ObjDoubleMap m2 = (ObjDoubleMap) another; if ( m2.keyEquivalence().equals(map.keyEquivalence()) if (map.size() < m2.size()) return false; if (m2 instanceof InternalObjDoubleMapOps) { return m2.forEachWhile(new ObjDoublePredicate() { @Override
public static <K> void putAll(final InternalObjDoubleMapOps<K> map, Map<? extends K, ? extends Double> another) { if (map == another) throw new IllegalArgumentException(); long maxPossibleSize = map.sizeAsLong() + Containers.sizeAsLong(another); map.ensureCapacity(maxPossibleSize); if (another instanceof ObjDoubleMap) { if (another instanceof InternalObjDoubleMapOps) { ((InternalObjDoubleMapOps) another).reversePutAllTo(map); } else { ((ObjDoubleMap) another).forEach(new ObjDoubleConsumer<K>() { @Override public void accept(K key, double value) { map.justPut(key, value); } }); } } else { for (Map.Entry<? extends K, ? extends Double> e : another.entrySet()) { map.justPut(e.getKey(), e.getValue()); } } }
@Override @Nonnull public <K2 extends K> UpdatableLHashSeparateKVObjDoubleMapGO<K2> newUpdatableMap( Map<? extends K2, Double> map, int expectedSize) { if (map instanceof ObjDoubleMap) { @SuppressWarnings("unchecked") ObjDoubleMap<K2> objDoubleMap = (ObjDoubleMap<K2>) map; if (map instanceof SeparateKVObjDoubleLHash) { SeparateKVObjDoubleLHash hash = (SeparateKVObjDoubleLHash) map; if (hash.hashConfig().equals(hashConf) && objDoubleMap.keyEquivalence().equals(getKeyEquivalence())) { UpdatableLHashSeparateKVObjDoubleMapGO<K2> res = uninitializedUpdatableMap(); res.copy(hash); return res; } } UpdatableLHashSeparateKVObjDoubleMapGO<K2> res = newUpdatableMap(expectedSize); res.putAll(map); return res; } else { UpdatableLHashSeparateKVObjDoubleMapGO<K2> res = newUpdatableMap(expectedSize); for (Map.Entry<? extends K2, Double> entry : map.entrySet()) { res.put(entry.getKey(), entry.getValue()); } return res; } } }
@Override @Nonnull public <K2 extends K> UpdatableQHashSeparateKVObjDoubleMapGO<K2> newUpdatableMap( Map<? extends K2, Double> map, int expectedSize) { if (map instanceof ObjDoubleMap) { @SuppressWarnings("unchecked") ObjDoubleMap<K2> objDoubleMap = (ObjDoubleMap<K2>) map; if (map instanceof SeparateKVObjDoubleQHash) { SeparateKVObjDoubleQHash hash = (SeparateKVObjDoubleQHash) map; if (hash.hashConfig().equals(hashConf) && objDoubleMap.keyEquivalence().equals(getKeyEquivalence())) { UpdatableQHashSeparateKVObjDoubleMapGO<K2> res = uninitializedUpdatableMap(); res.copy(hash); return res; } } UpdatableQHashSeparateKVObjDoubleMapGO<K2> res = newUpdatableMap(expectedSize); res.putAll(map); return res; } else { UpdatableQHashSeparateKVObjDoubleMapGO<K2> res = newUpdatableMap(expectedSize); for (Map.Entry<? extends K2, Double> entry : map.entrySet()) { res.put(entry.getKey(), entry.getValue()); } return res; } } }
ObjDoubleMap m2 = (ObjDoubleMap) another; if ( m2.keyEquivalence().equals(map.keyEquivalence()) if (map.size() < m2.size()) return false; if (m2 instanceof InternalObjDoubleMapOps) { return m2.forEachWhile(new ObjDoublePredicate() { @Override
@Override @Nonnull public <K2 extends K> UpdatableLHashSeparateKVObjDoubleMapGO<K2> newUpdatableMap( Map<? extends K2, Double> map, int expectedSize) { if (map instanceof ObjDoubleMap) { @SuppressWarnings("unchecked") ObjDoubleMap<K2> objDoubleMap = (ObjDoubleMap<K2>) map; if (map instanceof SeparateKVObjDoubleLHash) { SeparateKVObjDoubleLHash hash = (SeparateKVObjDoubleLHash) map; if (hash.hashConfig().equals(hashConf) && objDoubleMap.keyEquivalence().equals(getKeyEquivalence())) { UpdatableLHashSeparateKVObjDoubleMapGO<K2> res = uninitializedUpdatableMap(); res.copy(hash); return res; } } UpdatableLHashSeparateKVObjDoubleMapGO<K2> res = newUpdatableMap(expectedSize); res.putAll(map); return res; } else { UpdatableLHashSeparateKVObjDoubleMapGO<K2> res = newUpdatableMap(expectedSize); for (Map.Entry<? extends K2, Double> entry : map.entrySet()) { res.put(entry.getKey(), entry.getValue()); } return res; } } }
public static <K> void putAll(final InternalObjDoubleMapOps<K> map, Map<? extends K, ? extends Double> another) { if (map == another) throw new IllegalArgumentException(); long maxPossibleSize = map.sizeAsLong() + Containers.sizeAsLong(another); map.ensureCapacity(maxPossibleSize); if (another instanceof ObjDoubleMap) { if (another instanceof InternalObjDoubleMapOps) { ((InternalObjDoubleMapOps) another).reversePutAllTo(map); } else { ((ObjDoubleMap) another).forEach(new ObjDoubleConsumer<K>() { @Override public void accept(K key, double value) { map.justPut(key, value); } }); } } else { for (Map.Entry<? extends K, ? extends Double> e : another.entrySet()) { map.justPut(e.getKey(), e.getValue()); } } }
@Override @Nonnull public <K2 extends K> UpdatableQHashSeparateKVObjDoubleMapGO<K2> newUpdatableMap( Map<? extends K2, Double> map, int expectedSize) { if (map instanceof ObjDoubleMap) { @SuppressWarnings("unchecked") ObjDoubleMap<K2> objDoubleMap = (ObjDoubleMap<K2>) map; if (map instanceof SeparateKVObjDoubleQHash) { SeparateKVObjDoubleQHash hash = (SeparateKVObjDoubleQHash) map; if (hash.hashConfig().equals(hashConf) && objDoubleMap.keyEquivalence().equals(getKeyEquivalence())) { UpdatableQHashSeparateKVObjDoubleMapGO<K2> res = uninitializedUpdatableMap(); res.copy(hash); return res; } } UpdatableQHashSeparateKVObjDoubleMapGO<K2> res = newUpdatableMap(expectedSize); res.putAll(map); return res; } else { UpdatableQHashSeparateKVObjDoubleMapGO<K2> res = newUpdatableMap(expectedSize); for (Map.Entry<? extends K2, Double> entry : map.entrySet()) { res.put(entry.getKey(), entry.getValue()); } return res; } } }