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The Trove library provides high speed regular and primitive collections for Java.

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///////////////////////////////////////////////////////////////////////////////
// Copyright (c) 2001, Eric D. Friedman All Rights Reserved.
// Copyright (c) 2009, Rob Eden All Rights Reserved.
// Copyright (c) 2009, Jeff Randall All Rights Reserved.
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 2.1 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this program; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA  02111-1307, USA.
///////////////////////////////////////////////////////////////////////////////

package gnu.trove.list.array;

import gnu.trove.function.TLongFunction;
import gnu.trove.list.TLongList;
import gnu.trove.procedure.TLongProcedure;
import gnu.trove.iterator.TLongIterator;
import gnu.trove.TLongCollection;
import gnu.trove.impl.*;

import java.io.Externalizable;
import java.io.IOException;
import java.io.ObjectInput;
import java.io.ObjectOutput;
import java.util.*;


//////////////////////////////////////////////////
// THIS IS A GENERATED CLASS. DO NOT HAND EDIT! //
//////////////////////////////////////////////////


/**
 * A resizable, array-backed list of long primitives.
 */
public class TLongArrayList implements TLongList, Externalizable {
	static final long serialVersionUID = 1L;

    /** the data of the list */
    protected long[] _data;

    /** the index after the last entry in the list */
    protected int _pos;

    /** the default capacity for new lists */
    protected static final int DEFAULT_CAPACITY = Constants.DEFAULT_CAPACITY;

    /** the long value that represents null */
    protected long no_entry_value;


    /**
     * Creates a new TLongArrayList instance with the
     * default capacity.
     */
    @SuppressWarnings({"RedundantCast"})
    public TLongArrayList() {
        this( DEFAULT_CAPACITY, ( long ) 0 );
    }


    /**
     * Creates a new TLongArrayList instance with the
     * specified capacity.
     *
     * @param capacity an int value
     */
    @SuppressWarnings({"RedundantCast"})
    public TLongArrayList( int capacity ) {
        this( capacity, ( long ) 0 );
    }


    /**
     * Creates a new TLongArrayList instance with the
     * specified capacity.
     *
     * @param capacity an int value
     * @param no_entry_value an long value that represents null.
     */
    public TLongArrayList( int capacity, long no_entry_value ) {
        _data = new long[ capacity ];
        _pos = 0;
        this.no_entry_value = no_entry_value;
    }

    /**
     * Creates a new TLongArrayList instance that contains
     * a copy of the collection passed to us.
     *
     * @param collection the collection to copy
     */
    public TLongArrayList ( TLongCollection collection ) {
        this( collection.size() );
        addAll( collection ); 
    }


    /**
     * Creates a new TLongArrayList instance whose
     * capacity is the length of values array and whose
     * initial contents are the specified values.
     * 

* A defensive copy of the given values is held by the new instance. * * @param values an long[] value */ public TLongArrayList( long[] values ) { this( values.length ); add( values ); } protected TLongArrayList(long[] values, long no_entry_value, boolean wrap) { if (!wrap) throw new IllegalStateException("Wrong call"); if (values == null) throw new IllegalArgumentException("values can not be null"); _data = values; _pos = values.length; this.no_entry_value = no_entry_value; } /** * Returns a primitive List implementation that wraps around the given primitive array. *

* NOTE: mutating operation are allowed as long as the List does not grow. In that case * an IllegalStateException will be thrown * * @param values * @return */ public static TLongArrayList wrap(long[] values) { return wrap(values, ( long ) 0); } /** * Returns a primitive List implementation that wraps around the given primitive array. *

