/// <summary>
        /// Xml序列化与反序列化 示例
        /// </summary>
        private static void XmlHelperTest()
        {
            //示例类型
            var t1 = new testEntity();

            t1.name     = "test1";
            t1.password = "******";
            t1.Age      = 18;
            t1.now      = DateTime.Now;
            t1.ip       = new IP();
            t1.ip.host  = "rock";
            t1.ip.ipv4  = "192.168.1.6";

            var t2 = new testEntity();

            t2.name     = "test2";
            t2.password = "******";
            t2.Age      = 18;
            t2.now      = DateTime.Now;
            t2.ip       = null;

            var list = new List <testEntity>();

            list.Add(t1);
            list.Add(t2);



            //Xml序列化
            var xmlt   = t1.GetXmlString();
            var xmlt1  = t1.GetXmlString(Encoding.UTF8);
            var xmlt2  = t2.GetXmlString(Encoding.UTF8, true);
            var xmlt3  = t2.GetXmlString(Encoding.UTF8, true, false);
            var xmlt4  = t2.GetXmlString(Encoding.UTF8, true, false, true);
            var xmlt_1 = list.GetXmlString();

            //Xml反序列化
            var ttt1  = xmlt1.GetXmlObj <testEntity>();
            var ttt2  = xmlt2.GetXmlObj <testEntity>();
            var ttt3  = xmlt3.GetXmlObj <testEntity>();
            var ttt4  = xmlt4.GetXmlObj <testEntity>();
            var ttt_1 = xmlt_1.GetXmlObj <List <testEntity> >();



            //GBK格式Xml序列化
            var xmlf1 = t1.GetGBKXmlString();
            var xmlf2 = t1.GetGBKXmlString(Encoding.UTF8);
            var xmlf4 = t2.GetXmlString(Encoding.UTF8, true, false, true);



            //DataTable示例类型
            DataTable dt = new DataTable();

            dt.TableName = "test1";                                     //xmlHelper操作DataTable时必须有表名否则会报错
            dt.Columns.Add("Name", typeof(string));                     //数据类型为 文本
            DataColumn age  = new DataColumn("Age", typeof(Int32));     //数据类型为 整形
            DataColumn Time = new DataColumn("Time", typeof(DateTime)); //数据类型为 时间

            dt.Columns.Add(age);
            dt.Columns.Add(Time);
            DataRow dr1 = dt.NewRow();

            dr1[0]      = "张三";                  //通过索引赋值
            dr1[1]      = 23;
            dr1["Time"] = DateTime.Now;          //通过名称赋值
            dt.Rows.Add(dr1);
            dt.Rows.Add("李四", 25, DateTime.Now); //Add你们参数的数据顺序要和dt中的列顺对应

            //DateTable的Xml序列化和反序列化
            var dtxml = dt.GetXmlString();
            var dt2   = dtxml.GetXmlObj <DataTable>();
        }
        /// <summary>
        /// Json序列化与反序列化 示例
        /// </summary>
        private static void JsonHelperTest()
        {
            //基础示例类型
            var t1 = new testEntity();

            t1.name     = "test1";
            t1.password = "******";
            t1.Age      = 18;
            t1.now      = DateTime.Now;
            t1.ip       = new IP();
            t1.ip.host  = "rock";
            t1.ip.ipv4  = "192.168.1.6";

            var t2 = new testEntity();

            t2.name     = "test2";
            t2.password = "******";
            t2.Age      = 18;
            t2.now      = DateTime.Now;
            t2.ip       = null;

            var list = new List <testEntity>();

            list.Add(t1);
            list.Add(t2);



            //基础示例类型序列化与反序列化
            var s1 = t1.JSONSerialize();
            var s2 = t2.JSONSerialize();
            var s3 = list.JSONSerialize(false);

            var               d1 = s1.JSONDeserialize <testEntity>();
            testEntity        d2 = s2.JSONDeserialize <testEntity>();
            var               d3 = s3.JSONDeserialize <testEntity>();//null:类型不对应
            List <testEntity> b2 = s3.JSONDeserialize <List <testEntity> >();



            //匿名类型及其序列化
            var obj = new { name = "123", pas = "******", a = new { ip = "127.0.0.1", date = DateTime.Now } };
            var st  = obj.JSONSerialize();



            //DataTable示例类型
            DataTable dt = new DataTable();

            dt.Columns.Add("Name", typeof(string));                     //数据类型为 文本
            DataColumn age  = new DataColumn("Age", typeof(Int32));     //数据类型为 整形
            DataColumn Time = new DataColumn("Time", typeof(DateTime)); //数据类型为 时间

            dt.Columns.Add(age);
            dt.Columns.Add(Time);
            DataRow dr1 = dt.NewRow();

            dr1[0]      = "张三";                  //通过索引赋值
            dr1[1]      = 23;
            dr1["Time"] = DateTime.Now;          //通过名称赋值
            dt.Rows.Add(dr1);
            dt.Rows.Add("李四", 25, DateTime.Now); //Add你们参数的数据顺序要和dt中的列顺对应

            //DataTable示例类型序列化与反序列化
            var s4 = dt.JSONSerialize();

            var a3 = s4.JSONDeserialize <DataTable>();                            //OK
            var a5 = s4.JSONDeserialize <List <Dictionary <string, object> > >(); //OK
            var a4 = s4.JSONDeserializeDynamic();                                 //dynamic {object[]}



            //反序列化为动态类型时取值操作示例
            var result = "";

            var m1 = s1.JSONDeserializeDynamic();//dynamic {Dictionary<string,object>}

            if (((Dictionary <string, object>)m1).ContainsKey("name"))
            {
                result += m1["name"].ToString();                                                              //test1
            }
            var m2 = s3.JSONDeserializeDynamic();                                                             //dynamic {object[]}

            if (m2.Length > 0 && m2[0].Count > 0 && ((Dictionary <string, object>)m2[0]).ContainsKey("name")) //m2[0] dynamic {Dictionary<string,object>}
            {
                result += m2[0]["name"].ToString();                                                           //test1
            }
        }