Mercurial Hosting > luan
view src/org/eclipse/jetty/util/StringMap.java @ 817:eb33d0045bc2
remove ResourceCache
author | Franklin Schmidt <fschmidt@gmail.com> |
---|---|
date | Fri, 09 Sep 2016 16:43:04 -0600 |
parents | 3428c60d7cfc |
children |
line wrap: on
line source
// // ======================================================================== // Copyright (c) 1995-2014 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.io.Externalizable; import java.util.AbstractMap; import java.util.Collections; import java.util.HashMap; import java.util.HashSet; import java.util.Map; import java.util.Set; /* ------------------------------------------------------------ */ /** Map implementation Optimized for Strings keys.. * This String Map has been optimized for mapping small sets of * Strings where the most frequently accessed Strings have been put to * the map first. * * It also has the benefit that it can look up entries by substring or * sections of char and byte arrays. This can prevent many String * objects from being created just to look up in the map. * * This map is NOT synchronized. */ public class StringMap extends AbstractMap implements Externalizable { public static final boolean CASE_INSENSTIVE=true; protected static final int __HASH_WIDTH=17; /* ------------------------------------------------------------ */ protected int _width=__HASH_WIDTH; protected Node _root=new Node(); protected boolean _ignoreCase=false; protected NullEntry _nullEntry=null; protected Object _nullValue=null; protected HashSet _entrySet=new HashSet(3); protected Set _umEntrySet=Collections.unmodifiableSet(_entrySet); /* ------------------------------------------------------------ */ /** Constructor. */ public StringMap() {} /* ------------------------------------------------------------ */ /** Constructor. * @param ignoreCase */ public StringMap(boolean ignoreCase) { this(); _ignoreCase=ignoreCase; } /* ------------------------------------------------------------ */ /** Constructor. * @param ignoreCase * @param width Width of hash tables, larger values are faster but * use more memory. */ public StringMap(boolean ignoreCase,int width) { this(); _ignoreCase=ignoreCase; _width=width; } /* ------------------------------------------------------------ */ /** Set the ignoreCase attribute. * @param ic If true, the map is case insensitive for keys. */ public void setIgnoreCase(boolean ic) { if (_root._children!=null) throw new IllegalStateException("Must be set before first put"); _ignoreCase=ic; } /* ------------------------------------------------------------ */ public boolean isIgnoreCase() { return _ignoreCase; } /* ------------------------------------------------------------ */ /** Set the hash width. * @param width Width of hash tables, larger values are faster but * use more memory. */ public void setWidth(int width) { _width=width; } /* ------------------------------------------------------------ */ public int getWidth() { return _width; } /* ------------------------------------------------------------ */ @Override public Object put(Object key, Object value) { if (key==null) return put(null,value); return put(key.toString(),value); } /* ------------------------------------------------------------ */ public Object put(String key, Object value) { if (key==null) { Object oldValue=_nullValue; _nullValue=value; if (_nullEntry==null) { _nullEntry=new NullEntry(); _entrySet.add(_nullEntry); } return oldValue; } Node node = _root; int ni=-1; Node prev = null; Node parent = null; // look for best match charLoop: for (int i=0;i<key.length();i++) { char c=key.charAt(i); // Advance node if (ni==-1) { parent=node; prev=null; ni=0; node=(node._children==null)?null:node._children[c%_width]; } // Loop through a node chain at the same level while (node!=null) { // If it is a matching node, goto next char if (node._char[ni]==c || _ignoreCase&&node._ochar[ni]==c) { prev=null; ni++; if (ni==node._char.length) ni=-1; continue charLoop; } // no char match // if the first char, if (ni==0) { // look along the chain for a char match prev=node; node=node._next; } else { // Split the current node! node.split(this,ni); i--; ni=-1; continue charLoop; } } // We have run out of nodes, so as this is a put, make one node = new Node(_ignoreCase,key,i); if (prev!=null) // add to end of chain prev._next=node; else if (parent!=null) // add new child { if (parent._children==null) parent._children=new Node[_width]; parent._children[c%_width]=node; int oi=node._ochar[0]%_width; if (node._ochar!=null && node._char[0]%_width!=oi) { if (parent._children[oi]==null) parent._children[oi]=node; else { Node n=parent._children[oi]; while(n._next!