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  • Json.Net学习笔记

    导读:string googleSearchText = @"{ ""responseData"": { ""results"": [ { ""GsearchResultClass"": ""GwebSearch"", ""unescapedUrl"": ""http://en.wikipedia.org/wiki/Paris_Hilton"", ""url"": ""http://en.wikipedia.org/wiki/Paris_Hilton"", ""visibleUrl"": ""en.wikipedia.org"", ""cacheUrl"": ……
    Json.Net学习笔记(十四) JSON的部分序列化

    通常当用到大的Json文档的时候,你可能只对其中的一小个片段信息感兴趣。这种情况下你想把Json.Net转换为.Net 对象就会让人很困扰,因为你必须为Json的整个结果定义一个.Net的类。

    使用Json.Net很容易避开这个问题。在把它们传递到Json.Net序列化器之前,你可以使用Linq to Json 提取Json中你想要序列化的一些片段。

     string googleSearchText = @"{
                      ""responseData"": {
                        ""results"": [
                          {
                            ""GsearchResultClass"": ""GwebSearch"",
                            ""unescapedUrl"": ""http://en.wikipedia.org/wiki/Paris_Hilton"",
                            ""url"": ""http://en.wikipedia.org/wiki/Paris_Hilton"",
                            ""visibleUrl"": ""en.wikipedia.org"",
                            ""cacheUrl"": ""http://www.google.com/search?q=cache:TwrPfhd22hYJ:en.wikipedia.org"",
                            ""title"": ""<b>Paris Hilton</b> - Wikipedia, the free encyclopedia"",
                            ""titleNoFormatting"": ""Paris Hilton - Wikipedia, the free encyclopedia"",
                            ""content"": ""[1] In 2006, she released her debut album...""
                          },
                          {
                            ""GsearchResultClass"": ""GwebSearch"",
                            ""unescapedUrl"": ""http://www.imdb.com/name/nm0385296/"",
                            ""url"": ""http://www.imdb.com/name/nm0385296/"",
                            ""visibleUrl"": ""www.imdb.com"",
                            ""cacheUrl"": ""http://www.google.com/search?q=cache:1i34KkqnsooJ:www.imdb.com"",
                            ""title"": ""<b>Paris Hilton</b>"",
                            ""titleNoFormatting"": ""Paris Hilton"",
                            ""content"": ""Self: Zoolander. Socialite <b>Paris Hilton</b>...""
                          }
                        ],
                        ""cursor"": {
                          ""pages"": [
                            {
                              ""start"": ""0"",
                              ""label"": 1
                            },
                            {
                              ""start"": ""4"",
                              ""label"": 2
                            },
                            {
                              ""start"": ""8"",
                              ""label"": 3
                            },
                            {
                              ""start"": ""12"",
                              ""label"": 4
                            }
                          ],
                          ""estimatedResultCount"": ""59600000"",
                          ""currentPageIndex"": 0,
                          ""moreResultsUrl"": ""http://www.google.com/search?oe=utf8&ie=utf8...""
                        }
                      },
                      ""responseDetails"": null,
                      ""responseStatus"": 200
                    }";
                JObject googleSearch = JObject.Parse(googleSearchText);
                // get JSON result objects into a list
                IList<JToken> results = googleSearch["responseData"]["results"].Children().ToList();

                // serialize JSON results into .NET objects
                IList<SearchResult> searchResults = new List<SearchResult>();
                foreach (JToken result in results)
                {
                    SearchResult searchResult = JsonConvert.DeserializeObject<SearchResult>(result.ToString());
                    searchResults.Add(searchResult);
                }

                // Title = <b>Paris Hilton</b> - Wikipedia, the free encyclopedia
                // Content = [1] In 2006, she released her debut album...
                // Url = http://en.wikipedia.org/wiki/Paris_Hilton

                // Title = <b>Paris Hilton</b>
                // Content = Self: Zoolander. Socialite <b>Paris Hilton</b>...
                // Url = http://www.imdb.com/name/nm0385296/

     
    posted @ 2011-06-11 15:14 资源收集 阅读(44) 评论(0) 编辑
     
     
    Json.Net学习笔记(十三) 缩小序列化Json的大小
    当序列化.Net对象为Json对象时经常会遇到的一个问题是:最终的Json包含大量多余的属性和属性值。这个问题在返回Json到客户端时显得特别重要。Json越大意味着需要更大的带宽,使网速变得更慢。

    为了解决多余的Json这个问题,Json.Net有一系列内置的选项可以进行调整。

    ->JsonIgnoreAttribute and DataMemberAttribute

    默认情况下,在Json创建的时候Json.Net会包含所有类级别的public属性和字段。添加JsonIgnoreAttribute到属性上,告诉序列化器序列化时跳过它。

     public class Car
        {
            // included in JSON
            public string Model { get; set; }
            public DateTime Year { get; set; }
            public List<string> Features { get; set; }

            // ignored
            [JsonIgnore]
            public DateTime LastModified { get; set; }
        }

    如果类有很多属性,你只想序列化它的一小部分,添加JsonIgore到所有其他的属性上会比较冗余,也比较容易出错。有一种用来处理这种情况的方法,添加DataContractAttribute到类上,添加DataMemberAttribute到需要被序列化的属性上。与使用JsonIgnoreAttribute的opt-out序列化相比,opt-in序列化仅仅你标记的属性被需列化。

    using System.Runtime.Serialization;

      [DataContract]
        public class Computer
        {
            // included in JSON
            [DataMember]
            public string Name { get; set; }
            [DataMember]
            public decimal SalePrice { get; set; }

            // ignored
            public string Manufacture { get; set; }
            public int StockCount { get; set; }
            public decimal WholeSalePrice { get; set; }
            public DateTime NextShipmentDate { get; set; }
        }

    ->Formatting

    Json序列化时,用可选参数Formatting.Indented生成良好的显示格式,可读性更好。另一方面,Formatting.None会跳过不必要的空格和换行符,让Json的结果更小。生成的显示格式更加紧凑,也许效率更高。

