1.9.10/src/mapper/java/org/codehaus/jackson/map/introspect/POJOPropertyBuilder.java - jackson - Git at Google

 package org.codehaus.jackson.map.introspect;

 import org.codehaus.jackson.map.BeanPropertyDefinition;

 /**
  * Helper class used for aggregating information about a single
  * potential POJO property.
  *
  * @since 1.9
  */
 public class POJOPropertyBuilder
     extends BeanPropertyDefinition
     implements Comparable<POJOPropertyBuilder>
 {
     /**
      * External name of logical property; may change with
      * renaming (by new instance being constructed using
      * a new name)
      */
     protected final String _name;

     /**
      * Original internal name, derived from accessor, of this
      * property. Will not be changed by renaming.
      */
     protected final String _internalName;

     protected Node<AnnotatedField> _fields;

     protected Node<AnnotatedParameter> _ctorParameters;

     protected Node<AnnotatedMethod> _getters;

     protected Node<AnnotatedMethod> _setters;

     public POJOPropertyBuilder(String internalName)
     {
         _internalName = internalName;
         _name = internalName;
     }

     public POJOPropertyBuilder(POJOPropertyBuilder src, String newName)
     {
         _internalName = src._internalName;
         _name = newName;
         _fields = src._fields;
         _ctorParameters = src._ctorParameters;
         _getters = src._getters;
         _setters = src._setters;
     }

     /**
      * Method for constructing a renamed instance
      */
     public POJOPropertyBuilder withName(String newName) {
         return new POJOPropertyBuilder(this, newName);
     }

     /*
     /**********************************************************
     /* Comparable implementation: sort alphabetically, except
     /* that properties with constructor parameters sorted
     /* before other properties
     /**********************************************************
      */

     @Override
     public int compareTo(POJOPropertyBuilder other)
     {
         // first, if one has ctor params, that should come first:
         if (_ctorParameters != null) {
             if (other._ctorParameters == null) {
                 return -1;
             }
         } else if (other._ctorParameters != null) {
             return 1;
         }
         /* otherwise sort by external name (including sorting of
          * ctor parameters)
          */
         return getName().compareTo(other.getName());
     }

     /*
     /**********************************************************
     /* BeanPropertyDefinition implementation
     /**********************************************************
      */

     @Override
     public String getName() { return _name; }

     @Override
     public String getInternalName() { return _internalName; }

     @Override
     public boolean isExplicitlyIncluded() {
         return anyExplicitNames();
     }

     @Override
     public boolean hasGetter() { return _getters != null; }

     @Override
     public boolean hasSetter() { return _setters != null; }

     @Override
     public boolean hasField() { return _fields != null; }

     @Override
     public boolean hasConstructorParameter() { return _ctorParameters != null; }

     @Override
     public AnnotatedMember getAccessor()
     {
         AnnotatedMember m = getGetter();
         if (m == null) {
             m = getField();
         }
         return m;
     }

     @Override
     public AnnotatedMember getMutator()
     {
         AnnotatedMember m = getConstructorParameter();
         if (m == null) {
             m = getSetter();
             if (m == null) {
                 m = getField();
             }
         }
         return m;
     }

     @Override
     public boolean couldSerialize() {
         return (_getters != null) || (_fields != null);
     }

     @Override
     public AnnotatedMethod getGetter()
     {
         if (_getters == null) {
             return null;
         }
         // If multiple, verify that they do not conflict...
         AnnotatedMethod getter = _getters.value;
         Node<AnnotatedMethod> next = _getters.next;
         for (; next != null; next = next.next) {
             /* [JACKSON-255] Allow masking, i.e. report exception only if
              *   declarations in same class, or there's no inheritance relationship
              *   (sibling interfaces etc)
              */
             AnnotatedMethod nextGetter = next.value;
             Class<?> getterClass = getter.getDeclaringClass();
             Class<?> nextClass = nextGetter.getDeclaringClass();
             if (getterClass != nextClass) {
                 if (getterClass.isAssignableFrom(nextClass)) { // next is more specific
                     getter = nextGetter;
                     continue;
                 }
                 if (nextClass.isAssignableFrom(getterClass)) { // getter more specific
                     continue;
                 }
             }
             throw new IllegalArgumentException("Conflicting getter definitions for property \""+getName()+"\": "
                     +getter.getFullName()+" vs "+nextGetter.getFullName());
         }
         return getter;
     }

