In Visual Studio, there are at least 3 different types of class library you can create:

  • Class Library (.NET Framework)
  • Class Library (.NET Standard)
  • Class Library (.NET Core)

While the first is what we've been using for years, a major point of confusion I've been having is when to use the .NET Standard and .NET Core class library types. I've been bitten by this recently when attempting to multi-target different framework versions, and creating a unit test project.

So, what is the difference between Class Library (.NET Standard) and Class Library (.NET Core), why do both exist, and when should we use one over the other?

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    You missed one: Class Library (Portable). Core == framework, .NET Standard == portable. – Hans Passant Mar 21 '17 at 22:41
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    There was one from Xamarin too, but these other ones don't add any value to the question :) – Gigi Mar 21 '17 at 22:42
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    Well, they do. The core idea is the they gave up on the portable approach, it suffered too heavily from the n! problem with way too many profiles. So now you've got 7 standards to choose from. Most are not actually portable right now :) .NETCore is not done by a long shot, probably takes another two years at the clip they are going. – Hans Passant Mar 21 '17 at 22:47
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    OP said "at least 3 different types". The post was accurate. – Dan Friedman Sep 19 '17 at 20:49
  • and also there is Universal Windows – doganak Feb 20 at 12:06
up vote 358 down vote accepted

When should we use one over the other?

The decision is a trade-off between compatibility and API access.

Use a .NET Standard library when you want to increase the number of apps that will be compatible with your library, and you are okay with a decrease in the .NET API surface area your library can access.

Use a .NET Core library when you want to increase the .NET API surface area your library can access, and you are okay with allowing only .NET Core apps to be compatible with your library.

For example, a library that targets .NET Standard 1.3 will be compatible with apps that target .NET Framework 4.6, .NET Core 1.0, Universal Windows Platform 10.0, and any other platform that supports .NET Standard 1.3. The library will not have access to some parts of the .NET API, though. For instance, the Microsoft.NETCore.CoreCLR package is compatible with .NET Core but not with .NET Standard.

What is the difference between Class Library (.NET Standard) and Class Library (.NET Core)?

The Package-based frameworks section here describes the difference.

Compatibility: Libraries that target .NET Standard will run on any .NET Standard compliant runtime, such as .NET Core, .NET Framework, Mono/Xamarin. On the other hand, libraries that target .NET Core can only run on the .NET Core runtime.

API Surface Area: .NET Standard libraries come with everything in NETStandard.Library whereas .NET Core libraries come with everything in Microsoft.NETCore.App. The latter includes approximately 20 additional libraries, some of which we can add manually to our .NET Standard library (such as System.Threading.Thread) and some of which are not compatible with the .NET Standard (such as Microsoft.NETCore.CoreCLR).

Also, .NET Core libraries specify a runtime and come with an application model. That's important, for instance, to make unit test class libraries runnable.

Why do both exist?

Ignoring libraries for a moment, the reason that .NET Standard exists is for portability; it defines a set of APIs that .NET platforms agree to implement. Any platform that implements a .NET Standard is compatible with libraries that target that .NET Standard. One of those compatible platforms is .NET Core.

Coming back to libraries, the .NET Standard library templates exist to run on multiple runtimes (at the expense of API surface area). Obversely, the .NET Core library templates exist to access more API surface area (at the expense of compatibility) and to specify a platform against which to build an executable.

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    Very good answer. An additional question though (relates to this question: why is an application model necessary to run unit tests? This was never the case in the past, when we used non-runnable class libraries to hold collections of unit tests. – Gigi Mar 22 '17 at 8:22
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    I've updated my answer to the linked question. TL;DR; In the past, class libraries targeted the full framework, which includes an application model. – Shaun Luttin Mar 22 '17 at 16:37
  • You forgot to cover Class Library (.NET Framework), is it compatible with .NET Standard and .NET Core? – Tomas Jul 11 at 11:35
  • @Tomas, As .net standard can be understood as an interface rather than a library, then any library built against a specific version of .net standard can be referenced by either .net framework, or .net core, or other .net variant that implements that specific version of .net standard. So a .net framework or a .net core library is "compatible" with any .net standard library, provided that library is build against a version of .net standard that the .net framework or .net core libraries implement. .net framework and .net core are not compatible with each other. they target different runtimes. – Thanasis Ioannidis Sep 5 at 13:55
  • This diagram really helped me get it. – jpaugh Nov 13 at 15:31

