在线时间:8:00-16:00
迪恩网络APP
随时随地掌握行业动态
扫描二维码
关注迪恩网络微信公众号
原先一直用BinaryFormatter来序列化挺好,可是最近发现在WinCE下是没有办法进行BinaryFormatter操作,很不爽,只能改成了BinaryWriter和BinaryReader来读写,突然想到能不能用XML来序列化?于是在网上查了些资料便写了些实践性代码,做些记录,避免以后忘记。
序列化对象
public class People { [XmlAttribute("NAME")] public string Name { set; get; } [XmlAttribute("AGE")] public int Age { set; get; } } [XmlRoot("Root")] public class Student : People { [XmlElement("CLASS")] public string Class { set; get; } [XmlElement("NUMBER")] public int Number { set; get; } }
void Main(string[] args)
{
Student stu = new Student() { Age = 10, Class = "Class One", Name = "Tom", Number = 1 }; XmlSerializer ser = new XmlSerializer(typeof(Student)); ser.Serialize(File.Create("C:\\x.xml"), stu);
}
反序列化对象
XmlSerializer ser = new XmlSerializer(typeof(Student)); Student stu = ser.Deserialize(File.OpenRead("C:\\x.xml")) as Student;
对象数组序列化
public class People { [XmlAttribute("NAME")] public string Name { set; get; } [XmlAttribute("AGE")] public int Age { set; get; } } [XmlRoot("Root")] public class Student : People { [XmlElement("CLASS")] public string Class { set; get; } [XmlElement("NUMBER")] public int Number { set; get; } }
void Main(string[] args)
{
List<Student> stuList = new List<Student>(); stuList.Add(new Student() { Age = 10, Number = 1, Name = "Tom", Class = "Class One" }); stuList.Add(new Student() { Age = 11, Number = 2, Name = "Jay", Class = "Class Two" }); stuList.Add(new Student() { Age = 12, Number = 3, Name = "Pet", Class = "Class One" }); stuList.Add(new Student() { Age = 13, Number = 4, Name = "May", Class = "Class Three" }); stuList.Add(new Student() { Age = 14, Number = 5, Name = "Soy", Class = "Class Two" }); XmlSerializer ser = new XmlSerializer(typeof(List<Student>)); ser.Serialize(File.Create("C:\\x.xml"), stuList);
}
对象数组反序列
XmlSerializer ser = new XmlSerializer(typeof(List<Student>)); List<Student> stuList = ser.Deserialize(File.OpenRead("C:\\x.xml")) as List<Student>; foreach (Student s in stuList) { MessageBox.Show(string.Format("{0} : {1} : {2} : {3}", s.Name, s.Age, s.Class, s.Number)); }
序列化Dirctionary
public struct DirectionList { [XmlAttribute("Name")] public string Name; [XmlElement("Value")] public int Value; }
void Main(string[] args)
{
Dictionary<string, int> list = new Dictionary<string, int>(); list.Add("1", 100); list.Add("2", 200); list.Add("3", 300); list.Add("4", 400); list.Add("5", 500); list.Add("6", 600); list.Add("7", 700); list.Add("8", 800); list.Add("9", 900);
List<DirectionList> dirList = new List<DirectionList>(); foreach (var s in list) { dirList.Add(new DirectionList() { Name = s.Key, Value = s.Value }); } XmlSerializer ser = new XmlSerializer(typeof(List<DirectionList>)); ser.Serialize(File.Create("C:\\x.xml"), dirList);
}
这里还要讲一点,在XmlSerializer中,不支持Dirctionary<>类型的对象,所以在序列化这种最常见类型的时候,只能按照它的格式先创建一个可以别序列化的类型,这里我定义了一个结构体,当然你也可以定义成其他的类。将Dictionary<>中的数据依次放进结构体以后就可以放入流中了。
[XmlAttribute("Name")]意思是将这个字段作为xml的属性,属性名跟在“”中
[XmlElement("Value")]意思是将这个字段做为xml的元素。
反序列化Dirctionary
XmlSerializer ser = new XmlSerializer(typeof(List<DirectionList>)); List<DirectionList> dirList = ser.Deserialize( File.OpenRead("C:\\x.xml")) as List<DirectionList>; foreach (var v in dirList) { Console.WriteLine("{0} : {1}", v.Name, v.Value); }
其实我并不喜欢这个名称,感觉有点生化危机的feel,但是也就是这样了,没有太炫的地方,Deserialize反序列化。真希望.Net能集成Dirctionary<>对象,那我们这些懒人就方便了。
在需要序列化的队伍中,数组是很常见的类型,其次就是图片了
