Java 类gnu.trove.map.TDoubleByteMap 实例源码

/**
 * Creates a new <code>TDoubleByteHashMap</code> instance containing
 * all of the entries in the map passed in.
 *
 * @param map a <tt>TDoubleByteMap</tt> that will be duplicated.
 */
public TDoubleByteHashMap( TDoubleByteMap map ) {
    super( map.size() );
    if ( map instanceof TDoubleByteHashMap ) {
        TDoubleByteHashMap hashmap = ( TDoubleByteHashMap ) map;
        this._loadFactor = hashmap._loadFactor;
        this.no_entry_key = hashmap.no_entry_key;
        this.no_entry_value = hashmap.no_entry_value;
        //noinspection RedundantCast
        if ( this.no_entry_key != ( double ) 0 ) {
            Arrays.fill( _set, this.no_entry_key );
        }
        //noinspection RedundantCast
        if ( this.no_entry_value != ( byte ) 0 ) {
            Arrays.fill( _values, this.no_entry_value );
        }
        setUp( (int) Math.ceil( DEFAULT_CAPACITY / _loadFactor ) );
    }
    putAll( map );
}

/**
 * Creates a new <code>TDoubleByteHashMap</code> instance containing
 * all of the entries in the map passed in.
 *
 * @param map a <tt>TDoubleByteMap</tt> that will be duplicated.
 */
public TDoubleByteHashMap( TDoubleByteMap map ) {
    super( map.size() );
    if ( map instanceof TDoubleByteHashMap ) {
        TDoubleByteHashMap hashmap = ( TDoubleByteHashMap ) map;
        this._loadFactor = hashmap._loadFactor;
        this.no_entry_key = hashmap.no_entry_key;
        this.no_entry_value = hashmap.no_entry_value;
        //noinspection RedundantCast
        if ( this.no_entry_key != ( double ) 0 ) {
            Arrays.fill( _set, this.no_entry_key );
        }
        //noinspection RedundantCast
        if ( this.no_entry_value != ( byte ) 0 ) {
            Arrays.fill( _values, this.no_entry_value );
        }
        setUp( (int) Math.ceil( DEFAULT_CAPACITY / _loadFactor ) );
    }
    putAll( map );
}

/**
 * Creates a new <code>TDoubleByteHashMap</code> instance containing
 * all of the entries in the map passed in.
 *
 * @param map a <tt>TDoubleByteMap</tt> that will be duplicated.
 */
public TDoubleByteHashMap( TDoubleByteMap map ) {
    super( map.size() );
    if ( map instanceof TDoubleByteHashMap ) {
        TDoubleByteHashMap hashmap = ( TDoubleByteHashMap ) map;
        this._loadFactor = hashmap._loadFactor;
        this.no_entry_key = hashmap.no_entry_key;
        this.no_entry_value = hashmap.no_entry_value;
        //noinspection RedundantCast
        if ( this.no_entry_key != ( double ) 0 ) {
            Arrays.fill( _set, this.no_entry_key );
        }
        //noinspection RedundantCast
        if ( this.no_entry_value != ( byte ) 0 ) {
            Arrays.fill( _values, this.no_entry_value );
        }
        setUp( (int) Math.ceil( DEFAULT_CAPACITY / _loadFactor ) );
    }
    putAll( map );
}

/**
 * Creates a new <code>TDoubleByteHashMap</code> instance containing
 * all of the entries in the map passed in.
 *
 * @param map a <tt>TDoubleByteMap</tt> that will be duplicated.
 */
public TDoubleByteHashMap( TDoubleByteMap map ) {
    super( map.size() );
    if ( map instanceof TDoubleByteHashMap ) {
        TDoubleByteHashMap hashmap = ( TDoubleByteHashMap ) map;
        this._loadFactor = hashmap._loadFactor;
        this.no_entry_key = hashmap.no_entry_key;
        this.no_entry_value = hashmap.no_entry_value;
        //noinspection RedundantCast
        if ( this.no_entry_key != ( double ) 0 ) {
            Arrays.fill( _set, this.no_entry_key );
        }
        //noinspection RedundantCast
        if ( this.no_entry_value != ( byte ) 0 ) {
            Arrays.fill( _values, this.no_entry_value );
        }
        setUp( (int) Math.ceil( DEFAULT_CAPACITY / _loadFactor ) );
    }
    putAll( map );
}

