public static ArrayList<TaggedWord> StanfordParse(String sentence, LexicalizedParser lp) {

    TokenizerFactory<CoreLabel> tokenizerFactory =
        PTBTokenizer.factory(new CoreLabelTokenFactory(), "");
    List<CoreLabel> rawWords2 =
        tokenizerFactory.getTokenizer(new StringReader(sentence)).tokenize();
    Tree parse = lp.apply(rawWords2);
    ArrayList<TaggedWord> taggedWords = parse.taggedYield();

    return taggedWords;
  }
  // todo: give options for document splitting. A line or the whole file or
  // sentence splitting as now
  public Iterator<List<IN>> getIterator(Reader r) {
    Tokenizer<IN> tokenizer = tokenizerFactory.getTokenizer(r);
    // PTBTokenizer.newPTBTokenizer(r, false, true);
    List<IN> words = new ArrayList<IN>();
    IN previous = tokenFactory.makeToken();
    StringBuilder prepend = new StringBuilder();

    /*
     * This changes SGML tags into whitespace -- it should maybe be moved
     * elsewhere
     */
    while (tokenizer.hasNext()) {
      IN w = tokenizer.next();
      String word = w.get(CoreAnnotations.TextAnnotation.class);
      Matcher m = sgml.matcher(word);
      if (m.matches()) {

        String before = StringUtils.getNotNullString(w.get(CoreAnnotations.BeforeAnnotation.class));
        String after = StringUtils.getNotNullString(w.get(CoreAnnotations.AfterAnnotation.class));
        prepend.append(before).append(word);
        String previousTokenAfter =
            StringUtils.getNotNullString(previous.get(CoreAnnotations.AfterAnnotation.class));
        previous.set(AfterAnnotation.class, previousTokenAfter + word + after);
        // previous.appendAfter(w.word() + w.after());
      } else {

        String before = StringUtils.getNotNullString(w.get(CoreAnnotations.BeforeAnnotation.class));
        if (prepend.length() > 0) {
          w.set(BeforeAnnotation.class, prepend.toString() + before);
          // w.prependBefore(prepend.toString());
          prepend = new StringBuilder();
        }
        words.add(w);
        previous = w;
      }
    }

    List<List<IN>> sentences = wts.process(words);
    String after = "";
    IN last = null;
    for (List<IN> sentence : sentences) {
      int pos = 0;
      for (IN w : sentence) {
        w.set(PositionAnnotation.class, Integer.toString(pos));
        after = StringUtils.getNotNullString(w.get(CoreAnnotations.AfterAnnotation.class));
        w.remove(AfterAnnotation.class);
        last = w;
      }
    }
    if (last != null) {
      last.set(AfterAnnotation.class, after);
    }

    return sentences.iterator();
  }
  public static void main(String[] args) // start of the main method
      {
    System.out.println("\n\n\nSTART\n\n\n"); // print START
    try // device to handle potential errors
    {
      // open file whose path is passed
      // as the first argument of the main method:
      FileInputStream fis = new FileInputStream(args[0]);
      DataInputStream dis = new DataInputStream(fis);
      BufferedReader br = new BufferedReader(new InputStreamReader(dis));

      // prepare Parser, Tokenizer and Tree printer:
      LexicalizedParser lp = new LexicalizedParser("englishPCFG.ser.gz");
      TokenizerFactory tf = PTBTokenizer.factory(false, new WordTokenFactory());
      TreePrint tp = new TreePrint("penn,typedDependenciesCollapsed");

      String sentence; // initialization
      // for each line of the file
      // retrieve it as a string called 'sentence':
      while ((sentence = br.readLine()) != null) {
        // print sentence:
        System.out.println("\n\n\n\nORIGINAL:\n\n" + sentence);
        // put tokens in a list:
        List tokens = tf.getTokenizer(new StringReader(sentence)).tokenize();
        lp.parse(tokens); // parse the tokens
        Tree t = lp.getBestParse(); // get the best parse tree
        System.out.println("\nPROCESSED:\n\n");
        tp.printTree(t); // print tree
      }
      dis.close(); // close input file
    } catch (Exception e) // catch error if any
    {
      System.err.println("ERROR: " + e.getMessage()); // print error message
    }
    System.out.println("\n\n\nTHE END\n\n\n"); // print THE END
  } // end of the main method
  public static void main(String args[]) throws IOException {
    long startTime = System.currentTimeMillis();