=null) n=n._next; n._next=node; } } } else // this is the root. _root=node; break; } // Do we have a node if (node!=null) { // Split it if we are in the middle if(ni>0) node.split(this,ni); Object old = node._value; node._key=key; node._value=value; _entrySet.add(node); return old; } return null; } /* ------------------------------------------------------------ */ @Override public Object get(Object key) { if (key==null) return _nullValue; if (key instanceof String) return get((String)key); return get(key.toString()); } /* ------------------------------------------------------------ */ public Object get(String key) { if (key==null) return _nullValue; Map.Entry entry = getEntry(key,0,key.length()); if (entry==null) return null; return entry.getValue(); } /* ------------------------------------------------------------ */ /** Get a map entry by substring key. * @param key String containing the key * @param offset Offset of the key within the String. * @param length The length of the key * @return The Map.Entry for the key or null if the key is not in * the map. */ public Map.Entry getEntry(String key,int offset, int length) { if (key==null) return _nullEntry; Node node = _root; int ni=-1; // look for best match charLoop: for (int i=0;i<length;i++) { char c=key.charAt(offset+i); // Advance node if (ni==-1) { ni=0; node=(node._children==null)?null:node._children[c%_width]; } // Look through the node chain while (node!=null) { // If it is a matching node, goto next char if (node._char[ni]==c || _ignoreCase&&node._ochar[ni]==c) { ni++; if (ni==node._char.length) ni=-1; continue charLoop; } // No char match, so if mid node then no match at all. if (ni>0) return null; // try next in chain node=node._next; } return null; } if (ni>0) return null; if (node!=null && node._key==null) return null; return node; } /* ------------------------------------------------------------ */ /** Get a map entry by char array key. * @param key char array containing the key * @param offset Offset of the key within the array. * @param length The length of the key * @return The Map.Entry for the key or null if the key is not in * the map. */ public Map.Entry getEntry(char[] key,int offset, int length) { if (key==null) return _nullEntry; Node node = _root; int ni=-1; // look for best match charLoop: for (int i=0;i<length;i++) { char c=key[offset+i]; // Advance node if (ni==-1) { ni=0; node=(node._children==null)?null:node._children[c%_width]; } // While we have a node to try while (node!=null) { // If it is a matching node, goto next char if (node._char[ni]==c || _ignoreCase&&node._ochar[ni]==c) { ni++; if (ni==node._char.length) ni=-1; continue charLoop; } // No char match, so if mid node then no match at all. if (ni>0) return null; // try next in chain node=node._next; } return null; } if (ni>0) return null; if (node!=null && node._key==null) return null; return node; } /* ------------------------------------------------------------ */ /** Get a map entry by byte array key, using as much of the passed key as needed for a match. * A simple 8859-1 byte to char mapping is assumed. * @param key char array containing the key * @param offset Offset of the key within the array. * @param maxLength The length of the key * @return The Map.Entry for the key or null if the key is not in * the map. */ public Map.Entry getBestEntry(byte[] key,int offset, int maxLength) { if (key==null) return _nullEntry; Node node = _root; int ni=-1; // look for best match charLoop: for (int i=0;i<maxLength;i++) { char c=(char)key[offset+i]; // Advance node if (ni==-1) { ni=0; Node child = (node._children==null)?null:node._children[c%_width]; if (child==null && i>0) return node; // This is the best match node=child; } // While we have a node to try while (node!=null) { // If it is a matching node, goto next char if (node._char[ni]==c || _ignoreCase&&node._ochar[ni]==c) { ni++; if (ni==node._char.length) ni=-1; continue charLoop; } // No char match, so if mid node then no match at all. if (ni>0) return null; // try next in chain node=node._next; } return null; } if (ni>0) return null; if (node!=null && node._key==null) return null; return node; } /* ------------------------------------------------------------ */ @Override public Object remove(Object key) { if (key==null) return remove(null); return remove(key.toString()); } /* ------------------------------------------------------------ */ public Object remove(String key) { if (key==null) { Object oldValue=_nullValue; if (_nullEntry!=null) { _entrySet.remove(_nullEntry); _nullEntry=null; _nullValue=null; } return oldValue; } Node node = _root; int ni=-1; // look for best match charLoop: for (int i=0;i<key.length();i++) { char c=key.charAt(i); // Advance node if (ni==-1) { ni=0; node=(node._children==null)?null:node._children[c%_width]; } // While we have a node to try while (node!