public void forEach(Consumer<? super Integer> action) { if (action == null) throw new java.lang.NullPointerException(); if (this.isEmpty()) return; int mc = modCount(); int free = freeValue; int removed = removedValue; long[] tab = table; long base = LONG_BASE + INT_KEY_OFFSET; if (noRemoved()) { for (long off = ((long) tab.length) << LONG_SCALE_SHIFT; (off -= LONG_SCALE) >= 0L;) { int key; if ((key = U.getInt(tab, base + off)) != free) { action.accept(key); } } } else { for (long off = ((long) tab.length) << LONG_SCALE_SHIFT; (off -= LONG_SCALE) >= 0L;) { int key; if ((key = U.getInt(tab, base + off)) != free && key != removed) { action.accept(key); } } } if (mc != modCount()) throw new java.util.ConcurrentModificationException(); }
public String setToString() { if (this.isEmpty()) return "[]"; StringBuilder sb = new StringBuilder();
public String setToString() { if (this.isEmpty()) return "[]"; StringBuilder sb = new StringBuilder();
public void forEach(Consumer<? super Integer> action) { if (action == null) throw new java.lang.NullPointerException(); if (this.isEmpty()) return; int mc = modCount(); int free = freeValue; int removed = removedValue; long[] tab = table; long base = LONG_BASE + INT_KEY_OFFSET; if (noRemoved()) { for (long off = ((long) tab.length) << LONG_SCALE_SHIFT; (off -= LONG_SCALE) >= 0L;) { int key; if ((key = U.getInt(tab, base + off)) != free) { action.accept(key); } } } else { for (long off = ((long) tab.length) << LONG_SCALE_SHIFT; (off -= LONG_SCALE) >= 0L;) { int key; if ((key = U.getInt(tab, base + off)) != free && key != removed) { action.accept(key); } } } if (mc != modCount()) throw new java.util.ConcurrentModificationException(); }
public void forEach(IntConsumer action) { if (action == null) throw new java.lang.NullPointerException(); if (this.isEmpty()) return; int mc = modCount(); int free = freeValue; int removed = removedValue; long[] tab = table; long base = LONG_BASE + INT_KEY_OFFSET; if (noRemoved()) { for (long off = ((long) tab.length) << LONG_SCALE_SHIFT; (off -= LONG_SCALE) >= 0L;) { int key; if ((key = U.getInt(tab, base + off)) != free) { action.accept(key); } } } else { for (long off = ((long) tab.length) << LONG_SCALE_SHIFT; (off -= LONG_SCALE) >= 0L;) { int key; if ((key = U.getInt(tab, base + off)) != free && key != removed) { action.accept(key); } } } if (mc != modCount()) throw new java.util.ConcurrentModificationException(); }
boolean removeAll(@Nonnull HashIntSet thisC, @Nonnull Collection<?> c) { if (thisC == (Object) c) throw new IllegalArgumentException(); if (this.isEmpty() || c.isEmpty()) return false; boolean changed = false;
public void forEach(IntConsumer action) { if (action == null) throw new java.lang.NullPointerException(); if (this.isEmpty()) return; int mc = modCount(); int free = freeValue; int removed = removedValue; long[] tab = table; long base = LONG_BASE + INT_KEY_OFFSET; if (noRemoved()) { for (long off = ((long) tab.length) << LONG_SCALE_SHIFT; (off -= LONG_SCALE) >= 0L;) { int key; if ((key = U.getInt(tab, base + off)) != free) { action.accept(key); } } } else { for (long off = ((long) tab.length) << LONG_SCALE_SHIFT; (off -= LONG_SCALE) >= 0L;) { int key; if ((key = U.getInt(tab, base + off)) != free && key != removed) { action.accept(key); } } } if (mc != modCount()) throw new java.util.ConcurrentModificationException(); }
public boolean reverseAddAllTo(IntCollection c) { if (this.isEmpty()) return false; boolean changed = false; int mc = modCount(); int free = freeValue; int removed = removedValue; long[] tab = table; long base = LONG_BASE + INT_KEY_OFFSET; if (noRemoved()) { for (long off = ((long) tab.length) << LONG_SCALE_SHIFT; (off -= LONG_SCALE) >= 0L;) { int key; if ((key = U.getInt(tab, base + off)) != free) { changed |= c.add(key); } } } else { for (long off = ((long) tab.length) << LONG_SCALE_SHIFT; (off -= LONG_SCALE) >= 0L;) { int key; if ((key = U.getInt(tab, base + off)) != free && key != removed) { changed |= c.add(key); } } } if (mc != modCount()) throw new java.util.ConcurrentModificationException(); return changed; }