    LexicalizedParser lp = new LexicalizedParser("englishPCFG.ser.gz");
    TokenizerFactory tf = PTBTokenizer.factory(false, new WordTokenFactory());
    TreePrint tp = new TreePrint("penn,typedDependenciesCollapsed");
    String sentence = "Where did the first President die ?";

    System.out.println("Enter the question or press enter for default : ");
    String tempInput;
    BufferedReader b1 = new BufferedReader(new InputStreamReader(System.in));
    tempInput = b1.readLine();
    if (tempInput.length() == 0)
      System.out.println("The question is the default one : " + sentence);
    else {
      sentence = tempInput;
      System.out.println("The question entered is : " + sentence);
    }

    String sentence1 = PreProcess.removeStopWords1(sentence);

    System.out.println(sentence1);
    StringTokenizer st1 = new StringTokenizer(sentence1, " ");
    int n = 0;
    while (st1.hasMoreTokens()) {
      String temp1 = st1.nextToken();
      //	System.out.println("temp replace all is
      // "+temp1.replaceAll("'s","").replaceAll("[^A-Za-z]",""));
      map.put(n, temp1.replaceAll("'s", "").replaceAll("[^A-Za-z]", ""));

      n++;
    }
    //	for(int s=0;s<n;s++)
    //		System.out.println(map.get(s));
    List tokens = tf.getTokenizer(new StringReader(sentence)).tokenize();
    lp.parse(tokens); // parse the tokens
    Tree t = lp.getBestParse(); // get the best parse tree\

    tp.printTree(t);
    System.out.println("\nPROCESSED:\n\n"); // tp.printTree(t); // print tree
    // dependencies only print
    TreebankLanguagePack tlp = new PennTreebankLanguagePack();
    GrammaticalStructureFactory gsf = tlp.grammaticalStructureFactory();
    GrammaticalStructure gs = gsf.newGrammaticalStructure(t);

    // dependencies

    //		Tree b = t.firstChild();
    //	System.out.println("\nFirst child of the tree is :\n\n"); tp.printTree(b);
    String dependency = gs.typedDependenciesCollapsed().toString();
    System.out.println("Dependencies :" + dependency);
    //	BufferedReader reader = new BufferedReader( new InputStreamReader(System.in) );
    //	String wordForm = reader.readLine();
    String wordForm = "yes";
    int i = -1;
    String s[][] = new String[20][3];

    if (wordForm.equals("yes")) {
      StringTokenizer st = new StringTokenizer(dependency, " ([)],");
      while (st.hasMoreTokens()) {
        String as = st.nextToken();
        System.out.println(as);
        if (!as.contains("-")) {
          i++;
          s[i][0] = as;
        } else {
          s[i][1] = as;
          s[i][2] = st.nextToken();
        }
      }
    }

    length = i + 1;
    interchange1(s);
    System.out.println("The sorted version is ");
    //	System.out.println("\n\n***********Li8 from here on***********");
    for (i = 0; i < length; i++) {
      for (int j = 0; j < 3; j++) {
        System.out.print(s[i][j] + " ");
      }
      System.out.println();
    }

    // int adjmatrix[][] = new int[length][length];
    System.out.println("What answer type is required: ");
    BufferedReader reader = new BufferedReader(new InputStreamReader(System.in));

    String answtype = reader.readLine();
    String[] temp;
    temp = sentence.split(" ", 2);
    int g = 0;
    int h = 0;
    String secque = null;