    ->NullValueHandling

       在序列化器中NullVlaueHandling是可选的。它控制序列化器如何处理值为null的属性。通过设置NullValueHandling.Ignore值,序列化器会跳过值为null的属性。

      public class Movie
        {
            public string Name { get; set; }
            public string Description { get; set; }
            public string Classification { get; set; }
            public string Studio { get; set; }
            public DateTime? ReleaseDate { get; set; }
            public List<string> ReleaseCountries { get; set; }
        }

    测试1:

               Movie movie = new Movie();
                movie.Name = "Bad Boys III";
                movie.Description = "It's no Bad Boys";

                string included = JsonConvert.SerializeObject(movie,
                  Formatting.Indented,
                  new JsonSerializerSettings { });
                Console.WriteLine(included);

    输出结果:

    {
      "Name": "Bad Boys III",
      "Description": "It's no Bad Boys",
      "Classification": null,
      "Studio": null,
      "ReleaseDate": null,
      "ReleaseCountries": null
    }

    测试2:

               string ignored = JsonConvert.SerializeObject(movie,
                  Formatting.Indented,
                  new JsonSerializerSettings { NullValueHandling = NullValueHandling.Ignore });
                Console.WriteLine(ignored);

    输出结果:

    {
      "Name": "Bad Boys III",
      "Description": "It's no Bad Boys"
    }

    NullValueHandling也可以在单独的属性上用JsonPropertyAttribute进行定制。使用JsonPropertyAttribute时设置的NullValueHandling值会在Json序列化器中为该属性进行重写。

    ->DefaultValuehandling

       在序列化器中DefaultValuehandling是可选的。它控制序列化器如何处理带有默认值的属性。通过设置DefaultValuehandling.Ignore值,序列化器会跳过带有默认值的属性。对于引用类型为null,对于值类型,如int和DateTime,序列化器将跳过默认未初使化值的值类型。

      Json.Net也允许你通过DefaultValueAttribute自定义默认值,例如:如果一个字符串类型的属性Department在它的默认状态下总是返回一个空字符,但是在你的Json对象中你不想要那个空字符串,你可以在Department上使用空字符串参数标记DefaultValueAttribute,这意味着Department在序列化时不再写入Json中,除非它有非空值。

      public class Invoice
        {
            public string Company { get; set; }
            public decimal Amount { get; set; }

            // false is default value of bool
            public bool Paid { get; set; }
            // null is default value of nullable
            public DateTime? PaidDate { get; set; }

            // customize default values
            [DefaultValue(30)]
            public int FollowUpDays { get; set; }
            [DefaultValue("")]
            public string FollowUpEmailAddress { get; set; }
        }

    测试1:

               Invoice invoice = new Invoice
                {
                    Company = "Acme Ltd.",
                    Amount = 50.0m,
                    Paid = false,
                    FollowUpDays = 30,
                    FollowUpEmailAddress = string.Empty,
                    PaidDate = null
                };

                string includedDefaultValue = JsonConvert.SerializeObject(invoice,
                  Formatting.Indented,
                  new JsonSerializerSettings { });
                Console.WriteLine(includedDefaultValue);

    输出结果:

    {
      "Company": "Acme Ltd.",
      "Amount": 50.0,
      "Paid": false,
      "PaidDate": null,
      "FollowUpDays": 30,
      "FollowUpEmailAddress": ""
    }

    测试2:

                string ignoredDefaultValue = JsonConvert.SerializeObject(invoice,
                  Formatting.Indented,
                  new JsonSerializerSettings { DefaultValueHandling = DefaultValueHandling.Ignore });
                Console.WriteLine(ignoredDefaultValue);

    输出结果:

    {
      "Company": "Acme Ltd.",
      "Amount": 50.0,
      "Paid": false//??
    }

    DefaultValueHandling也可以在单独的属性上用JsonPropertyAttribute进行定制。使用JsonPropertyAttribute时设置的DefaultValueHandling值会在Json序列化器中为该属性进行重写。

    ->IContractResolver

      为了获得更多的灵活性,IContractResolver接口提供了定制.Net对象序列化为Json的每一个方面,包括在运行时改变序列化的行为。

     public class DynamicContractResolver : DefaultContractResolver
        {
            private readonly char _startingWithChar;
            public DynamicContractResolver(char startingWithChar)
            {
                _startingWithChar = startingWithChar;
            }

            protected override IList<JsonProperty> CreateProperties(JsonObjectContract contract)
            {
                IList<JsonProperty> properties = base.CreateProperties(contract);

                // only serializer properties that start with the specified character
                properties =
                  properties.Where(p => p.PropertyName.StartsWith(_startingWithChar.ToString())).ToList();

                return properties;
            }
        }

        public class Book
        {
            public string BookName { get; set; }
            public decimal BookPrice { get; set; }
            public string AuthorName { get; set; }
            public int AuthorAge { get; set; }
            public string AuthorCountry { get; set; }
        }

    测试:

               Book book = new Book
                {
                    BookName = "The Gathering Storm",
                    BookPrice = 16.19m,
                    AuthorName = "Brandon Sanderson",
                    AuthorAge = 34,
                    AuthorCountry = "United States of America"
                };

                string startingWithA = JsonConvert.SerializeObject(book, Formatting.Indented,
                  new JsonSerializerSettings { ContractResolver = new DynamicContractResolver('A') });
                Console.WriteLine(startingWithA);
                // {
                //   "AuthorName": "Brandon Sanderson",
                //   "AuthorAge": 34,
                //   "AuthorCountry": "United States of America"
                // }

                string startingWithB = JsonConvert.SerializeObject(book, Formatting.Indented,
                  new JsonSerializerSettings { ContractResolver = new DynamicContractResolver('B') });
                Console.WriteLine(startingWithA);
                // {
                //   "BookName": "The Gathering Storm",
                //   "BookPrice": 16.19
                // }

     
    posted @ 2011-06-11 15:13 资源收集 阅读(81) 评论(0) 编辑
     
     
    Json.Net学习笔记(十二) 协议解析

    IContractResolver接口提供了一种方法去定制序列化器如何去序列化和反序列化.Net对象为Json对象

    实现IContractResolver接口,然后为Json序列化器分配一个实例对象,这样你就可以控制对象是否被序列化为Json对象或者Json数组、对象的成员应该被序列化成什么、如何被序列化、及他们被谁调用等。

    ->DefaultContractResolver

       DefaultContractResolver是序列化器默认的解析器,它以虚函数的形式提供了很多扩展功能,可以被覆写(overriden).