/**
 * Creates a new <code>TDoubleByteHashMap</code> instance containing
 * all of the entries in the map passed in.
 *
 * @param map a <tt>TDoubleByteMap</tt> that will be duplicated.
 */
public TDoubleByteHashMap( TDoubleByteMap map ) {
    super( map.size() );
    if ( map instanceof TDoubleByteHashMap ) {
        TDoubleByteHashMap hashmap = ( TDoubleByteHashMap ) map;
        this._loadFactor = hashmap._loadFactor;
        this.no_entry_key = hashmap.no_entry_key;
        this.no_entry_value = hashmap.no_entry_value;
        //noinspection RedundantCast
        if ( this.no_entry_key != ( double ) 0 ) {
            Arrays.fill( _set, this.no_entry_key );
        }
        //noinspection RedundantCast
        if ( this.no_entry_value != ( byte ) 0 ) {
            Arrays.fill( _values, this.no_entry_value );
        }
        setUp( (int) Math.ceil( DEFAULT_CAPACITY / _loadFactor ) );
    }
    putAll( map );
}

/**
 * Creates a new <code>TDoubleByteHashMap</code> instance containing
 * all of the entries in the map passed in.
 *
 * @param map a <tt>TDoubleByteMap</tt> that will be duplicated.
 */
public TDoubleByteHashMap( TDoubleByteMap map ) {
    super( map.size() );
    if ( map instanceof TDoubleByteHashMap ) {
        TDoubleByteHashMap hashmap = ( TDoubleByteHashMap ) map;
        this._loadFactor = hashmap._loadFactor;
        this.no_entry_key = hashmap.no_entry_key;
        this.no_entry_value = hashmap.no_entry_value;
        //noinspection RedundantCast
        if ( this.no_entry_key != ( double ) 0 ) {
            Arrays.fill( _set, this.no_entry_key );
        }
        //noinspection RedundantCast
        if ( this.no_entry_value != ( byte ) 0 ) {
            Arrays.fill( _values, this.no_entry_value );
        }
        setUp( (int) Math.ceil( DEFAULT_CAPACITY / _loadFactor ) );
    }
    putAll( map );
}

/**
 * Creates a new <code>TDoubleByteHashMap</code> instance containing
 * all of the entries in the map passed in.
 *
 * @param map a <tt>TDoubleByteMap</tt> that will be duplicated.
 */
public TDoubleByteHashMap( TDoubleByteMap map ) {
    super( map.size() );
    if ( map instanceof TDoubleByteHashMap ) {
        TDoubleByteHashMap hashmap = ( TDoubleByteHashMap ) map;
        this._loadFactor = hashmap._loadFactor;
        this.no_entry_key = hashmap.no_entry_key;
        this.no_entry_value = hashmap.no_entry_value;
        //noinspection RedundantCast
        if ( this.no_entry_key != ( double ) 0 ) {
            Arrays.fill( _set, this.no_entry_key );
        }
        //noinspection RedundantCast
        if ( this.no_entry_value != ( byte ) 0 ) {
            Arrays.fill( _values, this.no_entry_value );
        }
        setUp( (int) Math.ceil( DEFAULT_CAPACITY / _loadFactor ) );
    }
    putAll( map );
}

/**
 * Creates a new <code>TDoubleByteHashMap</code> instance containing
 * all of the entries in the map passed in.
 *
 * @param map a <tt>TDoubleByteMap</tt> that will be duplicated.
 */
public TDoubleByteHashMap( TDoubleByteMap map ) {
    super( map.size() );
    if ( map instanceof TDoubleByteHashMap ) {
        TDoubleByteHashMap hashmap = ( TDoubleByteHashMap ) map;
        this._loadFactor = hashmap._loadFactor;
        this.no_entry_key = hashmap.no_entry_key;
        this.no_entry_value = hashmap.no_entry_value;
        //noinspection RedundantCast
        if ( this.no_entry_key != ( double ) 0 ) {
            Arrays.fill( _set, this.no_entry_key );
        }
        //noinspection RedundantCast
        if ( this.no_entry_value != ( byte ) 0 ) {
            Arrays.fill( _values, this.no_entry_value );
        }
        setUp( (int) Math.ceil( DEFAULT_CAPACITY / _loadFactor ) );
    }
    putAll( map );
}

/** {@inheritDoc} */
public void putAll( TDoubleByteMap map ) {
    ensureCapacity( map.size() );
    TDoubleByteIterator iter = map.iterator();
    while ( iter.hasNext() ) {
        iter.advance();
        this.put( iter.key(), iter.value() );
    }
}