    // dijikstra implementation
    int adjmatrix[][] = new int[length][length];
    int j = 0;
    for (i = 0; i < length; i++) for (j = 0; j < length; j++) adjmatrix[i][j] = 100;
    formadj(adjmatrix, s);
    print(adjmatrix);
    //	Dijikstraalgo.dijikstra(adjmatrix,length-2);
    //	Dijikstraalgo.dijikstra(adjmatrix,length-1);
    if (Dijikstraalgo.dijikstra(adjmatrix, length - 1)
            - Dijikstraalgo.dijikstra(adjmatrix, length - 2)
        >= 0) {
      System.out.println("Type 1");
      if (makesentence(s, length - 1) == null) {
        secque = s[length - 1][2] + " " + s[length - 1][1];
        System.out.println(answtype + " is " + s[length - 1][2] + " " + s[length - 1][1] + " ?");

      } else {
        secque = makesentence(s, length - 1);
        System.out.println(answtype + " is " + secque + " ?");
      }
    } else {
      System.out.println("Type 2");
      System.out.println(
          "Before entering the makesentence function(the cause of the null pointer exception) "
              + s[length - 2][0]
              + " "
              + s[length - 2][1]);
      if (makesentence(s, length - 2) == null) {

        secque = s[length - 2][2] + " " + s[length - 2][1];
        System.out.println(answtype + " is " + s[length - 2][2] + " " + s[length - 2][1] + " ?");
      } else {
        //	System.out.println("null");
        secque = makesentence(s, length - 2);

        System.out.println(answtype + " is " + secque + " ?");
      }
    }
    //	System.out.println("Secque is "+secque.replaceAll("[^A-Za-z ]",""));
    System.out.println(sentence.replace(secque.replaceAll("[^A-Za-z ]", ""), ""));

    long endTime = System.currentTimeMillis();
    System.out.println("The time elapsed is : " + (int) (endTime - startTime) / 1000);
    System.out.println("The end");
  }
Esempio n. 5
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  public Document nextDoc() {
    List<List<CoreLabel>> allWords = new ArrayList<List<CoreLabel>>();
    List<Tree> allTrees = new ArrayList<Tree>();
    List<List<Mention>> allGoldMentions = new ArrayList<List<Mention>>();
    List<List<Mention>> allPredictedMentions;
    List<CoreMap> allSentences = new ArrayList<CoreMap>();
    Annotation docAnno = new Annotation("");

    Pattern docPattern =
        Pattern.compile("<DOC>(.*?)</DOC>", Pattern.DOTALL + Pattern.CASE_INSENSITIVE);
    Pattern sentencePattern =
        Pattern.compile(
            "(<s>|<hl>|<dd>|<DATELINE>)(.*?)(</s>|</hl>|</dd>|</DATELINE>)",
            Pattern.DOTALL + Pattern.CASE_INSENSITIVE);
    Matcher docMatcher = docPattern.matcher(fileContents);
    if (!docMatcher.find(currentOffset)) return null;

    currentOffset = docMatcher.end();
    String doc = docMatcher.group(1);
    Matcher sentenceMatcher = sentencePattern.matcher(doc);
    String ner = null;

    // Maintain current document ID.
    Pattern docIDPattern =
        Pattern.compile("<DOCNO>(.*?)</DOCNO>", Pattern.DOTALL + Pattern.CASE_INSENSITIVE);
    Matcher docIDMatcher = docIDPattern.matcher(doc);
    if (docIDMatcher.find()) currentDocumentID = docIDMatcher.group(1);
    else currentDocumentID = "documentAfter " + currentDocumentID;

    while (sentenceMatcher.find()) {
      String sentenceString = sentenceMatcher.group(2);
      List<CoreLabel> words =
          tokenizerFactory.getTokenizer(new StringReader(sentenceString)).tokenize();