    ->CamelCasePropertyNamesContractResolver

       CamelCasePropertyNamesContractResolver继承自DefaultContractResolver,并且简单的覆写了Json属性名为camel命名规则的形式(首字母小写)

      public class Product
        {
            public string Name { get; set; }
            public decimal Price { get; set; }
            public DateTime ExpiryDate { get; set; }
            public string[] Sizes { get; set; }

        }

    测试:

     Product product = new Product
                {
                    ExpiryDate = new DateTime(2010, 12, 20, 18, 1, 0, DateTimeKind.Utc),
                    Name = "Widget",
                    Price = 9.99m,
                    Sizes = new[] { "Small", "Medium", "Large" }
                };
                string json = JsonConvert.SerializeObject(
                                product,
                                Formatting.Indented,
                                new JsonSerializerSettings { ContractResolver = new CamelCasePropertyNamesContractResolver() }
                                 );
                Console.WriteLine(json);

    输出结果:

    {
      "name": "Widget",
      "price": 9.99,
      "expiryDate": "/Date(1292868060000)/",
      "sizes": [
        "Small",
        "Medium",
        "Large"
      ]

     
    posted @ 2011-06-11 15:12 资源收集 阅读(53) 评论(0) 编辑
     
     
    Json.Net学习笔记(十一) CustomCreationConverter

    CustomCreationConverter是一个在序列化过程中提供自定方式去创建一个对象的Json转换器,一旦对象被创建,它将被序列化器填充值。

     public interface IPerson
        {
            string FirstName { get; set; }
            string LastName { get; set; }
            DateTime BirthDate { get; set; }
        }

        public class Employee : IPerson
        {
            public string FirstName { get; set; }
            public string LastName { get; set; }
            public DateTime BirthDate { get; set; }

            public string Department { get; set; }
            public string JobTitle { get; set; }
        }
        public class PersonConverter : CustomCreationConverter<IPerson>
        {
            public override IPerson Create(Type objectType)
            {
                return new Employee();
            }
        }

    这是一个非常简单的例子。更复杂的场景可能包含一个对象工厂或者服务定位器(service locator)用来在运行时解析这个对象。

    测试:   

          string json = @"[
                  {
                    ""FirstName"": ""Maurice"",
                    ""LastName"": ""Moss"",
                    ""BirthDate"": ""/Date(252291661000)/"",
                    ""Department"": ""IT"",
                    ""JobTitle"": ""Support""
                  },
                  {
                    ""FirstName"": ""Jen"",
                    ""LastName"": ""Barber"",
                    ""BirthDate"": ""/Date(258771661000)/"",
                    ""Department"": ""IT"",
                    ""JobTitle"": ""Manager""
                  }
                ]";

                List<IPerson> people = JsonConvert.DeserializeObject<List<IPerson>>(json, new PersonConverter());
                IPerson person = people[0];
                Console.WriteLine(person.GetType());// CustomCreationConverterTest.Employee          
                Console.WriteLine(person.FirstName);// Maurice
                Employee employee = (Employee)person;
                Console.WriteLine(employee.JobTitle);// Support

     
    posted @ 2011-06-11 15:11 资源收集 阅读(28) 评论(0) 编辑
     
     
    Json.Net学习笔记(九) 异常处理

    Json.Net支持在序列化和反序列化的过程中进行异常处理。异常处理让您捕获一个异常,您可以选择是否处理它,继续序列化或者让异常抛给上一层,在你的应用程序中被抛出。

    异常处理通过两个方法来定义:the Error event on JsonSerializer 和 OnErrorAttribute

    >Error Event

      error event是一个建立在JsonSerializer 上的异常处理.当序列化或者反序列化JSON时,任何有异常抛出的情况error event都会被触发.就像建立在JsonSerializer上的所有设置一样,它也可以在JsonSerializerSettings 上进行设置从而传递给JsonConvert的序列化方法.

    示例:

     List<string> errors = new List<string>();
                List<DateTime> c = JsonConvert.DeserializeObject<List<DateTime>>(@"[
                      ""2010-12-19T00:00:00Z"",
                      ""I am not a date and will error!"",
                      [
                        1
                      ],
                      ""2011-01-01T00:00:00Z"",
                      null,
                      ""2010-12-25T00:00:00Z""
                      ]", new JsonSerializerSettings()
                            {
                                Error = delegate(object sender, Newtonsoft.Json.Serialization.ErrorEventArgs e)
                                {
                                    errors.Add(e.ErrorContext.Error.Message);
                                    e.ErrorContext.Handled = true;
                                },
                                Converters = { new IsoDateTimeConverter() }
                            });
                foreach (DateTime t in c)
                {
                    Console.WriteLine(t.ToString());
                }
                //2010-12-19 00:00:00
                //2011-01-01 00:00:00
                //2010-12-25 00:00:00
                foreach (string err in errors)
                {
                    Console.WriteLine(err);
                }
                //The string was not recognized as a valid DateTime. There is a unknown word starting at index 0.
                //Unexpected token parsing date. Expected String, got StartArray.
                //Cannot convert null value to System.DateTime.