/** {@inheritDoc} */
@Override
public boolean equals( Object other ) {
    if ( ! ( other instanceof TDoubleByteMap ) ) {
        return false;
    }
    TDoubleByteMap that = ( TDoubleByteMap ) other;
    if ( that.size() != this.size() ) {
        return false;
    }
    byte[] values = _values;
    byte[] states = _states;
    byte this_no_entry_value = getNoEntryValue();
    byte that_no_entry_value = that.getNoEntryValue();
    for ( int i = values.length; i-- > 0; ) {
        if ( states[i] == FULL ) {
            double key = _set[i];
            byte that_value = that.get( key );
            byte this_value = values[i];
            if ( ( this_value != that_value ) &&
                 ( this_value != this_no_entry_value ) &&
                 ( that_value != that_no_entry_value ) ) {
                return false;
            }
        }
    }
    return true;
}

public void readExternal( ObjectInput in )
    throws IOException, ClassNotFoundException {

    // VERSION
    in.readByte();

    // MAP
    _map = ( TDoubleByteMap ) in.readObject();
}

/** {@inheritDoc} */
public void putAll( TDoubleByteMap map ) {
    ensureCapacity( map.size() );
    TDoubleByteIterator iter = map.iterator();
    while ( iter.hasNext() ) {
        iter.advance();
        this.put( iter.key(), iter.value() );
    }
}

/** {@inheritDoc} */
@Override
public boolean equals( Object other ) {
    if ( ! ( other instanceof TDoubleByteMap ) ) {
        return false;
    }
    TDoubleByteMap that = ( TDoubleByteMap ) other;
    if ( that.size() != this.size() ) {
        return false;
    }
    byte[] values = _values;
    byte[] states = _states;
    byte this_no_entry_value = getNoEntryValue();
    byte that_no_entry_value = that.getNoEntryValue();
    for ( int i = values.length; i-- > 0; ) {
        if ( states[i] == FULL ) {
            double key = _set[i];
            byte that_value = that.get( key );
            byte this_value = values[i];
            if ( ( this_value != that_value ) &&
                 ( this_value != this_no_entry_value ) &&
                 ( that_value != that_no_entry_value ) ) {
                return false;
            }
        }
    }
    return true;
}

public void readExternal( ObjectInput in )
    throws IOException, ClassNotFoundException {

    // VERSION
    in.readByte();

    // MAP
    _map = ( TDoubleByteMap ) in.readObject();
}

/** {@inheritDoc} */
public void putAll( TDoubleByteMap map ) {
    ensureCapacity( map.size() );
    TDoubleByteIterator iter = map.iterator();
    while ( iter.hasNext() ) {
        iter.advance();
        this.put( iter.key(), iter.value() );
    }
}

/** {@inheritDoc} */
@Override
public boolean equals( Object other ) {
    if ( ! ( other instanceof TDoubleByteMap ) ) {
        return false;
    }
    TDoubleByteMap that = ( TDoubleByteMap ) other;
    if ( that.size() != this.size() ) {
        return false;
    }
    byte[] values = _values;
    byte[] states = _states;
    byte this_no_entry_value = getNoEntryValue();
    byte that_no_entry_value = that.getNoEntryValue();
    for ( int i = values.length; i-- > 0; ) {
        if ( states[i] == FULL ) {
            double key = _set[i];
            byte that_value = that.get( key );
            byte this_value = values[i];
            if ( ( this_value != that_value ) &&
                 ( this_value != this_no_entry_value ) &&
                 ( that_value != that_no_entry_value ) ) {
                return false;
            }
        }
    }
    return true;
}

public void readExternal( ObjectInput in )
    throws IOException, ClassNotFoundException {

    // VERSION
    in.readByte();

    // MAP
    _map = ( TDoubleByteMap ) in.readObject();
}

/** {@inheritDoc} */
@Override
public void putAll( TDoubleByteMap map ) {
    ensureCapacity( map.size() );
    TDoubleByteIterator iter = map.iterator();
    while ( iter.hasNext() ) {
        iter.advance();
        this.put( iter.key(), iter.value() );
    }
}