     @Override
     public AnnotatedMethod getSetter()
     {
         if (_setters == null) {
             return null;
         }
         // If multiple, verify that they do not conflict...
         AnnotatedMethod setter = _setters.value;
         Node<AnnotatedMethod> next = _setters.next;
         for (; next != null; next = next.next) {
             /* [JACKSON-255] Allow masking, i.e. report exception only if
              *   declarations in same class, or there's no inheritance relationship
              *   (sibling interfaces etc)
              */
             AnnotatedMethod nextSetter = next.value;
             Class<?> setterClass = setter.getDeclaringClass();
             Class<?> nextClass = nextSetter.getDeclaringClass();
             if (setterClass != nextClass) {
                 if (setterClass.isAssignableFrom(nextClass)) { // next is more specific
                     setter = nextSetter;
                     continue;
                 }
                 if (nextClass.isAssignableFrom(setterClass)) { // getter more specific
                     continue;
                 }
             }
             throw new IllegalArgumentException("Conflicting setter definitions for property \""+getName()+"\": "
                     +setter.getFullName()+" vs "+nextSetter.getFullName());
         }
         return setter;
     }

     @Override
     public AnnotatedField getField()
     {
         if (_fields == null) {
             return null;
         }
         // If multiple, verify that they do not conflict...
         AnnotatedField field = _fields.value;
         Node<AnnotatedField> next = _fields.next;
         for (; next != null; next = next.next) {
             AnnotatedField nextField = next.value;
             Class<?> fieldClass = field.getDeclaringClass();
             Class<?> nextClass = nextField.getDeclaringClass();
             if (fieldClass != nextClass) {
                 if (fieldClass.isAssignableFrom(nextClass)) { // next is more specific
                     field = nextField;
                     continue;
                 }
                 if (nextClass.isAssignableFrom(fieldClass)) { // getter more specific
                     continue;
                 }
             }
             throw new IllegalArgumentException("Multiple fields representing property \""+getName()+"\": "
                     +field.getFullName()+" vs "+nextField.getFullName());
         }
         return field;
     }

     @Override
     public AnnotatedParameter getConstructorParameter()
     {
         if (_ctorParameters == null) {
             return null;
         }
         /* Hmmh. Checking for constructor parameters is trickier; for one,
          * we must allow creator and factory method annotations.
          * If this is the case, constructor parameter has the precedence.
          *
          * So, for now, just try finding the first constructor parameter;
          * if none, first factory method. And don't check for dups, if we must,
          * can start checking for them later on.
          */
         Node<AnnotatedParameter> curr = _ctorParameters;
         do {
             if (curr.value.getOwner() instanceof AnnotatedConstructor) {
                 return curr.value;
             }
             curr = curr.next;
         } while (curr != null);
         return _ctorParameters.value;
     }

     /*
     /**********************************************************
     /* Data aggregation
     /**********************************************************
      */

     public void addField(AnnotatedField a, String ename, boolean visible, boolean ignored) {
         _fields = new Node<AnnotatedField>(a, _fields, ename, visible, ignored);
     }

     public void addCtor(AnnotatedParameter a, String ename, boolean visible, boolean ignored) {
         _ctorParameters = new Node<AnnotatedParameter>(a, _ctorParameters, ename, visible, ignored);
     }

     public void addGetter(AnnotatedMethod a, String ename, boolean visible, boolean ignored) {
         _getters = new Node<AnnotatedMethod>(a, _getters, ename, visible, ignored);
     }

     public void addSetter(AnnotatedMethod a, String ename, boolean visible, boolean ignored) {
         _setters = new Node<AnnotatedMethod>(a, _setters, ename, visible, ignored);
     }

     /**
      * Method for adding all property members from specified collector into
      * this collector.
      */
     public void addAll(POJOPropertyBuilder src)
     {
         _fields = merge(_fields, src._fields);
         _ctorParameters = merge(_ctorParameters, src._ctorParameters);
         _getters= merge(_getters, src._getters);
         _setters = merge(_setters, src._setters);
     }

     private static <T> Node<T> merge(Node<T> chain1, Node<T> chain2)
     {
         if (chain1 == null) {
             return chain2;
         }
         if (chain2 == null) {
             return chain1;
         }
         return chain1.append(chain2);
     }

     /*
     /**********************************************************
     /* Modifications
     /**********************************************************
      */

