/**
* 设置树对象的以ID为索引的Map
*
* @param forest 树对象的列表
* @param treeIndexMap 所对应的索引Map
*/
public static <V extends TreeNodeBean> void setTreeIndexMap(
List<TreeNode<V>> forest, Map<String, TreeNode<V>> treeIndexMap) {
if (forest == null || forest.size() == 0) return;
for (TreeNode<V> tn : forest) {
treeIndexMap.put(tn.getId(), tn);
if (!tn.isLeaf()) TreeUtils.setTreeIndexMap(tn.getChildren(), treeIndexMap);
}
}
/**
* 把以"树结点数据Bean"为元素的list转换为树对象
*
* @param l 以"树结点数据Bean"为元素的list
* @return 转换后的对象,是一个Map,有两个元素:<br>
* forest——符合id/pid关系的树结点的List,一个森林,实际是以TreeNode为元素的List{List<TreeNode<String>>};符合的标准是,树的根结点的pid="0";
* errors——不符合id/pid结构的树结点数据Bean的List,是错误的数据,实际是以TreeNodeBean为元素的List{List<TreeNodeBean>};
*/
public static Map<String, Object> convertFromList(List<? extends TreeNodeBean> l) {
Map<String, Object> ret = null;
if (l != null && l.size() > 0) {
ret = new HashMap<String, Object>();
List<TreeNode<TreeNodeBean>> forest = new ArrayList<TreeNode<TreeNodeBean>>();
List<TreeNodeBean> errors = null;
int mergeFlag;
// 第一次对List处理,把List中的元素插入forest;
for (TreeNodeBean tnb : l) {
TreeNode<TreeNodeBean> oneNode = new TreeNode<TreeNodeBean>(tnb);
if (forest.size() == 0) forest.add(oneNode);
else { // 判断forest中有没有oneNode的子结点或父结点
mergeFlag = 0;
for (int i = 0; i < forest.size(); i++) {
TreeNode<TreeNodeBean> node = forest.get(i);
if (node.getId().equals(oneNode.getParentId())) { // 判断oneNode是不是某个结点的子结点
node.addChild(oneNode);
mergeFlag = 1;
} else if (node.findNode(oneNode.getParentId()) != null) { // 判断oneNode是不是某个结点的子结点
node.findNode(oneNode.getParentId()).addChild(oneNode);
mergeFlag = 1;
} else if (node.getParentId() != null
&& node.getParentId().equals(oneNode.getId())) { // 判断oneNode是不是某个结点的父结点
oneNode.addChild(node);
forest.set(i, oneNode);
mergeFlag = 2;
}
if (mergeFlag != 0) break;
}
if (mergeFlag == 0) forest.add(oneNode);
}
}
// 对forest逐个处理
int _fSize = 0, fSize = forest.size();
// int n=0;
while (_fSize != fSize && fSize > 1) {
fSize = forest.size();
int index = 0;
TreeNode<TreeNodeBean> node = forest.get(index); // 标记结点
while (node != null) {
int _index = 0;
TreeNode<TreeNodeBean> _node = forest.get(_index); // 循环结点
boolean eatNode = false; // 是否吃掉标记结点
while (_node != null) {
mergeFlag = -1;
if (!_node.getId().equals(node.getId())) {
if (_node.getId().equals(node.getParentId())) { // 循环结点是标记结点的父节点
_node.addChild(node);
mergeFlag = 1;
eatNode = true;
} else if (_node.findNode(node.getParentId()) != null) { // 循环结点是标记结点的祖宗结点
_node.findNode(node.getParentId()).addChild(node);
mergeFlag = 1;
eatNode = true;
} else if (_node.getParentId() != null
&& _node.getParentId().equals(node.getId())) { // 循环结点是标记结点的直接子结点
node.addChild(_node);
forest.remove(_index);
mergeFlag = 2;
} else if (node.findNode(_node.getParentId()) != null) { // 循环结点是标记结点的后续子结点
node.findNode(_node.getParentId()).addChild(_node);
forest.remove(_index);
mergeFlag = 2;
}
}
if (mergeFlag == 1 || mergeFlag == -1) _index++;
if (_index > forest.size() - 1) _node = null;
else _node = forest.get(_index);
}
if (eatNode) {
forest.remove(index);
} else index++;
if (index > forest.size() - 1) node = null;
else node = forest.get(index);
}
_fSize = forest.size();
}
// System.out.println("=================="+n);
// 处理完森林,下面从森林中,去除那些错误的结点,这里有一个默认的逻辑,pid=0的是正常的结点,这个在下一个版本修改吧
for (int i = forest.size() - 1; i >= 0; i--) {
TreeNode<TreeNodeBean> tn = forest.get(i);
if (tn.getParentId() != null && !tn.getParentId().trim().equals("0")) {
if (errors == null) errors = new ArrayList<TreeNodeBean>();
errors.addAll(forest.remove(i).getAllBeansList());
}
}
ret.put("forest", forest);
ret.put("errors", errors);
}
return ret;
}
/**
* 重组树,根据idc中的结点id,重组forest中的树,新的树包括仅包括idc中所有id结点的所有祖宗结点和子结点
*
* @param forest 树对象的列表,此对象是需要重组树的全集
* @param idc 结点id的Collection
* @return 重组后的树,此树是原树的一个重组后的拷贝
* @throws CloneNotSupportedException
*/
public static <V extends TreeNodeBean> List<TreeNode<V>> restructureTree(
List<TreeNode<V>> forest, Collection<String> idc) throws CloneNotSupportedException {
if (forest == null || forest.size() == 0) return null;
if (idc == null || idc.size() == 0) return null;
List<TreeNode<V>> restructureForest = new ArrayList<TreeNode<V>>();
idc = TreeUtils.distinctList(idc);
for (String id : idc) {
for (TreeNode<V> tn : forest) {
TreeNode<V> _ftn =
tn.getId().equals(id.trim()) ? tn : tn.findNode(id.trim()); // 在原树中查找是否有id结点
if (_ftn != null) { // 若有
TreeNode<V> ctn = _ftn.clone(); // 以此id为根的树的克隆
boolean hasDeal = false;
for (TreeNode<V> rn : restructureForest) {
TreeNode<V> _rftn = rn.findNode(ctn.getId());
hasDeal = (_rftn != null);
}
while (!hasDeal) {
if (!_ftn.isRoot()) _ftn = _ftn.getParent();
else {
restructureForest.add(ctn);
hasDeal = true;
}
if (!hasDeal) {
for (TreeNode<V> rn : restructureForest) { // 查找合适的位置插入
TreeNode<V> _rftn =
rn.getId().equals(_ftn.getId()) ? rn : rn.findNode(_ftn.getId());
if (_rftn != null) {
_rftn.addChild(ctn);
hasDeal = true;
}
}
}
if (!hasDeal) {
// 造上级结点
TreeNode<V> _ptn = new TreeNode<V>(_ftn.getTnEntity());
_ptn.addChild(ctn);
ctn = _ptn;
}
}
}
}
}
return restructureForest;
}