public boolean reverseAddAllTo(IntCollection c) { if (this.isEmpty()) return false; boolean changed = false; int mc = modCount(); int free = freeValue; int removed = removedValue; long[] tab = table; long base = LONG_BASE + INT_KEY_OFFSET; if (noRemoved()) { for (long off = ((long) tab.length) << LONG_SCALE_SHIFT; (off -= LONG_SCALE) >= 0L;) { int key; if ((key = U.getInt(tab, base + off)) != free) { changed |= c.add(key); } } } else { for (long off = ((long) tab.length) << LONG_SCALE_SHIFT; (off -= LONG_SCALE) >= 0L;) { int key; if ((key = U.getInt(tab, base + off)) != free && key != removed) { changed |= c.add(key); } } } if (mc != modCount()) throw new java.util.ConcurrentModificationException(); return changed; }
if (predicate == null) throw new java.lang.NullPointerException(); if (this.isEmpty()) return true; boolean terminated = false;
public boolean removeIf(Predicate<? super Integer> filter) { if (filter == null) throw new java.lang.NullPointerException(); if (this.isEmpty()) return false; boolean changed = false;
if (predicate == null) throw new java.lang.NullPointerException(); if (this.isEmpty()) return true; boolean terminated = false;
public boolean allContainingIn(IntCollection c) { if (this.isEmpty()) return true; boolean containsAll = true;
public boolean allContainingIn(IntCollection c) { if (this.isEmpty()) return true; boolean containsAll = true;
public boolean reverseRemoveAllFrom(IntSet s) { if (this.isEmpty() || s.isEmpty()) return false; boolean changed = false; int mc = modCount(); int free = freeValue; int removed = removedValue; long[] tab = table; long base = LONG_BASE + INT_KEY_OFFSET; if (noRemoved()) { for (long off = ((long) tab.length) << LONG_SCALE_SHIFT; (off -= LONG_SCALE) >= 0L;) { int key; if ((key = U.getInt(tab, base + off)) != free) { changed |= s.removeInt(key); } } } else { for (long off = ((long) tab.length) << LONG_SCALE_SHIFT; (off -= LONG_SCALE) >= 0L;) { int key; if ((key = U.getInt(tab, base + off)) != free && key != removed) { changed |= s.removeInt(key); } } } if (mc != modCount()) throw new java.util.ConcurrentModificationException(); return changed; }
public boolean reverseRemoveAllFrom(IntSet s) { if (this.isEmpty() || s.isEmpty()) return false; boolean changed = false; int mc = modCount(); int free = freeValue; int removed = removedValue; long[] tab = table; long base = LONG_BASE + INT_KEY_OFFSET; if (noRemoved()) { for (long off = ((long) tab.length) << LONG_SCALE_SHIFT; (off -= LONG_SCALE) >= 0L;) { int key; if ((key = U.getInt(tab, base + off)) != free) { changed |= s.removeInt(key); } } } else { for (long off = ((long) tab.length) << LONG_SCALE_SHIFT; (off -= LONG_SCALE) >= 0L;) { int key; if ((key = U.getInt(tab, base + off)) != free && key != removed) { changed |= s.removeInt(key); } } } if (mc != modCount()) throw new java.util.ConcurrentModificationException(); return changed; }
boolean removeAll(@Nonnull HashIntSet thisC, @Nonnull IntCollection c) { if (thisC == (Object) c) throw new IllegalArgumentException(); if (this.isEmpty() || c.isEmpty()) return false; boolean changed = false;
public boolean removeIf(IntPredicate filter) { if (filter == null) throw new java.lang.NullPointerException(); if (this.isEmpty()) return false; boolean changed = false;
public boolean removeIf(IntPredicate filter) { if (filter == null) throw new java.lang.NullPointerException(); if (this.isEmpty()) return false; boolean changed = false;
public boolean removeIf(Predicate<? super Integer> filter) { if (filter == null) throw new java.lang.NullPointerException(); if (this.isEmpty()) return false; boolean changed = false;