private static List<Pair<TregexPattern, TsurgeonPattern>> loadOps() {
List<Pair<TregexPattern, TsurgeonPattern>> ops = new ArrayList<>();
String line = null;
try {
BufferedReader br = new BufferedReader(new StringReader(editStr));
List<TsurgeonPattern> tsp = new ArrayList<>();
while ((line = br.readLine()) != null) {
if (DEBUG) System.err.print("Pattern is " + line);
TregexPattern matchPattern = TregexPattern.compile(line);
if (DEBUG) System.err.println(" [" + matchPattern + ']');
tsp.clear();
while (continuing(line = br.readLine())) {
TsurgeonPattern p = Tsurgeon.parseOperation(line);
if (DEBUG) System.err.println("Operation is " + line + " [" + p + ']');
tsp.add(p);
}
if (!tsp.isEmpty()) {
TsurgeonPattern tp = Tsurgeon.collectOperations(tsp);
ops.add(new Pair<>(matchPattern, tp));
}
} // while not at end of file
} catch (IOException ioe) {
ioe.printStackTrace();
}
return ops;
}
public static TregexPattern getPattern(String tregex) {
if (instance == null) {
instance = new TregexPatternFactory();
}
Map<String, TregexPattern> myMap = instance.getMap();
TregexPattern pattern = myMap.get(tregex);
if (pattern == null) {
try {
pattern = TregexPattern.compile(tregex);
myMap.put(tregex, pattern);
} catch (Exception e) {
e.printStackTrace();
}
}
return pattern;
}
public static boolean filter(PhraseInfo phrase) {
if (phrase == null || phrase.getTree() == null) return false;
Tree phraseTree = phrase.getTree();
// __ < ( NP < (PRP !< it|them) ) | < ( NP < ( NP < (PRP !< it|them) ) )
String invalidPronounPattern =
" ( NP < (PRP=prp !< " + Utils.wordsConjuction(Rules.VALID_PRONOUNS) + ") ) ";
String filterPattern =
"__ < " + invalidPronounPattern + " | < ( NP <" + invalidPronounPattern + ")";
TregexPattern tregexPattern = TregexPattern.compile(filterPattern);
TregexMatcher matcher = tregexPattern.matcher(phraseTree);
if (matcher.matches()) {
Proof proof = new Proof(ProofType.FAIL_PERSONAL_PRONOUN);
Tree evdTree = matcher.getNode("prp");
proof.setEvidenceTree(evdTree);
phrase.addProof(proof);
return false;
}
return true;
}
public class ShiftReduceParserQuery implements ParserQuery {
Debinarizer debinarizer = new Debinarizer(false);
List<? extends HasWord> originalSentence;
private State initialState, finalState;
Tree debinarized;
boolean success;
boolean unparsable;
final ShiftReduceParser parser;
List<ParserConstraint> constraints = null;
public ShiftReduceParserQuery(ShiftReduceParser parser) {
this.parser = parser;
}
@Override
public boolean parse(List<? extends HasWord> sentence) {
this.originalSentence = sentence;
initialState = ShiftReduceParser.initialStateFromTaggedSentence(sentence);
return parseInternal();
}
public boolean parse(Tree tree) {
this.originalSentence = tree.yieldHasWord();
initialState = ShiftReduceParser.initialStateFromGoldTagTree(tree);
return parseInternal();
}
// TODO: we are assuming that sentence final punctuation always has
// either . or PU as the tag.
private static TregexPattern rearrangeFinalPunctuationTregex =
TregexPattern.compile(
"__ !> __ <- (__=top <- (__ <<- (/[.]|PU/=punc < /[.!?。!?]/ ?> (__=single <: =punc))))");
private static TsurgeonPattern rearrangeFinalPunctuationTsurgeon =
Tsurgeon.parseOperation("[move punc >-1 top] [if exists single prune single]");
private boolean parseInternal() {
final int maxBeamSize = Math.max(parser.op.testOptions().beamSize, 1);
success = true;
unparsable = false;
PriorityQueue<State> beam =
new PriorityQueue<>(maxBeamSize + 1, ScoredComparator.ASCENDING_COMPARATOR);
beam.add(initialState);
// TODO: don't construct as many PriorityQueues
while (beam.size() > 0) {
// System.err.println("================================================");
// System.err.println("Current beam:");
// System.err.println(beam);
PriorityQueue<State> oldBeam = beam;
beam = new PriorityQueue<>(maxBeamSize + 1, ScoredComparator.ASCENDING_COMPARATOR);
State bestState = null;
for (State state : oldBeam) {
Collection<ScoredObject<Integer>> predictedTransitions =
parser.model.findHighestScoringTransitions(state, true, maxBeamSize, constraints);
// System.err.println("Examining state: " + state);
for (ScoredObject<Integer> predictedTransition : predictedTransitions) {
Transition transition = parser.model.transitionIndex.get(predictedTransition.object());
State newState = transition.apply(state, predictedTransition.score());
// System.err.println(" Transition: " + transition + " (" + predictedTransition.score() +
// ")");
if (bestState == null || bestState.score() < newState.score()) {
bestState = newState;
}
beam.add(newState);
if (beam.size() > maxBeamSize) {
beam.poll();
}
}
}
if (beam.size() == 0) {
// Oops, time for some fallback plan
// This can happen with the set of constraints given by the original paper
// For example, one particular French model had a situation where it would reach
// @Ssub @Ssub .
