attic/ContainerBuilder.java - platform/external/jackson-databind - Git at Google

 package com.fasterxml.jackson.databind.util;

 import java.lang.reflect.Array;
 import java.util.*;

 /**
  * Helper class used for constructing "untyped" {@link java.util.List},
  * {@link java.util.Map} and <code>Object[]</code> values.
  * Could help performance if a single instance can be used for building
  * nested Maps, Lists/Object[] of relatively small size.
  * Whether use makes sense depends; currently this class is not used.
  */
 public final class ContainerBuilder
 {
     private final static int MAX_BUF = 1000;

     /**
      * Buffer in which contents are being buffered (except for cases where
      * size has grown too big to bother with separate buffer)
      */
     private Object[] b;

     /**
      * Pointer to the next available slot in temporary buffer.
      */
     private int tail;

     /**
      * When building potentially multiple containers, we need to keep track of
      * the starting pointer for the current container.
      */
     private int start;

     /**
      * In cases where size of buffered contents has grown big enough that buffering
      * does not make sense, an actual {@link java.util.List} will be constructed
      * earlier and used instead of buffering.
      */
     private List<Object> list;

     /**
      * Similar to <code>list</code>, we may sometimes eagerly construct result
      * {@link java.util.Map} and skip actual buffering.
      */
     private Map<String,Object> map;

     public ContainerBuilder(int bufSize) {
         b = new Object[bufSize & ~1];
     }

     public boolean canReuse() {
         return (list == null) && (map == null);
     }

     public int bufferLength() {
         return b.length;
     }

     /*
     /**********************************************************
     /* Public API
     /**********************************************************
      */

     public int start() {
         if (list != null || map != null) {
             throw new IllegalStateException();
         }
         final int prevStart = start;
         start = tail;
         return prevStart;
     }

     public int startList(Object value) {
         if (list != null || map != null) {
             throw new IllegalStateException();
         }
         final int prevStart = start;
         start = tail;
         add(value);
         return prevStart;
     }

     public int startMap(String key, Object value) {
         if (list != null || map != null) {
             throw new IllegalStateException();
         }
         final int prevStart = start;
         start = tail;
         put(key, value);
         return prevStart;
     }

     public void add(Object value) {
         if (list != null) {
             list.add(value);
         } else if (tail >= b.length) {
             _expandList(value);
         } else {
             b[tail++] = value;
         }
     }

     public void put(String key, Object value) {
         if (map != null) {
             map.put(key, value);
         } else if ((tail + 2) > b.length) {
             _expandMap(key, value);
         } else {
             b[tail++] = key;
             b[tail++] = value;
         }
     }

     public List<Object> finishList(int prevStart)
     {
         List<Object> l = list;
         if (l == null) {
             l = _buildList(true);
         } else {
             list = null;
         }
         start = prevStart;
         return l;
     }

     public Object[] finishArray(int prevStart)
     {
         Object[] result;
         if (list == null) {
             result = Arrays.copyOfRange(b, start, tail);
         } else {
             result = list.toArray(new Object[tail - start]);
             list = null;
         }
         start = prevStart;
         return result;
     }

     public <T> Object[] finishArray(int prevStart, Class<T> elemType)
     {
         final int size = tail-start;
         @SuppressWarnings("unchecked")
         T[] result = (T[]) Array.newInstance(elemType, size);

         if (list == null) {
             System.arraycopy(b, start, result, 0, size);
         } else {
             result = list.toArray(result);
             list = null;
         }
         start = prevStart;
         return result;
     }

     public Map<String,Object> finishMap(int prevStart)
     {
         Map<String,Object> m = map;

         if (m == null) {
             m = _buildMap(true);
         } else {
             map = null;
         }
         start = prevStart;
         return m;
     }

     /*
     /**********************************************************
     /* Internal methods
     /**********************************************************
      */

     private void _expandList(Object value) {
         if (b.length < MAX_BUF) { // can still expand
             b = Arrays.copyOf(b, b.length << 1);
             b[tail++] = value;
         } else {
             list = _buildList(false);
             list.add(value);
         }
     }

     private List<Object> _buildList(boolean isComplete)
     {
         int currLen = tail - start;
         if (isComplete) {
             if (currLen < 2) {
                 currLen = 2;
             }
         } else {
             if (currLen < 20) {
                 currLen = 20;
             } else if (currLen < MAX_BUF) {
                 currLen += (currLen>>1);
             } else {
                 currLen += (currLen>>2);
             }
         }
         List<Object> l = new ArrayList<Object>(currLen);
         for (int i = start; i < tail; ++i) {
             l.add(b[i]);
         }
         tail = start; // reset buffered entries
         return l;
     }

     private void _expandMap(String key, Object value) {
         if (b.length < MAX_BUF) { // can still expand
             b = Arrays.copyOf(b, b.length << 1);
             b[tail++] = key;
             b[tail++] = value;
         } else {
             map = _buildMap(false);
             map.put(key, value);
         }
     }

     private Map<String,Object> _buildMap(boolean isComplete)
     {
         int size = (tail - start) >> 1;
         if (isComplete) { // when complete, optimize to smallest size
             if (size <= 3) { // 3 or fewer entries, hash table of 4
                 size = 4;
             } else if (size <= 40) {
                 size += (size>>1);
             } else {
                 size += (size>>2) + (size>>4); // * 1.3125
             }
         } else {
             if (size < 10) {
                 size = 16;
             } else if (size < MAX_BUF) {
                 size += (size>>1);
             } else {
                 size += (size/3);
             }
         }
         Map<String,Object> m = new LinkedHashMap<String,Object>(size, 0.8f);
         for (int i = start; i < tail; i += 2) {
             m.put((String) b[i], b[i+1]);
         }
         tail = start; // reset buffered entries
         return m;
     }
 }
	package com.fasterxml.jackson.databind.util;

	import java.lang.reflect.Array;
	import java.util.*;

