package com.planet_ink.coffee_mud.core.collections; import java.util.Comparator; import java.util.List; import java.util.Map; import java.util.Set; import java.util.TreeMap; import java.util.TreeSet; import java.util.Vector; /* Copyright 2012-2019 Bo Zimmerman Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ public class CrossRefTreeMap<T, K> { final static Comparator<Object> comparator=new Comparator<Object>() { @Override public int compare(final Object o1, final Object o2) { if(o1 == null) { if(o2 == null) return 0; return 1; } if(o2 == null) return -1; if(o1.hashCode() == o2.hashCode()) return 0; return o1.hashCode() > o2.hashCode() ? 1 : -1; } }; final Map<T,TreeSet<K>> map1 =new TreeMap<T,TreeSet<K>>(comparator); final Map<K,TreeSet<T>> map2 =new TreeMap<K,TreeSet<T>>(comparator); final int maxKsInMap1; final int maxTsInMap2; @SuppressWarnings("rawtypes") private static final Set empty=new TreeSet(); public CrossRefTreeMap(int maxFirstForEachSecond, int maxSecondForEachFirst) { if(maxSecondForEachFirst<=0) maxSecondForEachFirst=1; if(maxFirstForEachSecond<=0) maxFirstForEachSecond=1; maxKsInMap1=maxSecondForEachFirst; maxTsInMap2=maxFirstForEachSecond; } public boolean containsFirst(final T t) { return map1.containsKey(t); } public boolean containsSecond(final K k) { return map2.containsKey(k); } @SuppressWarnings("unchecked") public Set<K> getFirst(final T t) { final Set<K> kSet=map1.get(t); if(kSet == null) return empty; return kSet; } @SuppressWarnings("unchecked") public Set<T> getSecond(final K k) { final Set<T> tSet=map2.get(k); if(tSet == null) return empty; return tSet; } public synchronized void remove(final T t, final K k) { final TreeSet<K> tKs=map1.get(t); if(tKs!=null) { if(tKs.contains(k)) { if(tKs.size()==1) { tKs.clear(); map1.remove(t); } else tKs.remove(k); } } final TreeSet<T> kTs=map2.get(k); if(kTs!=null) { if(kTs.contains(t)) { if(kTs.size()==1) { kTs.clear(); map2.remove(k); } else kTs.remove(t); } } } public synchronized void removeFirst(final T t) { final TreeSet<K> tKs=map1.get(t); if(tKs!=null) { for(final K k : tKs) { final TreeSet<T> kTs=map2.get(k); if(kTs!=null) { if(kTs.size()==1) { kTs.clear(); map2.remove(k); } else kTs.remove(t); } } map1.remove(t); } } public synchronized void removeSecond(final K k) { final TreeSet<T> kTs=map2.get(k); if(kTs!=null) { for(final T t : kTs) { final TreeSet<K> tKs=map1.get(t); if(tKs!=null) { if(tKs.size()==1) { tKs.clear(); map1.remove(t); } else tKs.remove(k); } } map2.remove(k); } } public synchronized void change(final T t, final K k) { TreeSet<K> tKs=map1.get(t); while((tKs!=null)&&(tKs.size()>=maxKsInMap1)) remove(t,tKs.first()); tKs=map1.get(t); if(tKs==null) { tKs=new TreeSet<K>(comparator); map1.put(t, tKs); } TreeSet<T> kTs=map2.get(k); while((kTs!=null)&&(kTs.size()>=maxTsInMap2)) remove(kTs.first(),k); kTs=map2.get(k); if(kTs==null) { kTs=new TreeSet<T>(comparator); map2.put(k, kTs); } if(!kTs.contains(t)) kTs.add(t); if(!tKs.contains(k)) tKs.add(k); } public synchronized void clear() { map1.clear(); map2.clear(); } }