      在这个例子中我们把一个Json数组反序列化为一个DateTime的集合,在JsonSerializerSettings中有一个hander被赋值成了error event ,它用来记录error message,并标记这个error为已处理(handled).

    反序列化JSON的结果是三个被成功反序列化的日期和三个error messages:一个是不正确的格式,"I am not a date and will error!",一个是嵌套了JSON数组,最后一个是null值,因为定义的list不允许有可空类型的DateTime.这个事件处理已经记录了这些信息,Json.Net在序列化时继续进行(没有因为异常而停止),因为这些错误已经被标记为已处理。

       值得注意的是,在Json.Net进行异常处理时,没有处理的异常将会被抛到上一层,并在它的每个parent触发事件,例如:在序列化若干对象的集合时,一个未处理的异常将被触发两次,首先在对象上,然后在集合上。这样就会让您在处理异常的时候,选择在它发生的地方,或者是它的一个parent上。


     JsonSerializer serializer = new JsonSerializer();
                serializer.Error += delegate(object sender, Newtonsoft.Json.Serialization.ErrorEventArgs e)
                {
                    // only log an error once
                    if (e.CurrentObject == e.ErrorContext.OriginalObject)
                        errors.Add(e.ErrorContext.Error.Message);
                };

    如果您不是立即处理一个异常,仅仅是想针对它完成一次操作,您可以验证一下ErrorEventArg's CurrentObject是否等于OriginalObject.OriginalObject是抛出异常的对象,CurrentObject是事件被触发的对象.他们只会在第一次(事件被OriginalObject触发时)相等.

    >OnErrorAttribute

     OnErrorAttribute的工作方式非常像其他Json.Net支持的.NET serialization attributes ,简单地把它标记在带有正确参数(一个StreamingContext和一个ErrorContext)的方法上就可以使用了,与方法的名字没有关系。

    示例:

      public class PersonError
        {
            private List<string> _roles;
            public string Name { get; set; }
            public int Age { get; set; }
            public List<string> Roles
            {
                get
                {
                    if (_roles == null)
                        throw new Exception("Roles not loaded!");
                    return _roles;
                }
                set { _roles = value; }
            }
            public string Title { get; set; }
            [OnError]
            internal void OnError(StreamingContext context, ErrorContext errorContext)
            {
                errorContext.Handled = true;
            }
        }

    在这个例子中,当_roles没有被设置值时访问Roles属性将会抛出一个异常.在序列化Roles属性时,异常处理的方法将设置error为handled,从而允许Json.Net继续序列化这个类。

    测试:

     PersonError person = new PersonError
                {
                    Name = "George Michael Bluth",
                    Age = 16,
                    Roles = null,
                    Title = "Mister Manager"
                };
                string json = JsonConvert.SerializeObject(person, Formatting.Indented);
                Console.WriteLine(json);

    输出:

                {
                  "Name": "George Michael Bluth",
                  "Age": 16,
                  "Title": "Mister Manager"
                }

     

     
    posted @ 2011-06-11 15:10 资源收集 阅读(57) 评论(0) 编辑
     
     
    Json.Net学习笔记(十) 保持对象引用

    默认情况下,Json.Net将通过对象的值来序列化它遇到的所有对象。如果工个list包含两个Person引用,这两个引用都指向同一个对象,Json序列化器将输出每一个引用的所有名称和值。

    定义类:

      public class Person
        {
            public DateTime BirthDate { get; set; }
            public DateTime LastModified { get; set; }
            public string Name { get; set; }
        }

    测试:

             Person p = new Person()
                {
                    BirthDate = new DateTime(1985, 11, 27, 0, 0, 0, DateTimeKind.Utc),
                    LastModified = new DateTime(2010, 12, 20, 0, 0, 0, DateTimeKind.Utc),
                    Name = "James"
                };
                List<Person> people = new List<Person>();
                people.Add(p);
                people.Add(p);
                string json = JsonConvert.SerializeObject(people, Formatting.Indented);
                Console.WriteLine(json);

    输出结果:

    [
      {
        "BirthDate": "/Date(501897600000)/",
        "LastModified": "/Date(1292803200000)/",
        "Name": "James"
      },
      {
        "BirthDate": "/Date(501897600000)/",
        "LastModified": "/Date(1292803200000)/",
        "Name": "James"
      }
    ]

    在大多数情况下这是期望的结果,但是在某些场景下,将list中的第二项作为第一项的一个引用来输出会是一个更好的解决方案。如果上面的Json现在被反序列化,返回的list会包含两个完全分离的对象,它们具有相同的值。通过值来输出引用也会在对象上导致循环引用的发生。

    >PreserveReferencesHandling

       string json2 = JsonConvert.SerializeObject(people, Formatting.Indented,
                    new JsonSerializerSettings() { PreserveReferencesHandling = PreserveReferencesHandling.Objects });
                Console.WriteLine(json2);

    输出结果:

              [
                  {
                    "$id": "1",
                    "BirthDate": "/Date(501897600000)/",
                    "LastModified": "/Date(1292803200000)/",
                    "Name": "James"
                  },
                  {
                    "$ref": "1"
                  }
                ] 

              List<Person> deserializedPeople = JsonConvert.DeserializeObject<List<Person>>(json2,
                    new JsonSerializerSettings { PreserveReferencesHandling = PreserveReferencesHandling.Objects });

                Console.WriteLine(deserializedPeople.Count);// 2       

                Person p1 = deserializedPeople[0];
                Person p2 = deserializedPeople[1];
                Console.WriteLine(p1.Name);// James
                Console.WriteLine(p2.Name);// James
                bool equal = Object.ReferenceEquals(p1, p2);// true

    在list中的第一个Person被序列化时增加了一个额外的对象Id,现在第二个Person对象仅仅是第一个的引用。

    现在使用PreserveReferencesHandling后,在序列化时只创建了一个Person对象,list中包含它的两个引用,原来我们叫作反射(mirroring) 。

    >IsReference on JsonObjectAttribute, JsonArrayAttribute and JsonPropertyAttribute

      在对象序列化器上设置PreserveReferencesHandling,将会改变所有对象被序列化和反序列化的方式。为了更加细致地控制对象和成员被序列化为一个引用,可以在JsonObjectAttribute, JsonArrayAttribute 和 JsonPropertyAttribute上使用IsReference 属性.

