adjacentEdges.trimToSize(); componentEdges.addAll(adjacentEdges);
public Document(Vector<String> _words, int _classID) { classID = _classID; words = _words; words.trimToSize(); // for(int i=0;i<words.size();i++) // wordsHash.put(words.elementAt(i), true); }
public Document(Vector<String> _words, int _classID) { classID = _classID; words = _words; words.trimToSize(); // for(int i=0;i<words.size();i++) // wordsHash.put(words.elementAt(i), true); }
public void trimSpecials() { if ( specialTokens == null ) return; specialTokens.trimToSize(); }
public Document(String[] _words, int _classID) { classID = _classID; words = new Vector<>(); for (String _word : _words) words.addElement(_word); words.trimToSize(); // for(int i=0;i<words.size();i++) // wordsHash.put(words.elementAt(i), true); }
public Document(String[] _words, int _classID) { classID = _classID; words = new Vector<>(); for (String _word : _words) words.addElement(_word); words.trimToSize(); // for(int i=0;i<words.size();i++) // wordsHash.put(words.elementAt(i), true); }
public Document(String[] _words, int _classID) { classID = _classID; words = new Vector<>(); for (String _word : _words) words.addElement(_word); words.trimToSize(); // for(int i=0;i<words.size();i++) // wordsHash.put(words.elementAt(i), true); }
/** * @see java.util.Vector#trimToSize() */ @Override public void trimToSize() { getDelegate().trimToSize(); }
/** * @see java.util.Vector#trimToSize() */ @Override public void trimToSize() { getDelegate().trimToSize(); }
/** * Sort the given String enumeration. * @return A sorted vector of String. */ public static Vector sortStringEnumeration(Enumeration e) { Vector sorted = new Vector() ; while ( e.hasMoreElements() ) { orderedStringInsert((String) e.nextElement(), sorted) ; } sorted.trimToSize(); return sorted ; }
/** * First wait until complete. */ public synchronized void trimToSize() { waitUntilComplete(); super.trimToSize(); } }
/** * First wait until complete. */ public synchronized void trimToSize() { waitUntilComplete(); super.trimToSize(); } }
/** * @see java.util.Vector#trimToSize() */ public void trimToSize() { getDelegate().trimToSize(); }
/** * First wait until complete. */ public synchronized void trimToSize() { waitUntilComplete(); super.trimToSize(); } }
/** * Sort the given Comparable enumeration. * @return A sorted vector of Comparable instance. */ public static Vector sortComparableEnumeration(Enumeration e) { Vector sorted = new Vector() ; while ( e.hasMoreElements() ) { orderedComparableInsert((Comparable) e.nextElement(), sorted) ; } sorted.trimToSize(); return sorted ; }
public synchronized void trimToSize() { if (!_directAccess && isDelayLoad()) { load(); } super.trimToSize(); }
public synchronized void trimToSize() { if (!_directAccess && isDelayLoad()) { load(); } super.trimToSize(); }
public synchronized void trimToSize() { if (!_directAccess && isDelayLoad()) { load(); } super.trimToSize(); }
public synchronized void trimToSize() { if (!_directAccess && isDelayLoad()) { load(); } super.trimToSize(); }
@Test(expected = ReactiveAuditException.class) public void trimToSize() { ReactiveAudit.off.commit(); Vector vector=new Vector(); TestTools.strict.commit(); vector.trimToSize(); } @Test(expected = ReactiveAuditException.class)