/** * @return the size of the multimap (sum of all the sizes of the sets) */ public int size() { if (size < 0) { size = getAllValues().size(); } return this.size; }
/** * @return the size of the multimap (sum of all the sizes of the sets) */ public int size() { if (size < 0) { size = getAllValues().size(); } return this.size; }
/** * @return the size of the multimap (sum of all the sizes of the sets) */ public int size() { if (size < 0) { size = getAllValues().size(); } return this.size; }
/** * @return the size of the multimap (sum of all the sizes of the sets) */ public int size() { if (size < 0) { size = getAllValues().size(); } return this.size; }
@Override public Set<Atom> getTopAtoms() { Set<Atom> keys = getAtoms(); keys.removeAll(dependencies.getAllValues()); return keys; }
@Override public Set<Atom> getBottomAtoms() { Set<Atom> keys = getAtoms(); keys.removeAll(dependents.getAllValues()); return keys; }
@Override public Set<Atom> getTopAtoms() { Set<Atom> keys = getAtoms(); keys.removeAll(dependencies.getAllValues()); return keys; }
@Override public Set<Atom> getTopAtoms() { Set<Atom> keys = getAtoms(); keys.removeAll(dependencies.getAllValues()); return keys; }
@Override public Set<Atom> getBottomAtoms() { Set<Atom> keys = getAtoms(); keys.removeAll(dependents.getAllValues()); return keys; }
@Override public Set<Atom> getBottomAtoms() { Set<Atom> keys = getAtoms(); keys.removeAll(dependents.getAllValues()); return keys; }
@Override public Set<Atom> getBottomAtoms() { Set<Atom> keys = getAtoms(); keys.removeAll(dependents.getAllValues()); return keys; }
@Override public Set<Atom> getTopAtoms() { Set<Atom> keys = getAtoms(); keys.removeAll(dependencies.getAllValues()); return keys; }