All Downloads are FREE. Search and download functionalities are using the official Maven repository.

opennlp.tools.parser.treeinsert.ParserEventStream Maven / Gradle / Ivy

There is a newer version: 2.5.0
Show newest version
/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License. You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package opennlp.tools.parser.treeinsert;

import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;

import opennlp.tools.dictionary.Dictionary;
import opennlp.tools.ml.model.Event;
import opennlp.tools.parser.AbstractBottomUpParser;
import opennlp.tools.parser.AbstractParserEventStream;
import opennlp.tools.parser.HeadRules;
import opennlp.tools.parser.Parse;
import opennlp.tools.parser.ParserEventTypeEnum;
import opennlp.tools.util.ObjectStream;
import opennlp.tools.util.Span;

public class ParserEventStream extends AbstractParserEventStream {

  protected AttachContextGenerator attachContextGenerator;
  protected BuildContextGenerator buildContextGenerator;
  protected CheckContextGenerator checkContextGenerator;

  private static final boolean debug = false;

  public ParserEventStream(ObjectStream d, HeadRules rules,
      ParserEventTypeEnum etype, Dictionary dict) {
    super(d, rules, etype, dict);
  }

  @Override
  public void init() {
    buildContextGenerator = new BuildContextGenerator();
    attachContextGenerator = new AttachContextGenerator(punctSet);
    checkContextGenerator = new CheckContextGenerator(punctSet);
  }

  public ParserEventStream(ObjectStream d, HeadRules rules, ParserEventTypeEnum etype) {
    super(d, rules, etype);
  }

  /**
   * Returns a set of parent nodes which consist of the immediate
   * parent of the specified node and any of its parent which
   * share the same syntactic type.
   * @param node The node whose parents are to be returned.
   * @return a set of parent nodes.
   */
  private Map getNonAdjoinedParent(Parse node) {
    Map parents = new HashMap<>();
    Parse parent = node.getParent();
    int index = indexOf(node,parent);
    parents.put(parent, index);
    while (parent.getType().equals(node.getType())) {
      node = parent;
      parent = parent.getParent();
      index = indexOf(node,parent);
      parents.put(parent, index);
    }
    return parents;
  }

  private int indexOf(Parse child, Parse parent) {
    Parse[] kids = Parser.collapsePunctuation(parent.getChildren(),punctSet);
    for (int ki = 0; ki < kids.length; ki++) {
      if (child == kids[ki]) {
        return ki;
      }
    }
    return -1;
  }

  private int nonPunctChildCount(Parse node) {
    return Parser.collapsePunctuation(node.getChildren(),punctSet).length;
  }
  /*
  private Set getNonAdjoinedParent(Parse node) {
    Set parents = new HashSet();
    Parse parent = node.getParent();
    do {
      parents.add(parent);
      parent = parent.getParent();
    }
    while(parent.getType().equals(node.getType()));
    return parents;
  }
  */

  @Override
  protected boolean lastChild(Parse child, Parse parent) {
    boolean lc = super.lastChild(child, parent);
    while (!lc) {
      Parse cp = child.getParent();
      if (cp != parent && cp.getType().equals(child.getType())) {
        lc = super.lastChild(cp,parent);
        child = cp;
      }
      else {
        break;
      }
    }
    return lc;
  }