     /**
      * Method called to remove all entries that are marked as
      * ignored.
      */
     public void removeIgnored()
     {
         _fields = _removeIgnored(_fields);
         _getters = _removeIgnored(_getters);
         _setters = _removeIgnored(_setters);
         _ctorParameters = _removeIgnored(_ctorParameters);
     }

     public void removeNonVisible()
     {
         /* 21-Aug-2011, tatu: This is tricky part -- if and when allow
          *   non-visible property elements to be "pulled in" by visible
          *   counterparts?
          *   For now, we will only do this to pull in setter or field used
          *   as setter, if an explicit getter is found.
          */
         _getters = _removeNonVisible(_getters);
         _ctorParameters = _removeNonVisible(_ctorParameters);

         if (_getters == null) {
             _fields = _removeNonVisible(_fields);
             _setters = _removeNonVisible(_setters);
         }
     }

     /**
      * Method called to trim unnecessary entries, such as implicit
      * getter if there is an explict one available. This is important
      * for later stages, to avoid unnecessary conflicts.
      */
     public void trimByVisibility()
     {
         _fields = _trimByVisibility(_fields);
         _getters = _trimByVisibility(_getters);
         _setters = _trimByVisibility(_setters);
         _ctorParameters = _trimByVisibility(_ctorParameters);
     }

     @SuppressWarnings("unchecked")
     public void mergeAnnotations(boolean forSerialization)
     {
         if (forSerialization) {
             if (_getters != null) {
                 AnnotationMap ann = _mergeAnnotations(0, _getters, _fields, _ctorParameters, _setters);
                 _getters = _getters.withValue(_getters.value.withAnnotations(ann));
             } else if (_fields != null) {
                 AnnotationMap ann = _mergeAnnotations(0, _fields, _ctorParameters, _setters);
                 _fields = _fields.withValue(_fields.value.withAnnotations(ann));
             }
         } else {
             if (_ctorParameters != null) {
                 AnnotationMap ann = _mergeAnnotations(0, _ctorParameters, _setters, _fields, _getters);
                 _ctorParameters = _ctorParameters.withValue(_ctorParameters.value.withAnnotations(ann));
             } else if (_setters != null) {
                 AnnotationMap ann = _mergeAnnotations(0, _setters, _fields, _getters);
                 _setters = _setters.withValue(_setters.value.withAnnotations(ann));
             } else if (_fields != null) {
                 AnnotationMap ann = _mergeAnnotations(0, _fields, _getters);
                 _fields = _fields.withValue(_fields.value.withAnnotations(ann));
             }
         }
     }

     private AnnotationMap _mergeAnnotations(int index, Node<? extends AnnotatedMember>... nodes)
     {
         AnnotationMap ann = nodes[index].value.getAllAnnotations();
         ++index;
         for (; index < nodes.length; ++index) {
             if (nodes[index] != null) {
               return AnnotationMap.merge(ann, _mergeAnnotations(index, nodes));
             }
         }
         return ann;
     }

     private <T> Node<T> _removeIgnored(Node<T> node)
     {
         if (node == null) {
             return node;
         }
         return node.withoutIgnored();
     }

     private <T> Node<T> _removeNonVisible(Node<T> node)
     {
         if (node == null) {
             return node;
         }
         return node.withoutNonVisible();
     }

     private <T> Node<T> _trimByVisibility(Node<T> node)
     {
         if (node == null) {
             return node;
         }
         return node.trimByVisibility();
     }

     /*
     /**********************************************************
     /* Accessors for aggregate information
     /**********************************************************
      */

     public boolean anyExplicitNames() {
         return _anyExplicitNames(_fields)
                 || _anyExplicitNames(_getters)
                 || _anyExplicitNames(_setters)
                 || _anyExplicitNames(_ctorParameters)
                 ;
     }

     private <T> boolean _anyExplicitNames(Node<T> n)
     {
         for (; n != null; n = n.next) {
             if (n.explicitName != null && n.explicitName.length() > 0) {
                 return true;
             }
         }
         return false;
     }

     public boolean anyVisible() {
         return _anyVisible(_fields)
             || _anyVisible(_getters)
             || _anyVisible(_setters)
             || _anyVisible(_ctorParameters)
         ;
     }

     private <T> boolean _anyVisible(Node<T> n)
     {
         for (; n != null; n = n.next) {
             if (n.isVisible) {
                 return true;
             }
         }
         return false;
     }

     public boolean anyIgnorals() {
         return _anyIgnorals(_fields)
             || _anyIgnorals(_getters)
             || _anyIgnorals(_setters)
             || _anyIgnorals(_ctorParameters)
         ;
     }

     public boolean anyDeserializeIgnorals() {
         return _anyIgnorals(_fields)
             || _anyIgnorals(_setters)
             || _anyIgnorals(_ctorParameters)
         ;
     }

     public boolean anySerializeIgnorals() {
         return _anyIgnorals(_fields)
             || _anyIgnorals(_getters)
         ;
     }

     private <T> boolean _anyIgnorals(Node<T> n)
     {
         for (; n != null; n = n.next) {
             if (n.isMarkedIgnored) {
                 return true;
             }
         }
         return false;
     }

