Related
I am working with some api that returns JSON containing a field ID, but this field could be int array or object (let`s call it SomeObject) array.
//int[]
[JsonProperty("id")] public int[] ID { get; set; }
//SomeObject[]
[JsonProperty("id")] public SomeObject[] ID { get; set; }
//my guess of handling unknown type?
[JsonConverter(typeof(MyOwnConverter))]
[JsonProperty("id")] public Wrapper ID { get; set; }
class Wrapper {
int[] IdArray {
get => IdArray;
set {
IdArray = value;
IsId = true;
}
}
SomeObject[] ObjectArray {
get => ObjectArray;
set {
ObjectArray = value;
IsId = false;
}
}
bool IsId { get; set; }
}
I understand how to handle each of data type separately (like in code above), when i know what type i am receiving. What should i do to make it work when i do not know the type of data? I was trying to implement custom JsonConverter, and use Wrapper class to store either int or SomeObject but failed at it. Any hints how to achieve it?
We have some configuration files which were generated by serializing C# objects with Json.net.
We'd like to migrate one property of the serialised class away from being a simple enum property into a class property.
One easy way to do this, would be to leave the old enum property on the class, and arrange for Json.net to read this property when we load the config, but not to save it again when we next serialize the object. We'll deal with generating the new class from the old enum separately.
Is there any simple way to mark (e.g. with attributes) a property of a C# object, so that Json.net will ignore it ONLY when serializing, but attend to it when deserializing?
There are actually several fairly simple approaches you can use to achieve the result you want.
Let's assume, for example, that you have your classes currently defined like this:
class Config
{
public Fizz ObsoleteSetting { get; set; }
public Bang ReplacementSetting { get; set; }
}
enum Fizz { Alpha, Beta, Gamma }
class Bang
{
public string Value { get; set; }
}
And you want to do this:
string json = #"{ ""ObsoleteSetting"" : ""Gamma"" }";
// deserialize
Config config = JsonConvert.DeserializeObject<Config>(json);
// migrate
config.ReplacementSetting =
new Bang { Value = config.ObsoleteSetting.ToString() };
// serialize
json = JsonConvert.SerializeObject(config);
Console.WriteLine(json);
To get this:
{"ReplacementSetting":{"Value":"Gamma"}}
Approach 1: Add a ShouldSerialize method
Json.NET has the ability to conditionally serialize properties by looking for corresponding ShouldSerialize methods in the class.
To use this feature, add a boolean ShouldSerializeBlah() method to your class where Blah is replaced with the name of the property that you do not want to serialize. Make the implementation of this method always return false.
class Config
{
public Fizz ObsoleteSetting { get; set; }
public Bang ReplacementSetting { get; set; }
public bool ShouldSerializeObsoleteSetting()
{
return false;
}
}
Note: if you like this approach but you don't want to muddy up the public interface of your class by introducing a ShouldSerialize method, you can use an IContractResolver to do the same thing programmatically. See Conditional Property Serialization in the documentation.
Approach 2: Manipulate the JSON with JObjects
Instead of using JsonConvert.SerializeObject to do the serialization, load the config object into a JObject, then simply remove the unwanted property from the JSON before writing it out. It's just a couple of extra lines of code.
JObject jo = JObject.FromObject(config);
// remove the "ObsoleteSetting" JProperty from its parent
jo["ObsoleteSetting"].Parent.Remove();
json = jo.ToString();
Approach 3: Clever (ab)use of attributes
Apply a [JsonIgnore] attribute to the property that you do not want to be serialized.
Add an alternate, private property setter to the class with the same type as the original property. Make the implementation of that property set the original property.
Apply a [JsonProperty] attribute to the alternate setter, giving it the same JSON name as the original property.
Here is the revised Config class:
class Config
{
[JsonIgnore]
public Fizz ObsoleteSetting { get; set; }
[JsonProperty("ObsoleteSetting")]
private Fizz ObsoleteSettingAlternateSetter
{
// get is intentionally omitted here
set { ObsoleteSetting = value; }
}
public Bang ReplacementSetting { get; set; }
}
For any situation where it's acceptable to have your deserialization-only property be marked internal, there's a remarkably simple solution that doesn't depend on attributes at all. Simply mark the property as internal get, but public set:
public class JsonTest {
public string SomeProperty { internal get; set; }
}
This results in correct deserialization using default settings/resolvers/etc., but the property is stripped from serialized output.
I like sticking with attributes on this one, here is the method I use when needing to deserialize a property but not serialize it or vice versa.
STEP 1 - Create the custom attribute
public class JsonIgnoreSerializationAttribute : Attribute { }
STEP 2 - Create a custom Contract Reslover
class JsonPropertiesResolver : DefaultContractResolver
{
protected override List<MemberInfo> GetSerializableMembers(Type objectType)
{
//Return properties that do NOT have the JsonIgnoreSerializationAttribute
return objectType.GetProperties()
.Where(pi => !Attribute.IsDefined(pi, typeof(JsonIgnoreSerializationAttribute)))
.ToList<MemberInfo>();
}
}
STEP 3 - Add attribute where serialization is not needed but deserialization is
[JsonIgnoreSerialization]
public string Prop1 { get; set; } //Will be skipped when serialized
[JsonIgnoreSerialization]
public string Prop2 { get; set; } //Also will be skipped when serialized
public string Prop3 { get; set; } //Will not be skipped when serialized
STEP 4 - Use it
var sweet = JsonConvert.SerializeObject(myObj, new JsonSerializerSettings { ContractResolver = new JsonPropertiesResolver() });
Hope this helps! Also it's worth noting that this will also ignore the properties when Deserialization happens, when I am derserializing I just use the converter in the conventional way.