A .Net Core Class Library is built upon the .Net Standard. If you want to implement a library that is portable to the .Net Framework, .Net Core and Xamarin, choose a .Net Standard Library

.Net Core will ultimately implement .Net Standard 2 (as will Xamarin and .Net Framework)

.Net Core, Xamarin and .Net Framework can, therefore, be identified as flavours of .Net Standard

To future-proof your applications for code sharing and reuse , you would rather implement .Net Standard libraries.

Microsoft also recommends that you use .NET Standard instead of Portable Class Libraries.

To quote MSDN as an authoritative source, .Net Standard is intended to be One Library to Rule Them All. As pictures are worth a thousand words, the following will make things very clear:

1. Your current application scenario (fragmented)

Like most of us, you are probably in the situation below: (.Net Framework, Xamarin and now .Net Core flavoured applications)

enter image description here

2. What the .Net Standard Library will enable for you (cross-framework compatibility)

Implementing a .Net Standard Library allows code sharing across all these different flavours:

One Library to Rule them All

For the impatient:

  1. .NET Standard solves the code sharing problem for .NET developers across all platforms by bringing all the APIs that you expect and love across the environments that you need: desktop applications, mobile apps & games, and cloud services:
  2. .NET Standard is a set of APIs that all .NET platforms have to implement. This unifies the .NET platforms and prevents future fragmentation.
  3. .NET Standard 2.0 will be implemented by .NET Framework, .NET Core, and Xamarin. For .NET Core, this will add many of the existing APIs that have been requested.
  4. .NET Standard 2.0 includes a compatibility shim for .NET Framework binaries, significantly increasing the set of libraries that you can reference from your .NET Standard libraries.
  5. .NET Standard will replace Portable Class Libraries (PCLs) as the tooling story for building multi-platform .NET libraries.

For a table to help understand what the highest version of .NET Standard that you can target, based on which .NET platforms you intend to run on, head over here.

Sources: MSDN: Introducing .Net Standard

  • 2
    ASP.NET Core is a little misplaced in that graphic, as it can be used with the full .NET Framework, not only .NET Core, because it actually targets .NET Standard. – Neme Aug 20 '17 at 11:33
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    But you can create an ASP.NET Core app with the full .NET Framework - ASP.NET Core really belongs to the same layer as .NET Standard does. It's not constrained to just .NET Core. – Neme Aug 20 '17 at 18:29
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    I'm not talking about combining .NET Core & .NET Framework. My point is that ASP.NET Core isn't dependent on .NET Core at all, despite the name. It is written as a library that targets .NET Standard, therefore you can use it everywhere you can use .NET Standard. Yes, they made a mistake in that image. – Neme Aug 20 '17 at 19:50
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    You can see it here: msdnshared.blob.core.windows.net/media/2017/03/new-project.png – Neme Aug 20 '17 at 19:52
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So the short answer would be:

IAnimal == .NetStandard (General)
ICat == .NetCore (Less General)
IDog == .NetFramework (Specific / oldest and has the most features)
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    @Joe.wang as I see it is bad that it messes the relationship between .NET Core and .NET Framework. If .NET Core is the bird, then .NET Framework cannot be the eagle (maybe cat is more suitable). – Lex Li Jun 27 '17 at 0:17
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    @LexLi is right, this muddies the waters. .NET Framework is not a subtype of .NET Core. – Eric Eskildsen Jul 19 '17 at 16:54
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    It's wrong, .net core isn't compatible with .net framework – Keith Nicholas Aug 9 '17 at 23:25
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    this may look bit fancy but not acurate – afr0 Sep 11 '17 at 6:28
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    The original comment by @Joe sounded more accurate. edited answer by Community made it confusing – Nandun Jan 11 at 15:53

.Net Framework and .Net Core are two different implementations of the .Net runtime. Both Core and Framework (but especially Framework) have different profiles that include larger or smaller (or just plain different) selections of the many APIs and assemblies Microsoft has created for .Net, depending on where they are installed and in what profile. For example, there are some different APIs available in Universal Windows apps than in the "normal" Windows profile. Even on Windows, you might have the "Client" profile vs the "Full" profile. Additionally, there are other implementations (like Mono) that have their own sets of libraries.

