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Get .NET Core JsonSerializer to serialize private members

I have a class with a private List<T> property which I would like to serialize/deserialize using the JsonSerializer. Use of the JsonPropertyAttribute doesn't seem to be supported in .NET Core. So how can I have my private list property serialized?
I'm using System.Text.Json for this.

It seems System.Text.Json does not support private property serialization.
https://learn.microsoft.com/tr-tr/dotnet/standard/serialization/system-text-json-migrate-from-newtonsoft-how-to#internal-and-private-property-setters-and-getters
But as the Microsoft's document says, you can do it with custom converters.
https://www.thinktecture.com/en/asp-net/aspnet-core-3-0-custom-jsonconverter-for-the-new-system_text_json/
Code snippet for serialization & deserialization;
public class Category
{
public Category(List<string> names)
{
this.Names1 = names;
}
private List<string> Names1 { get; set; }
public string Name2 { get; set; }
public string Name3 { get; set; }
}
public class CategoryJsonConverter : JsonConverter<Category>
{
public override Category Read(ref Utf8JsonReader reader,
Type typeToConvert,
JsonSerializerOptions options)
{
var name = reader.GetString();
var source = JsonSerializer.Deserialize<Dictionary<string, JsonElement>>(name);
var category = new Category(null);
var categoryType = category.GetType();
var categoryProps = categoryType.GetProperties(BindingFlags.Public | BindingFlags.NonPublic | BindingFlags.Instance);
foreach (var s in source.Keys)
{
var categoryProp = categoryProps.FirstOrDefault(x => x.Name == s);
if (categoryProp != null)
{
var value = JsonSerializer.Deserialize(source[s].GetRawText(), categoryProp.PropertyType);
categoryType.InvokeMember(categoryProp.Name,
BindingFlags.Public | BindingFlags.NonPublic | BindingFlags.SetProperty | BindingFlags.Instance,
null,
category,
new object[] { value });
}
}
return category;
}
public override void Write(Utf8JsonWriter writer,
Category value,
JsonSerializerOptions options)
{
var props = value.GetType()
.GetProperties(BindingFlags.Public | BindingFlags.NonPublic | BindingFlags.Instance)
.ToDictionary(x => x.Name, x => x.GetValue(value));
var ser = JsonSerializer.Serialize(props);
writer.WriteStringValue(ser);
}
}
static void Main(string[] args)
{
Category category = new Category(new List<string>() { "1" });
category.Name2 = "2";
category.Name3 = "3";
var opt = new JsonSerializerOptions
{
Converters = { new CategoryJsonConverter() },
Encoder = JavaScriptEncoder.UnsafeRelaxedJsonEscaping
};
var json = JsonSerializer.Serialize(category, opt);
var obj = JsonSerializer.Deserialize<Category>(json, opt);
Console.WriteLine(json);
Console.ReadKey();
}
Result;
"{\"Names1\":[\"1\"],\"Name2\":\"2\",\"Name3\":\"3\"}"

System.Text.Json supports private property serialization starting with .NET 5 according to Micosoft documentation.
System.Text.Json supports private and internal property setters and getters via the [JsonInclude] attribute. - source
Find more details here.

Although you cannot serialize a private field directly as is, you can do it indirectly.
You need to provide a public property for the field and a constructor as in the following example:
class MyNumbers
{
// This private field will not be serialized
private List<int> _numbers;
// This public property will be serialized
public IEnumerable<int> Numbers => _numbers;
// The serialized property will be recovered with this dedicated constructor
// upon deserialization. Type and name must be the same as the public property.
public MyNumbers(IEnumerable<int> Numbers = null)
{
_numbers = Numbers as List<int> ?? Numbers?.ToList() ?? new();
}
}
The following code demonstrates how that works:
string json;
// Serialization
{
MyNumbers myNumbers = new(new List<int> { 10, 20, 30});
json = JsonSerializer.Serialize(myNumbers);
Console.WriteLine(json);
}
// Deserialization
{
var myNumbers2 = JsonSerializer.Deserialize<MyNumbers>(json);
foreach (var number in myNumbers2.Numbers)
Console.Write(number + " ");
}
Output:
{"Numbers":[10,20,30]}
10 20 30
If you want to detract people from accessing your private data, you can change the name to something explicitly forbidden like __private_numbers.
class MyNumbers2
{
private List<int> _numbers;
public IEnumerable<int> __private_numbers => _numbers;
public MyNumbers2(IEnumerable<int> __private_numbers = null)
{
_numbers = __private_numbers as List<int> ?? __private_numbers?.ToList() ?? new();
}
}
If an external coder is fool enough to access that private data as if it was part of the normal programming interface of that class, then shame on him. You are in your plain right to change that "private interface" without any guilt. And he can't mess with your internal list either, with an IEnumerable.
In most situations, that should be enough.

Copying All Class Fields and Properties To Another Class

I have a class which normally contains Fields, Properties. What i want to achieve is instead of this:
class Example
{
public string Field = "EN";
public string Name { get; set; }
public int? Age { get; set; }
public List<string> A_State_of_String { get; set; }
}
public static void Test()
{
var c1 = new Example
{
Name = "Philip",
Age = null,
A_State_of_String = new List<string>
{
"Some Strings"
}
};
var c2 = new Example();
//Instead of doing that
c2.Name = string.IsNullOrEmpty(c1.Name) ? "" : c1.Name;
c2.Age = c1.Age ?? 0;
c2.A_State_of_String = c1.A_State_of_String ?? new List<string>();
//Just do that
c1.CopyEmAll(c2);
}
What i came up with but doesn't work as expected.
public static void CopyEmAll(this object src, object dest)
{
if (src == null) {
throw new ArgumentNullException("src");
}
foreach (PropertyDescriptor item in TypeDescriptor.GetProperties(src)) {
var val = item.GetValue(src);
if (val == null) {
continue;
}
item.SetValue(dest, val);
}
}
Problems:
Although i checked for null, it seems to bypass it.
Doesn't seem to copy Fields.
Notes:
I don't want to use AutoMapper for some technical issues.
I want the method to copy values and not creating new object. [just mimic the behavior i stated in the example]
I want the function to be recursive [if the class contains another classes it copies its values too going to the most inner one]
Don't want to copy null or empty values unless i allow it to.
Copies all Fields, Properties, or even Events.

Based on Leo's answer, but using Generics and copying also the fields:
public void CopyAll<T>(T source, T target)
{
var type = typeof(T);
foreach (var sourceProperty in type.GetProperties())
{
var targetProperty = type.GetProperty(sourceProperty.Name);
targetProperty.SetValue(target, sourceProperty.GetValue(source, null), null);
}
foreach (var sourceField in type.GetFields())
{
var targetField = type.GetField(sourceField.Name);
targetField.SetValue(target, sourceField.GetValue(source));
}
}
And then just:
CopyAll(f1, f2);

You can use serialization to serialize object A and deserialize as object B - if they have very same structure, you can look here for object deep copy.
Deep cloning objects
I know you don't want to use Automapper, but if the types have only SIMILAR structure, you should maybe use Automapper which is based on reflection. You can download a nuget and find some information here:
https://www.nuget.org/packages/AutoMapper/
your code then will look like
public TOutput CopyAll<TInput, TOutput>(TInput input)
{
var config = new MapperConfiguration(cfg => cfg.CreateMap<TInput, TOutput>());
IMapper mapper = config.CreateMapper();
return mapper.Map<TOutput>(vstup);
}

How can I serialize an object to C# object initializer code?

I'm looking to take an in-memory object (or JSON serialization of an object) and emit C# code to produce an equivalent object.
This would be useful for pulling known-good examples from a repository to use as starting points in unit tests. We have considered deserializing JSON, but C# code would have an edge when it comes to refactoring.