JsonConvert.DeserializeObject<MyType>(myString);
Use setter property:
[JsonProperty(nameof(IgnoreOnSerializing))]
public string IgnoreOnSerializingSetter { set { _ignoreOnSerializing = value; } }
[JsonIgnore]
private string _ignoreOnSerializing;
[JsonIgnore]
public string IgnoreOnSerializing
{
get { return this._ignoreOnSerializing; }
set { this._ignoreOnSerializing = value; }
}
Hope this help.
After i spent a quite long time searching how to flag a class property to be De-Serializable and NOT Serializable i found that there's no such thing to do that at all; so i came up with a solution that combines two different libraries or serialization techniques (System.Runtime.Serialization.Json & Newtonsoft.Json) and it worked for me like the following:
flag all your class and sub-classes as "DataContract".
flag all the properties of your class and sub-classes as "DataMember".
flag all the properties of your class and sub-classes as "JsonProperty" except those you want them not to be serialized.
now flag the properties the you do NOT want it to be serialized as "JsonIgnore".
then Serialize using "Newtonsoft.Json.JsonConvert.SerializeObject" and De-Serialize using "System.Runtime.Serialization.Json.DataContractJsonSerializer".
using System;
using System.Collections.Generic;
using Newtonsoft.Json;
using System.Runtime.Serialization;
using System.IO;
using System.Runtime.Serialization.Json;
using System.Text;
namespace LUM_Win.model
{
[DataContract]
public class User
{
public User() { }
public User(String JSONObject)
{
MemoryStream stream = new MemoryStream(Encoding.Unicode.GetBytes(JSONObject));
DataContractJsonSerializer dataContractJsonSerializer = new DataContractJsonSerializer(typeof(User));
User user = (User)dataContractJsonSerializer.ReadObject(stream);
this.ID = user.ID;
this.Country = user.Country;
this.FirstName = user.FirstName;
this.LastName = user.LastName;
this.Nickname = user.Nickname;
this.PhoneNumber = user.PhoneNumber;
this.DisplayPicture = user.DisplayPicture;
this.IsRegistred = user.IsRegistred;
this.IsConfirmed = user.IsConfirmed;
this.VerificationCode = user.VerificationCode;
this.Meetings = user.Meetings;
}
[DataMember(Name = "_id")]
[JsonProperty(PropertyName = "_id")]
public String ID { get; set; }
[DataMember(Name = "country")]
[JsonProperty(PropertyName = "country")]
public String Country { get; set; }
[DataMember(Name = "firstname")]
[JsonProperty(PropertyName = "firstname")]
public String FirstName { get; set; }
[DataMember(Name = "lastname")]
[JsonProperty(PropertyName = "lastname")]
public String LastName { get; set; }
[DataMember(Name = "nickname")]
[JsonProperty(PropertyName = "nickname")]
public String Nickname { get; set; }
[DataMember(Name = "number")]
[JsonProperty(PropertyName = "number")]
public String PhoneNumber { get; set; }
[DataMember(Name = "thumbnail")]
[JsonProperty(PropertyName = "thumbnail")]
public String DisplayPicture { get; set; }
[DataMember(Name = "registered")]
[JsonProperty(PropertyName = "registered")]
public bool IsRegistred { get; set; }
[DataMember(Name = "confirmed")]
[JsonProperty(PropertyName = "confirmed")]
public bool IsConfirmed { get; set; }
[JsonIgnore]
[DataMember(Name = "verification_code")]
public String VerificationCode { get; set; }
[JsonIgnore]
[DataMember(Name = "meeting_ids")]
public List<Meeting> Meetings { get; set; }
public String toJSONString()
{
return JsonConvert.SerializeObject(this, new JsonSerializerSettings() { NullValueHandling = NullValueHandling.Ignore });
}
}
}
Hope that helps ...
Depending on where in the application this takes place and if it's just one property, one manual way you can do this is by setting the property value to null and then on the model you can specify that the property be ignored if the value is null:
[JsonProperty(NullValueHandling = NullValue.Ignore)]
public string MyProperty { get; set; }
If you are working on an ASP.NET Core web app, you can globally set this for all properties in all models by setting this in your Startup.cs file:
public void ConfigureServices(IServiceCollection services) {
// other configuration here
services.AddMvc()
.AddJsonOptions(options => options.SerializerSettings.NullValueHandling = NullValueHandling.Ignore);
}
with reference to #ThoHo's solution, using the setter is actually all that is needed, with no additional tags.
For me I previously had a single reference Id, that I wanted to load and add to the new collection of reference Ids. By changing the definition of the reference Id to only contain a setter method, which added the value to the new collection. Json can't write the value back if the Property doesn't have a get; method.
