java树形结构 两种算法

转载:http://www.javaeye.com/topic/602979



最近看到一个有意思的树形结构,为每个节点添加了lft和rgt两个属性。这样查找该节点的子节点、查找该节点所有父节点,就不用去递归查询,只需要用between、and语句就可以实现。下面以创建一个栏目树为例,以下是我的理解。

         一般来讲,我们创建栏目树的时候,大多只需要一个外键parentid来区分该节点属于哪个父节点。数据库的设计如下图:

这样一来,

1.查找该节点的所有子节点,则需要采用sql的递归语句:select * from tableName connect by prior id=sj_parent_id start with  id=1(oracle 写法,mysql目前不支持,如果mysql想查找树形,可以利用存储过程).

2.查找该节点的父节点的sql递归语句:select * from tableName connect by prior sj_parent_id =id start with  id=1

如果数据量过大或者层次太多,那么这样操作是会影响性能的。

         “任何树形结构都可以用二叉树来表示”。其实我们创建的栏目树就是一个简型的二叉树。根据数据结构里面二叉树的遍历,再稍微修改下,将数据库设计如下图所示:

,这样我们查找该节点的所有子节点,则只需要查找id在lft和rgt之间的所有节点即可。

1.查找该节点的所有子节点的Sql语句为:

select * from tb_subject s,tb_subject t where s.lft between t.lft and t.rgt and t.id=1

2.查找该节点的所有父节点的sql语句为:

select s.* from tb_subject s,tb_subject t where s.lft1 and s.rgt>t.rgt and t.id=1

         下面来详细讲解下,怎么用java来实现这种算法。

1.      新增节点

新增节点比较简单,基本步骤为

A. 查找当前插入节点的父节点的lft值

B. 将树形中所有lft和rgt节点大于父节点左值的节点都+2

C. 将父节点左值+1,左值+2分别作为当前节点的lft和rgt

因为项目中采用的是struts2+hibernate3.2+spring2.5的框架,代码如下:

    public boolean onSave(Object entity, Serializable id, Object[] state,

           String[] propertyNames, Type[] types) {

       if (entity instanceof HibernateTree) {

           HibernateTree tree = (HibernateTree) entity;

           Long parentId = tree.getParentId();

           String beanName = tree.getClass().getName();

           Session session = getSession();

           FlushMode model = session.getFlushMode();

           session.setFlushMode(FlushMode.MANUAL);

           Integer myPosition = new Integer(0);

           //查找父节点的左值

           if (parentId != null) {

              String hql = "selectb.lft from " + beanName

                     + " b whereb.id=:pid";

              myPosition = (Integer)session.createQuery(hql).setLong("pid",

                     parentId).uniqueResult();

           }

           //将树形结构中所有大于父节点左值的右节点+2

           String hql1 = "update" + beanName

                  + " b setb.rgt = b.rgt + 2 WHERE b.rgt > :myPosition";

           //将树形结构中所有大于父节点左值的左节点+2

           String hql2 = "update" + beanName

                  + " b setb.lft = b.lft + 2 WHERE b.lft > :myPosition";

           if (!StringUtils.isBlank(tree.getTreeCondition())) {

              hql1 += " and(" + tree.getTreeCondition() + ")";

              hql2 += " and(" + tree.getTreeCondition() + ")";

           }

           session.createQuery(hql1).setInteger("myPosition", myPosition)

                  .executeUpdate();

           session.createQuery(hql2).setInteger("myPosition", myPosition)

                  .executeUpdate();

           session.setFlushMode(model);

           //定位自己的左值(父节点左值+1)和右值(父节点左值+2)

           for (int i = 0; i < propertyNames.length; i++) {

              if (propertyNames[i].equals(HibernateTree.LFT)) {

                  state[i] = myPosition + 1;

              }

              if (propertyNames[i].equals(HibernateTree.RGT)) {

                  state[i] = myPosition + 2;

              }

 

           }

           return true;

       }

       return false;

}

2.      修改节点

修改的时候比较麻烦,具体步骤为:

在修改lft和rgt之前,当前节点的父节点id已经改变

a.                 查出当前节点的左右节点(nodelft、nodergt),并nodergt-nodelft+1 = span,获取父节点的左节点parentlft

b.                 将所有大于parentlft的lft(左节点)、rgt(右节点)的值+span

c.                 查找当前节点的左右节点(nodelft、nodergt),并parentlft-nodelft+1 = offset

d.                 将所有lft(左节点) between nodelft and nodergt的值+offset

e.                 将所有大于nodergt的lft(左节点)、rgt(右节点)的值-span

Java代码如下:

    public void updateParent(HibernateTree tree, HibernateTreepreParent,

           HibernateTree curParent) {

       if (preParent != null && preParent !=null

              && !preParent.equals(curParent)) {

           String beanName = tree.getClass().getName();

           // 获得节点位置

           String hql = "selectb.lft,b.rgt from " + beanName

                  + " b whereb.id=:id";