There is an interesting Visual Studio extension that addresses this; the Object Exporter. It allows serialization of an in-memory object into C# Object initialization code, JSON and XML. I haven't tried it yet but looks intriguing; will update after trying it out.

If your model is simple, you could use reflection and a string builder to output C# directly. I've done this to populate unit test data exactly as you discussed.
The code sample below was written in a few minutes and generated an object initializer that needed some hand tweaking. A more robust / less buggy function could be written if you plan on doing this a lot.
The second function is recursive, iterating over any Lists within the object, and generating code for those as well.
Disclaimer: This worked for my simple model with basic data types. It generated code that needed cleanup but allowed me to move on quickly. It is only here to serve as an example of how this could be done. Hopefully, it inspires someone to write their own.
In my case, I had an instance of this large dataset (results) that was loaded from the database. In order to remove the database dependency from my unit test, I handed the object to this function which spits out the code that allowed me to mock the object in my test class.
private void WriteInstanciationCodeFromObject(IList results)
{
//declare the object that will eventually house C# initialization code for this class
var testMockObject = new System.Text.StringBuilder();
//start building code for this object
ConstructAndFillProperties(testMockObject, results);
var codeOutput = testMockObject.ToString();
}
private void ConstructAndFillProperties(StringBuilder testMockObject, IList results)
{
testMockObject.AppendLine("var testMock = new " + results.GetType().ToString() + "();");
foreach (object obj in results)
{
//if this object is a list, write code for its contents
if (obj.GetType().GetInterfaces().Contains(typeof(IList)))
{
ConstructAndFillProperties(testMockObject, (IList)obj);
}
testMockObject.AppendLine("testMock.Add(new " + obj.GetType().Name + "() {");
foreach (var property in obj.GetType().GetProperties())
{
//if this property is a list, write code for its contents
if (property.PropertyType.GetInterfaces().Contains(typeof(IList)))
{
ConstructAndFillProperties(testMockObject, (IList)property.GetValue(obj, null));
}
testMockObject.AppendLine(property.Name + " = (" + property.PropertyType + ")\"" + property.GetValue(obj, null) + "\",");
}
testMockObject.AppendLine("});");
}
}

It's possible the object will have a TypeConverter that supports conversion to InstanceDescriptor, which is what the WinForms designer uses when emitting C# code to generate an object. If it can't convert to an InstanceDescriptor, it will attempt to use a parameterless constructor and simply set public properties. The InstanceDescriptor mechanism is handy, since it allows you to specify various construction options such as constructors with parameters or even static factory method calls.
I have some utility code I've written that emits loading of an in-memory object using IL, which basically follows the above pattern (use InstanceDescriptor if possible and, if not, simply write public properties.) Note that this will only produce an equivalent object if the InstanceDescriptor is properly implemented or setting public properties is sufficient to restore object state. If you're emitting IL, you can also cheat and read/write field values directly (this is what the DataContractSerializer supports), but there are a lot of nasty corner cases to consider.

I'm a novice at this as well, but I also needed to take a C# object that defined a hierarchy and extract it to an object initializer to ease setting up a unit test. I borrowed heavily from the above and wound up with this. I'd like to improve the way it handles recognizing user classes.
http://github.com/jefflomax/csharp-object-to-object-literal/blob/master/Program.cs
using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace ObjectInitializer
{
public class Program
{
public enum Color { Red, Green, Blue, Yellow, Fidget } ;
public class Foo
{
public int FooId { get; set; }
public string FooName { get; set; }
}
public class Thing
{
public int ThingId { get; set; }
public string ThingName { get; set; }
public List<Foo> Foos { get; set; }
}
public class Widget
{
public long Sort { get; set; }
public char FirstLetter { get; set; }
}
public class TestMe
{
public Color Color { get; set; }
public long Key { get; set; }
public string Name { get; set; }
public DateTime Created { get; set; }
public DateTime? NCreated { get; set; }
public bool Deleted { get; set; }
public bool? NDeleted { get; set; }
public double Amount { get; set; }
public Thing MyThing { get; set; }
public List<Thing> Things { get; set; }
public List<Widget> Widgets { get; set; }
}
static void Main(string[] args)
{
var testMe = new TestMe
{
Color = Program.Color.Blue,
Key = 3,
Name = "SAK",
Created = new DateTime(2013,10,20,8,0,0),
NCreated = (DateTime?)null,
Deleted = false,
NDeleted = null,
Amount = 13.1313,
MyThing = new Thing(){ThingId=1,ThingName="Thing 1"},
Things = new List<Thing>
{
new Thing
{
ThingId=4,
ThingName="Thing 4",
Foos = new List<Foo>
{
new Foo{FooId=1, FooName="Foo 1"},
new Foo{FooId=2,FooName="Foo2"}
}
},
new Thing
{
ThingId=5,
ThingName="Thing 5",
Foos = new List<Foo>()
}
},
Widgets = new List<Widget>()
};
var objectInitializer = ToObjectInitializer(testMe);
Console.WriteLine(objectInitializer);
// This is the returned C# Object Initializer
var x = new TestMe { Color = Program.Color.Blue, Key = 3, Name = "SAK", Created = new DateTime(2013, 10, 20, 8, 0, 0), NCreated = null, Deleted = false, NDeleted = null, Amount = 13.1313, MyThing = new Thing { ThingId = 1, ThingName = "Thing 1", Foos = new List<Foo>() }, Things = new List<Thing> { new Thing { ThingId = 4, ThingName = "Thing 4", Foos = new List<Foo> { new Foo { FooId = 1, FooName = "Foo 1" }, new Foo { FooId = 2, FooName = "Foo2" } } }, new Thing { ThingId = 5, ThingName = "Thing 5", Foos = new List<Foo>() } }, Widgets = new List<Widget>() };
Console.WriteLine("");
}
public static string ToObjectInitializer(Object obj)
{
var sb = new StringBuilder(1024);
sb.Append("var x = ");
sb = WalkObject(obj, sb);
sb.Append(";");
return sb.ToString();
}
private static StringBuilder WalkObject(Object obj, StringBuilder sb)
{
var properties = obj.GetType().GetProperties();
var type = obj.GetType();
var typeName = type.Name;
sb.Append("new " + type.Name + " {");
bool appendComma = false;
DateTime workDt;
foreach (var property in properties)
{
if (appendComma) sb.Append(", ");
appendComma = true;
var pt = property.PropertyType;
var name = pt.Name;
var isList = property.PropertyType.GetInterfaces().Contains(typeof(IList));
var isClass = property.PropertyType.IsClass;
if (isList)
{
IList list = (IList)property.GetValue(obj, null);
var listTypeName = property.PropertyType.GetGenericArguments()[0].Name;
if (list != null && list.Count > 0)
{
sb.Append(property.Name + " = new List<" + listTypeName + ">{");
sb = WalkList( list, sb );
sb.Append("}");
}
else
{
sb.Append(property.Name + " = new List<" + listTypeName + ">()");
}
}
else if (property.PropertyType.IsEnum)
{
sb.AppendFormat("{0} = {1}", property.Name, property.GetValue(obj));
}
else
{
var value = property.GetValue(obj);
var isNullable = pt.IsGenericType && pt.GetGenericTypeDefinition() == typeof(Nullable<>);
if (isNullable)
{
name = pt.GetGenericArguments()[0].Name;
if (property.GetValue(obj) == null)
{
sb.AppendFormat("{0} = null", property.Name);
continue;
}
}
switch (name)
{
case "Int64":
case "Int32":
case "Int16":
case "Double":
case "Float":
sb.AppendFormat("{0} = {1}", property.Name, value);
break;
case "Boolean":
sb.AppendFormat("{0} = {1}", property.Name, Convert.ToBoolean(value) == true ? "true" : "false");
break;
case "DateTime":
workDt = Convert.ToDateTime(value);
sb.AppendFormat("{0} = new DateTime({1},{2},{3},{4},{5},{6})", property.Name, workDt.Year, workDt.Month, workDt.Day, workDt.Hour, workDt.Minute, workDt.Second);
break;
case "String":
sb.AppendFormat("{0} = \"{1}\"", property.Name, value);
break;
default:
// Handles all user classes, should likely have a better way
// to detect user class
sb.AppendFormat("{0} = ", property.Name);
WalkObject(property.GetValue(obj), sb);
break;
}
}
}
sb.Append("}");
return sb;
}
private static StringBuilder WalkList(IList list, StringBuilder sb)
{
bool appendComma = false;
foreach (object obj in list)
{
if (appendComma) sb.Append(", ");
appendComma = true;
WalkObject(obj, sb);
}
return sb;
}
}
}