// Old property that I want to read from Json, but never write again. No getter.
public Guid RefId { set { RefIds.Add(value); } }
// New property that will be in use from now on. Both setter and getter.
public ICollection<Guid> RefIds { get; set; }
This class is now backwards compatible with the previous version and only saves the RefIds for the new versions.
To build upon Tho Ho's answer, this can also be used for fields.
[JsonProperty(nameof(IgnoreOnSerializing))]
public string IgnoreOnSerializingSetter { set { IgnoreOnSerializing = value; } }
[JsonIgnore]
public string IgnoreOnSerializing;
If you use JsonConvert,IgnoreDataMemberAttribute is ok.My standard library not refrence Newton.Json,and I use [IgnoreDataMember] to control object serialize.
From Newton.net help document.
Is there any simple way to mark (e.g. with attributes) a property of a C# object, so that Json.net will ignore it ONLY when serializing, but attend to it when deserializing?
The easiest way I've found as of this writing is to include this logic in your IContractResolver.
Sample code from above link copied here for posterity:
public class Employee
{
public string Name { get; set; }
public Employee Manager { get; set; }
public bool ShouldSerializeManager()
{
// don't serialize the Manager property if an employee is their own manager
return (Manager != this);
}
}
public class ShouldSerializeContractResolver : DefaultContractResolver
{
public new static readonly ShouldSerializeContractResolver Instance = new ShouldSerializeContractResolver();
protected override JsonProperty CreateProperty(MemberInfo member, MemberSerialization memberSerialization)
{
JsonProperty property = base.CreateProperty(member, memberSerialization);
if (property.DeclaringType == typeof(Employee) && property.PropertyName == "Manager")
{
property.ShouldSerialize =
instance =>
{
Employee e = (Employee)instance;
return e.Manager != e;
};
}
return property;
}
}
All of the answers are good but this approach seemed like the cleanest way. I actually implemented this by looking for an attribute on the property for SkipSerialize and SkipDeserialize so you can just mark up any class you control. Great question!
Jraco11's answer is very neat. In case, if you want to use the same IContractResolver both for serialization and deserialization, then you can use the following:
public class JsonPropertiesResolver : DefaultContractResolver
{
protected override JsonProperty CreateProperty(MemberInfo member, MemberSerialization memberSerialization)
{
JsonProperty property = base.CreateProperty(member, memberSerialization);
if (member.IsDefined(typeof(JsonIgnoreSerializationAttribute)))
{
property.ShouldSerialize = instance => false;
}
return property;
}
}
thats will do the trick, create a property with set only
example 1:
https://dotnetfiddle.net/IxMXcG
[JsonProperty("disabled-protections")]
public JArray DisabledProtections { set => IsPartialResult = (value != null && value.HasValues); }
public bool IsPartialResult { get; private set; }
example 2:
private JArray _disabledProtections;
[JsonProperty("disabled-protections")]
public JArray DisabledProtections { set => _disabledProtections = value; }
public bool IsPartialResult => _disabledProtections != null && _disabledProtections.HasValues;
Use [JsonIgnore] attribute in the public property of the model class.
I'm making a C# application what requires to serialize Customer data into an XML file.
So I created the following class what I want to serialize later:
public class Customer {
private string name{get; set;}
private int age{get; set;}
public void setCustomerAge(){
age = 20;
}
public void setCustomerName(string input){
name = input;
}
public string customerName(){
return name;
}
public int customerAge(){
return age;
}
}
The method I've tried is to create a new customer, set it's properties and call the SerializeObject() on it.
public void newCustomer(){
Customer cust = new Customer();
cust.setCustomerName("TEST");
cust.setCustomerAge();
SerializeObject(cust, savePath)
}
public void SerializeObject<T>(T serializableObject, string fileName) {
if(serializableObject == null) {
return;
}
try {
XmlDocument xmlDocument = new XmlDocument();
XmlSerializer serializer = new XmlSerializer(serializableObject.GetType());
using(MemoryStream stream = new MemoryStream()) {
serializer.Serialize(stream, serializableObject);
stream.Position = 0;
xmlDocument.Load(stream);
xmlDocument.Save(fileName);
stream.Close();
}
} catch(Exception ex) {
Debug.WriteLine(ex);
}
}
The file is generated, but the output contains these two lines only:
<?xml version="1.0"?>
<Customer xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xmlns:xsd="http://www.w3.org/2001/XMLSchema" />
Am I approaching this from a wrong way and should I use a total different method?
From the MSDN page for XmlSerializer.Serialize:
The Serialize method converts the public fields and read/write properties of an object into XML. It does not convert methods, indexers, private fields, or read-only properties. To serialize all of an object's fields and properties, both public and private, use the BinaryFormatter.
So, you need either public fields or public non-readonly properties, of which you have none.
I'd suggest:
public class Customer
{
public string Name { get; set; }
public int Age { get; set; }
}
Or if you'll later need logic in the setters:
public class Customer
{
private string m_Name;
private int m_Age;
public string Name { get { return m_Name; } set { m_Name = value; } }
public int Age { get { return m_Age; } set { m_Age = value; } }
}
You could not serialize private properties like this. A way to do this is described here. To solve your problem, you have to set your properties to public (optional private set).
public string name { get; private set; }
public int age { get; private set; }
This way, your return methodes like
public int customerAge(){
return age;
}
are not needed anymore. Your way to get and set the property is not very common in C# (I think this is Java-like). Look here to see how to do it in C#.