序列化图片
public struct ImageStruct { [XmlAttribute("Number")] public int number; [XmlElement("Image")] public byte[] picture; }
void Main(string[] args)
{
ImageStruct s = new ImageStruct() { number = 1, picture = File.ReadAllBytes(@"11.jpg") }; XmlSerializer ser = new XmlSerializer(typeof(ImageStruct)); FileStream fs = File.Create("c:\\x.xml"); ser.Serialize(fs, s); fs.Close();
}
一样的,采用结构体来保存图片,这里我还加了个图片的名字,到时候查找起来也方便一些
图片反序列化
XmlSerializer ser = new XmlSerializer(typeof(ImageStruct)); ImageStruct s = (ImageStruct)ser.Deserialize(File.OpenRead("c:\\x.xml")); pictureBox1.Image = Image.FromStream(new MemoryStream(s.picture));
没有花头的方式,利用memorystream来做缓存,这样会比较快一点,实际上我并没有怎么感觉。
图片数组序列化
public struct ImageStruct { [XmlAttribute("Number")] public int number; [XmlElement("Image")] public byte[] picture; }
void Main(string[] args)
{
List<ImageStruct> imageList = new List<ImageStruct>(); imageList.Add(new ImageStruct() { number = 1, picture = File.ReadAllBytes(@"11.jpg") }); imageList.Add(new ImageStruct() { number = 2, picture = File.ReadAllBytes(@"22.jpg") });
XmlSerializer ser = new XmlSerializer(typeof(List<ImageStruct>)); FileStream fs = File.Create("c:\\x.xml"); ser.Serialize(fs, imageList); fs.Close();
}
图片数组反序列化
XmlSerializer ser = new XmlSerializer(typeof(List<ImageStruct>)); List<ImageStruct> s = (List<ImageStruct>)ser.Deserialize(File.OpenRead("c:\\x.xml")); var im = from i in s where i.number == 1 select i.picture;
//var im = s.Where(p => p.number == 1).Select(p => p.picture); foreach (var image in im) { pictureBox1.Image = Image.FromStream( new MemoryStream(image)); }
这里还对数组结构进行了Linq查询,这样就可以很方便的查询图片了。
--------------------------------------------------------------------------------------------------
要序列化的对象的类:
[Serializable] public class Person { private string name; public string Name { get { return name; } set { name=value; } } public string Sex; public int Age=31; public Course[] Courses;
public Person() { } public Person(string Name) { name=Name; Sex="男"; } } [Serializable] public class Course { public string Name; [XmlIgnore]public string Description; public Course() { } public Course(string name,string description) { Name=name; Description=description; } }
进行序列化及反序列化的测试类:
class Test { //序列化 public void Serialiaze() { Person c=new Person("cyj") c.Courses=new Course[2]; c.Courses[0]=new Course("英语","交流工具") c.Courses[1]=new Course("数学","自然科学")
XmlSerializer xs=new XmlSerializer(typeof(Person)); Stream stream = new FileStream("c:\\cyj.xml", FileMode.Create, FileAccess.Write, FileShare.ReadWrite); xs.Serialize(stream, c); stream.Close(); } //反序列化 public void Deserialize() { XmlSerializer xs=new XmlSerializer(typeof(Person)); Stream stream = new FileStream("c:\\cyj.xml", FileMode.Open, FileAccess.Read, FileShare.ReadWrite); Person p=(Person)xs.Deserialize(stream); Console.WriteLine(p.Name); Console.WriteLine(p.Age.ToString()); Console.WriteLine(p.Courses.Length.ToString()); Console.Read(); } } 格式化后Xml的文档内容为:
<?xml version="1.0"?> <Person xmlns:xsd=http://www.w3.org/2001/XMLSchema xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"> <Sex>男</Sex> <Age>31</Age> <Courses> <Course> <Name>英语</Name> </Course> <Course> <Name>数学</Name> </Course> </Courses> <Name>cyj</Name> </Person> 转自http://blog.csdn.net/ljsql/archive/2009/12/22/5057588.aspx |
2023-10-27
2022-08-15
2022-08-17
2022-09-23
2022-08-13
请发表评论