package action;
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import java.util.HashMap;
import java.util.List;
import java.util.Map;
public class Test {
/**
* M层中给出层节点找出这层的子节点
* 你的需求并没有说有一个树的要求
*/
public static void main(String args[]){
int m;//M
int n;//n
Map mapone=new HashMap();
//你坑定要知道子节点父节点关系
for(int i=0;im;i++){
mapone.put(父节点的key, 子节点的结合);
}
//遍历完成不是每层的父节点下的所有子节点都在这个MAP里面了吗
List list=mapone.get(第n层的节点key值);
}
}
可以用四叉树(二维)或者八叉树(三维)来对点分组,把空间分块,计算每块的中心点坐标即为树的中间结点,与其距离小于组半径的即为其组内的叶节点。已知点所在的组可以根据要求再缩短半径细分,直到点的数量达到要求。
八叉树参考:
1、HMACSHA1的概念
HMACSHA1 是
从 SHA1 哈希函数构造的一种键控哈希算法,被用作 HMAC(基于哈希的消息验证代码)。此 HMAC
进程将密钥与消息数据混合,使用哈希函数对混合结果进行哈希计算,将所得哈希值与该密钥混合,然后再次应用哈希函数。输出的哈希值长度为 160
位,可以转换为指定位数。
上面是微软的标准定义,我看了也没太明白,他的作用一句话来理解:就是确认请求的URL或者参数是否存在被篡改,以
签名为例:发送方(自己)将参数等进行HMAC算法计算,将得到的哈希值(即签名值)与请求的参数一同提交至接收方(端),然后接收方再次将参数等值
进行HMAC算法计算,将得到的哈希值与你传递过来的哈希值进行核对验证,若一样,说明请求正确、验证通过,进行一下步工作,若不一样,将返回错误。
(下面说的够详细了吧,还不理解,留言给我)
2、 OAuth 1.0中用到的哈希算法
/// summary
/// HMACSHA1算法加密并返回ToBase64String
/// /summary
/// param name="strText"签名参数字符串/param
/// param name="strKey"密钥参数/param
/// returns返回一个签名值(即哈希值)/returns
public static string ToBase64hmac(string strText, string strKey)
{
HMACSHA1 myHMACSHA1 = new HMACSHA1(Encoding.UTF8.GetBytes(strKey));
byte[] byteText = myHMACSHA1.ComputeHash(Encoding.UTF8.GetBytes(strText));
return System.Convert.ToBase64String(byteText);
}
或者写成,原理一样:
public static string HMACSHA1Text(string EncryptText, string EncryptKey)
{
//HMACSHA1加密
string message;
string key;
message = EncryptText;
key = EncryptKey;
System.Text.ASCIIEncoding encoding = new System.Text.ASCIIEncoding();
byte[] keyByte = encoding.GetBytes(key);
HMACSHA1 hmacsha1 = new HMACSHA1(keyByte);
byte[] messageBytes = encoding.GetBytes(message);
byte[] hashmessage = hmacsha1.ComputeHash(messageBytes);
return ByteToString(hashmessage);
}
前面都注释了参数含义,就不再说明了。COPY就可使用
注明:页面请引用
using System.Security.Cryptography;
3、介绍另外一种HMACSHA1算法的写法
public static string HMACSHA1Text(string EncryptText, string EncryptKey)
{
//HMACSHA1加密
HMACSHA1 hmacsha1 = new HMACSHA1();
hmacsha1.Key = System.Text.Encoding.UTF8.GetBytes(EncryptKey);
byte[] dataBuffer = System.Text.Encoding.UTF8.GetBytes(EncryptText);
byte[] hashBytes = hmacsha1.ComputeHash(dataBuffer);
return Convert.ToBase64String(hashBytes);
}
一个四叉树的实现代码
class QuadTreeCode
{
public:
vectorint m_Numbers;
/*判断两个四叉树码是否相等*/
bool operator ==( QuadTreeCode tempTree )
{
if ( m_Numbers.size()!=tempTree.m_Numbers.size() )
{
return false;
}
else
{
for ( int i=0; im_Numbers.size(); i++ )
{
if ( m_Numbers[i]!=tempTree.m_Numbers[i])
{
return false;
}
}
}
return true;
}
/*返回四叉树码的长度*/
int GetLength()
{
return m_Numbers.size();
}
int operator[](int Index)
{
return m_Numbers[Index];
}
};
enum ChildType
{
UL = 0,
UR = 3,
LL = 1,
LR = 2
};
templateclass T
class QuadTreeNode
{
public:
T *m_pData;
QuadTreeNode *m_pUpperLeft,*m_pUpperRight,*m_pLowerLeft,*m_pLowerRight;
QuadTreeCode m_Code; //节点在树中位置的编码
QuadTreeNode ()
{
m_pData = NULL;
m_pUpperLeft = m_pUpperRight = m_pLowerLeft = m_pLowerRight = NULL;
}
~QuadTreeNode ()
{
delete m_pData;
}
/*返回子成员的地址*/