     /**
      * Method called to check whether property represented by this collector
      * should be renamed from the implicit name; and also verify that there
      * are no conflicting rename definitions.
      */
     public String findNewName()
     {
         Node<? extends AnnotatedMember> renamed = null;
         renamed = findRenamed(_fields, renamed);
         renamed = findRenamed(_getters, renamed);
         renamed = findRenamed(_setters, renamed);
         renamed = findRenamed(_ctorParameters, renamed);
         return (renamed == null) ? null : renamed.explicitName;
     }

     private Node<? extends AnnotatedMember> findRenamed(Node<? extends AnnotatedMember> node,
             Node<? extends AnnotatedMember> renamed)
     {
         for (; node != null; node = node.next) {
             String explName = node.explicitName;
             if (explName == null) {
                 continue;
             }
             // different from default name?
             if (explName.equals(_name)) { // nope, skip
                 continue;
             }
             if (renamed == null) {
                 renamed = node;
             } else {
                 // different from an earlier renaming? problem
                 if (!explName.equals(renamed.explicitName)) {
                     throw new IllegalStateException("Conflicting property name definitions: '"
                             +renamed.explicitName+"' (for "+renamed.value+") vs '"
                             +node.explicitName+"' (for "+node.value+")");
                 }
             }
         }
         return renamed;
     }

     // For trouble-shooting
     @Override
     public String toString()
     {
         StringBuilder sb = new StringBuilder();
         sb.append("[Property '").append(_name)
           .append("'; ctors: ").append(_ctorParameters)
           .append(", field(s): ").append(_fields)
           .append(", getter(s): ").append(_getters)
           .append(", setter(s): ").append(_setters)
           ;
         sb.append("]");
         return sb.toString();
     }

     /*
     /**********************************************************
     /* Helper classes
     /**********************************************************
      */

     /**
      * Node used for creating simple linked lists to efficiently store small sets
      * of things.
      */
     private final static class Node<T>
     {
         public final T value;
         public final Node<T> next;

         public final String explicitName;
         public final boolean isVisible;
         public final boolean isMarkedIgnored;

         public Node(T v, Node<T> n,
                 String explName, boolean visible, boolean ignored)
         {
             value = v;
             next = n;
             // ensure that we'll never have missing names
             if (explName == null) {
                 explicitName = null;
             } else {
                 explicitName = (explName.length() == 0) ? null : explName;
             }
             isVisible = visible;
             isMarkedIgnored = ignored;
         }

         public Node<T> withValue(T newValue)
         {
             if (newValue == value) {
                 return this;
             }
             return new Node<T>(newValue, next, explicitName, isVisible, isMarkedIgnored);
         }

         public Node<T> withNext(Node<T> newNext) {
             if (newNext == next) {
                 return this;
             }
             return new Node<T>(value, newNext, explicitName, isVisible, isMarkedIgnored);
         }

         public Node<T> withoutIgnored()
         {
             if (isMarkedIgnored) {
                 return (next == null) ? null : next.withoutIgnored();
             }
             if (next != null) {
                 Node<T> newNext = next.withoutIgnored();
                 if (newNext != next) {
                     return withNext(newNext);
                 }
             }
             return this;
         }

         public Node<T> withoutNonVisible()
         {
             Node<T> newNext = (next == null) ? null : next.withoutNonVisible();
             return isVisible ? withNext(newNext) : newNext;
         }

         /**
          * Method called to append given node(s) at the end of this
          * node chain.
          */
         private Node<T> append(Node<T> appendable)
         {
             if (next == null) {
                 return withNext(appendable);
             }
             return withNext(next.append(appendable));
         }

         public Node<T> trimByVisibility()
         {
             if (next == null) {
                 return this;
             }
             Node<T> newNext = next.trimByVisibility();
             if (explicitName != null) { // this already has highest; how about next one?
                 if (newNext.explicitName == null) { // next one not, drop it
                     return withNext(null);
                 }
                 //  both have it, keep
                 return withNext(newNext);
             }
             if (newNext.explicitName != null) { // next one has higher, return it...
                 return newNext;
             }
             // neither has explicit name; how about visibility?
             if (isVisible == newNext.isVisible) { // same; keep both in current order
                 return withNext(newNext);
             }
             return isVisible ? withNext(null) : newNext;
         }

