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com.twitter.Extractor Maven / Gradle / Ivy


package com.twitter;

import java.util.*;
import java.util.regex.*;

/**
 * A class to extract usernames, lists, hashtags and URLs from Tweet text.
 */
public class Extractor {
  public static class Entity {
    public enum Type {
      URL, HASHTAG, MENTION, CASHTAG
    }
    protected int start;
    protected int end;
    protected final String value;
    // listSlug is used to store the list portion of @mention/list.
    protected final String listSlug;
    protected final Type type;

    protected String displayURL = null;
    protected String expandedURL = null;

    public Entity(int start, int end, String value, String listSlug, Type type) {
      this.start = start;
      this.end = end;
      this.value = value;
      this.listSlug = listSlug;
      this.type = type;
    }

    public Entity(int start, int end, String value, Type type) {
      this(start, end, value, null, type);
    }

    public Entity(Matcher matcher, Type type, int groupNumber) {
      // Offset -1 on start index to include @, # symbols for mentions and hashtags
      this(matcher, type, groupNumber, -1);
    }

    public Entity(Matcher matcher, Type type, int groupNumber, int startOffset) {
      this(matcher.start(groupNumber) + startOffset, matcher.end(groupNumber), matcher.group(groupNumber), type);
    }

    @Override
    public boolean equals(Object obj) {
      if (this == obj) {
        return true;
      }

      if (!(obj instanceof Entity)) {
        return false;
      }

      Entity other = (Entity)obj;

      if (this.type.equals(other.type) &&
          this.start == other.start &&
          this.end == other.end &&
          this.value.equals(other.value)) {
        return true;
      } else {
        return false;
      }
    }

    @Override
    public int hashCode() {
      return this.type.hashCode() + this.value.hashCode() + this.start + this.end;
    }

    @Override
    public String toString() {
      return value + "(" + type +") [" +start + "," + end +"]";
    }

    public Integer getStart() {
      return start;
    }

    public Integer getEnd() {
      return end;
    }

    public String getValue() {
      return value;
    }

    public String getListSlug() {
      return listSlug;
    }

    public Type getType() {
      return type;
    }

    public String getDisplayURL() {
      return displayURL;
    }

    public void setDisplayURL(String displayURL) {
      this.displayURL = displayURL;
    }

    public String getExpandedURL() {
      return expandedURL;
    }

    public void setExpandedURL(String expandedURL) {
      this.expandedURL = expandedURL;
    }
  }

  protected boolean extractURLWithoutProtocol = true;

  /**
   * Create a new extractor.
   */
  public Extractor() {
  }

  private void removeOverlappingEntities(List entities) {
    // sort by index
    Collections.sort(entities, new Comparator() {
      public int compare(Entity e1, Entity e2) {
        return e1.start - e2.start;
      }
    });

    // Remove overlapping entities.
    // Two entities overlap only when one is URL and the other is hashtag/mention
    // which is a part of the URL. When it happens, we choose URL over hashtag/mention
    // by selecting the one with smaller start index.
    if (!entities.isEmpty()) {
      Iterator it = entities.iterator();
      Entity prev = it.next();
      while (it.hasNext()) {
        Entity cur = it.next();
        if (prev.getEnd() > cur.getStart()) {
          it.remove();
        } else {
          prev = cur;
        }
      }
    }
  }

  /**
   * Extract URLs, @mentions, lists and #hashtag from a given text/tweet.
   * @param text text of tweet
   * @return list of extracted entities
   */
  public List extractEntitiesWithIndices(String text) {
    List entities = new ArrayList();
    entities.addAll(extractURLsWithIndices(text));
    entities.addAll(extractHashtagsWithIndices(text, false));
    entities.addAll(extractMentionsOrListsWithIndices(text));
    entities.addAll(extractCashtagsWithIndices(text));

    removeOverlappingEntities(entities);
    return entities;
  }

  /**
   * Extract @username references from Tweet text. A mention is an occurance of @username anywhere in a Tweet.
   *
   * @param text of the tweet from which to extract usernames
   * @return List of usernames referenced (without the leading @ sign)
   */
  public List extractMentionedScreennames(String text) {
    if (text == null || text.isEmpty()) {
      return Collections.emptyList();
    }