/** {@inheritDoc} */
@Override
public boolean equals( Object other ) {
    if ( ! ( other instanceof TDoubleByteMap ) ) {
        return false;
    }
    TDoubleByteMap that = ( TDoubleByteMap ) other;
    if ( that.size() != this.size() ) {
        return false;
    }
    TByteOffheapArray values = _values;
    TByteOffheapArray states = _states;
    byte this_no_entry_value = getNoEntryValue();
    byte that_no_entry_value = that.getNoEntryValue();
    for ( int i = capacity(); i-- > 0; ) {
        if ( states.get( i ) == FULL ) {
            double key = _set.get( i );
            byte that_value = that.get( key );
            byte this_value = values.get( i );
            if ( ( this_value != that_value ) &&
                 ( this_value != this_no_entry_value ) &&
                 ( that_value != that_no_entry_value ) ) {
                return false;
            }
        }
    }
    return true;
}

/** {@inheritDoc} */
@Override
public void putAll( TDoubleByteMap map ) {
    ensureCapacity( map.size() );
    TDoubleByteIterator iter = map.iterator();
    while ( iter.hasNext() ) {
        iter.advance();
        this.put( iter.key(), iter.value() );
    }
}

/** {@inheritDoc} */
@Override
public boolean equals( Object other ) {
    if ( ! ( other instanceof TDoubleByteMap ) ) {
        return false;
    }
    TDoubleByteMap that = ( TDoubleByteMap ) other;
    if ( that.size() != this.size() ) {
        return false;
    }
    byte[] values = _values;
    byte[] states = _states;
    byte this_no_entry_value = getNoEntryValue();
    byte that_no_entry_value = that.getNoEntryValue();
    for ( int i = values.length; i-- > 0; ) {
        if ( states[i] == FULL ) {
            double key = _set[i];
            byte that_value = that.get( key );
            byte this_value = values[i];
            if ( ( this_value != that_value ) &&
                 ( this_value != this_no_entry_value ) &&
                 ( that_value != that_no_entry_value ) ) {
                return false;
            }
        }
    }
    return true;
}

@Override
public void readExternal( ObjectInput in )
    throws IOException, ClassNotFoundException {

    // VERSION
    in.readByte();

    // MAP
    _map = ( TDoubleByteMap ) in.readObject();
}

/** {@inheritDoc} */
public void putAll( TDoubleByteMap map ) {
    ensureCapacity( map.size() );
    TDoubleByteIterator iter = map.iterator();
    while ( iter.hasNext() ) {
        iter.advance();
        this.put( iter.key(), iter.value() );
    }
}

/** {@inheritDoc} */
@Override
public boolean equals( Object other ) {
    if ( ! ( other instanceof TDoubleByteMap ) ) {
        return false;
    }
    TDoubleByteMap that = ( TDoubleByteMap ) other;
    if ( that.size() != this.size() ) {
        return false;
    }
    byte[] values = _values;
    byte[] states = _states;
    byte this_no_entry_value = getNoEntryValue();
    byte that_no_entry_value = that.getNoEntryValue();
    for ( int i = values.length; i-- > 0; ) {
        if ( states[i] == FULL ) {
            double key = _set[i];
            byte that_value = that.get( key );
            byte this_value = values[i];
            if ( ( this_value != that_value ) &&
                 ( this_value != this_no_entry_value ) &&
                 ( that_value != that_no_entry_value ) ) {
                return false;
            }
        }
    }
    return true;
}

public void readExternal( ObjectInput in )
    throws IOException, ClassNotFoundException {

    // VERSION
    in.readByte();

    // MAP
    _map = ( TDoubleByteMap ) in.readObject();
}

/** {@inheritDoc} */
public void putAll( TDoubleByteMap map ) {
    ensureCapacity( map.size() );
    TDoubleByteIterator iter = map.iterator();
    while ( iter.hasNext() ) {
        iter.advance();
        this.put( iter.key(), iter.value() );
    }
}

/** {@inheritDoc} */
@Override
public boolean equals( Object other ) {
    if ( ! ( other instanceof TDoubleByteMap ) ) {
        return false;
    }
    TDoubleByteMap that = ( TDoubleByteMap ) other;
    if ( that.size() != this.size() ) {
        return false;
    }
    byte[] values = _values;
    byte[] states = _states;
    byte this_no_entry_value = getNoEntryValue();
    byte that_no_entry_value = that.getNoEntryValue();
    for ( int i = values.length; i-- > 0; ) {
        if ( states[i] == FULL ) {
            double key = _set[i];
            byte that_value = that.get( key );
            byte this_value = values[i];
            if ( ( this_value != that_value ) &&
                 ( this_value != this_no_entry_value ) &&
                 ( that_value != that_no_entry_value ) ) {
                return false;
            }
        }
    }
    return true;
}

public void readExternal( ObjectInput in )
    throws IOException, ClassNotFoundException {

