数据结构与算法(C#实现)系列---N叉树(一)
数据结构与算法(C#实现)系列---N叉树(一)
作者:网友投稿 | 2006-05-09
N叉树的每一节点度数都相同,为N
using System;
using System.Collections;
namespace DataStructure
{
/// <summary>
/// NaryTree 的摘要说明。-----N叉树
/// </summary>
public class NaryTree:Tree
{
// member variables
protected object key;
protected uint degree;
protected ArrayList treeList=new ArrayList();
//protected uint height=0;//暂时默认为0
//create an empty tree whose attribute of degree is _degree
public NaryTree(uint _degree)
{
//
// TODO: 在此处添加构造函数逻辑
//
this.key=null;
this.degree=_degree;
this.treeList=null;
}
//构造一棵叶子结点的N叉树
public NaryTree(uint _degree,object _key)
{
this.key=_key;
this.degree=_degree;
this.treeList=new ArrayList();
this.treeList.Capacity=(int)_degree;
for(int i=0;i<this.treeList.Capacity;i )
{
this.treeList.Add( this.GetEmptyInstance(_degree) );
}
}
//-----------------------------------------------------------------
protected virtual object GetEmptyInstance(uint _degree)
{ return new NaryTree(_degree); }
//-------------------------------------------------------------------
//judge whether the tree is an empty tree
public override bool IsEmpty()
{ return this.key==null; }
//判定是否是叶子结点。如果即不是空树且每一棵子树均为空树,则为叶子结点
public override bool IsLeaf()
{
if(IsEmpty())
return false;
for(uint i=0;i<this.degree;i )
{
if( !(this[i].IsEmpty()) )
return false;
}
return true;
}
//-----------------------------------Inherited Attributes---------------------------------
public override object Key
{
get
{
return this.key;
}
}
//索引器
public override Tree this[uint _index]
{
get
{
if( _index>=this.degree )
throw new Exception("My:out of index!");//如果出界,则抛出异常
if( this.IsEmpty() )
return null;//如果是空树,则索引器返回一个 null
return (Tree)this.treeList[(int)_index];
}
set
{
this.treeList[(int)_index]=value;
}
}
N叉树的每一节点度数都相同,为N
using System;
using System.Collections;
namespace DataStructure
{
/// <summary>
/// NaryTree 的摘要说明。-----N叉树
/// </summary>
public class NaryTree:Tree
{
// member variables
protected object key;
protected uint degree;
protected ArrayList treeList=new ArrayList();
//protected uint height=0;//暂时默认为0
//create an empty tree whose attribute of degree is _degree
public NaryTree(uint _degree)
{
//
// TODO: 在此处添加构造函数逻辑
//
this.key=null;
this.degree=_degree;
this.treeList=null;
}
//构造一棵叶子结点的N叉树
public NaryTree(uint _degree,object _key)
{
this.key=_key;
this.degree=_degree;
this.treeList=new ArrayList();
this.treeList.Capacity=(int)_degree;
for(int i=0;i<this.treeList.Capacity;i )
{
this.treeList.Add( this.GetEmptyInstance(_degree) );
}
}
//-----------------------------------------------------------------
protected virtual object GetEmptyInstance(uint _degree)
{ return new NaryTree(_degree); }
using System;
using System.Collections;
namespace DataStructure
{
/// <summary>
/// NaryTree 的摘要说明。-----N叉树
/// </summary>
public class NaryTree:Tree
{
// member variables
protected object key;
protected uint degree;
protected ArrayList treeList=new ArrayList();
//protected uint height=0;//暂时默认为0
//create an empty tree whose attribute of degree is _degree
public NaryTree(uint _degree)
{
//
// TODO: 在此处添加构造函数逻辑
//
this.key=null;
this.degree=_degree;
this.treeList=null;
}
//构造一棵叶子结点的N叉树
public NaryTree(uint _degree,object _key)
{
this.key=_key;
this.degree=_degree;
this.treeList=new ArrayList();
this.treeList.Capacity=(int)_degree;
for(int i=0;i<this.treeList.Capacity;i )
{
this.treeList.Add( this.GetEmptyInstance(_degree) );
}
}
//-----------------------------------------------------------------
protected virtual object GetEmptyInstance(uint _degree)
{ return new NaryTree(_degree); }
//-------------------------------------------------------------------
//judge whether the tree is an empty tree
public override bool IsEmpty()
{ return this.key==null; }
//判定是否是叶子结点。如果即不是空树且每一棵子树均为空树,则为叶子结点
public override bool IsLeaf()
{
if(IsEmpty())
return false;
for(uint i=0;i<this.degree;i )
{
if( !(this[i].IsEmpty()) )
return false;
}
return true;
}
//-----------------------------------Inherited Attributes---------------------------------
public override object Key
{
get
{
return this.key;
}
}
//索引器
public override Tree this[uint _index]
{
get
{
if( _index>=this.degree )
throw new Exception("My:out of index!");//如果出界,则抛出异常
if( this.IsEmpty() )
return null;//如果是空树,则索引器返回一个 null
return (Tree)this.treeList[(int)_index];
}
set
{
this.treeList[(int)_index]=value;
}
}
N叉树的每一节点度数都相同,为N
using System;
using System.Collections;
namespace DataStructure
{
/// <summary>
/// NaryTree 的摘要说明。-----N叉树
/// </summary>
public class NaryTree:Tree
{
// member variables
protected object key;
protected uint degree;
protected ArrayList treeList=new ArrayList();
//protected uint height=0;//暂时默认为0
//create an empty tree whose attribute of degree is _degree
public NaryTree(uint _degree)
{
//
// TODO: 在此处添加构造函数逻辑
//
this.key=null;
this.degree=_degree;
this.treeList=null;
}
//构造一棵叶子结点的N叉树
public NaryTree(uint _degree,object _key)
{
this.key=_key;
this.degree=_degree;
this.treeList=new ArrayList();
this.treeList.Capacity=(int)_degree;
for(int i=0;i<this.treeList.Capacity;i )
{
this.treeList.Add( this.GetEmptyInstance(_degree) );
}
}
//-----------------------------------------------------------------
protected virtual object GetEmptyInstance(uint _degree)
{ return new NaryTree(_degree); }
上一篇:什么是系统分析
本 文:数据结构与算法(C#实现)系列---N叉树(一)
编辑推荐文章
一周阅读排行