    List extracted = new ArrayList();
    for (Entity entity : extractMentionedScreennamesWithIndices(text)) {
      extracted.add(entity.value);
    }
    return extracted;
  }

  /**
   * Extract @username references from Tweet text. A mention is an occurance of @username anywhere in a Tweet.
   *
   * @param text of the tweet from which to extract usernames
   * @return List of usernames referenced (without the leading @ sign)
   */
  public List extractMentionedScreennamesWithIndices(String text) {
    List extracted = new ArrayList();
    for (Entity entity : extractMentionsOrListsWithIndices(text)) {
      if (entity.listSlug == null) {
        extracted.add(entity);
      }
    }
    return extracted;
  }

  public List extractMentionsOrListsWithIndices(String text) {
    if (text == null || text.isEmpty()) {
      return Collections.emptyList();
    }

    // Performance optimization.
    // If text doesn't contain @/@ at all, the text doesn't
    // contain @mention. So we can simply return an empty list.
    boolean found = false;
    for (char c : text.toCharArray()) {
      if (c == '@' || c == '@') {
        found = true;
        break;
      }
    }
    if (!found) {
      return Collections.emptyList();
    }

    List extracted = new ArrayList();
    Matcher matcher = Regex.VALID_MENTION_OR_LIST.matcher(text);
    while (matcher.find()) {
      String after = text.substring(matcher.end());
      if (! Regex.INVALID_MENTION_MATCH_END.matcher(after).find()) {
        if (matcher.group(Regex.VALID_MENTION_OR_LIST_GROUP_LIST) == null) {
          extracted.add(new Entity(matcher, Entity.Type.MENTION, Regex.VALID_MENTION_OR_LIST_GROUP_USERNAME));
        } else {
          extracted.add(new Entity(matcher.start(Regex.VALID_MENTION_OR_LIST_GROUP_USERNAME) - 1,
              matcher.end(Regex.VALID_MENTION_OR_LIST_GROUP_LIST),
              matcher.group(Regex.VALID_MENTION_OR_LIST_GROUP_USERNAME),
              matcher.group(Regex.VALID_MENTION_OR_LIST_GROUP_LIST),
              Entity.Type.MENTION));
        }
      }
    }
    return extracted;
  }

  /**
   * Extract a @username reference from the beginning of Tweet text. A reply is an occurance of @username at the
   * beginning of a Tweet, preceded by 0 or more spaces.
   *
   * @param text of the tweet from which to extract the replied to username
   * @return username referenced, if any (without the leading @ sign). Returns null if this is not a reply.
   */
  public String extractReplyScreenname(String text) {
    if (text == null) {
      return null;
    }

    Matcher matcher = Regex.VALID_REPLY.matcher(text);
    if (matcher.find()) {
      String after = text.substring(matcher.end());
      if (Regex.INVALID_MENTION_MATCH_END.matcher(after).find()) {
        return null;
      } else {
        return matcher.group(Regex.VALID_REPLY_GROUP_USERNAME);
      }
    } else {
      return null;
    }
  }

  /**
   * Extract URL references from Tweet text.
   *
   * @param text of the tweet from which to extract URLs
   * @return List of URLs referenced.
   */
  public List extractURLs(String text) {
    if (text == null || text.isEmpty()) {
      return Collections.emptyList();
    }

    List urls = new ArrayList();
    for (Entity entity : extractURLsWithIndices(text)) {
      urls.add(entity.value);
    }
    return urls;
  }

  /**
   * Extract URL references from Tweet text.
   *
   * @param text of the tweet from which to extract URLs
   * @return List of URLs referenced.
   */
  public List extractURLsWithIndices(String text) {
    if (text == null || text.isEmpty()
        || (extractURLWithoutProtocol ? text.indexOf('.') : text.indexOf(':')) == -1) {
      // Performance optimization.
      // If text doesn't contain '.' or ':' at all, text doesn't contain URL,
      // so we can simply return an empty list.
      return Collections.emptyList();
    }

