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I am just going to start use TypeScript in my HTML client project which belongs to a MVC project with a entity framework domain model already there. I want my two projects (client side and server side) totally separated as two teams will work on this... JSON and REST is used to communicate objects back and forth.

Of course, my 'domain' objects on the client side should match the objects on the server side. In the past, I have normally done this manually. is there a way to reuse my C# class definitions (specially of the POJO classes in my domain model) to create the corresponding classes in typescript". Thanks?

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I assume you mean POCO – SLaks Oct 18 '12 at 15:09
No, they are totally different languages. – Hans Passant Oct 18 '12 at 15:14
Yes I meant POCO. I know they are totally different languages... but it would be great to somehow avoid typing all this again... I think that for the moment I will copy and paste my c# code.. and will refactor anything it until it compiles in TypeScript... that way i am sure I did not type an attribute wrong.. and help me not having to remember. But this clearly does not sounds nice at all. – pabloelustondo Oct 18 '12 at 15:47
I'm also interested in the other direction - from Typescript model classes to C# model classes, bidirectionally deserializable through JSON. – uosɐſ Jan 12 '13 at 11:43

9 Answers 9

up vote 27 down vote accepted

There is not currently anything that will map C# to TypeScript. If you have a lot of POCOs or you think they might change often, you could create a converter - something simple along the lines of...

public class MyPoco {
    public string Name { get; set; }


export class MyPoco {
    public Name: string;

There is also a discussion on Codeplex about auto-generating from C#.

Just to keep things updated, TypeLite can generate TypeScript interfaces from C#:

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Yeahp, something like this is what i was thinking to do manually.. good. Not sure I have time to write a converter now.. but yes, that would be the idea. Thanks. May be Microsoft is just doing it right now whie we speak. – pabloelustondo Oct 19 '12 at 1:57
You could do this in any of two ways... Generate .ts files with help of EnvDTE Automation or by using Mef Directory Catalog and Reflection/Introspection. I prefer the second one as it does not depend on visual. – Arek Bal Oct 19 '12 at 7:54
I was starting to use dart and ran into the same issue of how to share types between c# and javascript. I hoped this problem would be solved by Typescript, but it looks like the answer is not yet. I was also a bit spoiled by the saltarelle-compiler which compiled c# to javascript rather nicely – BraveNewMath Dec 17 '12 at 13:44
TypeLite does not work on enums, probably because they're not finalized until 0.9.0, which just hit beta. – Daniel Harvey Jun 17 '13 at 14:14
@DanielHarvey Enums are generated correctly by TypeLite, probably fixed since your comment. – pauloya Jul 8 '14 at 13:37

Here's my approach to solving it. Declare your C# classes with an attribute and .d.ts-files will be generated (using T4 transforms). There's a package on nuget and the source is available on github. I'm still working on the project, but the support is pretty extensive.

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I forked this project and added knockout support here: – Frank.Germain Apr 12 '14 at 16:12

I have created a small utility that can generate TypeScript interfaces from C# classes. Is available as a NuGet package. Detailed documentation can be found on the project webpage.

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Nice library, good effort. Unfortunately didn't find a way to tweak produced value type, e.g. convert "string" to "KnockoutObservableString" or "string[]" to "KnockoutObservableArray". Is it something that is in near future plans? – root Mar 27 '13 at 15:44
I used T4TS instead, it took 14 minutes. – root Apr 8 '13 at 15:47
@root, You shouldn't actually convert a string[] to KnockoutObservableArray in the generated definitions. You use these generated definitions when you're actually consuming the serialized instances of these classes. Now, you may be running the entire object through the mapping plugin, but I would caution against this. That can be excessive and I always prefer to manually convert (probably via a ctor) from your serialized instances of C# classes to TypeScript classes full of observables. The only time I'd suggest blindingly running it through the mapping plugin is for a CRUD style app. – Allen Rice Apr 9 '14 at 17:34
@Lukas Kabrt, thank you so much for TypeLite, it has been extremely beneficial in our projects and I wrote about it briefly here:… – Allen Rice Apr 9 '14 at 17:35
@AllenRice, I found it handy to have hand-crafted Knockout view-model classes, which is where I use the approach you desribed and combine it with a auto generated class which is a DTO that was passed through mapping plugin. – root Apr 10 '14 at 10:04

TypeLite and T4TSs above both looked good, just picked one, TypeLite, forked it to get support for

  • ValueTypes,
  • Nullables
  • camelCasing (TypeScript root doc uses camels, and this goes too nice together with C#)
  • public fields (love clean and readable POCOs, also makes it easy for the C# Compiler)
  • disable module generation

Then I needed C# interfaces and thought it is time to bake my own thing and wrote a simple T4 script that just does what I need. It also includes Enums. No repo required, just < 100 lines of T4.

No library, no NuGet, just this plain simple T4 file - use "add item" in Visual Studio and choose any T4 template. Then paste this into the file. Adapt every line with "ACME" in it. For every C# class add a line

<#= Interface<Acme.Duck>() #>

Order matters, any known type will be used in follwing interfaces. If you use only interfaces, the file extension can be .d.ts, for enums you need a .ts file, since a variable is instantiated.

Hack the script.