      // FIXING TOKENIZATION PROBLEMS
      for (int i = 0; i < words.size(); i++) {
        CoreLabel w = words.get(i);
        if (i > 0 && w.word().equals("$")) {
          if (!words.get(i - 1).word().endsWith("PRP") && !words.get(i - 1).word().endsWith("WP"))
            continue;
          words.get(i - 1).set(TextAnnotation.class, words.get(i - 1).word() + "$");
          words.remove(i);
          i--;
        } else if (w.word().equals("\\/")) {
          if (words.get(i - 1).word().equals("</COREF>")) continue;
          w.set(TextAnnotation.class, words.get(i - 1).word() + "\\/" + words.get(i + 1).word());
          words.remove(i + 1);
          words.remove(i - 1);
        }
      }
      // END FIXING TOKENIZATION PROBLEMS

      List<CoreLabel> sentence = new ArrayList<CoreLabel>();
      // MUC accepts embedded coref mentions, so we need to keep a stack for the mentions currently
      // open
      Stack<Mention> stack = new Stack<Mention>();
      List<Mention> mentions = new ArrayList<Mention>();

      allWords.add(sentence);
      allGoldMentions.add(mentions);

      for (CoreLabel word : words) {
        String w = word.get(TextAnnotation.class);
        // found regular token: WORD/POS
        if (!w.startsWith("<") && w.contains("\\/") && w.lastIndexOf("\\/") != w.length() - 2) {
          int i = w.lastIndexOf("\\/");
          String w1 = w.substring(0, i);
          // we do NOT set POS info here. We take the POS tags from the parser!
          word.set(TextAnnotation.class, w1);
          word.remove(CurrentAnnotation.class);
          if (Constants.USE_GOLD_NE) {
            if (ner != null) {
              word.set(NamedEntityTagAnnotation.class, ner);
            } else {
              word.set(NamedEntityTagAnnotation.class, "O");
            }
          }
          sentence.add(word);
        }
        // found the start SGML tag for a NE, e.g., "<ORGANIZATION>"
        else if (w.startsWith("<") && !w.startsWith("<COREF") && !w.startsWith("</")) {
          Pattern nerPattern = Pattern.compile("<(.*?)>");
          Matcher m = nerPattern.matcher(w);
          m.find();
          ner = m.group(1);
        }
        // found the end SGML tag for a NE, e.g., "</ORGANIZATION>"
        else if (w.startsWith("</") && !w.startsWith("</COREF")) {
          Pattern nerPattern = Pattern.compile("</(.*?)>");
          Matcher m = nerPattern.matcher(w);
          m.find();
          String ner1 = m.group(1);
          if (ner != null && !ner.equals(ner1))
            throw new RuntimeException("Unmatched NE labels in MUC file: " + ner + " v. " + ner1);
          ner = null;
        }
        // found the start SGML tag for a coref mention
        else if (w.startsWith("<COREF")) {
          Mention mention = new Mention();
          // position of this mention in the sentence
          mention.startIndex = sentence.size();

          // extract GOLD info about this coref chain. needed for eval
          Pattern idPattern = Pattern.compile("ID=\\\"(.*?)\\\"");
          Pattern refPattern = Pattern.compile("REF=\\\"(.*?)\\\"");

          Matcher m = idPattern.matcher(w);
          m.find();
          mention.mentionID = Integer.valueOf(m.group(1));

          m = refPattern.matcher(w);
          if (m.find()) {
            mention.originalRef = Integer.valueOf(m.group(1));
          }

          // open mention. keep track of all open mentions using the stack
          stack.push(mention);
        }
        // found the end SGML tag for a coref mention
        else if (w.equals("</COREF>")) {
          Mention mention = stack.pop();
          mention.endIndex = sentence.size();