=null) { // If it is a matching node, goto next char if (node._char[ni]==c || _ignoreCase&&node._ochar[ni]==c) { ni++; if (ni==node._char.length) ni=-1; continue charLoop; } // No char match, so if mid node then no match at all. if (ni>0) return null; // try next in chain node=node._next; } return null; } if (ni>0) return null; if (node!=null && node._key==null) return null; Object old = node._value; _entrySet.remove(node); node._value=null; node._key=null; return old; } /* ------------------------------------------------------------ */ @Override public Set entrySet() { return _umEntrySet; } /* ------------------------------------------------------------ */ @Override public int size() { return _entrySet.size(); } /* ------------------------------------------------------------ */ @Override public boolean isEmpty() { return _entrySet.isEmpty(); } /* ------------------------------------------------------------ */ @Override public boolean containsKey(Object key) { if (key==null) return _nullEntry!=null; return getEntry(key.toString(),0,key==null?0:key.toString().length())!=null; } /* ------------------------------------------------------------ */ @Override public void clear() { _root=new Node(); _nullEntry=null; _nullValue=null; _entrySet.clear(); } /* ------------------------------------------------------------ */ /* ------------------------------------------------------------ */ /* ------------------------------------------------------------ */ private static class Node implements Map.Entry { char[] _char; char[] _ochar; Node _next; Node[] _children; String _key; Object _value; Node(){} Node(boolean ignoreCase,String s, int offset) { int l=s.length()-offset; _char=new char[l]; _ochar=new char[l]; for (int i=0;i<l;i++) { char c=s.charAt(offset+i); _char[i]=c; if (ignoreCase) { char o=c; if (Character.isUpperCase(c)) o=Character.toLowerCase(c); else if (Character.isLowerCase(c)) o=Character.toUpperCase(c); _ochar[i]=o; } } } Node split(StringMap map,int offset) { Node split = new Node(); int sl=_char.length-offset; char[] tmp=this._char; this._char=new char[offset]; split._char = new char[sl]; System.arraycopy(tmp,0,this._char,0,offset); System.arraycopy(tmp,offset,split._char,0,sl); if (this._ochar!=null) { tmp=this._ochar; this._ochar=new char[offset]; split._ochar = new char[sl]; System.arraycopy(tmp,0,this._ochar,0,offset); System.arraycopy(tmp,offset,split._ochar,0,sl); } split._key=this._key; split._value=this._value; this._key=null; this._value=null; if (map._entrySet.remove(this)) map._entrySet.add(split); split._children=this._children; this._children=new Node[map._width]; this._children[split._char[0]%map._width]=split; if (split._ochar!=null && this._children[split._ochar[0]%map._width]!=split) this._children[split._ochar[0]%map._width]=split; return split; } public Object getKey(){return _key;} public Object getValue(){return _value;} public Object setValue(Object o){Object old=_value;_value=o;return old;} @Override public String toString() { StringBuilder buf=new StringBuilder(); toString(buf); return buf.toString(); } private void toString(StringBuilder buf) { buf.append("{["); if (_char==null) buf.append('-'); else for (int i=0;i<_char.length;i++) buf.append(_char[i]); buf.append(':'); buf.append(_key); buf.append('='); buf.append(_value); buf.append(']'); if (_children!=null) { for (int i=0;i<_children.length;i++) { buf.append('|'); if (_children[i]!=null) _children[i].toString(buf); else buf.append("-"); } } buf.append('}'); if (_next!=null) { buf.append(",\n"); _next.toString(buf); } } } /* ------------------------------------------------------------ */ /* ------------------------------------------------------------ */ private class NullEntry implements Map.Entry { public Object getKey(){return null;} public Object getValue(){return _nullValue;} public Object setValue(Object o) {Object old=_nullValue;_nullValue=o;return old;} @Override public String toString(){return "[:null="+_nullValue+"]";} } /* ------------------------------------------------------------ */ public void writeExternal(java.io.ObjectOutput out) throws java.io.IOException { HashMap map = new HashMap(this); out.writeBoolean(_ignoreCase); out.writeObject(map); } /* ------------------------------------------------------------ */ public void readExternal(java.io.ObjectInput in) throws java.io.IOException, ClassNotFoundException { boolean ic=in.readBoolean(); HashMap map = (HashMap)in.readObject(); setIgnoreCase(ic); this.putAll(map); } }