From MSDN:
The Serialize method converts the public fields and read/write
properties of an object into XML. It does not convert methods,
indexers, private fields, or read-only properties
You've got nothing to serialize but the object itself.
The Xml.Serialization.XmlSerializer object performs only shallow serialization. If you also want to serialize the private variables of an object or child objects, you must use deep serialization. (https://support.microsoft.com/en-us/kb/815813)
So my suggestion would be to make the properties public.
Otherwise, you could check this post:
Serializing private member data
We have some configuration files which were generated by serializing C# objects with Json.net.
We'd like to migrate one property of the serialised class away from being a simple enum property into a class property.
One easy way to do this, would be to leave the old enum property on the class, and arrange for Json.net to read this property when we load the config, but not to save it again when we next serialize the object. We'll deal with generating the new class from the old enum separately.
Is there any simple way to mark (e.g. with attributes) a property of a C# object, so that Json.net will ignore it ONLY when serializing, but attend to it when deserializing?
There are actually several fairly simple approaches you can use to achieve the result you want.
Let's assume, for example, that you have your classes currently defined like this:
class Config
{
public Fizz ObsoleteSetting { get; set; }
public Bang ReplacementSetting { get; set; }
}
enum Fizz { Alpha, Beta, Gamma }
class Bang
{
public string Value { get; set; }
}
And you want to do this:
string json = #"{ ""ObsoleteSetting"" : ""Gamma"" }";
// deserialize
Config config = JsonConvert.DeserializeObject<Config>(json);
// migrate
config.ReplacementSetting =
new Bang { Value = config.ObsoleteSetting.ToString() };
// serialize
json = JsonConvert.SerializeObject(config);
Console.WriteLine(json);
To get this:
{"ReplacementSetting":{"Value":"Gamma"}}
Approach 1: Add a ShouldSerialize method
Json.NET has the ability to conditionally serialize properties by looking for corresponding ShouldSerialize methods in the class.
To use this feature, add a boolean ShouldSerializeBlah() method to your class where Blah is replaced with the name of the property that you do not want to serialize. Make the implementation of this method always return false.
class Config
{
public Fizz ObsoleteSetting { get; set; }
public Bang ReplacementSetting { get; set; }
public bool ShouldSerializeObsoleteSetting()
{
return false;
}
}
Note: if you like this approach but you don't want to muddy up the public interface of your class by introducing a ShouldSerialize method, you can use an IContractResolver to do the same thing programmatically. See Conditional Property Serialization in the documentation.
Approach 2: Manipulate the JSON with JObjects
Instead of using JsonConvert.SerializeObject to do the serialization, load the config object into a JObject, then simply remove the unwanted property from the JSON before writing it out. It's just a couple of extra lines of code.
JObject jo = JObject.FromObject(config);
// remove the "ObsoleteSetting" JProperty from its parent
jo["ObsoleteSetting"].Parent.Remove();
json = jo.ToString();
Approach 3: Clever (ab)use of attributes
Apply a [JsonIgnore] attribute to the property that you do not want to be serialized.
Add an alternate, private property setter to the class with the same type as the original property. Make the implementation of that property set the original property.
Apply a [JsonProperty] attribute to the alternate setter, giving it the same JSON name as the original property.
Here is the revised Config class:
class Config
{
[JsonIgnore]
public Fizz ObsoleteSetting { get; set; }
[JsonProperty("ObsoleteSetting")]
private Fizz ObsoleteSettingAlternateSetter
{
// get is intentionally omitted here
set { ObsoleteSetting = value; }
}
public Bang ReplacementSetting { get; set; }
}
For any situation where it's acceptable to have your deserialization-only property be marked internal, there's a remarkably simple solution that doesn't depend on attributes at all. Simply mark the property as internal get, but public set:
public class JsonTest {
public string SomeProperty { internal get; set; }
}
This results in correct deserialization using default settings/resolvers/etc., but the property is stripped from serialized output.
I like sticking with attributes on this one, here is the method I use when needing to deserialize a property but not serialize it or vice versa.
STEP 1 - Create the custom attribute
public class JsonIgnoreSerializationAttribute : Attribute { }
STEP 2 - Create a custom Contract Reslover
class JsonPropertiesResolver : DefaultContractResolver
{
protected override List<MemberInfo> GetSerializableMembers(Type objectType)
{
//Return properties that do NOT have the JsonIgnoreSerializationAttribute
return objectType.GetProperties()
.Where(pi => !Attribute.IsDefined(pi, typeof(JsonIgnoreSerializationAttribute)))
.ToList<MemberInfo>();
}
}
STEP 3 - Add attribute where serialization is not needed but deserialization is
[JsonIgnoreSerialization]
public string Prop1 { get; set; } //Will be skipped when serialized
[JsonIgnoreSerialization]
public string Prop2 { get; set; } //Also will be skipped when serialized
public string Prop3 { get; set; } //Will not be skipped when serialized
STEP 4 - Use it
var sweet = JsonConvert.SerializeObject(myObj, new JsonSerializerSettings { ContractResolver = new JsonPropertiesResolver() });
Hope this helps! Also it's worth noting that this will also ignore the properties when Deserialization happens, when I am derserializing I just use the converter in the conventional way.