    在JsonObjectAttribute, JsonArrayAttribute 上设置IsReference 为true,意味着Json序列化器总是会序列这个类型为一个引用。在JsonPropertyAttribute上设置IsReference为true将只序列化这个属性为一个引用。

     [JsonObject(IsReference = true)]
        public class EmployeeReference
        {
            public string Name { get; set; }
            public EmployeeReference Manager { get; set; }
        }

    测试:

               List<EmployeeReference> empList = new List<EmployeeReference>();
                empList.Add(empRef);
                empList.Add(empRef);
                string empRefJson = JsonConvert.SerializeObject(empList, Formatting.Indented);
                Console.WriteLine(empRefJson);

    输出结果:

    [
      {
        "$id": "1",
        "Name": "IsReference",
        "Manager": null
      },
      {
        "$ref": "1"
      }
    ]

    >IReferenceResolver

    要想定制引用的生成方式,可以继承自IReferenceResolver接口来使用Json序列化器。

     
    posted @ 2011-06-11 15:10 资源收集 阅读(49) 评论(0) 编辑
     
     
    Json.Net学习笔记(七) 序列化集合

    Json序列化器为序列化及反序列化集合对象提供了良好的支持.

    ->Serializing

       为了序列化一个集合---一个泛型的list,array,dictionary,或者自定义集合---简单地调用序列化器,使用您想要进行序列化的集合对象作为参数,Json.Net会序列化集合以及所有它包含的值。

    示例:

    public class Product
        {
            public string Name { get; set; }
            public decimal Price { get; set; }
            [JsonConverter(typeof(IsoDateTimeConverter))]
            public DateTime ExpiryDate { get; set; }
        }

    测试:

                Product p1 = new Product()
                {
                    Name = "Product 1",
                    Price = 99.95m,
                    ExpiryDate = new DateTime(2010, 12, 19, 0, 0, 0, DateTimeKind.Utc)
                };
                Product p2 = new Product
                {
                    Name = "Product 2",
                    Price = 12.50m,
                    ExpiryDate = new DateTime(2011, 1, 1, 0, 0, 0, DateTimeKind.Utc)
                };
                List<Product> products = new List<Product>();
                products.Add(p1);
                products.Add(p2);
                string json = JsonConvert.SerializeObject(products, Formatting.Indented);
                Console.WriteLine(json);

    输出结果:

    [
      {
        "Name": "Product 1",
        "Price": 99.95,
        "ExpiryDate": "2010-12-19T00:00:00Z"
      },
      {
        "Name": "Product 2",
        "Price": 12.50,
        "ExpiryDate": "2011-01-01T00:00:00Z"
      }
    ]

    ->Deserializing

      为了反序列化Json到一个.Net集合中,只要指定一个您想要反序列化的集合类型就可以了,Json.Net支持多种类型的集合.

    示例:

        string json2 = @"[
                                  {
                                    ""Name"": ""Product 1"",
                                    ""ExpiryDate"": ""2010-12-19T00:00:00Z"",
                                    ""Price"": 99.95,
                                    ""Sizes"": null
                                  },
                                  {
                                    ""Name"": ""Product 2"",
                                    ""ExpiryDate"": ""2011-01-01T00:00:00Z"",
                                    ""Price"": 12.50,
                                    ""Sizes"": null
                                  }
                                ]";
                List<Product> productList = JsonConvert.DeserializeObject<List<Product>>(json2);
                Console.WriteLine(productList.Count);//2
                Product product1 = productList[0];
                Console.WriteLine(product1.Name);//Product 1

    ->Deserializing Dictionaries

      使用Json.Net你也可以反序列化一个Json对象到一个.Net的泛型Dictionary中.Json对象的属性名和属性值将会被添加到Dictionary中.

    示例:

                string jsonDictionary = @"{""key1"":""value1"",""key2"":""value2""}";
                Dictionary<string, string> dic = JsonConvert.DeserializeObject<Dictionary<string, string>>(jsonDictionary);
                Console.WriteLine(dic.Count);//2
                Console.WriteLine(dic["key1"]);//value1

     
    posted @ 2011-06-11 15:09 资源收集 阅读(73) 评论(0) 编辑
     
     
    Json.Net学习笔记(八) 序列化的回调方法

    Json.Net支持序列化回调方法,回调方法通过Json序列化器(JsonSerializer)可以用来操作一个对象,在它被序列化和反序列化之前或者之后.


    OnSerializing 
    OnSerialized 
    OnDeserializing 
    OnDeserialized

    为了告诉序列化器在对象的序列化生命周期中哪个方法应该被调用,需要用适当的attribute(OnSerializingAttribute, OnSerializedAttribute, OnDeserializingAttribute, OnDeserializedAttribute)来标记方法.