.Net Standard is a specification for which sets of API libraries and assemblies must be available. An app written for .Net Standard 1.0 should be able to compile and run with any version of Framework, Core, Mono, etc, that advertises support for the .Net Standard 1.0 collection of libraries. Similar is true for .Net Standard 1.1, 1.5, 1.6, 2.0, etc. As long as the runtime provides support for the version of Standard targeted by your program, your program should run there.

A project targeted at a version of Standard will not be able to make use of features that are not included in that revision of the standard. This doesn't mean you can't take dependencies on other assemblies, or APIs published by other vendors (ie: items on NuGet). But it does mean that any dependencies you take must also include support for your version of .Net Standard. .Net Standard is evolving quickly, but it's still new enough, and cares enough about some of the smaller runtime profiles, that this limitation can feel stifling. (Note a year and a half later: this is starting to change, and recent .Net Standard versions are much nicer and more full-featured).

On the other hand, an app targeted at Standard should be able to be used in more deployment situations, since in theory it can run with Core, Framework, Mono, etc. For a class library project looking for wide distribution, that's an attractive promise. For a class library project used mainly for internal purposes, it may not be as much of a concern.

.Net Standard can also be useful in situations where the SysAdmin team is wanting to move from ASP.Net on Windows to ASP.Net for .Net Core on Linux for philosophical or cost reasons, but the Development team wants to continue working against .Net Framework in Visual Studio on Windows.

  • 1
    While a good overview of what .NET Core and .NET Standard are, this answer fails to answer the question about class libraries targeting each of these. – Gigi Mar 22 '17 at 8:17
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    If that's your goal, the question needs to be closed as either "unclear what you're asking", since there are always going to be too many situational specifics that play into a given person's environment for us to ever just tell you what to do, or as "Too Broad" if you're asking about the general case. All we can do here is give you info about the products, so you can be informed for making your own decision. – Joel Coehoorn May 1 '17 at 16:28
  • That is clearly not the case, as another has accurately answered the question. My question was about the class libraries. Your answer was about the frameworks. – Gigi May 2 '17 at 18:28

.NET Framework and .NET Core are both frameworks.

.NET Standard is standard (in other words, specification).

You can make executable project (like Console application, or ASP.NET application) with .NET Framework and .NET Core, but not with .NET Standard.

With .NET Standard you can make only class-library project that cannot be executed standalone and should be referenced by another .NET Core or .NET Framework executable project.

.NET Standard: Think of it as a big standard library. When using this as a dependency you can only make libraries (.DLLs), not executables. A library made with .NET standard as a dependency can be added to a Xamarin.Android, a Xamarin.iOS, a .NET Core Windows/OSX/Linux project.

.NET Core: Think of it as the continuation of the old .NET framework, just it's opensource and some stuff is not yet implemented and others got deprecated. It extends the .NET standard with extra functions, but only runs on Desktops. When adding this as a dependency you can make runnable apps on Windows, Linux and OSX. (Although console only for now, no GUIs). So .NET Core = .NET Standard + Desktop specific stuff.
Also UWP uses it and the new ASP.NET core uses it as a dependency too.

.Net Standard exists mainly to improve code sharing and make the APIs available in each .Net implementation more consistent.

While creating Libraries we can have target as.Net Standard 2.0 so that the library created would be compaitible with different versions of .Net Framework including .Net Core,Mono..