    List urls = new ArrayList();

    Matcher matcher = Regex.VALID_URL.matcher(text);
    while (matcher.find()) {
      if (matcher.group(Regex.VALID_URL_GROUP_PROTOCOL) == null) {
        // skip if protocol is not present and 'extractURLWithoutProtocol' is false
        // or URL is preceded by invalid character.
        if (!extractURLWithoutProtocol
            || Regex.INVALID_URL_WITHOUT_PROTOCOL_MATCH_BEGIN
                    .matcher(matcher.group(Regex.VALID_URL_GROUP_BEFORE)).matches()) {
          continue;
        }
      }
      String url = matcher.group(Regex.VALID_URL_GROUP_URL);
      int start = matcher.start(Regex.VALID_URL_GROUP_URL);
      int end = matcher.end(Regex.VALID_URL_GROUP_URL);
      Matcher tco_matcher = Regex.VALID_TCO_URL.matcher(url);
      if (tco_matcher.find()) {
        // In the case of t.co URLs, don't allow additional path characters.
        url = tco_matcher.group();
        end = start + url.length();
      }

      urls.add(new Entity(start, end, url, Entity.Type.URL));
    }

    return urls;
  }


  /**
   * Extract #hashtag references from Tweet text.
   *
   * @param text of the tweet from which to extract hashtags
   * @return List of hashtags referenced (without the leading # sign)
   */
  public List extractHashtags(String text) {
    if (text == null || text.isEmpty()) {
      return Collections.emptyList();
    }

    List extracted = new ArrayList();
    for (Entity entity : extractHashtagsWithIndices(text)) {
      extracted.add(entity.value);
    }

    return extracted;
  }

  /**
   * Extract #hashtag references from Tweet text.
   *
   * @param text of the tweet from which to extract hashtags
   * @return List of hashtags referenced (without the leading # sign)
   */
  public List extractHashtagsWithIndices(String text) {
    return extractHashtagsWithIndices(text, true);
  }

  /**
   * Extract #hashtag references from Tweet text.
   *
   * @param text of the tweet from which to extract hashtags
   * @param checkUrlOverlap if true, check if extracted hashtags overlap URLs and remove overlapping ones
   * @return List of hashtags referenced (without the leading # sign)
   */
  private List extractHashtagsWithIndices(String text, boolean checkUrlOverlap) {
    if (text == null || text.isEmpty()) {
      return Collections.emptyList();
    }

    // Performance optimization.
    // If text doesn't contain #/# at all, text doesn't contain
    // hashtag, so we can simply return an empty list.
    boolean found = false;
    for (char c : text.toCharArray()) {
      if (c == '#' || c == '#') {
        found = true;
        break;
      }
    }
    if (!found) {
      return Collections.emptyList();
    }

    List extracted = new ArrayList();
    Matcher matcher = Regex.VALID_HASHTAG.matcher(text);

    while (matcher.find()) {
      String after = text.substring(matcher.end());
      if (!Regex.INVALID_HASHTAG_MATCH_END.matcher(after).find()) {
        extracted.add(new Entity(matcher, Entity.Type.HASHTAG, Regex.VALID_HASHTAG_GROUP_TAG));
      }
    }

    if (checkUrlOverlap) {
      // extract URLs
      List urls = extractURLsWithIndices(text);
      if (!urls.isEmpty()) {
        extracted.addAll(urls);
        // remove overlap
        removeOverlappingEntities(extracted);
        // remove URL entities
        Iterator it = extracted.iterator();
        while (it.hasNext()) {
          Entity entity = it.next();
          if (entity.getType() != Entity.Type.HASHTAG) {
            it.remove();
          }
        }
      }
    }

    return extracted;
  }

  /**
   * Extract $cashtag references from Tweet text.
   *
   * @param text of the tweet from which to extract cashtags
   * @return List of cashtags referenced (without the leading $ sign)
   */
  public List extractCashtags(String text) {
    if (text == null || text.isEmpty()) {
      return Collections.emptyList();
    }

