList<>(); for (int i = 0, size = word.length(); i < size; i++) { String singleCharLabel = new String(new char[] {word.charAt(i)}); Tree newLeaf = tf.newLeaf(singleCharLabel); String suffix; if (useTwoCharTags) { if (word.length() == 1 || i == 0) { suffix = "_S"; } else { suffix = "_M"; } } else { if (word.length() == 1) { suffix = "_S"; } else if (i == 0) { suffix = "_B"; } else if (i == word.length() - 1) { suffix = "_E"; } else { suffix = "_M"; } } newPreterms.add(tf.newTreeNode(tag + suffix, Collections.<Tree>singletonList(newLeaf))); } return tf.newTreeNode(tag, newPreterms); } else { List<Tree> newChildren = new ArrayList<>(); for (int i = 0; i < tree.children().length; i++) { Tree child = tree.children()[i]; newChildren.add(transformTree(child)); } return tf.newTreeNode(tag, newChildren); } }