  @Override
  protected void addParseEvents(List parseEvents, Parse[] chunks) {
    /* Frontier nodes built from node in a completed parse.  Specifically,
     * they have all their children regardless of the stage of parsing.*/
    List rightFrontier = new ArrayList<>();
    List builtNodes = new ArrayList<>();
    /* Nodes which characterize what the parse looks like to the parser as its being built.
     * Specifically, these nodes don't have all their children attached like the parents of
     * the chunk nodes do.*/
    Parse[] currentChunks = new Parse[chunks.length];
    for (int ci = 0; ci < chunks.length; ci++) {
      currentChunks[ci] = (Parse) chunks[ci].clone();
      currentChunks[ci].setPrevPunctuation(chunks[ci].getPreviousPunctuationSet());
      currentChunks[ci].setNextPunctuation(chunks[ci].getNextPunctuationSet());
      currentChunks[ci].setLabel(Parser.COMPLETE);
      chunks[ci].setLabel(Parser.COMPLETE);
    }
    for (int ci = 0; ci < chunks.length; ci++) {
      //System.err.println("parserEventStream.addParseEvents: chunks="+Arrays.asList(chunks));
      Parse parent = chunks[ci].getParent();
      Parse prevParent = chunks[ci];
      int off = 0;
      //build un-built parents
      if (!chunks[ci].isPosTag()) {
        builtNodes.add(off++,chunks[ci]);
      }
      //perform build stages
      while (!parent.getType().equals(AbstractBottomUpParser.TOP_NODE) && parent.getLabel() == null) {
        if (parent.getLabel() == null && !prevParent.getType().equals(parent.getType())) {
          //build level
          if (debug) System.err.println("Build: " + parent.getType() + " for: " + currentChunks[ci]);
          if (etype == ParserEventTypeEnum.BUILD) {
            parseEvents.add(new Event(parent.getType(),
                buildContextGenerator.getContext(currentChunks, ci)));
          }
          builtNodes.add(off++,parent);
          Parse newParent = new Parse(currentChunks[ci].getText(),
              currentChunks[ci].getSpan(),parent.getType(),1,0);
          newParent.add(currentChunks[ci],rules);
          newParent.setPrevPunctuation(currentChunks[ci].getPreviousPunctuationSet());
          newParent.setNextPunctuation(currentChunks[ci].getNextPunctuationSet());
          currentChunks[ci].setParent(newParent);
          currentChunks[ci] = newParent;
          newParent.setLabel(Parser.BUILT);
          //see if chunk is complete
          if (lastChild(chunks[ci], parent)) {
            if (etype == ParserEventTypeEnum.CHECK) {
              parseEvents.add(new Event(Parser.COMPLETE,
                  checkContextGenerator.getContext(currentChunks[ci],currentChunks, ci,false)));
            }
            currentChunks[ci].setLabel(Parser.COMPLETE);
            parent.setLabel(Parser.COMPLETE);
          }
          else {
            if (etype == ParserEventTypeEnum.CHECK) {
              parseEvents.add(new Event(Parser.INCOMPLETE,
                  checkContextGenerator.getContext(currentChunks[ci],currentChunks,ci,false)));
            }
            currentChunks[ci].setLabel(Parser.INCOMPLETE);
            parent.setLabel(Parser.COMPLETE);
          }

          chunks[ci] = parent;
          //System.err.println("build: "+newParent+" for "+parent);
        }
        //TODO: Consider whether we need to set this label or train parses at all.
        parent.setLabel(Parser.BUILT);
        prevParent = parent;
        parent = parent.getParent();
      }
      //decide to attach
      if (etype == ParserEventTypeEnum.BUILD) {
        parseEvents.add(new Event(Parser.DONE, buildContextGenerator.getContext(currentChunks, ci)));
      }
      //attach node
      String attachType = null;
      /* Node selected for attachment. */
      Parse attachNode = null;
      int attachNodeIndex = -1;
      if (ci == 0) {
        Parse top = new Parse(currentChunks[ci].getText(),
            new Span(0,currentChunks[ci].getText().length()),AbstractBottomUpParser.TOP_NODE,1,0);
        top.insert(currentChunks[ci]);
      }
      else {
        /* Right frontier consisting of partially-built nodes based on current state of the parse.*/
        List currentRightFrontier = Parser.getRightFrontier(currentChunks[0],punctSet);
        if (currentRightFrontier.size() != rightFrontier.size()) {
          System.err.println("fontiers mis-aligned: " + currentRightFrontier.size() + " != "
              + rightFrontier.size() + " " + currentRightFrontier + " " + rightFrontier);
          System.exit(1);
        }
        Map parents = getNonAdjoinedParent(chunks[ci]);
        //try daughters first.
        for (int cfi = 0; cfi < currentRightFrontier.size(); cfi++) {
          Parse frontierNode = rightFrontier.get(cfi);
          Parse cfn = currentRightFrontier.get(cfi);
          if (!Parser.checkComplete || !Parser.COMPLETE.equals(cfn.getLabel())) {
            Integer i = parents.get(frontierNode);
            if (debug)
              System.err.println("Looking at attachment site (" + cfi + "): "
                  + cfn.getType() + " ci=" + i + " cs=" + nonPunctChildCount(cfn)
                  + ", " + cfn + " :for " + currentChunks[ci].getType() + " "
                  + currentChunks[ci] + " -> " + parents);