I stumbled across this while looking for the same kind of method Matthew described, and was inspired by Evan's answer to write my own extension method. It generates compilable C# code as a string that can be copy/pasted into Visual Studio. I didn't bother with any particular formatting and just output the code on one line and use ReSharper to format it nicely. I've used it with some big DTOs that we were passing around and so far it works like a charm.
Here's the extension method and a couple helper methods:
public static string ToCreationMethod(this object o)
{
return String.Format("var newObject = {0};", o.CreateObject());
}
private static StringBuilder CreateObject(this object o)
{
var builder = new StringBuilder();
builder.AppendFormat("new {0} {{ ", o.GetClassName());
foreach (var property in o.GetType().GetProperties())
{
var value = property.GetValue(o);
if (value != null)
{
builder.AppendFormat("{0} = {1}, ", property.Name, value.GetCSharpString());
}
}
builder.Append("}");
return builder;
}
private static string GetClassName(this object o)
{
var type = o.GetType();
if (type.IsGenericType)
{
var arg = type.GetGenericArguments().First().Name;
return type.Name.Replace("`1", string.Format("<{0}>", arg));
}
return type.Name;
}
The method GetCSharpString contains the logic, and it's open to extension for any particular type. It was enough for me that it handled strings, ints, decimals, dates anything that implements IEnumerable:
private static string GetCSharpString(this object o)
{
if (o is String)
{
return string.Format("\"{0}\"", o);
}
if (o is Int32)
{
return string.Format("{0}", o);
}
if (o is Decimal)
{
return string.Format("{0}m", o);
}
if (o is DateTime)
{
return string.Format("DateTime.Parse(\"{0}\")", o);
}
if (o is IEnumerable)
{
return String.Format("new {0} {{ {1}}}", o.GetClassName(), ((IEnumerable)o).GetItems());
}
return string.Format("{0}", o.CreateObject());
}
private static string GetItems(this IEnumerable items)
{
return items.Cast<object>().Aggregate(string.Empty, (current, item) => current + String.Format("{0}, ", item.GetCSharpString()));
}
I hope someone finds this useful!

It may comes a bit late, but here is my 5cents on that problem.
The mentioned Visual Studio Extension (OmarElabd/ObjectExporter) was a good idea, but I needed to generate C# code from in-memory objects at runtime, during unit test execution. This is what evolved from the original problem: https://www.nuget.org/packages/ObjectDumper.NET/
ObjectDumper.Dump(obj, DumpStyle.CSharp); returns C# initializer code from a variable. Please let me know if you find issues, you might want to report them on github.

There's a solution similar to what Evan proposed, but a bit better suited for my particular task.
After playing a bit with CodeDOM and Reflection it turned out that it would be too complicated in my case.
The object was serialized as XML, so the natural solution was to use XSLT to simply transform it to the object creation expression.
Sure, it covers only certain types of the cases, but maybe will work for someone else.

Here is an update to #revlucio's solution that adds support for booleans and enums.
public static class ObjectInitializationSerializer
{
private static string GetCSharpString(object o)
{
if (o is bool)
{
return $"{o.ToString().ToLower()}";
}
if (o is string)
{
return $"\"{o}\"";
}
if (o is int)
{
return $"{o}";
}
if (o is decimal)
{
return $"{o}m";
}
if (o is DateTime)
{
return $"DateTime.Parse(\"{o}\")";
}
if (o is Enum)
{
return $"{o.GetType().FullName}.{o}";
}
if (o is IEnumerable)
{
return $"new {GetClassName(o)} \r\n{{\r\n{GetItems((IEnumerable)o)}}}";
}
return CreateObject(o).ToString();
}
private static string GetItems(IEnumerable items)
{
return items.Cast<object>().Aggregate(string.Empty, (current, item) => current + $"{GetCSharpString(item)},\r\n");
}
private static StringBuilder CreateObject(object o)
{
var builder = new StringBuilder();
builder.Append($"new {GetClassName(o)} \r\n{{\r\n");
foreach (var property in o.GetType().GetProperties())
{
var value = property.GetValue(o);
if (value != null)
{
builder.Append($"{property.Name} = {GetCSharpString(value)},\r\n");
}
}
builder.Append("}");
return builder;
}
private static string GetClassName(object o)
{
var type = o.GetType();
if (type.IsGenericType)
{
var arg = type.GetGenericArguments().First().Name;
return type.Name.Replace("`1", $"<{arg}>");
}
return type.Name;
}
public static string Serialize(object o)
{
return $"var newObject = {CreateObject(o)};";
}
}

Generic class to CSV (all properties)

Im looking for a way to create CSV from all class instances.
What i want is that i could export ANY class (all of its instances) to CSV.
Can some1 direct me to possible solution for this (in case already anwsered).
thanx !

Have a look at LINQ to CSV. Although it's a little on the heavy side, which is why I wrote the following code to perform just the small subset of functionality that I needed. It handles both properties and fields, like you asked for, although not much else. One thing it does do is properly escape the output in case it contains commas, quotes, or newline characters.
public static class CsvSerializer {
/// <summary>
/// Serialize objects to Comma Separated Value (CSV) format [1].
///
/// Rather than try to serialize arbitrarily complex types with this
/// function, it is better, given type A, to specify a new type, A'.
/// Have the constructor of A' accept an object of type A, then assign
/// the relevant values to appropriately named fields or properties on
/// the A' object.
///
/// [1] http://tools.ietf.org/html/rfc4180
/// </summary>
public static void Serialize<T>(TextWriter output, IEnumerable<T> objects) {
var fields =
from mi in typeof (T).GetMembers(BindingFlags.Public | BindingFlags.Instance | BindingFlags.Static)
where new [] { MemberTypes.Field, MemberTypes.Property }.Contains(mi.MemberType)
let orderAttr = (ColumnOrderAttribute) Attribute.GetCustomAttribute(mi, typeof (ColumnOrderAttribute))
orderby orderAttr == null ? int.MaxValue : orderAttr.Order, mi.Name
select mi;
output.WriteLine(QuoteRecord(fields.Select(f => f.Name)));
foreach (var record in objects) {
output.WriteLine(QuoteRecord(FormatObject(fields, record)));
}
}
static IEnumerable<string> FormatObject<T>(IEnumerable<MemberInfo> fields, T record) {
foreach (var field in fields) {
if (field is FieldInfo) {
var fi = (FieldInfo) field;
yield return Convert.ToString(fi.GetValue(record));
} else if (field is PropertyInfo) {
var pi = (PropertyInfo) field;
yield return Convert.ToString(pi.GetValue(record, null));
} else {
throw new Exception("Unhandled case.");
}
}
}
const string CsvSeparator = ",";
static string QuoteRecord(IEnumerable<string> record) {
return String.Join(CsvSeparator, record.Select(field => QuoteField(field)).ToArray());
}
static string QuoteField(string field) {
if (String.IsNullOrEmpty(field)) {
return "\"\"";
} else if (field.Contains(CsvSeparator) || field.Contains("\"") || field.Contains("\r") || field.Contains("\n")) {
return String.Format("\"{0}\"", field.Replace("\"", "\"\""));
} else {
return field;
}
}
[AttributeUsage(AttributeTargets.Field | AttributeTargets.Property)]
public class ColumnOrderAttribute : Attribute {
public int Order { get; private set; }
public ColumnOrderAttribute(int order) { Order = order; }
}
}

Actually, something similar has been addressed here:
Best practices for serializing objects to a custom string format for use in an output file
Is this useful to you?
There is a sample that uses reflection to pull out the field names and values and append them to a string.

