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Stanford Parser processes raw text in English, Chinese, German, Arabic, and French, and extracts constituency parse trees.
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package edu.stanford.nlp.parser.lexparser;
import java.io.Serializable;
import edu.stanford.nlp.util.Index;
import edu.stanford.nlp.util.StringUtils;
/**
* Binary rules (ints for parent, left and right children)
*
* @author Dan Klein
* @author Christopher Manning
*/
public class BinaryRule implements Rule, Comparable, Serializable {
public int parent;
/**
* Score should be a log probability
*/
public float score;
public int leftChild;
public int rightChild;
/** Create a new BinaryRule with the parent and children coded as ints.
* Score defaults to Float.NaN.
* @param parent The parent int
* @param leftChild The left child int
* @param rightChild The right child int
*/
public BinaryRule(int parent, int leftChild, int rightChild) {
this.parent = parent;
this.leftChild = leftChild;
this.rightChild = rightChild;
this.score = Float.NaN;
}
public BinaryRule(int parent, int leftChild, int rightChild, double score) {
this.parent = parent;
this.leftChild = leftChild;
this.rightChild = rightChild;
this.score = (float) score;
}
/**
* Creates a BinaryRule from String s, assuming it was created using toString().
*
* @param s A String in which the binary rule is represented as parent,
* left-child, right-child, score, with the items quoted as needed
* @param index Index used to convert String names to ints
*/
public BinaryRule(String s, Index index) {
String[] fields = StringUtils.splitOnCharWithQuoting(s, ' ', '\"', '\\');
// System.out.println("fields:\n" + fields[0] + "\n" + fields[2] + "\n" + fields[3] + "\n" + fields[4]);
this.parent = index.addToIndex(fields[0]);
this.leftChild = index.addToIndex(fields[2]);
this.rightChild = index.addToIndex(fields[3]);
this.score = Float.parseFloat(fields[4]);
}
public float score() {
return score;
}
public int parent() {
return parent;
}
private int hashCode = -1;
@Override
public int hashCode() {
if (hashCode < 0) {
hashCode = (parent << 16) ^ (leftChild << 8) ^ rightChild;
}
return hashCode;
}
@Override
public boolean equals(Object o) {
if (this == o) {
return true;
}
if (o instanceof BinaryRule) {
BinaryRule br = (BinaryRule) o;
if (parent == br.parent && leftChild == br.leftChild && rightChild == br.rightChild) {
return true;
}
}
return false;
}
private static final char[] charsToEscape = { '\"' };
public String toString() {
return parent + " -> " + leftChild + ' ' + rightChild + ' ' + score;
}
public String toString(Index index) {
return '\"' + StringUtils.escapeString(index.get(parent), charsToEscape, '\\') + "\" -> \"" + StringUtils.escapeString(index.get(leftChild), charsToEscape, '\\') + "\" \"" + StringUtils.escapeString(index.get(rightChild), charsToEscape, '\\') + "\" " + score;
}
private transient String cached; // = null;
public String toStringNoScore(Index index) {
if (cached == null) {
cached = '\"' + StringUtils.escapeString(index.get(parent), charsToEscape, '\\') + "\" -> \"" + StringUtils.escapeString(index.get(leftChild), charsToEscape, '\\') + "\" \"" + StringUtils.escapeString(index.get(rightChild), charsToEscape, '\\');
}
return cached;
}
public int compareTo(BinaryRule br) {
if (parent < br.parent) {
return -1;
}
if (parent > br.parent) {
return 1;
}
if (leftChild < br.leftChild) {
return -1;
}
if (leftChild > br.leftChild) {
return 1;
}
if (rightChild < br.rightChild) {
return -1;
}
if (rightChild > br.rightChild) {
return 1;
}
return 0;
}
private static final long serialVersionUID = 1L;
}