// without a left(Ssub) transition, so finishing the parse was impossible.
// This will probably result in a bad parse, but at least it
// will result in some sort of parse.
for (State state : oldBeam) {
Transition transition = parser.model.findEmergencyTransition(state, constraints);
if (transition != null) {
State newState = transition.apply(state);
if (bestState == null || bestState.score() < newState.score()) {
bestState = newState;
}
beam.add(newState);
}
}
}
// bestState == null only happens when we have failed to make progress, so quit
// If the bestState is finished, we are done
if (bestState == null || bestState.isFinished()) {
break;
}
}
List<State> bestParses;
if (beam.size() == 0) {
success = false;
unparsable = true;
debinarized = null;
finalState = null;
bestParses = Collections.emptyList();
} else {
// TODO: filter out beam elements that aren't finished
bestParses = Generics.newArrayList(beam);
Collections.sort(bestParses, beam.comparator());
Collections.reverse(bestParses);
finalState = bestParses.get(0);
debinarized = debinarizer.transformTree(finalState.stack.peek());
debinarized =
Tsurgeon.processPattern(
rearrangeFinalPunctuationTregex, rearrangeFinalPunctuationTsurgeon, debinarized);
}
return success;
}
/** TODO: if we add anything interesting to report, we should report it here */
@Override
public boolean parseAndReport(List<? extends HasWord> sentence, PrintWriter pwErr) {
boolean success = parse(sentence);
// System.err.println(getBestTransitionSequence());
// System.err.println(getBestBinarizedParse());
return success;
}
public Tree getBestBinarizedParse() {
return finalState.stack.peek();
}
public List<Transition> getBestTransitionSequence() {
return finalState.transitions.asList();
}
@Override
public double getPCFGScore() {
return finalState.score;
}
@Override
public Tree getBestParse() {
return debinarized;
}
/** TODO: can we get away with not calling this PCFG? */
@Override
public Tree getBestPCFGParse() {
return debinarized;
}
@Override
public Tree getBestDependencyParse(boolean debinarize) {
return null;
}
@Override
public Tree getBestFactoredParse() {
return null;
}
/** TODO: if this is a beam, return all equal parses */
@Override
public List<ScoredObject<Tree>> getBestPCFGParses() {
ScoredObject<Tree> parse = new ScoredObject<>(debinarized, finalState.score);
return Collections.singletonList(parse);
}
@Override
public boolean hasFactoredParse() {
return false;
}
/** TODO: return more if this used a beam */
@Override
public List<ScoredObject<Tree>> getKBestPCFGParses(int kbestPCFG) {
ScoredObject<Tree> parse = new ScoredObject<>(debinarized, finalState.score);
return Collections.singletonList(parse);
}
@Override
public List<ScoredObject<Tree>> getKGoodFactoredParses(int kbest) {
throw new UnsupportedOperationException();
}
@Override
public KBestViterbiParser getPCFGParser() {
// TODO: find some way to treat this as a KBestViterbiParser?
return null;
}
@Override
public KBestViterbiParser getDependencyParser() {
return null;
}
@Override
public KBestViterbiParser getFactoredParser() {
return null;
}
@Override
public void setConstraints(List<ParserConstraint> constraints) {
this.constraints = constraints;
}
@Override
public boolean saidMemMessage() {
return false;
}
@Override
public boolean parseSucceeded() {
return success;
}
/** TODO: skip sentences which are too long */
@Override
public boolean parseSkipped() {
return false;
}
@Override
public boolean parseFallback() {
return false;
}
/** TODO: add memory handling? */
@Override
public boolean parseNoMemory() {
return false;
}
@Override
public boolean parseUnparsable() {
return unparsable;
}
@Override
public List<? extends HasWord> originalSentence() {
return originalSentence;
}
/** TODO: clearly this should be a default method in ParserQuery once Java 8 comes out */
@Override
public void restoreOriginalWords(Tree tree) {
if (originalSentence == null || tree == null) {
return;
}
List<Tree> leaves = tree.getLeaves();
if (leaves.size() != originalSentence.size()) {
throw new IllegalStateException(
"originalWords and sentence of different sizes: "
+ originalSentence.size()
+ " vs. "
+ leaves.size()
+ "\n Orig: "
+ Sentence.listToString(originalSentence)
+ "\n Pars: "
+ Sentence.listToString(leaves));
}
// TODO: get rid of this cast
Iterator<? extends Label> wordsIterator =
(Iterator<? extends Label>) originalSentence.iterator();
for (Tree leaf : leaves) {
leaf.setLabel(wordsIterator.next());
}
}
}