You can use reflection to traverse all the class properties/fields and write them to CSV.
A better approach would be to define a custom attribute and decorate the members you want to export and only export those attributes.

I am separating my answer into two sections:
The first one is how to export some generic item list into csv, with encoding, headers - (it will build csv data only for specified headers, and will ignore unneeded properties).
public string ExportCsv<T>(IEnumerable<T> items, Dictionary<string, string> headers)
{
string result;
using (TextWriter textWriter = new StreamWriter(myStream, myEncoding))
{
result = this.WriteDataAsCsvWriter<T>(items, textWriter, headers);
}
return result;
}
private string WriteDataAsCsvWriter<T>(IEnumerable<T> items, TextWriter textWriter, Dictionary<string, string> headers)
{
//Add null validation
////print the columns headers
StringBuilder sb = new StringBuilder();
//Headers
foreach (KeyValuePair<string, string> kvp in headers)
{
sb.Append(ToCsv(kvp.Value));
sb.Append(",");
}
sb.Remove(sb.Length - 1, 1);//the last ','
sb.Append(Environment.NewLine);
//the values
foreach (var item in items)
{
try
{
Dictionary<string, string> values = GetPropertiesValues(item, headers);
foreach (var value in values)
{
sb.Append(ToCsv(value.Value));
sb.Append(",");
}
sb.Remove(sb.Length - 1, 1);//the last ','
sb.Append(Environment.NewLine);
}
catch (Exception e1)
{
//do something
}
}
textWriter.Write(sb.ToString());
return sb.ToString();
}
//Help function that encode text to csv:
public static string ToCsv(string input)
{
if (input != null)
{
input = input.Replace("\r\n", string.Empty)
.Replace("\r", string.Empty)
.Replace("\n", string.Empty);
if (input.Contains("\""))
{
input = input.Replace("\"", "\"\"");
}
input = "\"" + input + "\"";
}
return input;
}
This is the most important function, Its extracting the properties values out of (almost) any generic class.
private Dictionary<string, string> GetPropertiesValues(object item, Dictionary<string, string> headers)
{
Dictionary<string, string> values = new Dictionary<string, string>();
if (item == null)
{
return values;
}
//We need to make sure each value is coordinated with the headers, empty string
foreach (var key in headers.Keys)
{
values[key] = String.Empty;
}
Type t = item.GetType();
PropertyInfo[] propertiesInfo = t.GetProperties();
foreach (PropertyInfo propertiyInfo in propertiesInfo)
{
//it not complex: string, int, bool, Enum
if ((propertiyInfo.PropertyType.Module.ScopeName == "CommonLanguageRuntimeLibrary") || propertiyInfo.PropertyType.IsEnum)
{
if (headers.ContainsKey(propertiyInfo.Name))
{
var value = propertiyInfo.GetValue(item, null);
if (value != null)
{
values[propertiyInfo.Name] = value.ToString();
}
}
}
else//It's complex property
{
if (propertiyInfo.GetIndexParameters().Length == 0)
{
Dictionary<string, string> lst = GetPropertiesValues(propertiyInfo.GetValue(item, null), headers);
foreach (var value in lst)
{
if (!string.IsNullOrEmpty(value.Value))
{
values[value.Key] = value.Value;
}
}
}
}
}
return values;
}
Example for GetPropertiesValues:
public MyClass
{
public string Name {get; set;}
public MyEnum Type {get; set;}
public MyClass2 Child {get; set;}
}
public MyClass2
{
public int Age {get; set;}
public DateTime MyDate {get; set;}
}
MyClass myClass = new MyClass()
{
Name = "Bruce",
Type = MyEnum.Sometype,
Child = new MyClass2()
{
Age = 18,
MyDate = DateTime.Now()
}
};
Dictionary<string, string> headers = new Dictionary<string, string>();
headers.Add("Name", "CustomCaption_Name");
headers.Add("Type", "CustomCaption_Type");
headers.Add("Age", "CustomCaption_Age");
GetPropertiesValues(myClass, headers)); // OUTPUT: {{"Name","Bruce"},{"Type","Sometype"},{"Age","18"}}

My answer is based on Michael Kropat's answer from above.
I added two functions to his answer because it didn't want to write straight to file as I still had some further processing to do. Instead I wanted the header information separate to the values so I could put everything back together later.
public static string ToCsvString<T>(T obj)
{
var fields =
from mi in typeof(T).GetMembers(BindingFlags.Public | BindingFlags.Instance | BindingFlags.Static)
where new[] { MemberTypes.Field, MemberTypes.Property }.Contains(mi.MemberType)
let orderAttr = (ColumnOrderAttribute)Attribute.GetCustomAttribute(mi, typeof(ColumnOrderAttribute))
select mi;
return QuoteRecord(FormatObject(fields, obj));
}
public static string GetCsvHeader<T>(T obj)
{
var fields =
from mi in typeof(T).GetMembers(BindingFlags.Public | BindingFlags.Instance | BindingFlags.Static)
where new[] { MemberTypes.Field, MemberTypes.Property }.Contains(mi.MemberType)
let orderAttr = (ColumnOrderAttribute)Attribute.GetCustomAttribute(mi, typeof(ColumnOrderAttribute))
select mi;
return QuoteRecord(fields.Select(f => f.Name));
}

Deserialize JSON into C# dynamic object?

Is there a way to deserialize JSON content into a C# dynamic type? It would be nice to skip creating a bunch of classes in order to use the DataContractJsonSerializer.