* NOTE: mutating operation are allowed as long as the List does not grow. In that case * an IllegalStateException will be thrown * * @param values * @param no_entry_value * @return */ public static TLongArrayList wrap(long[] values, long no_entry_value) { return new TLongArrayList(values, no_entry_value, true) { /** * Growing the wrapped external array is not allow */ @Override public void ensureCapacity(int capacity) { if (capacity > _data.length) throw new IllegalStateException("Can not grow ArrayList wrapped external array"); } }; } /** {@inheritDoc} */ public long getNoEntryValue() { return no_entry_value; } // sizing /** * Grow the internal array as needed to accommodate the specified number of elements. * The size of the array bytes on each resize unless capacity requires more than twice * the current capacity. */ public void ensureCapacity( int capacity ) { if ( capacity > _data.length ) { int newCap = Math.max( _data.length << 1, capacity ); long[] tmp = new long[ newCap ]; System.arraycopy( _data, 0, tmp, 0, _data.length ); _data = tmp; } } /** {@inheritDoc} */ public int size() { return _pos; } /** {@inheritDoc} */ public boolean isEmpty() { return _pos == 0; } /** * Sheds any excess capacity above and beyond the current size of the list. */ public void trimToSize() { if ( _data.length > size() ) { long[] tmp = new long[ size() ]; toArray( tmp, 0, tmp.length ); _data = tmp; } } // modifying /** {@inheritDoc} */ public boolean add( long val ) { ensureCapacity( _pos + 1 ); _data[ _pos++ ] = val; return true; } /** {@inheritDoc} */ public void add( long[] vals ) { add( vals, 0, vals.length ); } /** {@inheritDoc} */ public void add( long[] vals, int offset, int length ) { ensureCapacity( _pos + length ); System.arraycopy( vals, offset, _data, _pos, length ); _pos += length; } /** {@inheritDoc} */ public void insert( int offset, long value ) { if ( offset == _pos ) { add( value ); return; } ensureCapacity( _pos + 1 ); // shift right System.arraycopy( _data, offset, _data, offset + 1, _pos - offset ); // insert _data[ offset ] = value; _pos++; } /** {@inheritDoc} */ public void insert( int offset, long[] values ) { insert( offset, values, 0, values.length ); } /** {@inheritDoc} */ public void insert( int offset, long[] values, int valOffset, int len ) { if ( offset == _pos ) { add( values, valOffset, len ); return; } ensureCapacity( _pos + len ); // shift right System.arraycopy( _data, offset, _data, offset + len, _pos - offset ); // insert System.arraycopy( values, valOffset, _data, offset, len ); _pos += len; } /** {@inheritDoc} */ public long get( int offset ) { if ( offset >= _pos ) { throw new ArrayIndexOutOfBoundsException( offset ); } return _data[ offset ]; } /** * Returns the value at the specified offset without doing any bounds checking. */ public long getQuick( int offset ) { return _data[ offset ]; } /** {@inheritDoc} */ public long set( int offset, long val ) { if ( offset >= _pos ) { throw new ArrayIndexOutOfBoundsException( offset ); } long prev_val = _data[ offset ]; _data[ offset ] = val; return prev_val; } /** {@inheritDoc} */ public long replace( int offset, long val ) { if ( offset >= _pos ) { throw new ArrayIndexOutOfBoundsException( offset ); } long old = _data[ offset ]; _data[ offset ] = val; return old; } /** {@inheritDoc} */ public void set( int offset, long[] values ) { set( offset, values, 0, values.length ); } /** {@inheritDoc} */ public void set( int offset, long[] values, int valOffset, int length ) { if ( offset < 0 || offset + length > _pos ) { throw new ArrayIndexOutOfBoundsException( offset ); } System.arraycopy( values, valOffset, _data, offset, length ); } /** * Sets the value at the specified offset without doing any bounds checking. */ public void setQuick( int offset, long val ) { _data[ offset ] = val; } /** {@inheritDoc} */ public void clear() { clear( DEFAULT_CAPACITY ); } /** * Flushes the internal state of the list, setting the capacity of the empty list to * capacity. */ public void clear( int capacity ) { _data = new long[ capacity ]; _pos = 0; } /** * Sets the size of the list to 0, but does not change its capacity. This method can * be used as an alternative to the {@link #clear()} method if you want to recycle a * list without allocating new backing arrays. */ public void