	/**
	* Helper class used for constructing "untyped" {@link java.util.List},
	* {@link java.util.Map} and <code>Object[]</code> values.
	* Could help performance if a single instance can be used for building
	* nested Maps, Lists/Object[] of relatively small size.
	* Whether use makes sense depends; currently this class is not used.
	*/
	public final class ContainerBuilder
	{
	private final static int MAX_BUF = 1000;

	/**
	* Buffer in which contents are being buffered (except for cases where
	* size has grown too big to bother with separate buffer)
	*/
	private Object[] b;

	/**
	* Pointer to the next available slot in temporary buffer.
	*/
	private int tail;

	/**
	* When building potentially multiple containers, we need to keep track of
	* the starting pointer for the current container.
	*/
	private int start;

	/**
	* In cases where size of buffered contents has grown big enough that buffering
	* does not make sense, an actual {@link java.util.List} will be constructed
	* earlier and used instead of buffering.
	*/
	private List<Object> list;

	/**
	* Similar to <code>list</code>, we may sometimes eagerly construct result
	* {@link java.util.Map} and skip actual buffering.
	*/
	private Map<String,Object> map;

	public ContainerBuilder(int bufSize) {
	b = new Object[bufSize & ~1];
	}

	public boolean canReuse() {
	return (list == null) && (map == null);
	}

	public int bufferLength() {
	return b.length;
	}

	/*
	/**********************************************************
	/* Public API
	/**********************************************************
	*/

	public int start() {
	if (list != null \|\| map != null) {
	throw new IllegalStateException();
	}
	final int prevStart = start;
	start = tail;
	return prevStart;
	}

	public int startList(Object value) {
	if (list != null \|\| map != null) {
	throw new IllegalStateException();
	}
	final int prevStart = start;
	start = tail;
	add(value);
	return prevStart;
	}

	public int startMap(String key, Object value) {
	if (list != null \|\| map != null) {
	throw new IllegalStateException();
	}
	final int prevStart = start;
	start = tail;
	put(key, value);
	return prevStart;
	}

	public void add(Object value) {
	if (list != null) {
	list.add(value);
	} else if (tail >= b.length) {
	_expandList(value);
	} else {
	b[tail++] = value;
	}
	}

	public void put(String key, Object value) {
	if (map != null) {
	map.put(key, value);
	} else if ((tail + 2) > b.length) {
	_expandMap(key, value);
	} else {
	b[tail++] = key;
	b[tail++] = value;
	}
	}

	public List<Object> finishList(int prevStart)
	{
	List<Object> l = list;
	if (l == null) {
	l = _buildList(true);
	} else {
	list = null;
	}
	start = prevStart;
	return l;
	}

	public Object[] finishArray(int prevStart)
	{
	Object[] result;
	if (list == null) {
	result = Arrays.copyOfRange(b, start, tail);
	} else {
	result = list.toArray(new Object[tail - start]);
	list = null;
	}
	start = prevStart;
	return result;
	}

	public <T> Object[] finishArray(int prevStart, Class<T> elemType)
	{
	final int size = tail-start;
	@SuppressWarnings("unchecked")
	T[] result = (T[]) Array.newInstance(elemType, size);

	if (list == null) {
	System.arraycopy(b, start, result, 0, size);
	} else {
	result = list.toArray(result);
	list = null;
	}
	start = prevStart;
	return result;
	}

	public Map<String,Object> finishMap(int prevStart)
	{
	Map<String,Object> m = map;

	if (m == null) {
	m = _buildMap(true);
	} else {
	map = null;
	}
	start = prevStart;
	return m;
	}

	/*
	/**********************************************************
	/* Internal methods
	/**********************************************************
	*/

	private void _expandList(Object value) {
	if (b.length < MAX_BUF) { // can still expand
	b = Arrays.copyOf(b, b.length << 1);
	b[tail++] = value;
	} else {
	list = _buildList(false);
	list.add(value);
	}
	}

	private List<Object> _buildList(boolean isComplete)
	{
	int currLen = tail - start;
	if (isComplete) {
	if (currLen < 2) {
	currLen = 2;
	}
	} else {
	if (currLen < 20) {
	currLen = 20;
	} else if (currLen < MAX_BUF) {
	currLen += (currLen>>1);
	} else {
	currLen += (currLen>>2);
	}
	}
	List<Object> l = new ArrayList<Object>(currLen);
	for (int i = start; i < tail; ++i) {
	l.add(b[i]);
	}
	tail = start; // reset buffered entries
	return l;
	}

	private void _expandMap(String key, Object value) {
	if (b.length < MAX_BUF) { // can still expand
	b = Arrays.copyOf(b, b.length << 1);
	b[tail++] = key;
	b[tail++] = value;
	} else {
	map = _buildMap(false);
	map.put(key, value);
	}
	}

	private Map<String,Object> _buildMap(boolean isComplete)
	{
	int size = (tail - start) >> 1;
	if (isComplete) { // when complete, optimize to smallest size
	if (size <= 3) { // 3 or fewer entries, hash table of 4
	size = 4;
	} else if (size <= 40) {
	size += (size>>1);
	} else {
	size += (size>>2) + (size>>4); // * 1.3125
	}
	} else {
	if (size < 10) {
	size = 16;
	} else if (size < MAX_BUF) {
	size += (size>>1);
	} else {
	size += (size/3);
	}
	}
	Map<String,Object> m = new LinkedHashMap<String,Object>(size, 0.8f);
	for (int i = start; i < tail; i += 2) {
	m.put((String) b[i], b[i+1]);
	}
	tail = start; // reset buffered entries
	return m;
	}
	}