         @Override
         public String toString() {
             String msg = value.toString()+"[visible="+isVisible+"]";
             if (next != null) {
                 msg = msg + ", "+next.toString();
             }
             return msg;
         }
     }
 }
	package org.codehaus.jackson.map.introspect;

	import org.codehaus.jackson.map.BeanPropertyDefinition;

	/**
	* Helper class used for aggregating information about a single
	* potential POJO property.
	*
	* @since 1.9
	*/
	public class POJOPropertyBuilder
	extends BeanPropertyDefinition
	implements Comparable<POJOPropertyBuilder>
	{
	/**
	* External name of logical property; may change with
	* renaming (by new instance being constructed using
	* a new name)
	*/
	protected final String _name;

	/**
	* Original internal name, derived from accessor, of this
	* property. Will not be changed by renaming.
	*/
	protected final String _internalName;

	protected Node<AnnotatedField> _fields;

	protected Node<AnnotatedParameter> _ctorParameters;

	protected Node<AnnotatedMethod> _getters;

	protected Node<AnnotatedMethod> _setters;

	public POJOPropertyBuilder(String internalName)
	{
	_internalName = internalName;
	_name = internalName;
	}

	public POJOPropertyBuilder(POJOPropertyBuilder src, String newName)
	{
	_internalName = src._internalName;
	_name = newName;
	_fields = src._fields;
	_ctorParameters = src._ctorParameters;
	_getters = src._getters;
	_setters = src._setters;
	}

	/**
	* Method for constructing a renamed instance
	*/
	public POJOPropertyBuilder withName(String newName) {
	return new POJOPropertyBuilder(this, newName);
	}

	/*
	/**********************************************************
	/* Comparable implementation: sort alphabetically, except
	/* that properties with constructor parameters sorted
	/* before other properties
	/**********************************************************
	*/

	@Override
	public int compareTo(POJOPropertyBuilder other)
	{
	// first, if one has ctor params, that should come first:
	if (_ctorParameters != null) {
	if (other._ctorParameters == null) {
	return -1;
	}
	} else if (other._ctorParameters != null) {
	return 1;
	}
	/* otherwise sort by external name (including sorting of
	* ctor parameters)
	*/
	return getName().compareTo(other.getName());
	}

	/*
	/**********************************************************
	/* BeanPropertyDefinition implementation
	/**********************************************************
	*/

	@Override
	public String getName() { return _name; }

	@Override
	public String getInternalName() { return _internalName; }

	@Override
	public boolean isExplicitlyIncluded() {
	return anyExplicitNames();
	}

	@Override
	public boolean hasGetter() { return _getters != null; }

	@Override
	public boolean hasSetter() { return _setters != null; }

	@Override
	public boolean hasField() { return _fields != null; }

	@Override
	public boolean hasConstructorParameter() { return _ctorParameters != null; }

	@Override
	public AnnotatedMember getAccessor()
	{
	AnnotatedMember m = getGetter();
	if (m == null) {
	m = getField();
	}
	return m;
	}

	@Override
	public AnnotatedMember getMutator()
	{
	AnnotatedMember m = getConstructorParameter();
	if (m == null) {
	m = getSetter();
	if (m == null) {
	m = getField();
	}
	}
	return m;
	}

	@Override
	public boolean couldSerialize() {
	return (_getters != null) \|\| (_fields != null);
	}

	@Override
	public AnnotatedMethod getGetter()
	{
	if (_getters == null) {
	return null;
	}
	// If multiple, verify that they do not conflict...
	AnnotatedMethod getter = _getters.value;
	Node<AnnotatedMethod> next = _getters.next;
	for (; next != null; next = next.next) {
	/* [JACKSON-255] Allow masking, i.e. report exception only if
	* declarations in same class, or there's no inheritance relationship
	* (sibling interfaces etc)
	*/
	AnnotatedMethod nextGetter = next.value;
	Class<?> getterClass = getter.getDeclaringClass();
	Class<?> nextClass = nextGetter.getDeclaringClass();
	if (getterClass != nextClass) {
	if (getterClass.isAssignableFrom(nextClass)) { // next is more specific
	getter = nextGetter;
	continue;
	}
	if (nextClass.isAssignableFrom(getterClass)) { // getter more specific
	continue;
	}
	}
	throw new IllegalArgumentException("Conflicting getter definitions for property \""+getName()+"\": "
	+getter.getFullName()+" vs "+nextGetter.getFullName());
	}
	return getter;
	}