reset() { _pos = 0; Arrays.fill( _data, no_entry_value ); } /** * Sets the size of the list to 0, but does not change its capacity. This method can * be used as an alternative to the {@link #clear()} method if you want to recycle a * list without allocating new backing arrays. This method differs from * {@link #reset()} in that it does not clear the old values in the backing array. * Thus, it is possible for getQuick to return stale data if this method is used and * the caller is careless about bounds checking. */ public void resetQuick() { _pos = 0; } /** {@inheritDoc} */ public boolean remove( long value ) { for ( int index = 0; index < _pos; index++ ) { if ( value == _data[index] ) { remove( index, 1 ); return true; } } return false; } /** {@inheritDoc} */ public long removeAt( int offset ) { long old = get( offset ); remove( offset, 1 ); return old; } /** {@inheritDoc} */ public void remove( int offset, int length ) { if ( length == 0 ) return; if ( offset < 0 || offset >= _pos ) { throw new ArrayIndexOutOfBoundsException(offset); } if ( offset == 0 ) { // data at the front System.arraycopy( _data, length, _data, 0, _pos - length ); } else if ( _pos - length == offset ) { // no copy to make, decrementing pos "deletes" values at // the end } else { // data in the middle System.arraycopy( _data, offset + length, _data, offset, _pos - ( offset + length ) ); } _pos -= length; // no need to clear old values beyond _pos, because this is a // primitive collection and 0 takes as much room as any other // value } /** {@inheritDoc} */ public TLongIterator iterator() { return new TLongArrayIterator( 0 ); } /** {@inheritDoc} */ public boolean containsAll( Collection collection ) { for ( Object element : collection ) { if ( element instanceof Long ) { long c = ( ( Long ) element ).longValue(); if ( ! contains( c ) ) { return false; } } else { return false; } } return true; } /** {@inheritDoc} */ public boolean containsAll( TLongCollection collection ) { if ( this == collection ) { return true; } TLongIterator iter = collection.iterator(); while ( iter.hasNext() ) { long element = iter.next(); if ( ! contains( element ) ) { return false; } } return true; } /** {@inheritDoc} */ public boolean containsAll( long[] array ) { for ( int i = array.length; i-- > 0; ) { if ( ! contains( array[i] ) ) { return false; } } return true; } /** {@inheritDoc} */ public boolean addAll( Collection collection ) { boolean changed = false; for ( Long element : collection ) { long e = element.longValue(); if ( add( e ) ) { changed = true; } } return changed; } /** {@inheritDoc} */ public boolean addAll( TLongCollection collection ) { boolean changed = false; TLongIterator iter = collection.iterator(); while ( iter.hasNext() ) { long element = iter.next(); if ( add( element ) ) { changed = true; } } return changed; } /** {@inheritDoc} */ public boolean addAll( long[] array ) { boolean changed = false; for ( long element : array ) { if ( add( element ) ) { changed = true; } } return changed; } /** {@inheritDoc} */ @SuppressWarnings({"SuspiciousMethodCalls"}) public boolean retainAll( Collection collection ) { boolean modified = false; TLongIterator iter = iterator(); while ( iter.hasNext() ) { if ( ! collection.contains( Long.valueOf ( iter.next() ) ) ) { iter.remove(); modified = true; } } return modified; } /** {@inheritDoc} */ public boolean retainAll( TLongCollection collection ) { if ( this == collection ) { return false; } boolean modified = false; TLongIterator iter = iterator(); while ( iter.hasNext() ) { if ( ! collection.contains( iter.next() ) ) { iter.remove(); modified = true; } } return modified; } /** {@inheritDoc} */ public boolean retainAll( long[] array ) { boolean changed = false; Arrays.sort( array ); long[] data = _data; for ( int i = data.length; i-- > 0; ) { if ( Arrays.binarySearch( array, data[i] ) < 0 ) { remove( i, 1 ); changed = true; } } return changed; } /** {@inheritDoc} */ public boolean removeAll( Collection collection ) { boolean changed = false; for ( Object element : collection ) { if ( element instanceof Long ) { long c = ( ( Long ) element ).longValue(); if ( remove( c ) ) { changed = true; } } } return changed; } /** {@inheritDoc} */ public boolean removeAll( TLongCollection collection ) { if ( collection == this ) { clear(); return true; } boolean changed = false; TLongIterator iter = collection.iterator(); while ( iter.hasNext() ) { long element = iter.next(); if ( remove( element ) ) { changed = true; } } return changed; } /** {@inheritDoc} */ public boolean removeAll( long[] array ) { boolean changed = false; for ( int i = array.length; i-- > 0; ) { if ( remove(array[i]) ) { changed = true; } } return changed; } /** {@inheritDoc} */ public void transformValues( TLongFunction function ) { for ( int i = _pos; i-- > 0; ) { _data[ i ] = function.execute( _data[ i ] ); } } /** {@inheritDoc} */ public void reverse() { reverse( 0, _pos ); } /** {@inheritDoc} */ public void reverse( int from, int to ) { if ( from == to ) { return; // nothing to do } if ( from > to ) { throw new IllegalArgumentException( "from cannot be greater than to" ); } for ( int i = from, j = to - 1; i < j; i++, j-- ) { swap( i, j ); } } /** {@inheritDoc} */ public void shuffle( Random rand ) { for ( int i = _pos; i-- > 1; ) { swap( i, rand.nextInt( i ) ); } } /** * Swap the values at offsets i and j. * * @param i an offset into the data array * @param j an offset into the data array */ private void swap( int i, int j ) { long tmp = _data[ i ]; _data[ i ] = _data[ j ]; _data[ j ] = tmp; } // copying /** {@inheritDoc} */ public TLongList subList( int begin, int end ) { if ( end < begin ) { throw new IllegalArgumentException( "end index " + end + " greater than begin index " + begin ); } if ( begin < 0 ) { throw new IndexOutOfBoundsException( "begin index can not be < 0" ); } if ( end > _data.length ) { throw new IndexOutOfBoundsException( "end index < " + _data.length ); } TLongArrayList list = new TLongArrayList( end - begin ); for ( int i = begin; i < end; i++ ) { list.add( _data[ i ] ); } return list; } /** {@inheritDoc} */ public long[] toArray() { return toArray( 0, _pos ); } /** {@inheritDoc} */ public long[] toArray( int offset, int len ) { long[] rv = new long[ len ]; toArray( rv, offset, len ); return rv; } /** {@inheritDoc} */ public long[] toArray( long[] dest ) { int len = dest.length; if ( dest.length > _pos ) { len = _pos; dest[len] = no_entry_value; } toArray( dest, 0, len ); return dest; } /** {@inheritDoc} */ public long[] toArray( long[] dest, int offset, int len ) { if ( len == 0 ) { return dest; // nothing to copy } if ( offset < 0 || offset >= _pos ) { throw new ArrayIndexOutOfBoundsException( offset ); } System.arraycopy( _data, offset, dest, 0, len ); return dest; } /** {@inheritDoc} */ public long[] toArray( long[] dest, int source_pos, int dest_pos, int len ) { if ( len == 0 ) { return dest; // nothing to copy } if ( source_pos < 0 || source_pos >= _pos ) { throw new ArrayIndexOutOfBoundsException( source_pos ); } System.arraycopy( _data, source_pos, dest, dest_pos, len ); return dest; } // comparing /** {@inheritDoc} */ @Override public boolean equals( Object other ) { if ( other == this ) { return true; } else if ( other instanceof TLongArrayList ) { TLongArrayList that = ( TLongArrayList )other; if ( that.size() != this.size() ) return false; else { for ( int i = _pos; i-- > 0; ) { if ( this._data[ i ] != that._data[ i ] ) { return false; } } return true; } } else return false; } /** {@inheritDoc} */ @Override public int hashCode() { int h = 0; for ( int i = _pos; i-- > 0; ) { h += HashFunctions.hash( _data[ i ] ); } return h; } // procedures /** {@inheritDoc} */ public boolean forEach( TLongProcedure procedure ) { for ( int i = 0; i < _pos; i++ ) { if ( !procedure.execute( _data[ i ] ) ) { return false; } } return true; } /** {@inheritDoc} */ public boolean forEachDescending( TLongProcedure procedure ) { for ( int i = _pos; i-- > 0; ) { if ( !procedure.execute( _data[ i ] ) ) { return false; } } return true; } // sorting /** {@inheritDoc} */ public void sort() { Arrays.sort( _data, 0, _pos ); } /** {@inheritDoc} */ public void sort( int fromIndex, int toIndex ) { Arrays.sort( _data, fromIndex, toIndex ); } // filling /** {@inheritDoc} */ public void fill( long val ) { Arrays.fill( _data, 0, _pos, val ); } /** {@inheritDoc} */ public void fill( int fromIndex, int toIndex, long val ) { if ( toIndex > _pos ) { ensureCapacity( toIndex ); _pos = toIndex; } Arrays.fill( _data, fromIndex, toIndex, val ); } // searching /** {@inheritDoc} */ public int