            if (attachNode == null &&  i != null && i == nonPunctChildCount(cfn)) {
              attachType = Parser.ATTACH_DAUGHTER;
              attachNodeIndex = cfi;
              attachNode = cfn;
              if (etype == ParserEventTypeEnum.ATTACH) {
                parseEvents.add(new Event(attachType, attachContextGenerator.getContext(currentChunks,
                    ci, currentRightFrontier, attachNodeIndex)));
              }
              //System.err.println("daughter attach "+attachNode+" at "+fi);
            }
          }
          else {
            if (debug)
              System.err.println("Skipping (" + cfi + "): " + cfn.getType() + ","
                  + cfn.getPreviousPunctuationSet() + " " + cfn + " :for "
                  + currentChunks[ci].getType() + " " + currentChunks[ci] + " -> " + parents);
          }
          // Can't attach past first incomplete node.
          if (Parser.checkComplete && cfn.getLabel().equals(Parser.INCOMPLETE)) {
            if (debug) System.err.println("breaking on incomplete:" + cfn.getType() + " " + cfn);
            break;
          }
        }
        //try sisters, and generate non-attach events.
        for (int cfi = 0; cfi < currentRightFrontier.size(); cfi++) {
          Parse frontierNode = rightFrontier.get(cfi);
          Parse cfn = currentRightFrontier.get(cfi);
          if (attachNode == null && parents.containsKey(frontierNode.getParent())
              && frontierNode.getType().equals(frontierNode.getParent().getType())
              ) { //&& frontierNode.getParent().getLabel() == null) {
            attachType = Parser.ATTACH_SISTER;
            attachNode = cfn;
            attachNodeIndex = cfi;
            if (etype == ParserEventTypeEnum.ATTACH) {
              parseEvents.add(new Event(Parser.ATTACH_SISTER,
                  attachContextGenerator.getContext(currentChunks, ci, currentRightFrontier, cfi)));
            }
            chunks[ci].getParent().setLabel(Parser.BUILT);
            //System.err.println("in search sister attach "+attachNode+" at "+cfi);
          }
          else if (cfi == attachNodeIndex) {
            //skip over previously attached daughter.
          }
          else {
            if (etype == ParserEventTypeEnum.ATTACH) {
              parseEvents.add(new Event(Parser.NON_ATTACH,
                  attachContextGenerator.getContext(currentChunks, ci, currentRightFrontier, cfi)));
            }
          }
          //Can't attach past first incomplete node.
          if (Parser.checkComplete && cfn.getLabel().equals(Parser.INCOMPLETE)) {
            if (debug) System.err.println("breaking on incomplete:" + cfn.getType() + " " + cfn);
            break;
          }
        }
        //attach Node
        if (attachNode != null) {
          if (Parser.ATTACH_DAUGHTER.equals(attachType)) {
            Parse daughter = currentChunks[ci];
            if (debug)
              System.err.println("daughter attach a=" + attachNode.getType() + ":"
                  + attachNode + " d=" + daughter + " com="
                  + lastChild(chunks[ci], rightFrontier.get(attachNodeIndex)));

            attachNode.add(daughter,rules);
            daughter.setParent(attachNode);
            if (lastChild(chunks[ci], rightFrontier.get(attachNodeIndex))) {
              if (etype == ParserEventTypeEnum.CHECK) {
                parseEvents.add(new Event(Parser.COMPLETE,
                    checkContextGenerator.getContext(attachNode,currentChunks,ci,true)));
              }
              attachNode.setLabel(Parser.COMPLETE);
            }
            else {
              if (etype == ParserEventTypeEnum.CHECK) {
                parseEvents.add(new Event(Parser.INCOMPLETE,
                    checkContextGenerator.getContext(attachNode,currentChunks,ci,true)));
              }
            }
          }
          else if (Parser.ATTACH_SISTER.equals(attachType)) {
            Parse frontierNode = rightFrontier.get(attachNodeIndex);
            rightFrontier.set(attachNodeIndex,frontierNode.getParent());
            Parse sister = currentChunks[ci];
            if (debug)
              System.err.println("sister attach a=" + attachNode.getType()
                + ":" + attachNode + " s=" + sister + " ap=" + attachNode.getParent()
                + " com=" + lastChild(chunks[ci], rightFrontier.get(attachNodeIndex)));

            Parse newParent = attachNode.getParent().adjoin(sister,rules);

            newParent.setParent(attachNode.getParent());
            attachNode.setParent(newParent);
            sister.setParent(newParent);
            if (attachNode == currentChunks[0]) {
              currentChunks[0] = newParent;
            }
            if (lastChild(chunks[ci], rightFrontier.get(attachNodeIndex))) {
              if (etype == ParserEventTypeEnum.CHECK) {
                parseEvents.add(new Event(Parser.COMPLETE,
                    checkContextGenerator.getContext(newParent,currentChunks,ci,true)));
              }
              newParent.setLabel(Parser.COMPLETE);
            }
            else {
              if (etype == ParserEventTypeEnum.CHECK) {
                parseEvents.add(new Event(Parser.INCOMPLETE,
                    checkContextGenerator.getContext(newParent,currentChunks,ci,true)));
              }
              newParent.setLabel(Parser.INCOMPLETE);
            }

          }
          //update right frontier
          for (int ni = 0; ni < attachNodeIndex; ni++) {
            //System.err.println("removing: "+rightFrontier.get(0));
            rightFrontier.remove(0);
          }
        }
        else {
          //System.err.println("No attachment!");
          throw new RuntimeException("No Attachment: " + chunks[ci]);
        }
      }
      rightFrontier.addAll(0,builtNodes);
      builtNodes.clear();
    }
  }
}




© 2015 - 2024 Weber Informatics LLC | Privacy Policy