JsonConvert.DeserializeObject<MyType>(myString);
Use setter property:
[JsonProperty(nameof(IgnoreOnSerializing))]
public string IgnoreOnSerializingSetter { set { _ignoreOnSerializing = value; } }
[JsonIgnore]
private string _ignoreOnSerializing;
[JsonIgnore]
public string IgnoreOnSerializing
{
get { return this._ignoreOnSerializing; }
set { this._ignoreOnSerializing = value; }
}
Hope this help.
After i spent a quite long time searching how to flag a class property to be De-Serializable and NOT Serializable i found that there's no such thing to do that at all; so i came up with a solution that combines two different libraries or serialization techniques (System.Runtime.Serialization.Json & Newtonsoft.Json) and it worked for me like the following:
flag all your class and sub-classes as "DataContract".
flag all the properties of your class and sub-classes as "DataMember".
flag all the properties of your class and sub-classes as "JsonProperty" except those you want them not to be serialized.
now flag the properties the you do NOT want it to be serialized as "JsonIgnore".
then Serialize using "Newtonsoft.Json.JsonConvert.SerializeObject" and De-Serialize using "System.Runtime.Serialization.Json.DataContractJsonSerializer".
using System;
using System.Collections.Generic;
using Newtonsoft.Json;
using System.Runtime.Serialization;
using System.IO;
using System.Runtime.Serialization.Json;
using System.Text;
namespace LUM_Win.model
{
[DataContract]
public class User
{
public User() { }
public User(String JSONObject)
{
MemoryStream stream = new MemoryStream(Encoding.Unicode.GetBytes(JSONObject));
DataContractJsonSerializer dataContractJsonSerializer = new DataContractJsonSerializer(typeof(User));
User user = (User)dataContractJsonSerializer.ReadObject(stream);
this.ID = user.ID;
this.Country = user.Country;
this.FirstName = user.FirstName;
this.LastName = user.LastName;
this.Nickname = user.Nickname;
this.PhoneNumber = user.PhoneNumber;
this.DisplayPicture = user.DisplayPicture;
this.IsRegistred = user.IsRegistred;
this.IsConfirmed = user.IsConfirmed;
this.VerificationCode = user.VerificationCode;
this.Meetings = user.Meetings;
}
[DataMember(Name = "_id")]
[JsonProperty(PropertyName = "_id")]
public String ID { get; set; }
[DataMember(Name = "country")]
[JsonProperty(PropertyName = "country")]
public String Country { get; set; }
[DataMember(Name = "firstname")]
[JsonProperty(PropertyName = "firstname")]
public String FirstName { get; set; }
[DataMember(Name = "lastname")]
[JsonProperty(PropertyName = "lastname")]
public String LastName { get; set; }
[DataMember(Name = "nickname")]
[JsonProperty(PropertyName = "nickname")]
public String Nickname { get; set; }
[DataMember(Name = "number")]
[JsonProperty(PropertyName = "number")]
public String PhoneNumber { get; set; }
[DataMember(Name = "thumbnail")]
[JsonProperty(PropertyName = "thumbnail")]
public String DisplayPicture { get; set; }
[DataMember(Name = "registered")]
[JsonProperty(PropertyName = "registered")]
public bool IsRegistred { get; set; }
[DataMember(Name = "confirmed")]
[JsonProperty(PropertyName = "confirmed")]
public bool IsConfirmed { get; set; }
[JsonIgnore]
[DataMember(Name = "verification_code")]
public String VerificationCode { get; set; }
[JsonIgnore]
[DataMember(Name = "meeting_ids")]
public List<Meeting> Meetings { get; set; }
public String toJSONString()
{
return JsonConvert.SerializeObject(this, new JsonSerializerSettings() { NullValueHandling = NullValueHandling.Ignore });
}
}
}
Hope that helps ...
Depending on where in the application this takes place and if it's just one property, one manual way you can do this is by setting the property value to null and then on the model you can specify that the property be ignored if the value is null:
[JsonProperty(NullValueHandling = NullValue.Ignore)]
public string MyProperty { get; set; }
If you are working on an ASP.NET Core web app, you can globally set this for all properties in all models by setting this in your Startup.cs file:
public void ConfigureServices(IServiceCollection services) {
// other configuration here
services.AddMvc()
.AddJsonOptions(options => options.SerializerSettings.NullValueHandling = NullValueHandling.Ignore);
}
with reference to #ThoHo's solution, using the setter is actually all that is needed, with no additional tags.
For me I previously had a single reference Id, that I wanted to load and add to the new collection of reference Ids. By changing the definition of the reference Id to only contain a setter method, which added the value to the new collection. Json can't write the value back if the Property doesn't have a get; method.
// Old property that I want to read from Json, but never write again. No getter.
public Guid RefId { set { RefIds.Add(value); } }
// New property that will be in use from now on. Both setter and getter.
public ICollection<Guid> RefIds { get; set; }
This class is now backwards compatible with the previous version and only saves the RefIds for the new versions.