If you are happy to have a dependency upon the System.Web.Helpers assembly, then you can use the Json class:
dynamic data = Json.Decode(json);
It is included with the MVC framework as an additional download to the .NET 4 framework. Be sure to give Vlad an upvote if that's helpful! However if you cannot assume the client environment includes this DLL, then read on.
An alternative deserialisation approach is suggested here. I modified the code slightly to fix a bug and suit my coding style. All you need is this code and a reference to System.Web.Extensions from your project:
using System;
using System.Collections;
using System.Collections.Generic;
using System.Collections.ObjectModel;
using System.Dynamic;
using System.Linq;
using System.Text;
using System.Web.Script.Serialization;
public sealed class DynamicJsonConverter : JavaScriptConverter
{
public override object Deserialize(IDictionary<string, object> dictionary, Type type, JavaScriptSerializer serializer)
{
if (dictionary == null)
throw new ArgumentNullException("dictionary");
return type == typeof(object) ? new DynamicJsonObject(dictionary) : null;
}
public override IDictionary<string, object> Serialize(object obj, JavaScriptSerializer serializer)
{
throw new NotImplementedException();
}
public override IEnumerable<Type> SupportedTypes
{
get { return new ReadOnlyCollection<Type>(new List<Type>(new[] { typeof(object) })); }
}
#region Nested type: DynamicJsonObject
private sealed class DynamicJsonObject : DynamicObject
{
private readonly IDictionary<string, object> _dictionary;
public DynamicJsonObject(IDictionary<string, object> dictionary)
{
if (dictionary == null)
throw new ArgumentNullException("dictionary");
_dictionary = dictionary;
}
public override string ToString()
{
var sb = new StringBuilder("{");
ToString(sb);
return sb.ToString();
}
private void ToString(StringBuilder sb)
{
var firstInDictionary = true;
foreach (var pair in _dictionary)
{
if (!firstInDictionary)
sb.Append(",");
firstInDictionary = false;
var value = pair.Value;
var name = pair.Key;
if (value is string)
{
sb.AppendFormat("{0}:\"{1}\"", name, value);
}
else if (value is IDictionary<string, object>)
{
new DynamicJsonObject((IDictionary<string, object>)value).ToString(sb);
}
else if (value is ArrayList)
{
sb.Append(name + ":[");
var firstInArray = true;
foreach (var arrayValue in (ArrayList)value)
{
if (!firstInArray)
sb.Append(",");
firstInArray = false;
if (arrayValue is IDictionary<string, object>)
new DynamicJsonObject((IDictionary<string, object>)arrayValue).ToString(sb);
else if (arrayValue is string)
sb.AppendFormat("\"{0}\"", arrayValue);
else
sb.AppendFormat("{0}", arrayValue);
}
sb.Append("]");
}
else
{
sb.AppendFormat("{0}:{1}", name, value);
}
}
sb.Append("}");
}
public override bool TryGetMember(GetMemberBinder binder, out object result)
{
if (!_dictionary.TryGetValue(binder.Name, out result))
{
// return null to avoid exception. caller can check for null this way...
result = null;
return true;
}
result = WrapResultObject(result);
return true;
}
public override bool TryGetIndex(GetIndexBinder binder, object[] indexes, out object result)
{
if (indexes.Length == 1 && indexes[0] != null)
{
if (!_dictionary.TryGetValue(indexes[0].ToString(), out result))
{
// return null to avoid exception. caller can check for null this way...
result = null;
return true;
}
result = WrapResultObject(result);
return true;
}
return base.TryGetIndex(binder, indexes, out result);
}
private static object WrapResultObject(object result)
{
var dictionary = result as IDictionary<string, object>;
if (dictionary != null)
return new DynamicJsonObject(dictionary);
var arrayList = result as ArrayList;
if (arrayList != null && arrayList.Count > 0)
{
return arrayList[0] is IDictionary<string, object>
? new List<object>(arrayList.Cast<IDictionary<string, object>>().Select(x => new DynamicJsonObject(x)))
: new List<object>(arrayList.Cast<object>());
}
return result;
}
}
#endregion
}
You can use it like this:
string json = ...;
var serializer = new JavaScriptSerializer();
serializer.RegisterConverters(new[] { new DynamicJsonConverter() });
dynamic obj = serializer.Deserialize(json, typeof(object));
So, given a JSON string:
{
"Items":[
{ "Name":"Apple", "Price":12.3 },
{ "Name":"Grape", "Price":3.21 }
],
"Date":"21/11/2010"
}
The following code will work at runtime:
dynamic data = serializer.Deserialize(json, typeof(object));
data.Date; // "21/11/2010"
data.Items.Count; // 2
data.Items[0].Name; // "Apple"
data.Items[0].Price; // 12.3 (as a decimal)
data.Items[1].Name; // "Grape"
data.Items[1].Price; // 3.21 (as a decimal)

It's pretty simple using Json.NET:
dynamic stuff = JsonConvert.DeserializeObject("{ 'Name': 'Jon Smith', 'Address': { 'City': 'New York', 'State': 'NY' }, 'Age': 42 }");
string name = stuff.Name;
string address = stuff.Address.City;
Also using Newtonsoft.Json.Linq:
dynamic stuff = JObject.Parse("{ 'Name': 'Jon Smith', 'Address': { 'City': 'New York', 'State': 'NY' }, 'Age': 42 }");
string name = stuff.Name;
string address = stuff.Address.City;
Documentation: Querying JSON with dynamic

You can do this using System.Web.Helpers.Json - its Decode method returns a dynamic object which you can traverse as you like.
It's included in the System.Web.Helpers assembly (.NET 4.0).
var dynamicObject = Json.Decode(jsonString);

.NET 4.0 has a built-in library to do this:
using System.Web.Script.Serialization;
JavaScriptSerializer jss = new JavaScriptSerializer();
var d = jss.Deserialize<dynamic>(str);
This is the simplest way.

Simple "string JSON data" to object without any third-party DLL file:
WebClient client = new WebClient();
string getString = client.DownloadString("https://graph.facebook.com/zuck");
JavaScriptSerializer serializer = new JavaScriptSerializer();
dynamic item = serializer.Deserialize<object>(getString);
string name = item["name"];
//note: JavaScriptSerializer in this namespaces
//System.Web.Script.Serialization.JavaScriptSerializer
Note: You can also using your custom object.
Personel item = serializer.Deserialize<Personel>(getString);

You can achieve that with the help of Newtonsoft.Json. Install it from NuGet and then:
using Newtonsoft.Json;
dynamic results = JsonConvert.DeserializeObject<dynamic>(YOUR_JSON);

JsonFx can deserialize JSON content into dynamic objects.
Serialize to/from dynamic types (default for .NET 4.0):
var reader = new JsonReader(); var writer = new JsonWriter();
string input = #"{ ""foo"": true, ""array"": [ 42, false, ""Hello!"", null ] }";
dynamic output = reader.Read(input);
Console.WriteLine(output.array[0]); // 42
string json = writer.Write(output);
Console.WriteLine(json); // {"foo":true,"array":[42,false,"Hello!",null]}

Another way using Newtonsoft.Json:
dynamic stuff = Newtonsoft.Json.JsonConvert.DeserializeObject("{ color: 'red', value: 5 }");
string color = stuff.color;
int value = stuff.value;

I came here to find an answer for .NET Core, without any third-party or additional references. It works fine if you use ExpandoObject with the standard JsonSerializer class. Here is the example that worked for me:
using System.Text.Json;
using System.Dynamic;
dynamic json = JsonSerializer.Deserialize<ExpandoObject>(jsonText);
Console.WriteLine(json.name);
This code prints out the string value of a name property that exists within the JSON text passed into the Deserialize method. Voila - no additional libraries, no nothing. Just .NET core.
Edit: May have a problem for several levels of json with nested elements. Worked for a single-level flat object.

I made a new version of the DynamicJsonConverter that uses Expando Objects. I used expando objects, because I wanted to Serialize the dynamic back into JSON using Json.NET.
using System;
using System.Collections;
using System.Collections.Generic;
using System.Collections.ObjectModel;
using System.Dynamic;
using System.Web.Script.Serialization;
public static class DynamicJson
{
public static dynamic Parse(string json)
{
JavaScriptSerializer jss = new JavaScriptSerializer();
jss.RegisterConverters(new JavaScriptConverter[] { new DynamicJsonConverter() });
dynamic glossaryEntry = jss.Deserialize(json, typeof(object)) as dynamic;
return glossaryEntry;
}
class DynamicJsonConverter : JavaScriptConverter
{
public override object Deserialize(IDictionary<string, object> dictionary, Type type, JavaScriptSerializer serializer)
{
if (dictionary == null)
throw new ArgumentNullException("dictionary");
var result = ToExpando(dictionary);
return type == typeof(object) ? result : null;
}
private static ExpandoObject ToExpando(IDictionary<string, object> dictionary)
{
var result = new ExpandoObject();
var dic = result as IDictionary<String, object>;
foreach (var item in dictionary)
{
var valueAsDic = item.Value as IDictionary<string, object>;
if (valueAsDic != null)
{
dic.Add(item.Key, ToExpando(valueAsDic));
continue;
}
var arrayList = item.Value as ArrayList;
if (arrayList != null && arrayList.Count > 0)
{
dic.Add(item.Key, ToExpando(arrayList));
continue;
}
dic.Add(item.Key, item.Value);
}
return result;
}
private static ArrayList ToExpando(ArrayList obj)
{
ArrayList result = new ArrayList();
foreach (var item in obj)
{
var valueAsDic = item as IDictionary<string, object>;
if (valueAsDic != null)
{
result.Add(ToExpando(valueAsDic));
continue;
}
var arrayList = item as ArrayList;
if (arrayList != null && arrayList.Count > 0)
{
result.Add(ToExpando(arrayList));
continue;
}
result.Add(item);
}
return result;
}
public override IDictionary<string, object> Serialize(object obj, JavaScriptSerializer serializer)
{
throw new NotImplementedException();
}
public override IEnumerable<Type> SupportedTypes
{
get { return new ReadOnlyCollection<Type>(new List<Type>(new[] { typeof(object) })); }
}
}
}