    例如对象序列化的回调方法:

    using Newtonsoft.Json;
    using System.Runtime.Serialization;

     public class SerializationEventTestObject
        {
            // This member is serialized and deserialized with no change.
            public int Member1 { get; set; }
            // The value of this field is set and reset during and 
            // after serialization.
            public string Member2 { get; set; }
            // This field is not serialized. The OnDeserializedAttribute 
            // is used to set the member value after serialization.
            [JsonIgnore]
            public string Member3 { get; set; }
            // This field is set to null, but populated after deserialization.
            public string Member4 { get; set; }
            public SerializationEventTestObject()
            {
                Member1 = 11;
                Member2 = "Hello World!";
                Member3 = "This is a nonserialized value";
                Member4 = null;
            }
            [OnSerializing]
            internal void OnSerializingMethod(StreamingContext context)
            {
                Member2 = "This value went into the data file during serialization.";
            }
            [OnSerialized]
            internal void OnSerializedMethod(StreamingContext context)
            {
                Member2 = "This value was reset after serialization.";
            }
            [OnDeserializing]
            internal void OnDeserializingMethod(StreamingContext context)
            {
                Member3 = "This value was set during deserialization";
            }
            [OnDeserialized]
            internal void OnDeserializedMethod(StreamingContext context)
            {
                Member4 = "This value was set after deserialization.";
            }
        }

    示例对象被序列化和反序列化:

     SerializationEventTestObject obj = new SerializationEventTestObject();
                Console.WriteLine(obj.Member1);// 11
                Console.WriteLine(obj.Member2);// Hello World!
                Console.WriteLine(obj.Member3);// This is a nonserialized value
                Console.WriteLine(obj.Member4);// null
                string json = JsonConvert.SerializeObject(obj, Formatting.Indented);
                Console.WriteLine(json);

                //{
                //  "Member1": 11,
                //  "Member2": "This value went into the data file during serialization.",
                //  "Member4": null
                //}

     

                Console.WriteLine(obj.Member1);//11
                Console.WriteLine(obj.Member2);// This value was reset after serialization.
                Console.WriteLine(obj.Member3);// This is a nonserialized value
                Console.WriteLine(obj.Member4);// null

                obj = JsonConvert.DeserializeObject<SerializationEventTestObject>(json);
                Console.WriteLine(obj.Member1);//11
                Console.WriteLine(obj.Member2);// This value went into the data file during serialization.
                Console.WriteLine(obj.Member3);// This value was set during deserialization
                Console.WriteLine(obj.Member4);// This value was set after deserialization.

     
    posted @ 2011-06-11 15:09 资源收集 阅读(39) 评论(0) 编辑
     
     
    Json.Net学习笔记(五) 自定义Json序列化特性

    Attributes 可以用来控制Json.Net如何序列化和反序列化.Net对象。

    >JsonObjectAttribute--标记在类上,用于控制该类如何被序列化为一个Json对象(JSON Object)

    >JsonArrayAttribute--标记在集合上,用于控制该集合如何被序列化为一个Json集合(JSON Array)

    >JsonPropertyAttribute--标记在字段和属性上,用于控制它如何被序列化为一个Json对象中的属性

    >JsonConverterAttribute--标记在类或者字段和属性上,用于序列化时指定Json转换器(JsonConverter)

     和使用内置的Json.Net attributes一样,当确定Json如何被序列化和反序列化时,Json.Net也查找DataContract和DataMember attributes。如果都存在,Json.Net 序列化特性将优先使用。

    示例:


       [JsonObject(MemberSerialization.OptOut)]
        public class Person
        {
            // "John Smith"
            [JsonProperty]
            public string Name { get; set; }
            // "2000-12-15T22:11:03"
            [JsonProperty]
            [JsonConverter(typeof(IsoDateTimeConverter))]
            public DateTime BirthDate { get; set; }
            // new Date(976918263055)
            [JsonProperty]
            [JsonConverter(typeof(JavaScriptDateTimeConverter))]
            public DateTime LastModified { get; set; }
            // not serialized
            public string Department { get; set; }
        }
    ->JsonObjectAttribute
      这里的MemberSerialization标记指定成员序列化为opt-in(每一个成员都必须标记JsonProperty或者DataMember attribute才被序列化)或者opt-out(默认情况下,除了被标记为JsonIgnoreAttribute的所有成员都将被序列化,这是Json.Net 的默认行为)
      Json.Net把实现了IEnumerable接口的.Net类序列化为一个Json集合,用IEnumerable 的值来填充该集合。标记JsonPropertyAttribute来重写此行为,并强制序列化器序列化该类的字段和属性。
    ->JsonPropertyAttribute
      JsonPropertyAttribute有很多用途
        1.默认情况下,Json 属性与.Net属性有相同的名字,这个attribute允许自定义属性名
        2.当member serialization 被设置成opt-in时,指定属性应该被序列化
        3.在序列化和反序列化时包含非public属性
    ->JsonIgnoreAttribute
      从序列化中排除指定的字段或者属性
    ->JsonConverterAttribute
      JsonConverterAttribute指定Json序列化器(JsonSerializer)用来转换一个对象
      这个特性可以用来标记类或者成员,当它用来标记类的时候,由attribute指定的JsonConverter将为类提供默认的序列化方法.当它用来标记字段或者属性的时候,指定的JsonConverter将一直用于序列化该值。
      使用JsonConverter的优先级顺序为:先成员,后类,最后为传给JsonSerializer的任何转换器.
    示例:
        public class MemberConverterClass
        {
            public DateTime DefaultConverter { get; set; }
            [JsonConverter(typeof(IsoDateTimeConverter))]
            public DateTime MemberConverter { get; set; }
        }//注:这是一个JsonConverterAttribute 应用于属性的例子
    测试:
     DateTime date = Convert.ToDateTime("1970-01-01T00:00:00Z").ToUniversalTime();
                MemberConverterClass c = new MemberConverterClass
                {
                    DefaultConverter = date,
                    MemberConverter = date
                };
                string json = JsonConvert.SerializeObject(c, Formatting.Indented);
                Console.WriteLine(json);
    输出结果:
    {
      "DefaultConverter": "/Date(0)/",
      "MemberConverter": "1970-01-01T00:00:00Z"
    }
     
    posted @ 2011-06-11 15:08 资源收集 阅读(133) 评论(0) 编辑
     
     
    Json.Net学习笔记(六) Json.Net中关于时间的序列化

    DateTime类型在Json中表示是很难的。

    问题来源于JSON spec (Json规范)自身,没有精确的语法。这个规范包括objects, arrays, strings, integers 和 floats,但是对于date是什么样子的没有定义准确的标准。

    关于时间,Json.Net使用的默认格式与微软:"/Date(1198908717056)/"相同,您可以从此外获得更多信息.