          // this is a closed mention. add it to the final list of mentions
          // System.err.printf("Found MENTION: ID=%d, REF=%d\n", mention.mentionID,
          // mention.originalRef);
          mentions.add(mention);
        } else {
          word.remove(CurrentAnnotation.class);
          if (Constants.USE_GOLD_NE) {
            if (ner != null) {
              word.set(NamedEntityTagAnnotation.class, ner);
            } else {
              word.set(NamedEntityTagAnnotation.class, "O");
            }
          }
          sentence.add(word);
        }
      }
      StringBuilder textContent = new StringBuilder();
      for (int i = 0; i < sentence.size(); i++) {
        CoreLabel w = sentence.get(i);
        w.set(IndexAnnotation.class, i + 1);
        w.set(UtteranceAnnotation.class, 0);
        if (i > 0) textContent.append(" ");
        textContent.append(w.getString(TextAnnotation.class));
      }
      CoreMap sentCoreMap = new Annotation(textContent.toString());
      allSentences.add(sentCoreMap);
      sentCoreMap.set(TokensAnnotation.class, sentence);
    }

    // assign goldCorefClusterID
    HashMap<Integer, Mention> idMention = new HashMap<Integer, Mention>(); // temporary use
    for (int i = 0; i < allGoldMentions.size(); i++) {
      for (int j = 0; j < allGoldMentions.get(i).size(); j++) {
        Mention m = allGoldMentions.get(i).get(j);
        idMention.put(m.mentionID, m);
      }
    }
    for (int i = 0; i < allGoldMentions.size(); i++) {
      for (int j = 0; j < allGoldMentions.get(i).size(); j++) {
        Mention m = allGoldMentions.get(i).get(j);
        if (m.goldCorefClusterID == -1) {
          if (m.originalRef == -1) m.goldCorefClusterID = m.mentionID;
          else {
            Mention m2;
            int ref = m.originalRef;
            while (true) {
              m2 = idMention.get(ref);
              if (m2.goldCorefClusterID != -1) {
                m.goldCorefClusterID = m2.goldCorefClusterID;
                break;
              } else if (m2.originalRef == -1) {
                m2.goldCorefClusterID = m2.mentionID;
                m.goldCorefClusterID = m2.goldCorefClusterID;
                break;
              } else {
                ref = m2.originalRef;
              }
            }
          }
        }
      }
    }

    docAnno.set(SentencesAnnotation.class, allSentences);
    stanfordProcessor.annotate(docAnno);

    if (allSentences.size() != allWords.size()) throw new RuntimeException();
    for (int i = 0; i < allSentences.size(); i++) {
      List<CoreLabel> annotatedSent = allSentences.get(i).get(TokensAnnotation.class);
      List<CoreLabel> unannotatedSent = allWords.get(i);
      List<Mention> mentionInSent = allGoldMentions.get(i);
      for (Mention m : mentionInSent) {
        m.dependency = allSentences.get(i).get(CollapsedDependenciesAnnotation.class);
      }
      if (annotatedSent.size() != unannotatedSent.size()) {
        throw new RuntimeException();
      }
      int k = 0;
      for (int j = 0; j < annotatedSent.size(); j++, k++) {
        CoreLabel annotatedWord = annotatedSent.get(j);
        CoreLabel unannotatedWord = unannotatedSent.get(k);
        if (!annotatedWord
            .get(TextAnnotation.class)
            .equals(unannotatedWord.get(TextAnnotation.class))) {
          throw new RuntimeException();
        }
      }
      allWords.set(i, annotatedSent);
      allTrees.add(allSentences.get(i).get(TreeAnnotation.class));
    }

    // extract predicted mentions
    if (Constants.USE_GOLD_MENTIONS) allPredictedMentions = allGoldMentions;
    else
      allPredictedMentions = mentionFinder.extractPredictedMentions(docAnno, maxID, dictionaries);

    // add the relevant fields to mentions and order them for coref
    return arrange(docAnno, allWords, allTrees, allPredictedMentions, allGoldMentions, true);
  }
 /**
  * Tokenize a sentence in the argument, and print out the tokens to the console.
  *
  * @param args Set the first argument as the sentence to
  *     <p>be tokenized.
  */
 public static void main(String[] args) {
   TokenizerFactory<Word> factory = PTBTokenizerFactory.newTokenizerFactory();
   Tokenizer<Word> tokenizer = factory.getTokenizer(new StringReader(args[0]));
   System.out.println(tokenizer.tokenize());
 }