QuadTreeNode ** GetChild( ChildType ctype )
{
switch( ctype )
{
case ChildType::UL:
return m_pUpperLeft;
break;
case ChildType::UR:
return m_pUpperRight;
break;
case ChildType::LL:
return m_pLowerLeft;
break;
case ChildType::LR:
return m_pLowerRight;
break;
}
}
};
templateclass T
class QuadTree
{
public:
int m_nTreeDepth; //树的深度
QuadTreeNodeT *m_pHeadNode; //树的头部
QuadTree()
{
m_nTreeDepth = 0;
m_pHeadNode = NULL;
}
~QuadTree()
{
void (QuadTree::*func)(QuadTreeNodeT *) ;
func = QuadTree::DestroyNode;
PostOrderOperation( m_pHeadNode, func );
}
/*
后序遍历方式操作四叉树
*/
void PostOrderOperation( QuadTreeNodeT * ptempNode, void (QuadTreeT::*NodeOp)( QuadTreeNodeT * ) )
{
if( ptempNode!=NULL )
{
PostOrderOperation( ptempNode-m_pLowerLeft, NodeOp );
PostOrderOperation( ptempNode-m_pLowerRight, NodeOp );
PostOrderOperation( ptempNode-m_pUpperLeft, NodeOp );
PostOrderOperation( ptempNode-m_pUpperRight, NodeOp );
(this-*NodeOp) ( ptempNode );
}
}
void DestroyNode( QuadTreeNodeT * ptempNode )
{
delete ptempNode;
}
/*创建树枝*/
void CreateBranch( QuadTreeNodeT**ppNode , int TreeDepth, int CurrentDepth )
{
if( CurrentDepthTreeDepth )
{
return;
}
else
{
QuadTreeNodeT *pNewNode = new QuadTreeNodeT;
*ppNode = pNewNode;
QuadTreeNodeT **pTempNode;
CreateBranch( pNewNode-GetChild(ChildType::UL), TreeDepth, CurrentDepth+1 );
CreateBranch( pNewNode-GetChild(ChildType::UR), TreeDepth, CurrentDepth+1 );
CreateBranch( pNewNode-GetChild(ChildType::LL), TreeDepth, CurrentDepth+1 );
CreateBranch( pNewNode-GetChild(ChildType::LR), TreeDepth, CurrentDepth+1 );
}
}
/*按照四叉树码进行操作*/
bool OperateNodeByCode( QuadTreeCode code, void (*Op)( QuadTreeNodeT *) )
{
QuadTreeNode* ptempNode = m_pHeadNode;
for( int i=0; icode.GetLength(); i++ )
{
ptempNode = ptempNode-GetChild( code[i] );
if( ptempNode==NULL )
return false;
}
Op( ptempNode );
return true;
}
/*近创建内存结构,数据内容并未赋值*/
void CreateTree( int TreeDepth )
{
m_nTreeDepth = TreeDepth;
CreateBranch( m_pHeadNode, TreeDepth, 0);
}
//virtual void CreateNode( QuadTreeNodeT * ptempNode ) const = 0;
};
这个先要把两个数换算成一致的单位。1度等于60分,就是24.8度+12.617度=37.417度,就是37度25分。
TreeNode.java
/*
* Copyright Walker Studio
* All Rights Reserved.
*
* 文件名称: TreeNode.java
* 摘 要:
* 作 者: Walker
* 创建时间: 2013-03-19
*/
package com.walker.commons.data.model;
/**
* 树节点
*
* @author Walker
* @version 1.0.0.0
*/
public class TreeNode
{
/** 节点Id*/
private String nodeId;
/** 父节点Id*/
private String parentId;
/** 文本内容*/
private String text;
/**
* 构造函数
*
* @param nodeId 节点Id
*/
public TreeNode(String nodeId)
{
this.nodeId = nodeId;
}
/**
* 构造函数
*
* @param nodeId 节点Id
* @param parentId 父节点Id
*/
public TreeNode(String nodeId, String parentId)
{
this.nodeId = nodeId;
this.parentId = parentId;
}
public String getNodeId() {
return nodeId;
}
public void setNodeId(String nodeId) {
this.nodeId = nodeId;
}
public String getParentId() {
return parentId;
}
public void setParentId(String parentId) {
this.parentId = parentId;
}
public String getText() {
return text;
}
public void setText(String text) {
this.text = text;
}
}
ManyTreeNode.java
/*
* Copyright Walker Studio
* All Rights Reserved.