Hope this will help to understand the relationship between .NET Standard API surface and other .NET platforms. Each interface represents a target framework and methods represents groups of APIs available on that target framework.

namespace Analogy
{
  // .NET Standard

interface INetStandard10
{
    void Primitives();
    void Reflection();
    void Tasks();
    void Xml();
    void Collections();
    void Linq();
}

interface INetStandard11 : INetStandard10
{
    void ConcurrentCollections();
    void LinqParallel();
    void Compression();
    void HttpClient();
}

interface INetStandard12 : INetStandard11
{
    void ThreadingTimer();
}

interface INetStandard13 : INetStandard12
{
    //.NET Standard 1.3 specific APIs
}

// And so on ...


// .NET Framework 

interface INetFramework45 : INetStandard11
{
    void FileSystem();
    void Console();
    void ThreadPool();
    void Crypto();
    void WebSockets();
    void Process();
    void Drawing();
    void SystemWeb();
    void WPF();
    void WindowsForms();
    void WCF();
}

interface INetFramework451 : INetFramework45, INetStandard12
{
    // .NET Framework 4.5.1 specific APIs
}

interface INetFramework452 : INetFramework451, INetStandard12
{
    // .NET Framework 4.5.2 specific APIs
}

interface INetFramework46 : INetFramework452, INetStandard13
{
    // .NET Framework 4.6 specific APIs
}

interface INetFramework461 : INetFramework46, INetStandard14
{
    // .NET Framework 4.6.1 specific APIs
}

interface INetFramework462 : INetFramework461, INetStandard15
{
    // .NET Framework 4.6.2 specific APIs
}

// .NET Core
interface INetCoreApp10 : INetStandard15
{
    // TODO: .NET Core 1.0 specific APIs
}
// Windows Universal Platform
interface IWindowsUniversalPlatform : INetStandard13
{
    void GPS();
    void Xaml();
}

// Xamarin 
interface IXamarinIOS : INetStandard15
{
    void AppleAPIs();
}

interface IXamarinAndroid : INetStandard15
{
    void GoogleAPIs();
}    
// Future platform

interface ISomeFuturePlatform : INetStandard13
{
    // A future platform chooses to implement a specific .NET Standard version.
    // All libraries that target that version are instantly compatible with this new
    // platform
}
}

Source

Another way of explaining the difference could be with real world examples, as most of us mortals will use existing tools and frameworks (Xamarin, Unity, etc) to do the job.

So, with .NET Framework you have all the .NET tools to work with but you can only target Windows applications (UWP, Winforms, ASP.NET, etc). Since .NET Framework is closed source there isn't much to do about it.

With .NET Core you have less tools but you can target the main Desktop Platforms (Windows, Linux, Mac). This is specially useful in ASP.NET Core applications, since you can now host Asp.net in Linux (cheaper hosting prices). Now, since .NET Core was open sourced, it's technically possible to develop libraries for other platforms. But since there aren't frameworks that support it, i don't think that's a good idea.

With .NET Standard you have even less tools but you can target all/most platforms. You can target Mobile thanks to Xamarin, and you can even target Game Consoles thanks to Mono/Unity.

In a real world application you may need to use all of them. For example, i developed a point of sale application that had the following architecture:

Shared both Server and Client:

  • A .NET Standard library that handles the Models of my application.

Since it's a .NET Standard library, it can be used in any other library.

Server Side (Web API):

  • A .NET Standard (could be Core as well) library that handles all the database connections.

  • A .NET Core project that handles the Rest API and makes use of the database library.

As this is developed in .NET Core, i can host the application on a Linux server.

Client Side (MVVM with WPF + Xamarin.Forms Android/IOS):

  • A .NET Standard library that handles the client API connection.

  • A .NET Standard library that handles the ViewModels Logic. Used in all the views.

  • A .NET Framework WPF application that handles the WPF views for a windows application.

  • A .NET Standard library that handles Xamarin Forms views.

  • A Xamarin Android and Xamarin IOS project.

So you can see that there's a big advantage here in the client side of the application since i can reuse both .NET Standard libraries (Client API and ViewModels) and just make views with no logic for the WPF, Xamarin and IOS applications.

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