           Object[] position = (Object[]) super.createQuery(hql).setLong(

                  "id", tree.getId()).uniqueResult();

           System.out.println(hql+"| id= "+tree.getId());

           int nodeLft = ((Number) position[0]).intValue();

           int nodeRgt = ((Number) position[1]).intValue();

           int span = nodeRgt - nodeLft + 1;

           // 获得当前父节点左位置

           hql = "selectb.lft from " + beanName + " b where b.id=:id";

           int parentLft = ((Number) super.createQuery(hql).setLong("id",

                  curParent.getId()).uniqueResult()).intValue();

 

           System.out.println(hql+"| id= "+curParent.getId());

           // 先空出位置

           String hql1 = "update" + beanName + " b set b.rgt = b.rgt + "

                  + span + "WHERE b.rgt > :parentLft";

           String hql2 = "update" + beanName + " b set b.lft = b.lft + "

                  + span + "WHERE b.lft > :parentLft";

           if (!StringUtils.isBlank(tree.getTreeCondition())) {

              hql1 += " and(" + tree.getTreeCondition() + ")";

              hql2 += " and(" + tree.getTreeCondition() + ")";

           }

           super.createQuery(hql1).setInteger("parentLft", parentLft)

                  .executeUpdate();

           super.createQuery(hql2).setInteger("parentLft", parentLft)

                  .executeUpdate();

 

           System.out.println(hql1+"|parentLft = "+parentLft);

           System.out.println(hql2+"|parentLft = "+parentLft);

          

           // 再调整自己

           hql = "selectb.lft,b.rgt from " + beanName + " b where b.id=:id";

           position = (Object[]) super.createQuery(hql).setLong("id",

                  tree.getId()).uniqueResult();

           System.out.println(hql+"| id= "+tree.getId());

           nodeLft = ((Number) position[0]).intValue();

           nodeRgt = ((Number) position[1]).intValue();

           int offset = parentLft - nodeLft + 1;

           hql = "update"

                  + beanName

                  + " b setb.lft=b.lft+:offset, b.rgt=b.rgt+:offset WHERE b.lft between :nodeLft and:nodeRgt";

           if (!StringUtils.isBlank(tree.getTreeCondition())) {

              hql += " and(" + tree.getTreeCondition() + ")";

           }

           super.createQuery(hql).setParameter("offset", offset)

                  .setParameter("nodeLft",nodeLft).setParameter("nodeRgt",

                         nodeRgt).executeUpdate();

           System.out.println(hql+"|offset = "+offset+" | nodelft = "+nodeLft+" | nodergt = "+ nodeRgt);

           // 最后删除(清空位置)

           hql1 = "update" + beanName + " b set b.rgt = b.rgt - " + span

                  + " WHEREb.rgt > :nodeRgt";

           hql2 = "update" + beanName + " b set b.lft = b.lft - " + span

                  + " WHEREb.lft > :nodeRgt";

           if (tree.getTreeCondition() != null) {

              hql1 += " and(" + tree.getTreeCondition() + ")";

              hql2 += " and(" + tree.getTreeCondition() + ")";

           }

           super.createQuery(hql1).setParameter("nodeRgt", nodeRgt)

                  .executeUpdate();

           super.createQuery(hql2).setParameter("nodeRgt", nodeRgt)

                  .executeUpdate();

           System.out.println(hql1+"|nodeRgt = "+nodeRgt);

           System.out.println(hql2+"|nodeRgt = "+nodeRgt);

          

       }

    }

 

 

3.      删除节点

删除节点也比较简单,具体步骤为:

A. 查找要删除节点的lft值

B. 将所有lft和rgt大于删除节点lft值的都-2

Java代码如下:

public void onDelete(Object entity, Serializable id, Object[] state,

           String[] propertyNames, Type[] types) {

       if (entity instanceof HibernateTree) {

           HibernateTree tree = (HibernateTree) entity;

           String beanName = tree.getClass().getName();

           Session session = getSession();

           FlushMode model = session.getFlushMode();

           session.setFlushMode(FlushMode.MANUAL);

       //查找要删除的节点的左值

           String hql = "selectb.lft from " + beanName + " b where b.id=:id";

           Integer myPosition = (Integer)session.createQuery(hql).setLong(

                  "id", tree.getId()).uniqueResult();

//将所有大于删除节点左值的rgt都-2

           String hql1 = "update" + beanName

                  + " b setb.rgt = b.rgt - 2 WHERE b.rgt > :myPosition";

//将所有大于删除节点左值的lft都-2

           String hql2 = "update" + beanName

                  + " b setb.lft = b.lft - 2 WHERE b.lft > :myPosition";

           if (tree.getTreeCondition() != null) {

              hql1 += " and(" + tree.getTreeCondition() + ")";

              hql2 += " and (" + tree.getTreeCondition() + ")";

           }

           session.createQuery(hql1).setInteger("myPosition", myPosition)

                  .executeUpdate();

           session.createQuery(hql2).setInteger("myPosition", myPosition)

                  .executeUpdate();

           session.setFlushMode(model);

       }

}



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