*
* 文件名称: ManyTreeNode.java
* 摘 要:
* 作 者: Walker
* 创建时间: 2013-03-19
*/
package com.walker.commons.data.model;
import java.util.ArrayList;
import java.util.List;
/**
* 多叉树节点
*
* @author Walker
* @verion 1.0.0.0
*/
public class ManyTreeNode
{
/** 树节点*/
private TreeNode data;
/** 子树集合*/
private ListManyTreeNode childList;
/**
* 构造函数
*
* @param data 树节点
*/
public ManyTreeNode(TreeNode data)
{
this.data = data;
this.childList = new ArrayListManyTreeNode();
}
/**
* 构造函数
*
* @param data 树节点
* @param childList 子树集合
*/
public ManyTreeNode(TreeNode data, ListManyTreeNode childList)
{
this.data = data;
this.childList = childList;
}
public TreeNode getData() {
return data;
}
public void setData(TreeNode data) {
this.data = data;
}
public ListManyTreeNode getChildList() {
return childList;
}
public void setChildList(ListManyTreeNode childList) {
this.childList = childList;
}
}
ManyNodeTree.java
/*
* Copyright Walker Studio
* All Rights Reserved.
*
* 文件名称: ManyNodeTree.java
* 摘 要:
* 作 者: Walker
* 创建时间: 2013-03-19
*/
package com.walker.commons.data.model;
import java.util.ArrayList;
import java.util.List;
/**
* 多叉树生成、遍历工具
*
* @author Walker
* @version 1.0.0.0
*/
public class ManyNodeTree
{
/** 树根*/
private ManyTreeNode root;
/**
* 构造函数
*/
public ManyNodeTree()
{
root = new ManyTreeNode(new TreeNode("root"));
}
/**
* 生成一颗多叉树,根节点为root
*
* @param treeNodes 生成多叉树的节点集合
* @return ManyNodeTree
*/
public ManyNodeTree createTree(ListTreeNode treeNodes)
{
if(treeNodes == null || treeNodes.size() 0)
return null;
ManyNodeTree manyNodeTree = new ManyNodeTree();
//将所有节点添加到多叉树中
for(TreeNode treeNode : treeNodes)
{
if(treeNode.getParentId().equals("root"))
{
//向根添加一个节点
manyNodeTree.getRoot().getChildList().add(new ManyTreeNode(treeNode));
}
else
{
addChild(manyNodeTree.getRoot(), treeNode);
}
}
return manyNodeTree;
}
/**
* 向指定多叉树节点添加子节点
*
* @param manyTreeNode 多叉树节点
* @param child 节点
*/
public void addChild(ManyTreeNode manyTreeNode, TreeNode child)
{
for(ManyTreeNode item : manyTreeNode.getChildList())
{
if(item.getData().getNodeId().equals(child.getParentId()))
{
//找到对应的父亲
item.getChildList().add(new ManyTreeNode(child));
break;
}
else
{
if(item.getChildList() != null item.getChildList().size() 0)
{
addChild(item, child);
}
}
}
}
/**
* 遍历多叉树
*
* @param manyTreeNode 多叉树节点
* @return
*/
public String iteratorTree(ManyTreeNode manyTreeNode)
{
StringBuilder buffer = new StringBuilder();
buffer.append("\n");
if(manyTreeNode != null)
{
for (ManyTreeNode index : manyTreeNode.getChildList())
{
buffer.append(index.getData().getNodeId()+ ",");
if (index.getChildList() != null index.getChildList().size() 0 )
{
buffer.append(iteratorTree(index));
}
}
}
buffer.append("\n");
return buffer.toString();
}
public ManyTreeNode getRoot() {
return root;
}
public void setRoot(ManyTreeNode root) {
this.root = root;
}
public static void main(String[] args)
{
ListTreeNode treeNodes = new ArrayListTreeNode();
treeNodes.add(new TreeNode("系统权限管理", "root"));
treeNodes.add(new TreeNode("用户管理", "系统权限管理"));
treeNodes.add(new TreeNode("角色管理", "系统权限管理"));
treeNodes.add(new TreeNode("组管理", "系统权限管理"));
treeNodes.add(new TreeNode("用户菜单管理", "系统权限管理"));
treeNodes.add(new TreeNode("角色菜单管理", "系统权限管理"));
treeNodes.add(new TreeNode("用户权限管理", "系统权限管理"));
treeNodes.add(new TreeNode("站内信", "root"));
treeNodes.add(new TreeNode("写信", "站内信"));
treeNodes.add(new TreeNode("收信", "站内信"));
treeNodes.add(new TreeNode("草稿", "站内信"));
ManyNodeTree tree = new ManyNodeTree();
System.out.println(tree.iteratorTree(tree.createTree(treeNodes).getRoot()));
}
}