To build upon Tho Ho's answer, this can also be used for fields.
[JsonProperty(nameof(IgnoreOnSerializing))]
public string IgnoreOnSerializingSetter { set { IgnoreOnSerializing = value; } }
[JsonIgnore]
public string IgnoreOnSerializing;
If you use JsonConvert,IgnoreDataMemberAttribute is ok.My standard library not refrence Newton.Json,and I use [IgnoreDataMember] to control object serialize.
From Newton.net help document.
Is there any simple way to mark (e.g. with attributes) a property of a C# object, so that Json.net will ignore it ONLY when serializing, but attend to it when deserializing?
The easiest way I've found as of this writing is to include this logic in your IContractResolver.
Sample code from above link copied here for posterity:
public class Employee
{
public string Name { get; set; }
public Employee Manager { get; set; }
public bool ShouldSerializeManager()
{
// don't serialize the Manager property if an employee is their own manager
return (Manager != this);
}
}
public class ShouldSerializeContractResolver : DefaultContractResolver
{
public new static readonly ShouldSerializeContractResolver Instance = new ShouldSerializeContractResolver();
protected override JsonProperty CreateProperty(MemberInfo member, MemberSerialization memberSerialization)
{
JsonProperty property = base.CreateProperty(member, memberSerialization);
if (property.DeclaringType == typeof(Employee) && property.PropertyName == "Manager")
{
property.ShouldSerialize =
instance =>
{
Employee e = (Employee)instance;
return e.Manager != e;
};
}
return property;
}
}
All of the answers are good but this approach seemed like the cleanest way. I actually implemented this by looking for an attribute on the property for SkipSerialize and SkipDeserialize so you can just mark up any class you control. Great question!
Jraco11's answer is very neat. In case, if you want to use the same IContractResolver both for serialization and deserialization, then you can use the following:
public class JsonPropertiesResolver : DefaultContractResolver
{
protected override JsonProperty CreateProperty(MemberInfo member, MemberSerialization memberSerialization)
{
JsonProperty property = base.CreateProperty(member, memberSerialization);
if (member.IsDefined(typeof(JsonIgnoreSerializationAttribute)))
{
property.ShouldSerialize = instance => false;
}
return property;
}
}
thats will do the trick, create a property with set only
example 1:
https://dotnetfiddle.net/IxMXcG
[JsonProperty("disabled-protections")]
public JArray DisabledProtections { set => IsPartialResult = (value != null && value.HasValues); }
public bool IsPartialResult { get; private set; }
example 2:
private JArray _disabledProtections;
[JsonProperty("disabled-protections")]
public JArray DisabledProtections { set => _disabledProtections = value; }
public bool IsPartialResult => _disabledProtections != null && _disabledProtections.HasValues;
Use [JsonIgnore] attribute in the public property of the model class.
I am trying to serialize some objects using XmlSerializer and inheritance but I am having some problems with ordering the outcome.
Below is an example similar to what I have setup: ~
public class SerializableBase
{
[XmlElement(Order = 1)]
public bool Property1 { get; set;}
[XmlElement(Order = 3)]
public bool Property3 { get; set;}
}
[XmlRoot("Object")]
public class SerializableObject1 : SerializableBase
{
}
[XmlRoot("Object")]
public class SerializableObject2 : SerializableBase
{
[XmlElement(Order = 2)]
public bool Property2 { get; set;}
}
The outcome I want is as follows: ~
<Object>
<Property1></Property1>
<Property2></Property2>
<Property3></Property3>
</Object>
However I am getting an outcome of: ~
<Object>
<Property1></Property1>
<Property3></Property3>
<Property2></Property2>
</Object>
Does anyone know if it is possible or of any alternative?
Thanks
Technically, from a pure xml perspective, I would say that this is probably a bad thing to want to do.
.NET hides much of the complexity of things like XmlSerialization - in this case, it hides the schema to which your serialized xml should conform.
The inferred schema will use sequence elements to describe the base type, and the extension types. This requires strict ordering -- even if the Deserializer is less strict and accepts out of order elements.
In xml schemas, when defining extension types, the additional elements from the child class must come after the elements from the base class.
you would essentially have a schema that looks something like (xml-y tags removed for clarity)
base
sequence
prop1
prop3
derived1 extends base
sequence
<empty>
derived2 extends base
sequence
prop2
There's no way to stick a placeholder in between prop1 and prop3 to indicate where the properties from the derived xml can go.
In the end, you have a mismatch between your data format and your business object. Probably your best alternative is to define an object to deal with your xml serialization.
For example
[XmlRoot("Object")
public class SerializableObjectForPersistance
{
[XmlElement(Order = 1)]
public bool Property1 { get; set; }
[XmlElement(Order = 2, IsNullable=true)]
public bool Property2 { get; set; }
[XmlElement(Order = 3)]
public bool Property3 { get; set; }
}
This separates your xml serialization code from your object model. Copy all the values from SerializableObject1 or SerializableObject2 to SerializableObjectForPersistance, and then serialize it.
Essentially, if you want such specific control over the format of your serialized xml that doesn't quite jive with the expectations xml serialization framework, you need to decouple your business object design (inheritance structure in this case) and the responsibility for serialization of that business object.