    List extracted = new ArrayList();
    for (Entity entity : extractCashtagsWithIndices(text)) {
      extracted.add(entity.value);
    }

    return extracted;
  }

  /**
   * Extract $cashtag references from Tweet text.
   *
   * @param text of the tweet from which to extract cashtags
   * @return List of cashtags referenced (without the leading $ sign)
   */
  public List extractCashtagsWithIndices(String text) {
    if (text == null || text.isEmpty()) {
      return Collections.emptyList();
    }

    // Performance optimization.
    // If text doesn't contain $, text doesn't contain
    // cashtag, so we can simply return an empty list.
    if (text.indexOf('$') == -1) {
      return Collections.emptyList();

    }

    List extracted = new ArrayList();
    Matcher matcher = Regex.VALID_CASHTAG.matcher(text);

    while (matcher.find()) {
      extracted.add(new Entity(matcher, Entity.Type.CASHTAG, Regex.VALID_CASHTAG_GROUP_CASHTAG));
    }

    return extracted;
  }

  public void setExtractURLWithoutProtocol(boolean extractURLWithoutProtocol) {
    this.extractURLWithoutProtocol = extractURLWithoutProtocol;
  }

  public boolean isExtractURLWithoutProtocol() {
    return extractURLWithoutProtocol;
  }

  /*
   * Modify Unicode-based indices of the entities to UTF-16 based indices.
   *
   * In UTF-16 based indices, Unicode supplementary characters are counted as two characters.
   *
   * This method requires that the list of entities be in ascending order by start index.
   *
   * @param text original text
   * @param entities entities with Unicode based indices
   */
  public void modifyIndicesFromUnicodeToUTF16(String text, List entities) {
    IndexConverter convert = new IndexConverter(text);

    for (Entity entity : entities) {
      entity.start = convert.codePointsToCodeUnits(entity.start);
      entity.end = convert.codePointsToCodeUnits(entity.end);
    }
  }

  /*
   * Modify UTF-16-based indices of the entities to Unicode-based indices.
   *
   * In Unicode-based indices, Unicode supplementary characters are counted as single characters.
   *
   * This method requires that the list of entities be in ascending order by start index.
   *
   * @param text original text
   * @param entities entities with UTF-16 based indices
   */
  public void modifyIndicesFromUTF16ToToUnicode(String text, List entities) {
    IndexConverter convert = new IndexConverter(text);

    for (Entity entity : entities) {
      entity.start = convert.codeUnitsToCodePoints(entity.start);
      entity.end = convert.codeUnitsToCodePoints(entity.end);
    }
  }

  /**
   * An efficient converter of indices between code points and code units.
   */
  private static final class IndexConverter {
    protected final String text;

    // Keep track of a single corresponding pair of code unit and code point
    // offsets so that we can re-use counting work if the next requested
    // entity is near the most recent entity.
    protected int codePointIndex = 0;
    protected int charIndex = 0;

    IndexConverter(String text) {
      this.text = text;
    }

    /**
     * @param charIndex Index into the string measured in code units.
     * @return The code point index that corresponds to the specified character index.
     */
    int codeUnitsToCodePoints(int charIndex) {
      if (charIndex < this.charIndex) {
        this.codePointIndex -= text.codePointCount(charIndex, this.charIndex);
      } else {
        this.codePointIndex += text.codePointCount(this.charIndex, charIndex);
      }
      this.charIndex = charIndex;

      // Make sure that charIndex never points to the second code unit of a
      // surrogate pair.
      if (charIndex > 0 && Character.isSupplementaryCodePoint(text.codePointAt(charIndex - 1))) {
        this.charIndex -= 1;
      }
      return this.codePointIndex;
    }

    /**
     * @param codePointIndex Index into the string measured in code points.
     * @return the code unit index that corresponds to the specified code point index.
     */
    int codePointsToCodeUnits(int codePointIndex) {
      // Note that offsetByCodePoints accepts negative indices.
      this.charIndex = text.offsetByCodePoints(this.charIndex, codePointIndex - this.codePointIndex);
      this.codePointIndex = codePointIndex;
      return this.charIndex;
    }
  }
}




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