/** * Returns an iterator that does <b>not</b> support concurrent modification. * <p> * If the underlying list is modified while iterating using this iterator * a ConcurrentModificationException will occur. * The cursor behaviour is available via {@link #listIterator()}. * * @return a new iterator that does <b>not</b> support concurrent modification */ public Iterator iterator() { return super.listIterator(0); }
public Iterator iterator() { return listIterator(); }
/** * Returns an iterator that does <b>not</b> support concurrent modification. * <p> * If the underlying list is modified while iterating using this iterator * a ConcurrentModificationException will occur. * The cursor behaviour is available via {@link #listIterator()}. * * @return a new iterator that does <b>not</b> support concurrent modification */ public Iterator iterator() { return super.listIterator(0); }
public Iterator iterator() { return listIterator(); }
public boolean equals(Object obj) { if (obj == this) { return true; } if (obj instanceof List == false) { return false; } List other = (List) obj; if (other.size() != size()) { return false; } ListIterator it1 = listIterator(); ListIterator it2 = other.listIterator(); while (it1.hasNext() && it2.hasNext()) { Object o1 = it1.next(); Object o2 = it2.next(); if (!(o1 == null ? o2 == null : o1.equals(o2))) return false; } return !(it1.hasNext() || it2.hasNext()); }
public boolean equals(Object obj) { if (obj == this) { return true; } if (obj instanceof List == false) { return false; } List other = (List) obj; if (other.size() != size()) { return false; } ListIterator it1 = listIterator(); ListIterator it2 = other.listIterator(); while (it1.hasNext() && it2.hasNext()) { Object o1 = it1.next(); Object o2 = it2.next(); if (!(o1 == null ? o2 == null : o1.equals(o2))) return false; } return !(it1.hasNext() || it2.hasNext()); }
/** * Returns an iterator that does <b>not</b> support concurrent modification. * <p> * If the underlying list is modified while iterating using this iterator * a ConcurrentModificationException will occur. * The cursor behaviour is available via {@link #listIterator()}. * * @return a new iterator that does <b>not</b> support concurrent modification */ public Iterator iterator() { return super.listIterator(0); }
/** * Returns an iterator that does <b>not</b> support concurrent modification. * <p> * If the underlying list is modified while iterating using this iterator * a ConcurrentModificationException will occur. * The cursor behaviour is available via {@link #listIterator()}. * * @return a new iterator that does <b>not</b> support concurrent modification */ public Iterator iterator() { return super.listIterator(0); }
/** * Returns an iterator that does <b>not</b> support concurrent modification. * <p> * If the underlying list is modified while iterating using this iterator * a ConcurrentModificationException will occur. * The cursor behaviour is available via {@link #listIterator()}. * * @return a new iterator that does <b>not</b> support concurrent modification */ public Iterator iterator() { return super.listIterator(0); }
public Iterator iterator() { return listIterator(); }
/** * Returns an iterator that does <b>not</b> support concurrent modification. * <p> * If the underlying list is modified while iterating using this iterator * a ConcurrentModificationException will occur. * The cursor behaviour is available via {@link #listIterator()}. * * @return a new iterator that does <b>not</b> support concurrent modification */ public Iterator iterator() { return super.listIterator(0); }
/** * Returns an iterator that does <b>not</b> support concurrent modification. * <p> * If the underlying list is modified while iterating using this iterator * a ConcurrentModificationException will occur. * The cursor behaviour is available via {@link #listIterator()}. * * @return a new iterator that does <b>not</b> support concurrent modification */ public Iterator iterator() { return super.listIterator(0); }
public Iterator iterator() { return listIterator(); }
public Iterator iterator() { return listIterator(); }
public Iterator iterator() { return listIterator(); }
public Iterator iterator() { return listIterator(); }
public boolean equals(Object obj) { if (obj == this) { return true; } if (obj instanceof List == false) { return false; } List other = (List) obj; if (other.size() != size()) { return false; } ListIterator it1 = listIterator(); ListIterator it2 = other.listIterator(); while (it1.hasNext() && it2.hasNext()) { Object o1 = it1.next(); Object o2 = it2.next(); if (!(o1 == null ? o2 == null : o1.equals(o2))) return false; } return !(it1.hasNext() || it2.hasNext()); }
public boolean equals(Object obj) { if (obj == this) { return true; } if (obj instanceof List == false) { return false; } List other = (List) obj; if (other.size() != size()) { return false; } ListIterator it1 = listIterator(); ListIterator it2 = other.listIterator(); while (it1.hasNext() && it2.hasNext()) { Object o1 = it1.next(); Object o2 = it2.next(); if (!(o1 == null ? o2 == null : o1.equals(o2))) return false; } return !(it1.hasNext() || it2.hasNext()); }
public boolean equals(Object obj) { if (obj == this) { return true; } if (obj instanceof List == false) { return false; } List other = (List) obj; if (other.size() != size()) { return false; } ListIterator it1 = listIterator(); ListIterator it2 = other.listIterator(); while (it1.hasNext() && it2.hasNext()) { Object o1 = it1.next(); Object o2 = it2.next(); if (!(o1 == null ? o2 == null : o1.equals(o2))) return false; } return !(it1.hasNext() || it2.hasNext()); }
public boolean equals(Object obj) { if (obj == this) { return true; } if (obj instanceof List == false) { return false; } List other = (List) obj; if (other.size() != size()) { return false; } ListIterator it1 = listIterator(); ListIterator it2 = other.listIterator(); while (it1.hasNext() && it2.hasNext()) { Object o1 = it1.next(); Object o2 = it2.next(); if (!(o1 == null ? o2 == null : o1.equals(o2))) return false; } return !(it1.hasNext() || it2.hasNext()); }