    // VERSION
    in.readByte();

    // MAP
    _map = ( TDoubleByteMap ) in.readObject();
}

/** {@inheritDoc} */
public void putAll( TDoubleByteMap map ) {
    ensureCapacity( map.size() );
    TDoubleByteIterator iter = map.iterator();
    while ( iter.hasNext() ) {
        iter.advance();
        this.put( iter.key(), iter.value() );
    }
}

/** {@inheritDoc} */
@Override
public boolean equals( Object other ) {
    if ( ! ( other instanceof TDoubleByteMap ) ) {
        return false;
    }
    TDoubleByteMap that = ( TDoubleByteMap ) other;
    if ( that.size() != this.size() ) {
        return false;
    }
    byte[] values = _values;
    byte[] states = _states;
    byte this_no_entry_value = getNoEntryValue();
    byte that_no_entry_value = that.getNoEntryValue();
    for ( int i = values.length; i-- > 0; ) {
        if ( states[i] == FULL ) {
            double key = _set[i];
            byte that_value = that.get( key );
            byte this_value = values[i];
            if ( ( this_value != that_value ) &&
                 ( this_value != this_no_entry_value ) &&
                 ( that_value != that_no_entry_value ) ) {
                return false;
            }
        }
    }
    return true;
}

public void readExternal( ObjectInput in )
    throws IOException, ClassNotFoundException {

    // VERSION
    in.readByte();

    // MAP
    _map = ( TDoubleByteMap ) in.readObject();
}

/** {@inheritDoc} */
public void putAll( TDoubleByteMap map ) {
    ensureCapacity( map.size() );
    TDoubleByteIterator iter = map.iterator();
    while ( iter.hasNext() ) {
        iter.advance();
        this.put( iter.key(), iter.value() );
    }
}

/** {@inheritDoc} */
@Override
public boolean equals( Object other ) {
    if ( ! ( other instanceof TDoubleByteMap ) ) {
        return false;
    }
    TDoubleByteMap that = ( TDoubleByteMap ) other;
    if ( that.size() != this.size() ) {
        return false;
    }
    byte[] values = _values;
    byte[] states = _states;
    byte this_no_entry_value = getNoEntryValue();
    byte that_no_entry_value = that.getNoEntryValue();
    for ( int i = values.length; i-- > 0; ) {
        if ( states[i] == FULL ) {
            double key = _set[i];
            byte that_value = that.get( key );
            byte this_value = values[i];
            if ( ( this_value != that_value ) &&
                 ( this_value != this_no_entry_value ) &&
                 ( that_value != that_no_entry_value ) ) {
                return false;
            }
        }
    }
    return true;
}

public void readExternal( ObjectInput in )
    throws IOException, ClassNotFoundException {

    // VERSION
    in.readByte();

    // MAP
    _map = ( TDoubleByteMap ) in.readObject();
}

/**
 * Creates a wrapper that decorates the specified primitive map.
 *
 * @param map the <tt>TDoubleByteMap</tt> to wrap.
 */
public TDoubleByteMapDecorator( TDoubleByteMap map ) {
    super();
    this._map = map;
}

/**
 * Returns a reference to the map wrapped by this decorator.
 *
 * @return the wrapped <tt>TDoubleByteMap</tt> instance.
 */
public TDoubleByteMap getMap() {
    return _map;
}

/**
 * Creates a wrapper that decorates the specified primitive map.
 *
 * @param map the <tt>TDoubleByteMap</tt> to wrap.
 */
public TDoubleByteMapDecorator( TDoubleByteMap map ) {
    super();
    this._map = map;
}

/**
 * Returns a reference to the map wrapped by this decorator.
 *
 * @return the wrapped <tt>TDoubleByteMap</tt> instance.
 */
public TDoubleByteMap getMap() {
    return _map;
}

/**
 * Creates a wrapper that decorates the specified primitive map.
 *
 * @param map the <tt>TDoubleByteMap</tt> to wrap.
 */
public TDoubleByteMapDecorator( TDoubleByteMap map ) {
    super();
    this._map = map;
}

/**
 * Returns a reference to the map wrapped by this decorator.
 *
 * @return the wrapped <tt>TDoubleByteMap</tt> instance.
 */
public TDoubleByteMap getMap() {
    return _map;
}