EDIT: This approach doesn't work. I've left the post in so that people can avoid this line of thinking.
The serializer acts recursively. There's a benefit to this; on deserialization, the deserialization process can read the base class, then the derived class. This means that a property on the derived class isn't set before the properties on the base, which could lead to problems.
If it really matters (and I'm not sure why it's important to get these in order) then you can try this --
1) make the base class' Property1 and Property3 virtual.
2) override them with trivial properties in your derived class. Eg
public class SerializableBase
{
[XmlElement(Order = 1)]
public virtual bool Property1 { get; set;}
[XmlElement(Order = 3)]
public virtual bool Property3 { get; set;}
}
[XmlRoot("Object")]
public class SerializableObject1 : SerializableBase
{
}
[XmlRoot("Object")]
public class SerializableObject2 : SerializableBase
{
[XmlElement(Order = 1)]
public override bool Property1
{
get { return base.Property1; }
set { base.Property1 = value; }
}
[XmlElement(Order = 2)]
public bool Property2 { get; set;}
[XmlElement(Order = 3)]
public override bool Property3
{
get { return base.Property3; }
set { base.Property3 = value; }
}
}
This puts a concrete implementtion of the property on the most derived class, and the order should be respected.
It looks like the XmlSerializer class serializes the base type and then derived types in that order and is only respecting the Order property within each class individually. Even though the order is not totally what you want, it should still Deserialize properly. If you really must have the order just like that you will need to write a custom xml serializer. I would caution against that beacuse the .NET XmlSerializer does a lot of special handling for you. Can you describe why you need things in the order you mention?
This post is quite old now, but I had a similar problem in WCF recently, and found a solution similar to Steve Cooper's above, but one that does work, and presumably will work for XML Serialization too.
If you remove the XmlElement attributes from the base class, and add a copy of each property with a different name to the derived classes that access the base value via the get/set, the copies can be serialized with the appropriate name assigned using an XmlElementAttribute, and will hopefully then serialize in the default order:
public class SerializableBase
{
public bool Property1 { get; set;}
public bool Property3 { get; set;}
}
[XmlRoot("Object")]
public class SerializableObject : SerializableBase
{
[XmlElement("Property1")]
public bool copyOfProperty1
{
get { return base.Property1; }
set { base.Property1 = value; }
}
[XmlElement]
public bool Property2 { get; set;}
[XmlElement("Property3")]
public bool copyOfProperty3
{
get { return base.Property3; }
set { base.Property3 = value; }
}
}
I also added an Interface to add to the derived classes, so that the copies could be made mandatory:
interface ISerializableObjectEnsureProperties
{
bool copyOfProperty1 { get; set; }
bool copyOfProperty2 { get; set; }
}
This is not essential but means that I can check everything is implemented at compile time, rather than checking the resultant XML. I had originally made these abstract properties of SerializableBase, but these then serialize first (with the base class), which I now realise is logical.
This is called in the usual way by changing one line above:
public class SerializableObject : SerializableBase, ISerializableObjectEnsureProperties
I've only tested this in WCF, and have ported the concept to XML Serialization without compiling, so if this doesn't work, apologies, but I would expect it to behave in the same way - I'm sure someone will let me know if not...
I know this question has expired; however, here is a solution for this problem:
The name of the method should always begin with ShouldSerialize and then end with the property name. Then you simply need to return a boolean based on whatever conditional you want, as to whether to serialize the value or not.
public class SerializableBase
{
public bool Property1 { get; set;}
public bool Property2 { get; set;}
public bool Property3 { get; set;}
public virtual bool ShouldSerializeProperty2 { get { return false; } }
}
[XmlRoot("Object")]
public class SerializableObject1 : SerializableBase
{
}
[XmlRoot("Object")]
public class SerializableObject2 : SerializableBase
{
public override bool ShouldSerializeProperty2 { get { return true; } }
}
The outcome when using SerializableObject2: ~
<Object>
<Property1></Property1>
<Property2></Property2>
<Property3></Property3>
</Object>
The outcome when using SerializableObject1: ~
<Object>
<Property1></Property1>
<Property3></Property3>
</Object>
Hope this helps many others!
Like Nader said, maybe think about making a more loose-coupled design. However, in my case, loose-coupling was not appropriate. Here's my class hierarchy, and how I propose to solve the problem without using custom serialization or DTOs.
In my project, I'm constructing a whole bunch of objects to represent pieces of an XML document that will be submitted via a web service. There are a very large number of pieces. Not all are sent with every request (actually, in this example, I'm modeling a response, but the concepts are the same). These pieces are used much like building blocks to assemble a request (or disassemble a response, in this case). So here's an example of using aggregation/encapsulation to accomplish the desired ordering despite the inheritance hierarchy.