binarySearch( long value ) { return binarySearch( value, 0, _pos ); } /** {@inheritDoc} */ public int binarySearch(long value, int fromIndex, int toIndex) { if ( fromIndex < 0 ) { throw new ArrayIndexOutOfBoundsException( fromIndex ); } if ( toIndex > _pos ) { throw new ArrayIndexOutOfBoundsException( toIndex ); } int low = fromIndex; int high = toIndex - 1; while ( low <= high ) { int mid = ( low + high ) >>> 1; long midVal = _data[ mid ]; if ( midVal < value ) { low = mid + 1; } else if ( midVal > value ) { high = mid - 1; } else { return mid; // value found } } return -( low + 1 ); // value not found. } /** {@inheritDoc} */ public int indexOf( long value ) { return indexOf( 0, value ); } /** {@inheritDoc} */ public int indexOf( int offset, long value ) { for ( int i = offset; i < _pos; i++ ) { if ( _data[ i ] == value ) { return i; } } return -1; } /** {@inheritDoc} */ public int lastIndexOf( long value ) { return lastIndexOf( _pos, value ); } /** {@inheritDoc} */ public int lastIndexOf( int offset, long value ) { for ( int i = offset; i-- > 0; ) { if ( _data[ i ] == value ) { return i; } } return -1; } /** {@inheritDoc} */ public boolean contains( long value ) { return lastIndexOf( value ) >= 0; } /** {@inheritDoc} */ public TLongList grep( TLongProcedure condition ) { TLongArrayList list = new TLongArrayList(); for ( int i = 0; i < _pos; i++ ) { if ( condition.execute( _data[ i ] ) ) { list.add( _data[ i ] ); } } return list; } /** {@inheritDoc} */ public TLongList inverseGrep( TLongProcedure condition ) { TLongArrayList list = new TLongArrayList(); for ( int i = 0; i < _pos; i++ ) { if ( !condition.execute( _data[ i ] ) ) { list.add( _data[ i ] ); } } return list; } /** {@inheritDoc} */ public long max() { if ( size() == 0 ) { throw new IllegalStateException("cannot find maximum of an empty list"); } long max = Long.MIN_VALUE; for ( int i = 0; i < _pos; i++ ) { if ( _data[ i ] > max ) { max = _data[ i ]; } } return max; } /** {@inheritDoc} */ public long min() { if ( size() == 0 ) { throw new IllegalStateException( "cannot find minimum of an empty list" ); } long min = Long.MAX_VALUE; for ( int i = 0; i < _pos; i++ ) { if ( _data[i] < min ) { min = _data[i]; } } return min; } /** {@inheritDoc} */ public long sum() { long sum = 0; for ( int i = 0; i < _pos; i++ ) { sum += _data[ i ]; } return sum; } // stringification /** {@inheritDoc} */ @Override public String toString() { final StringBuilder buf = new StringBuilder( "{" ); for ( int i = 0, end = _pos - 1; i < end; i++ ) { buf.append( _data[ i ] ); buf.append( ", " ); } if ( size() > 0 ) { buf.append( _data[ _pos - 1 ] ); } buf.append( "}" ); return buf.toString(); } /** TLongArrayList iterator */ class TLongArrayIterator implements TLongIterator { /** Index of element to be returned by subsequent call to next. */ private int cursor = 0; /** * Index of element returned by most recent call to next or * previous. Reset to -1 if this element is deleted by a call * to remove. */ int lastRet = -1; TLongArrayIterator( int index ) { cursor = index; } /** {@inheritDoc} */ public boolean hasNext() { return cursor < size(); } /** {@inheritDoc} */ public long next() { try { long next = get( cursor ); lastRet = cursor++; return next; } catch ( IndexOutOfBoundsException e ) { throw new NoSuchElementException(); } } /** {@inheritDoc} */ public void remove() { if ( lastRet == -1 ) throw new IllegalStateException(); try { TLongArrayList.this.remove( lastRet, 1); if ( lastRet < cursor ) cursor--; lastRet = -1; } catch ( IndexOutOfBoundsException e ) { throw new ConcurrentModificationException(); } } } public void writeExternal( ObjectOutput out ) throws IOException { // VERSION out.writeByte( 0 ); // POSITION out.writeInt( _pos ); // NO_ENTRY_VALUE out.writeLong( no_entry_value ); // ENTRIES int len = _data.length; out.writeInt( len ); for( int i = 0; i < len; i++ ) { out.writeLong( _data[ i ] ); } } public void readExternal( ObjectInput in ) throws IOException, ClassNotFoundException { // VERSION in.readByte(); // POSITION _pos = in.readInt(); // NO_ENTRY_VALUE no_entry_value = in.readLong(); // ENTRIES int len = in.readInt(); _data = new long[ len ]; for( int i = 0; i < len; i++ ) { _data[ i ] = in.readLong(); } } } // TLongArrayList





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