<#@ template debug="true" hostSpecific="true" language="C#" #>
<#@ output extension=".ts" #>
<#@ Assembly Name="System.Core.dll" #>
<#@ assembly name="$(TargetDir)ACME.Core.dll" #>
<#@ import namespace="System" #>
<#@ import namespace="System.Reflection" #>
<#@ import namespace="System.Collections.Generic" #>
<#@ import namespace="System.Text" #>
<#@ import namespace="System.Linq" #>

<#= Interface<Acme.Bunny>() #>
<#= Interface<Acme.Duck>() #>
<#= Interface<Acme.Birdy>() #>
<#= Enums<Acme.CarrotGrade>() #>
<#= Interface<Acme.LinkParticle>() #>

    List<Type> knownTypes = new List<Type>();

    string Interface<T>()
        Type t = typeof(T);     
        var sb = new StringBuilder();
        sb.AppendFormat("interface {0} {{\n", t.Name);
        foreach (var mi in GetInterfaceMembers(t))
            sb.AppendFormat("  {0}: {1};\n", this.ToCamelCase(mi.Name), GetTypeName(mi));
        return sb.ToString();

    IEnumerable<MemberInfo> GetInterfaceMembers(Type type)
        return type.GetMembers(BindingFlags.Public | BindingFlags.Instance)
            .Where(mi => mi.MemberType == MemberTypes.Field || mi.MemberType == MemberTypes.Property);

    string ToCamelCase(string s)
        if (string.IsNullOrEmpty(s)) return s;
        if (s.Length < 2) return s.ToLowerInvariant();
        return char.ToLowerInvariant(s[0]) + s.Substring(1);

    string GetTypeName(MemberInfo mi)
        Type t = (mi is PropertyInfo) ? ((PropertyInfo)mi).PropertyType : ((FieldInfo)mi).FieldType;
        return this.GetTypeName(t);

    string GetTypeName(Type t)
            if (t == typeof(bool)) return "bool";
            if (t == typeof(char)) return "string";
            return "number";
        if (t == typeof(decimal)) return "number";            
        if (t == typeof(string)) return "string";
        if (t.IsArray)
            var at = t.GetElementType();
            return this.GetTypeName(at) + "[]";
        if(typeof (System.Collections.IEnumerable).IsAssignableFrom(t)) 
            var collectionType = t.GetGenericArguments()[0]; // all my enumerables are typed, so there is a generic argument
            return GetTypeName(collectionType) + "[]";
        if (Nullable.GetUnderlyingType(t) != null)
            return this.GetTypeName(Nullable.GetUnderlyingType(t));
        if(t.IsEnum) return "number";
        if(knownTypes.Contains(t)) return t.Name;
        return "any";

    string Enums<T>() // Enums<>, since Enum<> is not allowed.
        Type t = typeof(T);        
        var sb = new StringBuilder();        
        int[] values = (int[])Enum.GetValues(t);
        sb.AppendLine("var ParticleKind = {");
        foreach(var val in values) 
            var name = Enum.GetName(typeof(ParticleKind), val);
            sb.AppendFormat("{0}: {1},\n", name, val);
        return sb.ToString();

The next level of the script will be to create the service interface from the MVC JsonController class.

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Web Essentials allow to compile C# files to TypeScript .d.ts files on save. Then you could reference the definitions from your .ts files.

enter image description here

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Are you maybe confusing .ts files and c#? can't find this option – Flores Jul 21 '14 at 13:25
But after some searching I found what you mean.. actually quite useful. – Flores Jul 21 '14 at 20:43
Actually it isn't, I'm quite sure the operation 'compiles' nothing, it generates code. That confused me, but is't 99% correct, I'll give you that ;-) – Flores Jul 21 '14 at 21:10

I have a little solution which uses T4 templates (view source).

You go from any CLR POCO:

public class Parent : Person
    public string Name { get; set; }
    public bool? IsGoodParent { get; set; }
    public virtual ICollection<Child> Children { get; set; }

To a TypeScript interface:

///<reference path="Child.d.ts" />
///<reference path="Person.d.ts" />
interface Parent extends Person {
    Name : string;
    IsGoodParent? : bool;
    Children : Child[];
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How about the other way around?

Check out erecruit TypeScript Translator. It comes with ready to go C# support, but is actually template-based (uses Nunjucks for rendering), which means it can generate anything else - VB.NET, F#, C++, XML, SQL - whatever you can encode with a template.

Works as a .NET console program, NodeJS program (for those not on Windows), or as a Visual Studio extension, complete with generate-on-save functionality. And includes MSBuild support, just to make your build server happy. :-)

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My solution was to write a small codegen util that simply takes a project assembly (and refering assemblies) and start scanning types that are involved in the interaction between typescript and c#. This util outputs both javascript as d.ts ... The tool is called in the post-build event ... works like a charm!

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I dont know why I chose to output js and d.ts... right now it simply outputs .ts ... straightforward and very doable. – Paul0515 Oct 2 '13 at 22:30
Hi Paul...would you be able to share the util code with us. I am looking to just create a ts file (at a certain folder location) and not a d.ts file like you said. Is that something your util can do?? – Krishna Teja Veeramachaneni Dec 30 '13 at 7:00

You can use the open-source project NSwag: In the GUI, you can select .NET class from an existing .NET DLL and generate the TypeScript interface for it.

The project also provides command line tools and support for T4 templates as well as generation of client code for Web API controllers...

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