	@Override
	public AnnotatedMethod getSetter()
	{
	if (_setters == null) {
	return null;
	}
	// If multiple, verify that they do not conflict...
	AnnotatedMethod setter = _setters.value;
	Node<AnnotatedMethod> next = _setters.next;
	for (; next != null; next = next.next) {
	/* [JACKSON-255] Allow masking, i.e. report exception only if
	* declarations in same class, or there's no inheritance relationship
	* (sibling interfaces etc)
	*/
	AnnotatedMethod nextSetter = next.value;
	Class<?> setterClass = setter.getDeclaringClass();
	Class<?> nextClass = nextSetter.getDeclaringClass();
	if (setterClass != nextClass) {
	if (setterClass.isAssignableFrom(nextClass)) { // next is more specific
	setter = nextSetter;
	continue;
	}
	if (nextClass.isAssignableFrom(setterClass)) { // getter more specific
	continue;
	}
	}
	throw new IllegalArgumentException("Conflicting setter definitions for property \""+getName()+"\": "
	+setter.getFullName()+" vs "+nextSetter.getFullName());
	}
	return setter;
	}

	@Override
	public AnnotatedField getField()
	{
	if (_fields == null) {
	return null;
	}
	// If multiple, verify that they do not conflict...
	AnnotatedField field = _fields.value;
	Node<AnnotatedField> next = _fields.next;
	for (; next != null; next = next.next) {
	AnnotatedField nextField = next.value;
	Class<?> fieldClass = field.getDeclaringClass();
	Class<?> nextClass = nextField.getDeclaringClass();
	if (fieldClass != nextClass) {
	if (fieldClass.isAssignableFrom(nextClass)) { // next is more specific
	field = nextField;
	continue;
	}
	if (nextClass.isAssignableFrom(fieldClass)) { // getter more specific
	continue;
	}
	}
	throw new IllegalArgumentException("Multiple fields representing property \""+getName()+"\": "
	+field.getFullName()+" vs "+nextField.getFullName());
	}
	return field;
	}

	@Override
	public AnnotatedParameter getConstructorParameter()
	{
	if (_ctorParameters == null) {
	return null;
	}
	/* Hmmh. Checking for constructor parameters is trickier; for one,
	* we must allow creator and factory method annotations.
	* If this is the case, constructor parameter has the precedence.
	*
	* So, for now, just try finding the first constructor parameter;
	* if none, first factory method. And don't check for dups, if we must,
	* can start checking for them later on.
	*/
	Node<AnnotatedParameter> curr = _ctorParameters;
	do {
	if (curr.value.getOwner() instanceof AnnotatedConstructor) {
	return curr.value;
	}
	curr = curr.next;
	} while (curr != null);
	return _ctorParameters.value;
	}

	/*
	/**********************************************************
	/* Data aggregation
	/**********************************************************
	*/

	public void addField(AnnotatedField a, String ename, boolean visible, boolean ignored) {
	_fields = new Node<AnnotatedField>(a, _fields, ename, visible, ignored);
	}

	public void addCtor(AnnotatedParameter a, String ename, boolean visible, boolean ignored) {
	_ctorParameters = new Node<AnnotatedParameter>(a, _ctorParameters, ename, visible, ignored);
	}

	public void addGetter(AnnotatedMethod a, String ename, boolean visible, boolean ignored) {
	_getters = new Node<AnnotatedMethod>(a, _getters, ename, visible, ignored);
	}

	public void addSetter(AnnotatedMethod a, String ename, boolean visible, boolean ignored) {
	_setters = new Node<AnnotatedMethod>(a, _setters, ename, visible, ignored);
	}

	/**
	* Method for adding all property members from specified collector into
	* this collector.
	*/
	public void addAll(POJOPropertyBuilder src)
	{
	_fields = merge(_fields, src._fields);
	_ctorParameters = merge(_ctorParameters, src._ctorParameters);
	_getters= merge(_getters, src._getters);
	_setters = merge(_setters, src._setters);
	}

	private static <T> Node<T> merge(Node<T> chain1, Node<T> chain2)
	{
	if (chain1 == null) {
	return chain2;
	}
	if (chain2 == null) {
	return chain1;
	}
	return chain1.append(chain2);
	}

	/*
	/**********************************************************
	/* Modifications
	/**********************************************************
	*/

	/**
	* Method called to remove all entries that are marked as
	* ignored.
	*/
	public void removeIgnored()
	{
	_fields = _removeIgnored(_fields);
	_getters = _removeIgnored(_getters);
	_setters = _removeIgnored(_setters);
	_ctorParameters = _removeIgnored(_ctorParameters);
	}

	public void removeNonVisible()
	{
	/* 21-Aug-2011, tatu: This is tricky part -- if and when allow
	* non-visible property elements to be "pulled in" by visible
	* counterparts?
	* For now, we will only do this to pull in setter or field used
	* as setter, if an explicit getter is found.
	*/
	_getters = _removeNonVisible(_getters);
	_ctorParameters = _removeNonVisible(_ctorParameters);

	if (_getters == null) {
	_fields = _removeNonVisible(_fields);
	_setters = _removeNonVisible(_setters);
	}
	}