Creating dynamic objects with Newtonsoft.Json works really great.
//json is your string containing the JSON value
dynamic data = JsonConvert.DeserializeObject<dynamic>(json);
Now you can access the data object just like if it was a regular object. This is the JSON object we currently have as an example:
{ "ID":123,"Name":"Jack","Numbers":[1, 2, 3] }
This is how you access it after deserialization:
data.ID //Retrieve the int
data.Name //Retrieve the string
data.Numbers[0] //Retrieve the first element in the array

I use http://json2csharp.com/ to get a class representing the JSON object.
Input:
{
"name":"John",
"age":31,
"city":"New York",
"Childs":[
{
"name":"Jim",
"age":11
},
{
"name":"Tim",
"age":9
}
]
}
Output:
public class Child
{
public string name { get; set; }
public int age { get; set; }
}
public class Person
{
public string name { get; set; }
public int age { get; set; }
public string city { get; set; }
public List<Child> Childs { get; set; }
}
After that I use Newtonsoft.Json to fill the class:
using Newtonsoft.Json;
namespace GitRepositoryCreator.Common
{
class JObjects
{
public static string Get(object p_object)
{
return JsonConvert.SerializeObject(p_object);
}
internal static T Get<T>(string p_object)
{
return JsonConvert.DeserializeObject<T>(p_object);
}
}
}
You can call it like this:
Person jsonClass = JObjects.Get<Person>(stringJson);
string stringJson = JObjects.Get(jsonClass);
PS:
If your JSON variable name is not a valid C# name (name starts with $) you can fix that like this:
public class Exception
{
[JsonProperty(PropertyName = "$id")]
public string id { get; set; }
public object innerException { get; set; }
public string message { get; set; }
public string typeName { get; set; }
public string typeKey { get; set; }
public int errorCode { get; set; }
public int eventId { get; set; }
}

The simplest way is:
Just include this DLL file.
Use the code like this:
dynamic json = new JDynamic("{a:'abc'}");
// json.a is a string "abc"
dynamic json = new JDynamic("{a:3.1416}");
// json.a is 3.1416m
dynamic json = new JDynamic("{a:1}");
// json.a is
dynamic json = new JDynamic("[1,2,3]");
/json.Length/json.Count is 3
// And you can use json[0]/ json[2] to get the elements
dynamic json = new JDynamic("{a:[1,2,3]}");
//json.a.Length /json.a.Count is 3.
// And you can use json.a[0]/ json.a[2] to get the elements
dynamic json = new JDynamic("[{b:1},{c:1}]");
// json.Length/json.Count is 2.
// And you can use the json[0].b/json[1].c to get the num.

Another option is to "Paste JSON as classes" so it can be deserialised quick and easy.
Simply copy your entire JSON
In Visual Studio: Click Edit → Paste Special → Paste JSON as classes
Here is a better explanation n piccas... ‘Paste JSON As Classes’ in ASP.NET and Web Tools 2012.2 RC

You can extend the JavaScriptSerializer to recursively copy the dictionary it created to expando object(s) and then use them dynamically:
static class JavaScriptSerializerExtensions
{
public static dynamic DeserializeDynamic(this JavaScriptSerializer serializer, string value)
{
var dictionary = serializer.Deserialize<IDictionary<string, object>>(value);
return GetExpando(dictionary);
}
private static ExpandoObject GetExpando(IDictionary<string, object> dictionary)
{
var expando = (IDictionary<string, object>)new ExpandoObject();
foreach (var item in dictionary)
{
var innerDictionary = item.Value as IDictionary<string, object>;
if (innerDictionary != null)
{
expando.Add(item.Key, GetExpando(innerDictionary));
}
else
{
expando.Add(item.Key, item.Value);
}
}
return (ExpandoObject)expando;
}
}
Then you just need to having a using statement for the namespace you defined the extension in (consider just defining them in System.Web.Script.Serialization... another trick is to not use a namespace, then you don't need the using statement at all) and you can consume them like so:
var serializer = new JavaScriptSerializer();
var value = serializer.DeserializeDynamic("{ 'Name': 'Jon Smith', 'Address': { 'City': 'New York', 'State': 'NY' }, 'Age': 42 }");
var name = (string)value.Name; // Jon Smith
var age = (int)value.Age; // 42
var address = value.Address;
var city = (string)address.City; // New York
var state = (string)address.State; // NY

You can use using Newtonsoft.Json
var jRoot =
JsonConvert.DeserializeObject<dynamic>(Encoding.UTF8.GetString(resolvedEvent.Event.Data));
resolvedEvent.Event.Data is my response getting from calling core Event .

Try this:
var units = new { Name = "Phone", Color= "White" };
var jsonResponse = JsonConvert.DeserializeAnonymousType(json, units);

I am using like this in my code and it's working fine
using System.Web.Script.Serialization;
JavaScriptSerializer oJS = new JavaScriptSerializer();
RootObject oRootObject = new RootObject();
oRootObject = oJS.Deserialize<RootObject>(Your JSon String);

Look at the article I wrote on CodeProject, one that answers the question precisely:
Dynamic types with JSON.NET
There is way too much for re-posting it all here, and even less point since that article has an attachment with the key/required source file.

For that I would use JSON.NET to do the low-level parsing of the JSON stream and then build up the object hierarchy out of instances of the ExpandoObject class.

To get an ExpandoObject:
using Newtonsoft.Json;
using Newtonsoft.Json.Converters;
Container container = JsonConvert.Deserialize<Container>(jsonAsString, new ExpandoObjectConverter());

Deserializing in JSON.NET can be dynamic using the JObject class, which is included in that library. My JSON string represents these classes:
public class Foo {
public int Age {get;set;}
public Bar Bar {get;set;}
}
public class Bar {
public DateTime BDay {get;set;}
}
Now we deserialize the string WITHOUT referencing the above classes:
var dyn = JsonConvert.DeserializeObject<JObject>(jsonAsFooString);
JProperty propAge = dyn.Properties().FirstOrDefault(i=>i.Name == "Age");
if(propAge != null) {
int age = int.Parse(propAge.Value.ToString());
Console.WriteLine("age=" + age);
}
//or as a one-liner:
int myage = int.Parse(dyn.Properties().First(i=>i.Name == "Age").Value.ToString());
Or if you want to go deeper:
var propBar = dyn.Properties().FirstOrDefault(i=>i.Name == "Bar");
if(propBar != null) {
JObject o = (JObject)propBar.First();
var propBDay = o.Properties().FirstOrDefault (i => i.Name=="BDay");
if(propBDay != null) {
DateTime bday = DateTime.Parse(propBDay.Value.ToString());
Console.WriteLine("birthday=" + bday.ToString("MM/dd/yyyy"));
}
}
//or as a one-liner:
DateTime mybday = DateTime.Parse(((JObject)dyn.Properties().First(i=>i.Name == "Bar").First()).Properties().First(i=>i.Name == "BDay").Value.ToString());
See post for a complete example.

The object you want DynamicJSONObject is included in the System.Web.Helpers.dll from the ASP.NET Web Pages package, which is part of WebMatrix.

