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//
//  ========================================================================
//  Copyright (c) 1995-2018 Mort Bay Consulting Pty. Ltd.
//  ------------------------------------------------------------------------
//  All rights reserved. This program and the accompanying materials
//  are made available under the terms of the Eclipse Public License v1.0
//  and Apache License v2.0 which accompanies this distribution.
//
//      The Eclipse Public License is available at
//      http://www.eclipse.org/legal/epl-v10.html
//
//      The Apache License v2.0 is available at
//      http://www.opensource.org/licenses/apache2.0.php
//
//  You may elect to redistribute this code under either of these licenses.
//  ========================================================================
//

package org.eclipse.jetty.util;

import java.nio.ByteBuffer;
import java.util.AbstractMap;
import java.util.Arrays;
import java.util.HashSet;
import java.util.Map;
import java.util.Set;


/** 
 * 

A Ternary Trie String lookup data structure.

*

* This Trie is of a fixed size and cannot grow (which can be a good thing with regards to DOS when used as a cache). *

*

* The Trie is stored in 3 arrays: *

*
*
char[] _tree
This is semantically 2 dimensional array flattened into a 1 dimensional char array. The second dimension * is that every 4 sequential elements represents a row of: character; hi index; eq index; low index, used to build a * ternary trie of key strings.
*
String[] _key
An array of key values where each element matches a row in the _tree array. A non zero key element * indicates that the _tree row is a complete key rather than an intermediate character of a longer key.
*
V[] _value
An array of values corresponding to the _key array
*
*

The lookup of a value will iterate through the _tree array matching characters. If the equal tree branch is followed, * then the _key array is looked up to see if this is a complete match. If a match is found then the _value array is looked up * to return the matching value. *

*

* This Trie may be instantiated either as case sensitive or insensitive. *

*

This Trie is not Threadsafe and contains no mutual exclusion * or deliberate memory barriers. It is intended for an ArrayTrie to be * built by a single thread and then used concurrently by multiple threads * and not mutated during that access. If concurrent mutations of the * Trie is required external locks need to be applied. *

