Exemple #1
0
  public double similarity(String word, int k1, String word2, int k2) {
    if (k1 > K || k2 > K) return -1;

    if (word.equals(word2) && k1 == k2) return 1.0;

    INDArray vector = Transforms.unitVec(getWordVectorMatrix(word, k1));
    INDArray vector2 = Transforms.unitVec(getWordVectorMatrix(word2, k2));
    if (vector == null || vector2 == null) return -1;
    return Nd4j.getBlasWrapper().dot(vector, vector2);
  }
  @Test
  public void testWordsNearestBasic1() throws Exception {

    // WordVectors vec = WordVectorSerializer.loadTxtVectors(new
    // File("/ext/Temp/Models/model.dat_trans"));
    vec.setModelUtils(new BasicModelUtils<VocabWord>());

    String target = "energy";

    INDArray arr1 = vec.getWordVectorMatrix(target).dup();

    System.out.println("[-]: " + arr1);
    System.out.println("[+]: " + Transforms.unitVec(arr1));

    Collection<String> list = vec.wordsNearest(target, 10);
    log.info("Transpose model results:");
    printWords(target, list, vec);

    list = vec.wordsNearest(target, 10);
    log.info("Transpose model results 2:");
    printWords(target, list, vec);

    list = vec.wordsNearest(target, 10);
    log.info("Transpose model results 3:");
    printWords(target, list, vec);

    INDArray arr2 = vec.getWordVectorMatrix(target).dup();

    assertEquals(arr1, arr2);
  }
  /**
   * @return
   * @throws NumberFormatException
   * @throws IOException
   * @throws FileNotFoundException
   */
  private static Word2Vec readBinaryModel(File modelFile)
      throws NumberFormatException, IOException {
    InMemoryLookupTable lookupTable;
    VocabCache cache;
    INDArray syn0;
    int words, size;
    try (BufferedInputStream bis =
            new BufferedInputStream(
                GzipUtils.isCompressedFilename(modelFile.getName())
                    ? new GZIPInputStream(new FileInputStream(modelFile))
                    : new FileInputStream(modelFile));
        DataInputStream dis = new DataInputStream(bis)) {
      words = Integer.parseInt(readString(dis));
      size = Integer.parseInt(readString(dis));
      syn0 = Nd4j.create(words, size);
      cache = new InMemoryLookupCache(false);
      lookupTable =
          (InMemoryLookupTable)
              new InMemoryLookupTable.Builder().cache(cache).vectorLength(size).build();

      String word;
      for (int i = 0; i < words; i++) {

        word = readString(dis);
        log.trace("Loading " + word + " with word " + i);
        if (word.isEmpty()) {
          continue;
        }

        float[] vector = new float[size];

        for (int j = 0; j < size; j++) {
          vector[j] = readFloat(dis);
        }

        syn0.putRow(i, Transforms.unitVec(Nd4j.create(vector)));

        cache.addWordToIndex(cache.numWords(), word);
        cache.addToken(new VocabWord(1, word));
        cache.putVocabWord(word);
      }
    }

    Word2Vec ret = new Word2Vec();

    lookupTable.setSyn0(syn0);
    ret.setVocab(cache);
    ret.setLookupTable(lookupTable);
    return ret;
  }
  /**
   * Words nearest based on positive and negative words * @param top the top n words
   *
   * @return the words nearest the mean of the words
   */
  @Override
  public Collection<String> wordsNearest(INDArray words, int top) {
    if (lookupTable instanceof InMemoryLookupTable) {
      InMemoryLookupTable l = (InMemoryLookupTable) lookupTable;

      INDArray syn0 = l.getSyn0();

      if (!normalized) {
        synchronized (this) {
          if (!normalized) {
            syn0.diviColumnVector(syn0.norm1(1));
            normalized = true;
          }
        }
      }

      INDArray similarity = Transforms.unitVec(words).mmul(syn0.transpose());

      List<Double> highToLowSimList = getTopN(similarity, top + 20);

      List<WordSimilarity> result = new ArrayList<>();

      for (int i = 0; i < highToLowSimList.size(); i++) {
        String word = vocabCache.wordAtIndex(highToLowSimList.get(i).intValue());
        if (word != null && !word.equals("UNK") && !word.equals("STOP")) {
          INDArray otherVec = lookupTable.vector(word);
          double sim = Transforms.cosineSim(words, otherVec);

          result.add(new WordSimilarity(word, sim));
        }
      }

      Collections.sort(result, new SimilarityComparator());

      return getLabels(result, top);
    }

    Counter<String> distances = new Counter<>();

    for (String s : vocabCache.words()) {
      INDArray otherVec = lookupTable.vector(s);
      double sim = Transforms.cosineSim(words, otherVec);
      distances.incrementCount(s, sim);
    }

    distances.keepTopNKeys(top);
    return distances.keySet();
  }
  /**
   * @param modelFile
   * @return
   * @throws FileNotFoundException
   * @throws IOException
   * @throws NumberFormatException
   */
  private static Word2Vec readTextModel(File modelFile) throws IOException, NumberFormatException {
    InMemoryLookupTable lookupTable;
    VocabCache cache;
    INDArray syn0;
    BufferedReader reader = new BufferedReader(new FileReader(modelFile));
    String line = reader.readLine();
    String[] initial = line.split(" ");
    int words = Integer.parseInt(initial[0]);
    int layerSize = Integer.parseInt(initial[1]);
    syn0 = Nd4j.create(words, layerSize);

    cache = new InMemoryLookupCache();

    int currLine = 0;
    while ((line = reader.readLine()) != null) {
      String[] split = line.split(" ");
      String word = split[0];

      if (word.isEmpty()) {
        continue;
      }

      float[] vector = new float[split.length - 1];
      for (int i = 1; i < split.length; i++) {
        vector[i - 1] = Float.parseFloat(split[i]);
      }

      syn0.putRow(currLine, Transforms.unitVec(Nd4j.create(vector)));

      cache.addWordToIndex(cache.numWords(), word);
      cache.addToken(new VocabWord(1, word));
      cache.putVocabWord(word);
    }

    lookupTable =
        (InMemoryLookupTable)
            new InMemoryLookupTable.Builder().cache(cache).vectorLength(layerSize).build();
    lookupTable.setSyn0(syn0);