    DateTime JsonConverters

    由于在Json中没有关于时间的准确标准,当与其他系统进行互操作时就会有大量不同的时间格式。幸运的是,Json.Net为了处理读写自定义时间提供了一个解决方案:JsonConverters. JsonConverter是用来重写一个类型如何被序列化的。

    示例: 

    public class LogEntry
        {
            public string Details { get; set; }
            public DateTime LogDate { get; set; }
        }

    测试1:

           LogEntry logEntry = new LogEntry()
                {
                    LogDate = new DateTime(2010, 12, 19, 0, 0, 0, DateTimeKind.Utc),
                    Details = "Application started."
                };
                string defaultJson = JsonConvert.SerializeObject(logEntry, Formatting.Indented);
                Console.WriteLine(defaultJson);

    输出结果:

    {
      "Details": "Application started.",
      "LogDate": "/Date(1292716800000)/"
    }

    测试2:

        string javascriptJson = JsonConvert.SerializeObject(logEntry, Formatting.Indented, new JavaScriptDateTimeConverter());
         Console.WriteLine(javascriptJson);
    输出结果:

    {
      "Details": "Application started.",
      "LogDate": new Date(
        1292716800000
      )
    }

    测试3:

                string isoJson = JsonConvert.SerializeObject(logEntry, Formatting.Indented, new IsoDateTimeConverter());
                Console.WriteLine(isoJson);

    输出结果:

    {
      "Details": "Application started.",
      "LogDate": "2010-12-19T00:00:00Z"
    }

     简单地,通过JsonConverter您可以使用Json.Net的序列化器

    >JavaScriptDateTimeConverter

      JavaScriptDateTimeConverter类是来自于Json.Net的两个DataTime Json转换器之一,这个转换器序列化一个DateTime类型为一个JavaScipt日期对象(https://developer.mozilla.org/en/Core_JavaScript_1.5_Reference/Global_Objects/Date)

      new Date(1292716800000)

    从技术上讲,根据规范这是无效的数据格式,但是所有的浏览器、和一些Json的框架包括Json.Net都支持它。

    >IsoDateTimeConverter

      IsoDateTimeConverter序列一个DateTime类型为一个ISO 8601格式的字符串.

      "2010-12-19T00:00:00Z"

    IsoDateTimeConverter 类有一个属性DateTimeFormat,用来更进一步的自定义字符串格式.

    最后要注意的一件事是,所有被Json.Net返回的日期值都是UTC Time

     
    posted @ 2011-06-11 15:08 资源收集 阅读(109) 评论(0) 编辑
     
     
    Json.Net学习笔记(三) Json与Xml之间的转换

    Json.Net 支持 Json 与Xml之间的相互转换.

    转换规则:

     1.元素保持不变
     2.属性添加前缀@
     3.单个子文本结点直接作为元素结点的值,否则通过#text访问
     4.XML声明和处理指令以?为前缀
     5.字符数据(Character data)、注释、whitespace 和significate whitespace结点分别通过#cdata-section,#comment,#whitespace and #significate-whitespace 访问。
     6.同一级多个相同名字的结点作为一组,放到同一个集合中
     7.空元素为null

    using Newtonsoft.Json;

    测试:

    string xml = <?xml version=""1.0"" standalone=""no""?>
                                <root>
                                <person id=""1"">
                                <name>Alan</name>
                                <url>http://www.google.com</url>
                                </person>
                                <person id=""2"">
                                <name>Louis</name>
                                <url>http://www.yahoo.com</url>
                                </person>
                                Hello World
                                </root>";

                XmlDocument doc = new XmlDocument();
                doc.LoadXml(xml);

               //XML to JSON
                string jsonText = JsonConvert.SerializeXmlNode(doc, Newtonsoft.Json.Formatting.Indented);
                Console.WriteLine(jsonText);

    输出结果:

    {
      "?xml": {
        "@version": "1.0",
        "@standalone": "no"
      },
      "root": {
        "person": [
          {
            "@id": "1",
            "name": "Alan",
            "url": "http://www.google.com"
          },
          {
            "@id": "2",
            "name": "Louis",
            "url": "http://www.yahoo.com"
          }
        ],
        "#text": "                             Hello World                             "
      }
    }

     

                //JSON to XML

                XmlDocument docJson = (XmlDocument)JsonConvert.DeserializeXmlNode(jsonText);
                Console.WriteLine(docJson.InnerXml);

     
    posted @ 2011-06-11 15:04 资源收集 阅读(68) 评论(0) 编辑
     
     
    Json.Net学习笔记(四) Json对象的读写

    为了手动读写Json对象,Json.Net提供了JsonReader 和 JsonWriter这两个抽象类及其相应的派生类:

    1.JsonTextReader 和 JsonTextWriter

    用来读写Json对象的文本,JsonTextWriter 有大量设置去控制Json对象的格式。

    测试:

                //写操作

                StringBuilder sb = new StringBuilder();
                StringWriter sw = new StringWriter(sb);
                using (JsonWriter jsonWriter = new JsonTextWriter(sw))
                {               

                    jsonWriter.Formatting = Formatting.Indented;
                    jsonWriter.WriteStartObject();
                    
                    jsonWriter.WritePropertyName("CPU");
                    jsonWriter.WriteValue("Intel");
                    jsonWriter.WritePropertyName("PSU");
                    jsonWriter.WriteValue("500W");
                    jsonWriter.WritePropertyName("Drives");

                    jsonWriter.WriteStartArray();
                    jsonWriter.WriteValue("DVD read/writer");
                    jsonWriter.WriteComment("(broken)");
                    jsonWriter.WriteValue("500 gigabyte hard drive");
                    jsonWriter.WriteValue("200 gigabype hard drive");

                    jsonWriter.WriteEndArray();
                    jsonWriter.WriteEndObject();

                }

                Console.WriteLine(sb.ToString());