* * @param the Entry type */ public class ArrayTernaryTrie extends AbstractTrie { private static int LO=1; private static int EQ=2; private static int HI=3; /** * The Size of a Trie row is the char, and the low, equal and high * child pointers */ private static final int ROW_SIZE = 4; /** * The Trie rows in a single array which allows a lookup of row,character * to the next row in the Trie. This is actually a 2 dimensional * array that has been flattened to achieve locality of reference. */ private final char[] _tree; /** * The key (if any) for a Trie row. * A row may be a leaf, a node or both in the Trie tree. */ private final String[] _key; /** * The value (if any) for a Trie row. * A row may be a leaf, a node or both in the Trie tree. */ private final V[] _value; /** * The number of rows allocated */ private char _rows; /* ------------------------------------------------------------ */ /** Create a case insensitive Trie of default capacity. */ public ArrayTernaryTrie() { this(128); } /* ------------------------------------------------------------ */ /** Create a Trie of default capacity * @param insensitive true if the Trie is insensitive to the case of the key. */ public ArrayTernaryTrie(boolean insensitive) { this(insensitive,128); } /* ------------------------------------------------------------ */ /** Create a case insensitive Trie * @param capacity The capacity of the Trie, which is in the worst case * is the total number of characters of all keys stored in the Trie. * The capacity needed is dependent of the shared prefixes of the keys. * For example, a capacity of 6 nodes is required to store keys "foo" * and "bar", but a capacity of only 4 is required to * store "bar" and "bat". */ public ArrayTernaryTrie(int capacity) { this(true,capacity); } /* ------------------------------------------------------------ */ /** Create a Trie * @param insensitive true if the Trie is insensitive to the case of the key. * @param capacity The capacity of the Trie, which is in the worst case * is the total number of characters of all keys stored in the Trie. * The capacity needed is dependent of the shared prefixes of the keys. * For example, a capacity of 6 nodes is required to store keys "foo" * and "bar", but a capacity of only 4 is required to * store "bar" and "bat". */ public ArrayTernaryTrie(boolean insensitive, int capacity) { super(insensitive); _value=(V[])new Object[capacity]; _tree=new char[capacity*ROW_SIZE]; _key=new String[capacity]; } /* ------------------------------------------------------------ */ /** Copy Trie and change capacity by a factor * @param trie the trie to copy from * @param factor the factor to grow the capacity by */ public ArrayTernaryTrie(ArrayTernaryTrie trie, double factor) { super(trie.isCaseInsensitive()); int capacity=(int)(trie._value.length*factor); _rows=trie._rows; _value=Arrays.copyOf(trie._value, capacity); _tree=Arrays.copyOf(trie._tree, capacity*ROW_SIZE); _key=Arrays.copyOf(trie._key, capacity); } /* ------------------------------------------------------------ */ @Override public void clear() { _rows=0; Arrays.fill(_value,null); Arrays.fill(_tree,(char)0); Arrays.fill(_key,null); } /* ------------------------------------------------------------ */ @Override public boolean put(String s, V v) { int t=0; int limit = s.length(); int last=0; for(int k=0; k < limit; k++) { char c=s.charAt(k); if(isCaseInsensitive() && c<128) c=StringUtil.lowercases[c]; while (true) { int row=ROW_SIZE*t; // Do we need to create the new row? if (t==_rows) { _rows++; if (_rows>=_key.length) { _rows--; return false; } _tree[row]=c; } char n=_tree[row]; int diff=n-c; if (diff==0) t=_tree[last=(row+EQ)]; else if (diff<0) t=_tree[last=(row+LO)]; else t=_tree[last=(row+HI)]; // do we need a new row? if (t==0) { t=_rows; _tree[last]=(char)t; } if (diff==0) break; } } // Do we need to create the new row? if (t==_rows) { _rows++; if (_rows>=_key.length) { _rows--; return false; } } // Put the key and value _key[t]=v==null?null:s; _value[t] = v; return true; } /* ------------------------------------------------------------ */ @Override public V get(String s,int offset, int len) { int t = 0; for(int i=0; i < len;) { char c=s.charAt(offset+i++); if(isCaseInsensitive() && c<128) c=StringUtil.lowercases[c]; while (true) { int row = ROW_SIZE*t; char n=_tree[row]; int diff=n-c; if (diff==0) { t=_tree[row+EQ]; if (t==0) return null; break; } t=_tree[row+hilo(diff)]; if (t==0) return null; } } return _value[t]; } @Override public V get(ByteBuffer b, int offset, int len) { int t = 0; offset+=b.position(); for(int i=0; i < len;) { byte c=(byte)(b.get(offset+i++)&0x7f); if(isCaseInsensitive()) c=(byte)StringUtil.lowercases[c]; while (true) { int row = ROW_SIZE*t; char n=_tree[row]; int diff=n-c; if (diff==0) { t=_tree[row+EQ]; if (t==0) return null; break; } t=_tree[row+hilo(diff)]; if (t==0) return null; } } return (V)_value[t]; } /* ------------------------------------------------------------ */ @Override public V getBest(String s) { return getBest(0,s,0,s.length()); } /* ------------------------------------------------------------ */ @Override public V getBest(String s, int offset, int length) { return getBest(0,s,offset,length); } /* ------------------------------------------------------------ */ private V getBest(int t,String s,int offset,int len) { int node=t; int end=offset+len; loop: while(offset keySet() { Set keys = new HashSet<>(); for (int r=0;r<=_rows;r++) { if (_key[r]!=null && _value[r]!=null) keys.add(_key[r]); } return keys; } public int size() { int s=0; for (int r=0;r<=_rows;r++) { if (_key[r]!=null && _value[r]!=null) s++; } return s; } public boolean isEmpty() { for (int r=0;r<=_rows;r++) { if (_key[r]!=null && _value[r]!=null) return false; } return true; } public Set> entrySet() { Set> entries = new HashSet<>(); for (int r=0;r<=_rows;r++) { if (_key[r]!=null && _value[r]!=null) entries.add(new AbstractMap.SimpleEntry<>(_key[r],_value[r])); } return entries; } @Override public boolean isFull() { return _rows+1==_key.length; } public static int hilo(int diff) { // branchless equivalent to return ((diff<0)?LO:HI); // return 3+2*((diff&Integer.MIN_VALUE)>>Integer.SIZE-1); return 1+(diff|Integer.MAX_VALUE)/(Integer.MAX_VALUE/2); } public void dump() { for (int r=0;r<_rows;r++) { char c=_tree[r*ROW_SIZE+0]; System.err.printf("%4d [%s,%d,%d,%d] '%s':%s%n", r, (c<' '||c>127)?(""+(int)c):"'"+c+"'", (int)_tree[r*ROW_SIZE+LO], (int)_tree[r*ROW_SIZE+EQ], (int)_tree[r*ROW_SIZE+HI], _key[r], _value[r]); } } public static class Growing implements Trie { private final int _growby; private ArrayTernaryTrie _trie; public Growing() { this(1024,1024); } public Growing(int capacity, int growby) { _growby=growby; _trie = new ArrayTernaryTrie<>(capacity); } public Growing(boolean insensitive, int capacity, int growby) { _growby=growby; _trie = new ArrayTernaryTrie<>(insensitive,capacity); } @Override public boolean put(V v) { return put(v.toString(),v); } @Override public int hashCode() { return _trie.hashCode(); } @Override public V remove(String s) { return _trie.remove(s); } @Override public V get(String s) { return _trie.get(s); } @Override public V get(ByteBuffer b) { return _trie.get(b); } @Override public V getBest(byte[] b, int offset, int len) { return _trie.getBest(b,offset,len); } @Override public boolean isCaseInsensitive() { return _trie.isCaseInsensitive(); } @Override public boolean equals(Object obj) { return _trie.equals(obj); } @Override public void clear() { _trie.clear(); } @Override public boolean put(String s, V v) { boolean added = _trie.put(s,v); while (!added && _growby>0) { ArrayTernaryTrie bigger = new ArrayTernaryTrie<>(_trie._key.length+_growby); for (Map.Entry entry : _trie.entrySet()) bigger.put(entry.getKey(),entry.getValue()); _trie = bigger; added = _trie.put(s,v); } return added; } @Override public V get(String s, int offset, int len) { return _trie.get(s,offset,len); } @Override public V get(ByteBuffer b, int offset, int len) { return _trie.get(b,offset,len); } @Override public V getBest(String s) { return _trie.getBest(s); } @Override public V getBest(String s, int offset, int length) { return _trie.getBest(s,offset,length); } @Override public V getBest(ByteBuffer b, int offset, int len) { return _trie.getBest(b,offset,len); } @Override public String toString() { return _trie.toString(); } @Override public Set keySet() { return _trie.keySet(); } @Override public boolean isFull() { return false; } public void dump() { _trie.dump(); } public boolean isEmpty() { return _trie.isEmpty(); } public int size() { return _trie.size(); } } }




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