	/**
	* Method called to trim unnecessary entries, such as implicit
	* getter if there is an explict one available. This is important
	* for later stages, to avoid unnecessary conflicts.
	*/
	public void trimByVisibility()
	{
	_fields = _trimByVisibility(_fields);
	_getters = _trimByVisibility(_getters);
	_setters = _trimByVisibility(_setters);
	_ctorParameters = _trimByVisibility(_ctorParameters);
	}

	@SuppressWarnings("unchecked")
	public void mergeAnnotations(boolean forSerialization)
	{
	if (forSerialization) {
	if (_getters != null) {
	AnnotationMap ann = _mergeAnnotations(0, _getters, _fields, _ctorParameters, _setters);
	_getters = _getters.withValue(_getters.value.withAnnotations(ann));
	} else if (_fields != null) {
	AnnotationMap ann = _mergeAnnotations(0, _fields, _ctorParameters, _setters);
	_fields = _fields.withValue(_fields.value.withAnnotations(ann));
	}
	} else {
	if (_ctorParameters != null) {
	AnnotationMap ann = _mergeAnnotations(0, _ctorParameters, _setters, _fields, _getters);
	_ctorParameters = _ctorParameters.withValue(_ctorParameters.value.withAnnotations(ann));
	} else if (_setters != null) {
	AnnotationMap ann = _mergeAnnotations(0, _setters, _fields, _getters);
	_setters = _setters.withValue(_setters.value.withAnnotations(ann));
	} else if (_fields != null) {
	AnnotationMap ann = _mergeAnnotations(0, _fields, _getters);
	_fields = _fields.withValue(_fields.value.withAnnotations(ann));
	}
	}
	}

	private AnnotationMap _mergeAnnotations(int index, Node<? extends AnnotatedMember>... nodes)
	{
	AnnotationMap ann = nodes[index].value.getAllAnnotations();
	++index;
	for (; index < nodes.length; ++index) {
	if (nodes[index] != null) {
	return AnnotationMap.merge(ann, _mergeAnnotations(index, nodes));
	}
	}
	return ann;
	}

	private <T> Node<T> _removeIgnored(Node<T> node)
	{
	if (node == null) {
	return node;
	}
	return node.withoutIgnored();
	}

	private <T> Node<T> _removeNonVisible(Node<T> node)
	{
	if (node == null) {
	return node;
	}
	return node.withoutNonVisible();
	}

	private <T> Node<T> _trimByVisibility(Node<T> node)
	{
	if (node == null) {
	return node;
	}
	return node.trimByVisibility();
	}

	/*
	/**********************************************************
	/* Accessors for aggregate information
	/**********************************************************
	*/

	public boolean anyExplicitNames() {
	return _anyExplicitNames(_fields)
	\|\| _anyExplicitNames(_getters)
	\|\| _anyExplicitNames(_setters)
	\|\| _anyExplicitNames(_ctorParameters)
	;
	}

	private <T> boolean _anyExplicitNames(Node<T> n)
	{
	for (; n != null; n = n.next) {
	if (n.explicitName != null && n.explicitName.length() > 0) {
	return true;
	}
	}
	return false;
	}

	public boolean anyVisible() {
	return _anyVisible(_fields)
	\|\| _anyVisible(_getters)
	\|\| _anyVisible(_setters)
	\|\| _anyVisible(_ctorParameters)
	;
	}

	private <T> boolean _anyVisible(Node<T> n)
	{
	for (; n != null; n = n.next) {
	if (n.isVisible) {
	return true;
	}
	}
	return false;
	}

	public boolean anyIgnorals() {
	return _anyIgnorals(_fields)
	\|\| _anyIgnorals(_getters)
	\|\| _anyIgnorals(_setters)
	\|\| _anyIgnorals(_ctorParameters)
	;
	}

	public boolean anyDeserializeIgnorals() {
	return _anyIgnorals(_fields)
	\|\| _anyIgnorals(_setters)
	\|\| _anyIgnorals(_ctorParameters)
	;
	}

	public boolean anySerializeIgnorals() {
	return _anyIgnorals(_fields)
	\|\| _anyIgnorals(_getters)
	;
	}

	private <T> boolean _anyIgnorals(Node<T> n)
	{
	for (; n != null; n = n.next) {
	if (n.isMarkedIgnored) {
	return true;
	}
	}
	return false;
	}