There is a lightweight JSON library for C# called SimpleJson.
It supports .NET 3.5+, Silverlight and Windows Phone 7.
It supports dynamic for .NET 4.0
It can also be installed as a NuGet package
Install-Package SimpleJson

Use DataSet(C#) with JavaScript. A simple function for creating a JSON stream with DataSet input. Create JSON content like (multi table dataset):
[[{a:1,b:2,c:3},{a:3,b:5,c:6}],[{a:23,b:45,c:35},{a:58,b:59,c:45}]]
Just client side, use eval. For example,
var d = eval('[[{a:1,b:2,c:3},{a:3,b:5,c:6}],[{a:23,b:45,c:35},{a:58,b:59,c:45}]]')
Then use:
d[0][0].a // out 1 from table 0 row 0
d[1][1].b // out 59 from table 1 row 1
// Created by Behnam Mohammadi And Saeed Ahmadian
public string jsonMini(DataSet ds)
{
int t = 0, r = 0, c = 0;
string stream = "[";
for (t = 0; t < ds.Tables.Count; t++)
{
stream += "[";
for (r = 0; r < ds.Tables[t].Rows.Count; r++)
{
stream += "{";
for (c = 0; c < ds.Tables[t].Columns.Count; c++)
{
stream += ds.Tables[t].Columns[c].ToString() + ":'" +
ds.Tables[t].Rows[r][c].ToString() + "',";
}
if (c>0)
stream = stream.Substring(0, stream.Length - 1);
stream += "},";
}
if (r>0)
stream = stream.Substring(0, stream.Length - 1);
stream += "],";
}
if (t>0)
stream = stream.Substring(0, stream.Length - 1);
stream += "];";
return stream;
}

How to parse easy JSON content with dynamic & JavaScriptSerializer
Please add reference of System.Web.Extensions and add this namespace using System.Web.Script.Serialization; at top:
public static void EasyJson()
{
var jsonText = #"{
""some_number"": 108.541,
""date_time"": ""2011-04-13T15:34:09Z"",
""serial_number"": ""SN1234""
}";
var jss = new JavaScriptSerializer();
var dict = jss.Deserialize<dynamic>(jsonText);
Console.WriteLine(dict["some_number"]);
Console.ReadLine();
}
How to parse nested & complex json with dynamic & JavaScriptSerializer
Please add reference of System.Web.Extensions and add this namespace using System.Web.Script.Serialization; at top:
public static void ComplexJson()
{
var jsonText = #"{
""some_number"": 108.541,
""date_time"": ""2011-04-13T15:34:09Z"",
""serial_number"": ""SN1234"",
""more_data"": {
""field1"": 1.0,
""field2"": ""hello""
}
}";
var jss = new JavaScriptSerializer();
var dict = jss.Deserialize<dynamic>(jsonText);
Console.WriteLine(dict["some_number"]);
Console.WriteLine(dict["more_data"]["field2"]);
Console.ReadLine();
}

I want to do this programmatically in unit tests, I do have the luxury of typing it out.
My solution is:
var dict = JsonConvert.DeserializeObject<ExpandoObject>(json) as IDictionary<string, object>;
Now I can assert that
dict.ContainsKey("ExpectedProperty");

With Cinchoo ETL - an open source library available to parse JSON into a dynamic object:
string json = #"{
""key1"": [
{
""action"": ""open"",
""timestamp"": ""2018-09-05 20:46:00"",
""url"": null,
""ip"": ""66.102.6.98""
}
]
}";
using (var p = ChoJSONReader.LoadText(json)
.WithJSONPath("$..key1")
)
{
foreach (var rec in p)
{
Console.WriteLine("Action: " + rec.action);
Console.WriteLine("Timestamp: " + rec.timestamp);
Console.WriteLine("URL: " + rec.url);
Console.WriteLine("IP address: " + rec.ip);
}
}
Output:
Action: open
Timestamp: 2018-09-05 20:46:00
URL: http://www.google.com
IP address: 66.102.6.98
Sample fiddle: https://dotnetfiddle.net/S0ehSV
For more information, please visit codeproject articles
Disclaimer: I'm the author of this library.

try this way!
JSON example:
[{
"id": 140,
"group": 1,
"text": "xxx",
"creation_date": 123456,
"created_by": "xxx#gmail.co",
"tags": ["xxxxx"]
}, {
"id": 141,
"group": 1,
"text": "xxxx",
"creation_date": 123456,
"created_by": "xxx#gmail.com",
"tags": ["xxxxx"]
}]
C# code:
var jsonString = (File.ReadAllText(Path.Combine(Directory.GetCurrentDirectory(),"delete_result.json")));
var objects = JsonConvert.DeserializeObject<dynamic>(jsonString);
foreach(var o in objects)
{
Console.WriteLine($"{o.id.ToString()}");
}

