コード例 #1
0
ファイル: CfgParseChart.java プロジェクト: matt-gardner/jklol
  /**
   * If this tree contains max-marginals, recover the best parse subtree for a given symbol with the
   * specified span.
   */
  public CfgParseTree getBestParseTreeWithSpan(Object root, int spanStart, int spanEnd) {
    Preconditions.checkState(!sumProduct);

    Assignment rootAssignment = parentVar.outcomeArrayToAssignment(root);
    int rootNonterminalNum = parentVar.assignmentToIntArray(rootAssignment)[0];
    double prob =
        insideChart[spanStart][spanEnd][rootNonterminalNum]
            * outsideChart[spanStart][spanEnd][rootNonterminalNum];

    if (prob == 0.0) {
      return null;
    }

    int splitInd = splitBackpointers[spanStart][spanEnd][rootNonterminalNum];
    if (splitInd < 0) {
      long terminalKey = backpointers[spanStart][spanEnd][rootNonterminalNum];

      int positiveSplitInd = (-1 * splitInd) - 1;
      int terminalSpanStart = positiveSplitInd / numTerminals;
      int terminalSpanEnd = positiveSplitInd % numTerminals;

      // This is a really sucky way to transform the keys back to objects.
      VariableNumMap vars = parentVar.union(ruleTypeVar);
      int[] dimKey = TableFactor.zero(vars).getWeights().keyNumToDimKey(terminalKey);
      Assignment a = vars.intArrayToAssignment(dimKey);
      Object ruleType = a.getValue(ruleTypeVar.getOnlyVariableNum());

      List<Object> terminalList = Lists.newArrayList();
      terminalList.addAll(terminals.subList(terminalSpanStart, terminalSpanEnd + 1));
      return new CfgParseTree(root, ruleType, terminalList, prob, spanStart, spanEnd);
    } else {
      long binaryRuleKey = backpointers[spanStart][spanEnd][rootNonterminalNum];
      int[] binaryRuleComponents =
          binaryRuleDistribution.coerceToDiscrete().getWeights().keyNumToDimKey(binaryRuleKey);

      Assignment best = binaryRuleDistribution.getVars().intArrayToAssignment(binaryRuleComponents);
      Object leftRoot = best.getValue(leftVar.getOnlyVariableNum());
      Object rightRoot = best.getValue(rightVar.getOnlyVariableNum());
      Object ruleType = best.getValue(ruleTypeVar.getOnlyVariableNum());

      Preconditions.checkArgument(
          spanStart + splitInd != spanEnd,
          "CFG parse decoding error: %s %s %s",
          spanStart,
          spanEnd,
          splitInd);
      CfgParseTree leftTree = getBestParseTreeWithSpan(leftRoot, spanStart, spanStart + splitInd);
      CfgParseTree rightTree =
          getBestParseTreeWithSpan(rightRoot, spanStart + splitInd + 1, spanEnd);

      Preconditions.checkState(leftTree != null);
      Preconditions.checkState(rightTree != null);

      return new CfgParseTree(root, ruleType, leftTree, rightTree, prob);
    }
  }
コード例 #2
0
  @Override
  public double getUnnormalizedLogProbability(Assignment assignment) {
    Preconditions.checkArgument(assignment.containsAll(getVars().getVariableNumsArray()));
    Tensor inputFeatureVector =
        (Tensor) assignment.getValue(getInputVariable().getOnlyVariableNum());

    if (conditionalVars.size() == 0) {
      // No normalization for any conditioned-on variables. This case
      // allows a more efficient implementation than the default
      // in ClassifierFactor.
      VariableNumMap outputVars = getOutputVariables();
      Tensor outputTensor =
          SparseTensor.singleElement(
              outputVars.getVariableNumsArray(),
              outputVars.getVariableSizes(),
              outputVars.assignmentToIntArray(assignment),
              1.0);

      Tensor featureIndicator = outputTensor.outerProduct(inputFeatureVector);
      return logWeights.innerProduct(featureIndicator).getByDimKey();
    } else {
      // Default to looking up the answer in the output log probabilities
      int[] outputIndexes = getOutputVariables().assignmentToIntArray(assignment);
      Tensor logProbs = getOutputLogProbTensor(inputFeatureVector);
      return logProbs.getByDimKey(outputIndexes);
    }
  }