	/**
	* Method called to check whether property represented by this collector
	* should be renamed from the implicit name; and also verify that there
	* are no conflicting rename definitions.
	*/
	public String findNewName()
	{
	Node<? extends AnnotatedMember> renamed = null;
	renamed = findRenamed(_fields, renamed);
	renamed = findRenamed(_getters, renamed);
	renamed = findRenamed(_setters, renamed);
	renamed = findRenamed(_ctorParameters, renamed);
	return (renamed == null) ? null : renamed.explicitName;
	}

	private Node<? extends AnnotatedMember> findRenamed(Node<? extends AnnotatedMember> node,
	Node<? extends AnnotatedMember> renamed)
	{
	for (; node != null; node = node.next) {
	String explName = node.explicitName;
	if (explName == null) {
	continue;
	}
	// different from default name?
	if (explName.equals(_name)) { // nope, skip
	continue;
	}
	if (renamed == null) {
	renamed = node;
	} else {
	// different from an earlier renaming? problem
	if (!explName.equals(renamed.explicitName)) {
	throw new IllegalStateException("Conflicting property name definitions: '"
	+renamed.explicitName+"' (for "+renamed.value+") vs '"
	+node.explicitName+"' (for "+node.value+")");
	}
	}
	}
	return renamed;
	}

	// For trouble-shooting
	@Override
	public String toString()
	{
	StringBuilder sb = new StringBuilder();
	sb.append("[Property '").append(_name)
	.append("'; ctors: ").append(_ctorParameters)
	.append(", field(s): ").append(_fields)
	.append(", getter(s): ").append(_getters)
	.append(", setter(s): ").append(_setters)
	;
	sb.append("]");
	return sb.toString();
	}

	/*
	/**********************************************************
	/* Helper classes
	/**********************************************************
	*/

	/**
	* Node used for creating simple linked lists to efficiently store small sets
	* of things.
	*/
	private final static class Node<T>
	{
	public final T value;
	public final Node<T> next;

	public final String explicitName;
	public final boolean isVisible;
	public final boolean isMarkedIgnored;

	public Node(T v, Node<T> n,
	String explName, boolean visible, boolean ignored)
	{
	value = v;
	next = n;
	// ensure that we'll never have missing names
	if (explName == null) {
	explicitName = null;
	} else {
	explicitName = (explName.length() == 0) ? null : explName;
	}
	isVisible = visible;
	isMarkedIgnored = ignored;
	}

	public Node<T> withValue(T newValue)
	{
	if (newValue == value) {
	return this;
	}
	return new Node<T>(newValue, next, explicitName, isVisible, isMarkedIgnored);
	}

	public Node<T> withNext(Node<T> newNext) {
	if (newNext == next) {
	return this;
	}
	return new Node<T>(value, newNext, explicitName, isVisible, isMarkedIgnored);
	}

	public Node<T> withoutIgnored()
	{
	if (isMarkedIgnored) {
	return (next == null) ? null : next.withoutIgnored();
	}
	if (next != null) {
	Node<T> newNext = next.withoutIgnored();
	if (newNext != next) {
	return withNext(newNext);
	}
	}
	return this;
	}

	public Node<T> withoutNonVisible()
	{
	Node<T> newNext = (next == null) ? null : next.withoutNonVisible();
	return isVisible ? withNext(newNext) : newNext;
	}

	/**
	* Method called to append given node(s) at the end of this
	* node chain.
	*/
	private Node<T> append(Node<T> appendable)
	{
	if (next == null) {
	return withNext(appendable);
	}
	return withNext(next.append(appendable));
	}

	public Node<T> trimByVisibility()
	{
	if (next == null) {
	return this;
	}
	Node<T> newNext = next.trimByVisibility();
	if (explicitName != null) { // this already has highest; how about next one?
	if (newNext.explicitName == null) { // next one not, drop it
	return withNext(null);
	}
	// both have it, keep
	return withNext(newNext);
	}
	if (newNext.explicitName != null) { // next one has higher, return it...
	return newNext;
	}
	// neither has explicit name; how about visibility?
	if (isVisible == newNext.isVisible) { // same; keep both in current order
	return withNext(newNext);
	}
	return isVisible ? withNext(null) : newNext;
	}

	@Override
	public String toString() {
	String msg = value.toString()+"[visible="+isVisible+"]";
	if (next != null) {
	msg = msg + ", "+next.toString();
	}
	return msg;
	}
	}
	}