@Override public MutableValue duplicate() { MutableValueInt v = new MutableValueInt(); v.value = this.value; v.exists = this.exists; return v; }
/** * Associate <code>key</code> with <code>value</code> and return a new copy * of the hash table. The current hash table is not modified. */ public CopyOnWriteHashMap<K, V> copyAndPut(K key, V value) { if (key == null) { throw new IllegalArgumentException("null keys are not supported"); } if (value == null) { throw new IllegalArgumentException("null values are not supported"); } final int hash = key.hashCode(); final MutableValueInt newValue = new MutableValueInt(); final InnerNode<K, V> newRoot = root.put(key, hash, TOTAL_HASH_BITS, value, newValue); final int newSize = size + newValue.value; return new CopyOnWriteHashMap<>(newRoot, newSize); }
@Override public MutableValue duplicate() { MutableValueInt v = new MutableValueInt(); v.value = this.value; v.exists = this.exists; return v; }
@Override public MutableValue duplicate() { MutableValueInt v = new MutableValueInt(); v.value = this.value; v.exists = this.exists; return v; }
@Override public MutableValue duplicate() { MutableValueInt v = new MutableValueInt(); v.value = this.value; v.exists = this.exists; return v; }
@Override public ValueFiller getValueFiller() { return new ValueFiller() { private final MutableValueInt mval = new MutableValueInt(); @Override public MutableValue getValue() { return mval; } @Override public void fillValue(int doc) { mval.value = intVal(doc); mval.exists = exists(doc); } }; } }
@Override public ValueFiller getValueFiller() { return new ValueFiller() { private final MutableValueInt mval = new MutableValueInt(); @Override public MutableValue getValue() { return mval; } @Override public void fillValue(int doc) { mval.value = intVal(doc); mval.exists = valid.get(doc); } }; } };
@Override public ValueFiller getValueFiller() { return new ValueFiller() { private final MutableValueInt mval = new MutableValueInt(); @Override public MutableValue getValue() { return mval; } @Override public void fillValue(int doc) throws IOException { mval.value = intVal(doc); mval.exists = arr.docID() == doc; } }; } };
@Override public ValueFiller getValueFiller() { return new ValueFiller() { private final MutableValueInt mval = new MutableValueInt(); @Override public MutableValue getValue() { return mval; } @Override public void fillValue(int doc) throws IOException { mval.value = intVal(doc); mval.exists = exists(doc); } }; } }
@Override public ValueFiller getValueFiller() { return new ValueFiller() { private final MutableValueInt mval = new MutableValueInt(); @Override public MutableValue getValue() { return mval; } @Override public void fillValue(int doc) { mval.value = intVal(doc); mval.exists = mval.value != 0 || valid.get(doc); } }; } };
@Override public ValueFiller getValueFiller() { return new ValueFiller() { private final MutableValueInt mval = new MutableValueInt(); @Override public MutableValue getValue() { return mval; } @Override public void fillValue(int doc) { mval.value = intVal(doc); mval.exists = valid.get(doc); } }; } };
@Override public ValueFiller getValueFiller() { return new ValueFiller() { private final MutableValueInt mval = new MutableValueInt(); @Override public MutableValue getValue() { return mval; } @Override public void fillValue(int doc) { mval.value = intVal(doc); mval.exists = exists(doc); } }; } }
@Override public ValueFiller getValueFiller() { return new ValueFiller() { private final MutableValueInt mval = new MutableValueInt(); @Override public MutableValue getValue() { return mval; } @Override public void fillValue(int doc) { mval.value = intVal(doc); mval.exists = mval.value != 0 || valid.get(doc); } }; } };
/** * Associate <code>key</code> with <code>value</code> and return a new copy * of the hash table. The current hash table is not modified. */ public CopyOnWriteHashMap<K, V> copyAndPut(K key, V value) { if (key == null) { throw new IllegalArgumentException("null keys are not supported"); } if (value == null) { throw new IllegalArgumentException("null values are not supported"); } final int hash = key.hashCode(); final MutableValueInt newValue = new MutableValueInt(); final InnerNode<K, V> newRoot = root.put(key, hash, TOTAL_HASH_BITS, value, newValue); final int newSize = size + newValue.value; return new CopyOnWriteHashMap<>(newRoot, newSize); }
/** * Associate <code>key</code> with <code>value</code> and return a new copy * of the hash table. The current hash table is not modified. */ public CopyOnWriteHashMap<K, V> copyAndPut(K key, V value) { if (key == null) { throw new IllegalArgumentException("null keys are not supported"); } if (value == null) { throw new IllegalArgumentException("null values are not supported"); } final int hash = key.hashCode(); final MutableValueInt newValue = new MutableValueInt(); final InnerNode<K, V> newRoot = root.put(key, hash, TOTAL_HASH_BITS, value, newValue); final int newSize = size + newValue.value; return new CopyOnWriteHashMap<>(newRoot, newSize); }
/** * Associate <code>key</code> with <code>value</code> and return a new copy * of the hash table. The current hash table is not modified. */ public CopyOnWriteHashMap<K, V> copyAndPut(K key, V value) { if (key == null) { throw new IllegalArgumentException("null keys are not supported"); } if (value == null) { throw new IllegalArgumentException("null values are not supported"); } final int hash = key.hashCode(); final MutableValueInt newValue = new MutableValueInt(); final InnerNode<K, V> newRoot = root.put(key, hash, TOTAL_HASH_BITS, value, newValue); final int newSize = size + newValue.value; return new CopyOnWriteHashMap<>(newRoot, newSize); }
/** * Associate <code>key</code> with <code>value</code> and return a new copy * of the hash table. The current hash table is not modified. */ public CopyOnWriteHashMap<K, V> copyAndPut(K key, V value) { if (key == null) { throw new IllegalArgumentException("null keys are not supported"); } if (value == null) { throw new IllegalArgumentException("null values are not supported"); } final int hash = key.hashCode(); final MutableValueInt newValue = new MutableValueInt(); final InnerNode<K, V> newRoot = root.put(key, hash, TOTAL_HASH_BITS, value, newValue); final int newSize = size + newValue.value; return new CopyOnWriteHashMap<>(newRoot, newSize); }
/** * Associate <code>key</code> with <code>value</code> and return a new copy * of the hash table. The current hash table is not modified. */ public CopyOnWriteHashMap<K, V> copyAndPut(K key, V value) { Preconditions.checkArgument(key != null, "null keys are not supported"); Preconditions.checkArgument(value != null, "null values are not supported"); final int hash = key.hashCode(); final MutableValueInt newValue = new MutableValueInt(); final InnerNode<K, V> newRoot = root.put(key, hash, TOTAL_HASH_BITS, value, newValue); final int newSize = size + newValue.value; return new CopyOnWriteHashMap<>(newRoot, newSize); }
final MutableValueInt val = new MutableValueInt();
final MutableValueInt val = new MutableValueInt();