    Word2Vec ret = new Word2Vec();
    ret.setVocab(cache);
    ret.setLookupTable(lookupTable);

    reader.close();
    return ret;
  }
  /**
   * Get the top n words most similar to the given word
   *
   * @param word the word to compare
   * @param n the n to get
   * @return the top n words
   */
  public Collection<String> wordsNearestSum(String word, int n) {
    INDArray vec = Transforms.unitVec(this.getWordVectorMatrix(word));

    if (lookupTable() instanceof InMemoryLookupTable) {
      InMemoryLookupTable l = (InMemoryLookupTable) lookupTable();
      INDArray syn0 = l.getSyn0();
      INDArray weights = syn0.norm2(0).rdivi(1).muli(vec);
      INDArray distances = syn0.mulRowVector(weights).sum(1);
      INDArray[] sorted = Nd4j.sortWithIndices(distances, 0, false);
      INDArray sort = sorted[0];
      List<String> ret = new ArrayList<>();
      SequenceElement word2 = vocab().wordFor(word);
      if (n > sort.length()) n = sort.length();
      // there will be a redundant word
      for (int i = 0; i < n + 1; i++) {
        if (sort.getInt(i) == word2.getIndex()) continue;
        String add = vocab().wordAtIndex(sort.getInt(i));
        if (add == null || add.equals("UNK") || add.equals("STOP")) {
          continue;
        }

        ret.add(vocab().wordAtIndex(sort.getInt(i)));
      }

      return ret;
    }

    if (vec == null) return new ArrayList<>();
    Counter<String> distances = new Counter<>();

    for (String s : vocab().words()) {
      if (s.equals(word)) continue;
      INDArray otherVec = getWordVectorMatrix(s);
      double sim = Transforms.cosineSim(vec, otherVec);
      distances.incrementCount(s, sim);
    }

    distances.keepTopNKeys(n);
    return distances.keySet();
  }
Exemple #7
0
  public Collection<String> wordsNearest(String word, int k, int n) {
    INDArray vector = Transforms.unitVec(getWordVectorMatrix(word, k));
    INDArray similarity = vector.mmul(syn0.transpose());
    List<Double> highToLowSimList = getTopN(similarity, n);
    List<String> ret = new ArrayList();

    for (int i = 1; i < highToLowSimList.size(); i++) {
      word =
          vocab.wordAtIndex(highToLowSimList.get(i).intValue() % vocab.numWords())
              + "("
              + highToLowSimList.get(i).intValue() / vocab.numWords()
              + ")";
      if (word != null && !word.equals("UNK") && !word.equals("STOP")) {
        ret.add(word);
        if (ret.size() >= n) {
          break;
        }
      }
    }

    return ret;
  }
  /**
   * Words nearest based on positive and negative words
   *
   * @param positive the positive words
   * @param negative the negative words
   * @param top the top n words
   * @return the words nearest the mean of the words
   */
  @Override
  public Collection<String> wordsNearest(
      Collection<String> positive, Collection<String> negative, int top) {
    // Check every word is in the model
    for (String p : SetUtils.union(new HashSet<>(positive), new HashSet<>(negative))) {
      if (!vocab().containsWord(p)) {
        return new ArrayList<>();
      }
    }

    WeightLookupTable weightLookupTable = lookupTable();
    INDArray words = Nd4j.create(positive.size() + negative.size(), weightLookupTable.layerSize());
    int row = 0;
    Set<String> union = SetUtils.union(new HashSet<>(positive), new HashSet<>(negative));
    for (String s : positive) {
      words.putRow(row++, weightLookupTable.vector(s));
    }

    for (String s : negative) {
      words.putRow(row++, weightLookupTable.vector(s).mul(-1));
    }

    INDArray mean = words.isMatrix() ? words.mean(0) : words;
    // TODO this should probably be replaced with wordsNearest(mean, top)
    if (weightLookupTable instanceof InMemoryLookupTable) {
      InMemoryLookupTable l = (InMemoryLookupTable) weightLookupTable;

      INDArray syn0 = l.getSyn0();
      syn0.diviRowVector(syn0.norm2(0));

      INDArray similarity = Transforms.unitVec(mean).mmul(syn0.transpose());
      // We assume that syn0 is normalized.
      // Hence, the following division is not needed anymore.
      // distances.diviRowVector(distances.norm2(1));
      // INDArray[] sorted = Nd4j.sortWithIndices(distances,0,false);
      List<Double> highToLowSimList = getTopN(similarity, top + union.size());
      List<String> ret = new ArrayList<>();

      for (int i = 0; i < highToLowSimList.size(); i++) {
        String word = vocab().wordAtIndex(highToLowSimList.get(i).intValue());
        if (word != null && !word.equals("UNK") && !word.equals("STOP") && !union.contains(word)) {
          ret.add(word);
          if (ret.size() >= top) {
            break;
          }
        }
      }

      return ret;
    }

    Counter<String> distances = new Counter<>();

    for (String s : vocab().words()) {
      INDArray otherVec = getWordVectorMatrix(s);
      double sim = Transforms.cosineSim(mean, otherVec);
      distances.incrementCount(s, sim);
    }

    distances.keepTopNKeys(top);
    return distances.keySet();
  }