[Serializable]
public abstract class ElementBase
{
// This constructor sets up the default namespace for all of my objects. Every
// Xml Element class will inherit from this class.
internal ElementBase()
{
this._namespaces = new XmlSerializerNamespaces(new XmlQualifiedName[] {
new XmlQualifiedName(string.Empty, "urn:my-default-namespace:XSD:1")
});
}
[XmlNamespacesDeclaration]
public XmlSerializerNamespaces Namespaces { get { return this._namespaces; } }
private XmlSerializationNamespaces _namespaces;
}
[Serializable]
public abstract class ServiceBase : ElementBase
{
private ServiceBase() { }
public ServiceBase(Guid requestId, Guid? asyncRequestId = null, Identifier name = null)
{
this._requestId = requestId;
this._asyncRequestId = asyncRequestId;
this._name = name;
}
public Guid RequestId
{
get { return this._requestId; }
set { this._requestId = value; }
}
private Guid _requestId;
public Guid? AsyncRequestId
{
get { return this._asyncRequestId; }
set { this._asyncRequestId = value; }
}
private Guid? _asyncRequestId;
public bool AsyncRequestIdSpecified
{
get { return this._asyncRequestId == null && this._asyncRequestId.HasValue; }
set { /* XmlSerializer requires both a getter and a setter.*/ ; }
}
public Identifier Name
{
get { return this._name; }
set { this._name; }
}
private Identifier _name;
}
[Serializable]
public abstract class ServiceResponseBase : ServiceBase
{
private ServiceBase _serviceBase;
private ServiceResponseBase() { }
public ServiceResponseBase(Guid requestId, Guid? asyncRequestId = null, Identifier name = null, Status status = null)
{
this._serviceBase = new ServiceBase(requestId, asyncRequestId, name);
this._status = status;
}
public Guid RequestId
{
get { return this._serviceBase.RequestId; }
set { this._serviceBase.RequestId = value; }
}
public Guid? AsyncRequestId
{
get { return this._serviceBase.AsyncRequestId; }
set { this._serviceBase.AsyncRequestId = value; }
}
public bool AsynceRequestIdSpecified
{
get { return this._serviceBase.AsyncRequestIdSpecified; }
set { ; }
}
public Identifier Name
{
get { return this._serviceBase.Name; }
set { this._serviceBase.Name = value; }
}
public Status Status
{
get { return this._status; }
set { this._status = value; }
}
}
[Serializable]
[XmlRoot(Namespace = "urn:my-default-namespace:XSD:1")]
public class BankServiceResponse : ServiceResponseBase
{
// Determines if the class is being deserialized.
private bool _isDeserializing;
private ServiceResponseBase _serviceResponseBase;
// Constructor used by XmlSerializer.
// This is special because I require a non-null List<T> of items later on.
private BankServiceResponse()
{
this._isDeserializing = true;
this._serviceResponseBase = new ServiceResponseBase();
}
// Constructor used for unit testing
internal BankServiceResponse(bool isDeserializing = false)
{
this._isDeserializing = isDeserializing;
this._serviceResponseBase = new ServiceResponseBase();
}
public BankServiceResponse(Guid requestId, List<BankResponse> responses, Guid? asyncRequestId = null, Identifier name = null, Status status = null)
{
if (responses == null || responses.Count == 0)
throw new ArgumentNullException("The list cannot be null or empty", "responses");
this._serviceResponseBase = new ServiceResponseBase(requestId, asyncRequestId, name, status);
this._responses = responses;
}
[XmlElement(Order = 1)]
public Status Status
{
get { return this._serviceResponseBase.Status; }
set { this._serviceResponseBase.Status = value; }
}
[XmlElement(Order = 2)]
public Guid RequestId
{
get { return this._serviceResponseBase.RequestId; }
set { this._serviceResponseBase.RequestId = value; }
}
[XmlElement(Order = 3)]
public Guid? AsyncRequestId
{
get { return this._serviceResponseBase.AsyncRequestId; }
set { this._serviceResponseBase.AsyncRequestId = value; }
}
[XmlIgnore]
public bool AsyncRequestIdSpecified
{
get { return this._serviceResponseBase.AsyncRequestIdSpecified; }
set { ; } // Must have this for XmlSerializer.
}
[XmlElement(Order = 4)]
public Identifer Name
{
get { return this._serviceResponseBase.Name; }
set { this._serviceResponseBase.Name; }
}
[XmlElement(Order = 5)]
public List<BankResponse> Responses
{
get { return this._responses; }
set
{
if (this._isDeserializing && this._responses != null && this._responses.Count > 0)
this._isDeserializing = false;
if (!this._isDeserializing && (value == null || value.Count == 0))
throw new ArgumentNullException("List cannot be null or empty.", "value");
this._responses = value;
}
}
private List<BankResponse> _responses;
}
So, while I have to create properties for all of the contained classes, I can delegate any custom logic I might have within the contained class(es) property setters/getters by simply using the contained class's properties when the leaf class's properties are accessed. Since there's no inheritance, I can decorate all the properties of the leaf class with the XmlElementAttribute attribute and use any ordering that I see fit.
UPDATE:
I came back to revisit this article because my design decisions about using class inheritance came back to bite me again. While my solution above does work, I'm using it, I really think that Nader's solution is the best and should be considered before the solution I presented. In fact, I'm +1'ing him today! I really like his answer, and if I ever have the opportunity to refactor my current project, I will definitely be separating the business object from the serialization logic for objects that would otherwise benefit greatly from inheritance in order to simplify the code and make it easier for others to use and understand.
Thanks for posting your response Nader, as I think many will find it very instructive and useful.