    输出结果:

    {
      "CPU": "Intel",
      "PSU": "500W",
      "Drives": [
        "DVD read/writer"
        /*(broken)*/,
        "500 gigabyte hard drive",
        "200 gigabype hard drive"
      ]
    }

          //读操作

         TextReader txtReader = new StringReader(sb.ToString());
                using (JsonReader jsonReader = new JsonTextReader(txtReader))
                {
                    string readResult = "{ ";
                    while (jsonReader.Read())
                    {
                        if (jsonReader.TokenType == JsonToken.PropertyName)
                        {
                            readResult += (string)jsonReader.Value + ":";
                        }
                        else if (jsonReader.TokenType == JsonToken.String)
                        {
                            readResult += (string)jsonReader.Value + " ";
                        }
                        else if (jsonReader.TokenType == JsonToken.StartArray)
                        {
                            readResult += "[ ";
                            while (jsonReader.Read())
                            {
                                if (jsonReader.TokenType == JsonToken.EndArray)
                                {
                                    readResult = readResult.Remove(readResult.Length - 2, 1);
                                    readResult += "] ";
                                    break;
                                }
                                if (jsonReader.TokenType == JsonToken.String)
                                    readResult += (string)jsonReader.Value + ", ";
                                else if (jsonReader.TokenType == JsonToken.Comment)
                                    readResult += "/*" + (string)jsonReader.Value + "*/, ";
                            }
                        }
                    }
                    readResult += "} ";
                    Console.WriteLine(readResult);

                 }

    2.JTokenReader and JTokenWriter

    JTokenReader and JTokenWriter是读写Linq to Json对象的,他们存在于Newtonsoft.Json.Linq名字空间中

             JObject o = new JObject(
                            new JProperty("Name", "ZhangSan"),
                            new JProperty("BirthDay", new DateTime(1985, 11, 27)));

                JsonSerializer serializer = new JsonSerializer();
                Person person = (Person)serializer.Deserialize(new JTokenReader(o), typeof(Person));
                Console.WriteLine(person.Name);//输出ZhangSan

     
    posted @ 2011-06-11 15:04 资源收集 阅读(167) 评论(0) 编辑
     
     
    Json.Net 学习笔记(二) Linq to Json

    using Newtonsoft.Json.Linq;

    定义类:

        public class Product
        {
            public string Name { get; set; }
            public DateTime Expiry { get; set; }
            public decimal Price { get; set; }
            public string[] Sizes { get; set; }
        }

    测试:

                Product product = new Product
                {
                    Name = "Apple",
                    Expiry = new DateTime(2010, 12, 18),
                    Price = 3.99M,
                    Sizes = new string[] { "Small", "Medium", "Large" }
                };

                string serializedJson = JsonConvert.SerializeObject(product);

                JObject o = JObject.Parse(serializedJson);
                string name = (string)o["Name"];
                //Apple
                JArray sizes = (JArray)o["Sizes"];
                string smallest = (string)sizes[0];
                Response.Write(name + "," + smallest + "<br/>");//输出Small
                //SelectToken
                smallest = (string)o.SelectToken("Sizes[0]");
                Response.Write(smallest + "<br/>");//输出Small
                //SelectToken with Linq
                var sizeLen5 = o["Sizes"].Select(i => (string)i).Where(i => i.Length == 5).ToList<string>();
               foreach (var size in sizeLen5)
                {
                    Response.Write((string)size+ " <br/>");
                };//输出Small和Large

    注:JArray表示一个Json集合,JObject表示一个Json对象。

     
    posted @ 2011-06-11 15:03 资源收集 阅读(117) 评论(0) 编辑
     
     
    Json.Net 学习笔记(一)

    使用Newtonsoft.Json这是一个开源的Json.Net库。

    下载地址:http://json.codeplex.com/releases/view/50552。当前版本为 Release 8

    从下载到的源代码中获取Newtonsoft.Json.Net20.dll,添加到自己的工程中。

    using Newtonsoft.Json;

    定义类:

     public class Message
        {
            public string Address { get; set; }
            [JsonProperty(TypeNameHandling = TypeNameHandling.All)]
            public object Body { get; set; }
        }
        public class SearchDetails
        {
            public string Query { get; set; }
            public string Language { get; set; }
        }

    测试:

               Message message = new Message
                {
                    Address = "http://google.com",
                    Body = new SearchDetails { Query = "Json.Net", Language = "en-us" }
                };
                string jsonMsg = JsonConvert.SerializeObject(message, Formatting.Indented);//Indented表示以缩进形式显示结果
                System.Diagnostics.Debug.Write(jsonMsg);
                Message deserialized = JsonConvert.DeserializeObject<Message>(jsonMsg);
                SearchDetails searchDetails = (SearchDetails)deserialized.Body;
                Response.Write(searchDetails.Query + "," + searchDetails.Language + "<br/>");

    Debug输出结果格式:

    {
      "Address": "http://google.com",
      "Body": {
        "$type": "TestJsonSerialization.SearchDetails, TestJsonSerialization",
        "Query": "Json.Net",
        "Language": "en-us"
      }
    }

    注:1.JsonProperty标记字段或属性,用来控制它作为一个Json对象的属性序列化。

           2.TypeNameHandling 用来为Json序列化指定类型名。它有几个枚举值:

    MemberDescription
    None Do not include the .NET type name when serializing types. 
    Objects Include the .NET type name when serializing into a JSON object structure. 
    Arrays Include the .NET type name when serializing into a JSON array structure. 
    Auto Include the .NET type name when the type of the object being serialized is not the same as its declared type. 
    All Always include the .NET type name when serializing. 
    总结:{ "Address": "http://google.com", "Body": { "$type": "TestJsonSerialization.SearchDetails, TestJsonSerialization", "Query": "Json.Net", "Language": "en-us" }}
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  • 原文地址:https://www.cnblogs.com/wuyifu/p/3299784.html
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