I really like System.Web.Helpers,
dynamic data = Json.Decode(json);
as it supports usage like
var val = data.Members.NumberTen;
or
var val data.Members["10"];
The reference to System.Web.Helpers.DLL is really crazy, it is not even console and desktop app friendly. Here is my attempt to extract the same functionalities as a standalone file directly from https://github.com/mono/aspnetwebstack/tree/master/src/System.Web.Helpers
(Share this as for education purpose only)
// Copyright (c) Microsoft Open Technologies, Inc. All rights reserved. See License.txt in the project root for license information.
using System.Collections.Generic;
using System.Diagnostics;
using System.Diagnostics.CodeAnalysis;
using System.Dynamic;
using System.Linq.Expressions;
using System.Runtime.CompilerServices;
using Microsoft.CSharp.RuntimeBinder;
using System.Web.Script.Serialization;
using System.IO;
using System.Collections;
using System.Linq;
using System.Globalization;
namespace System.Web.Helpers
{
public static class Json
{
private static readonly JavaScriptSerializer _serializer = CreateSerializer();
public static string Encode(object value)
{
// Serialize our dynamic array type as an array
DynamicJsonArray jsonArray = value as DynamicJsonArray;
if (jsonArray != null)
{
return _serializer.Serialize((object[])jsonArray);
}
return _serializer.Serialize(value);
}
public static void Write(object value, TextWriter writer)
{
writer.Write(_serializer.Serialize(value));
}
public static dynamic Decode(string value)
{
return WrapObject(_serializer.DeserializeObject(value));
}
public static dynamic Decode(string value, Type targetType)
{
return WrapObject(_serializer.Deserialize(value, targetType));
}
public static T Decode<T>(string value)
{
return _serializer.Deserialize<T>(value);
}
private static JavaScriptSerializer CreateSerializer()
{
JavaScriptSerializer serializer = new JavaScriptSerializer();
serializer.RegisterConverters(new[] { new DynamicJavaScriptConverter() });
return serializer;
}
internal class DynamicJavaScriptConverter : JavaScriptConverter
{
public override IEnumerable<Type> SupportedTypes
{
get
{
yield return typeof(IDynamicMetaObjectProvider);
yield return typeof(DynamicObject);
}
}
public override object Deserialize(IDictionary<string, object> dictionary, Type type, JavaScriptSerializer serializer)
{
throw new NotSupportedException();
}
public override IDictionary<string, object> Serialize(object obj, JavaScriptSerializer serializer)
{
Dictionary<string, object> dictionary = new Dictionary<string, object>(StringComparer.OrdinalIgnoreCase);
IEnumerable<string> memberNames = DynamicHelper.GetMemberNames(obj);
foreach (string item in memberNames)
{
dictionary[item] = DynamicHelper.GetMemberValue(obj, item);
}
return dictionary;
}
}
internal static dynamic WrapObject(object value)
{
// The JavaScriptSerializer returns IDictionary<string, object> for objects
// and object[] for arrays, so we wrap those in different dynamic objects
// so we can access the object graph using dynamic
var dictionaryValues = value as IDictionary<string, object>;
if (dictionaryValues != null)
{
return new DynamicJsonObject(dictionaryValues);
}
var arrayValues = value as object[];
if (arrayValues != null)
{
return new DynamicJsonArray(arrayValues);
}
return value;
}
}
// REVIEW: Consider implementing ICustomTypeDescriptor and IDictionary<string, object>
public class DynamicJsonObject : DynamicObject
{
private readonly IDictionary<string, object> _values;
public DynamicJsonObject(IDictionary<string, object> values)
{
Debug.Assert(values != null);
_values = values.ToDictionary(p => p.Key, p => Json.WrapObject(p.Value),
StringComparer.OrdinalIgnoreCase);
}
public override bool TryConvert(ConvertBinder binder, out object result)
{
result = null;
if (binder.Type.IsAssignableFrom(_values.GetType()))
{
result = _values;
}
else
{
throw new InvalidOperationException(String.Format(CultureInfo.CurrentCulture, "HelpersResources.Json_UnableToConvertType", binder.Type));
}
return true;
}
public override bool TryGetMember(GetMemberBinder binder, out object result)
{
result = GetValue(binder.Name);
return true;
}
public override bool TrySetMember(SetMemberBinder binder, object value)
{
_values[binder.Name] = Json.WrapObject(value);
return true;
}
public override bool TrySetIndex(SetIndexBinder binder, object[] indexes, object value)
{
string key = GetKey(indexes);
if (!String.IsNullOrEmpty(key))
{
_values[key] = Json.WrapObject(value);
}
return true;
}
public override bool TryGetIndex(GetIndexBinder binder, object[] indexes, out object result)
{
string key = GetKey(indexes);
result = null;
if (!String.IsNullOrEmpty(key))
{
result = GetValue(key);
}
return true;
}
private static string GetKey(object[] indexes)
{
if (indexes.Length == 1)
{
return (string)indexes[0];
}
// REVIEW: Should this throw?
return null;
}
public override IEnumerable<string> GetDynamicMemberNames()
{
return _values.Keys;
}
private object GetValue(string name)
{
object result;
if (_values.TryGetValue(name, out result))
{
return result;
}
return null;
}
}
[SuppressMessage("Microsoft.Naming", "CA1710:IdentifiersShouldHaveCorrectSuffix", Justification = "This class isn't meant to be used directly")]
public class DynamicJsonArray : DynamicObject, IEnumerable<object>
{
private readonly object[] _arrayValues;
public DynamicJsonArray(object[] arrayValues)
{
Debug.Assert(arrayValues != null);
_arrayValues = arrayValues.Select(Json.WrapObject).ToArray();
}
public int Length
{
get { return _arrayValues.Length; }
}
public dynamic this[int index]
{
get { return _arrayValues[index]; }
set { _arrayValues[index] = Json.WrapObject(value); }
}
public override bool TryConvert(ConvertBinder binder, out object result)
{
if (_arrayValues.GetType().IsAssignableFrom(binder.Type))
{
result = _arrayValues;
return true;
}
return base.TryConvert(binder, out result);
}
public override bool TryGetMember(GetMemberBinder binder, out object result)
{
// Testing for members should never throw. This is important when dealing with
// services that return different json results. Testing for a member shouldn't throw,
// it should just return null (or undefined)
result = null;
return true;
}
public IEnumerator GetEnumerator()
{
return _arrayValues.GetEnumerator();
}
private IEnumerable<object> GetEnumerable()
{
return _arrayValues.AsEnumerable();
}
IEnumerator<object> IEnumerable<object>.GetEnumerator()
{
return GetEnumerable().GetEnumerator();
}
[SuppressMessage("Microsoft.Usage", "CA2225:OperatorOverloadsHaveNamedAlternates", Justification = "This class isn't meant to be used directly")]
public static implicit operator object[](DynamicJsonArray obj)
{
return obj._arrayValues;
}
[SuppressMessage("Microsoft.Usage", "CA2225:OperatorOverloadsHaveNamedAlternates", Justification = "This class isn't meant to be used directly")]
public static implicit operator Array(DynamicJsonArray obj)
{
return obj._arrayValues;
}
}
/// <summary>
/// Helper to evaluate different method on dynamic objects
/// </summary>
public static class DynamicHelper
{
// We must pass in "object" instead of "dynamic" for the target dynamic object because if we use dynamic, the compiler will
// convert the call to this helper into a dynamic expression, even though we don't need it to be. Since this class is internal,
// it cannot be accessed from a dynamic expression and thus we get errors.
// Dev10 Bug 914027 - Changed the first parameter from dynamic to object, see comment at top for details
public static bool TryGetMemberValue(object obj, string memberName, out object result)
{
try
{
result = GetMemberValue(obj, memberName);
return true;
}
catch (RuntimeBinderException)
{
}
catch (RuntimeBinderInternalCompilerException)
{
}
// We catch the C# specific runtime binder exceptions since we're using the C# binder in this case
result = null;
return false;
}
// Dev10 Bug 914027 - Changed the first parameter from dynamic to object, see comment at top for details
[SuppressMessage("Microsoft.Design", "CA1031:DoNotCatchGeneralExceptionTypes", Justification = "We want to swallow exceptions that happen during runtime binding")]
public static bool TryGetMemberValue(object obj, GetMemberBinder binder, out object result)
{
try
{
// VB us an instance of GetBinderAdapter that does not implement FallbackGetMemeber. This causes lookup of property expressions on dynamic objects to fail.
// Since all types are private to the assembly, we assume that as long as they belong to CSharp runtime, it is the right one.
if (typeof(Binder).Assembly.Equals(binder.GetType().Assembly))
{
// Only use the binder if its a C# binder.
result = GetMemberValue(obj, binder);
}
else
{
result = GetMemberValue(obj, binder.Name);
}
return true;
}
catch
{
result = null;
return false;
}
}
// Dev10 Bug 914027 - Changed the first parameter from dynamic to object, see comment at top for details
public static object GetMemberValue(object obj, string memberName)
{
var callSite = GetMemberAccessCallSite(memberName);
return callSite.Target(callSite, obj);
}
// Dev10 Bug 914027 - Changed the first parameter from dynamic to object, see comment at top for details
public static object GetMemberValue(object obj, GetMemberBinder binder)
{
var callSite = GetMemberAccessCallSite(binder);
return callSite.Target(callSite, obj);
}
// dynamic d = new object();
// object s = d.Name;
// The following code gets generated for this expression:
// callSite = CallSite<Func<CallSite, object, object>>.Create(Binder.GetMember(CSharpBinderFlags.None, "Name", typeof(Program), new CSharpArgumentInfo[] { CSharpArgumentInfo.Create(CSharpArgumentInfoFlags.None, null) }));
// callSite.Target(callSite, d);
// typeof(Program) is the containing type of the dynamic operation.
// Dev10 Bug 914027 - Changed the callsite's target parameter from dynamic to object, see comment at top for details
public static CallSite<Func<CallSite, object, object>> GetMemberAccessCallSite(string memberName)
{
var binder = Binder.GetMember(CSharpBinderFlags.None, memberName, typeof(DynamicHelper), new[] { CSharpArgumentInfo.Create(CSharpArgumentInfoFlags.None, null) });
return GetMemberAccessCallSite(binder);
}
// Dev10 Bug 914027 - Changed the callsite's target parameter from dynamic to object, see comment at top for details
public static CallSite<Func<CallSite, object, object>> GetMemberAccessCallSite(CallSiteBinder binder)
{
return CallSite<Func<CallSite, object, object>>.Create(binder);
}
// Dev10 Bug 914027 - Changed the first parameter from dynamic to object, see comment at top for details
public static IEnumerable<string> GetMemberNames(object obj)
{
var provider = obj as IDynamicMetaObjectProvider;
Debug.Assert(provider != null, "obj doesn't implement IDynamicMetaObjectProvider");
Expression parameter = Expression.Parameter(typeof(object));
return provider.GetMetaObject(parameter).GetDynamicMemberNames();
}
}
}