InterfaceFillerCodeGen 1.0.8

There is a newer version of this package available.
See the version list below for details.
dotnet add package InterfaceFillerCodeGen --version 1.0.8                
NuGet\Install-Package InterfaceFillerCodeGen -Version 1.0.8                
This command is intended to be used within the Package Manager Console in Visual Studio, as it uses the NuGet module's version of Install-Package.
<PackageReference Include="InterfaceFillerCodeGen" Version="1.0.8" />                
For projects that support PackageReference, copy this XML node into the project file to reference the package.
paket add InterfaceFillerCodeGen --version 1.0.8                
#r "nuget: InterfaceFillerCodeGen, 1.0.8"                
#r directive can be used in F# Interactive and Polyglot Notebooks. Copy this into the interactive tool or source code of the script to reference the package.
// Install InterfaceFillerCodeGen as a Cake Addin
#addin nuget:?package=InterfaceFillerCodeGen&version=1.0.8

// Install InterfaceFillerCodeGen as a Cake Tool
#tool nuget:?package=InterfaceFillerCodeGen&version=1.0.8                

InterfaceFiller - Explicit Aspect Oriented Programming (AOP) in C#

No more reflection. All magic revealed by "Find all References".

1. [InterfaceFiller] attribute

public interface ITestApi
{
    int FunA(int x, int y);
    Task<StreamContent> FunB(Barrier barrier, Random randomAccess);
}

The (must be) partial TestApi class, contains testApi backup field (ITestApi type).

public partial class TestApi : ITestApi
{
    [InterfaceFiller]
    private ITestApi testApi;

    public TestApi(ITestApi testApi)
    {
        this.testApi = testApi;
    }
}

TestApi has no implementation for interface ITestApi but no compiler error because InterfaceFiller attribute marks to auto-generate the default implementation.

// <auto-generated />
partial class TestApi : ITestApi
{
    public int FunA(int x, int y) => testApi.FunA(x, y);

    public System.Threading.Tasks.Task<System.Net.Http.StreamContent> FunB(System.Threading.Barrier barrier, System.Random randomAccess) => testApi.FunB(barrier, randomAccess);
}

Note

  • Class must be partial
  • Class must have backup-field which field type is the interface type.
  • Backup-field has [InterfaceFiller] attribute.
  • If there is an implemention for a method, code-gen will skips for this method only.

2. Wrapper

'Aspect' your interface with custom behavior before and/or after execution.

2.1 Normal method

Given the interface

public interface ITestApi
{
    int FunA(int x);
    string FunB(int x, string y);
}

and the class

public partial class TestApi : ITestApi
{
    [InterfaceFiller]
    private ITestApi testApi;

    public TestApi(ITestApi testApi)
    {
        this.testApi = testApi;
    }

    [Wrapper]
    private T Wrapper<T>(Func<T> next)
    {
        // Logging code here...
        var r = next();
        // More logging code here...
        return r;
    }
}

It will generate the interface.

// <auto-generated />
partial class TestApi : ITestApi
{
    public int FunA(int x)
    {
        Func<int> func = () => testApi.FunA(x);
        return Wrapper(func);
    }

    public string FunB(int x, string y)
    {
        Func<string> func = () => testApi.FunB(x, y);
        return Wrapper(func);
    }
}

Wrapper method:

  • Having [Wrapper] attribute
  • Signature: T Wrapper<T>(Func<T> next)
  • Must be Generic method
  • The generic type must be method generic type
2.2 Task method

Given the interface

public interface ITestApi
{
    Task FunA(int x);
    Task FunB(int x, string y);
}

and the class

public partial class TestApi : ITestApi
{
    [InterfaceFiller]
    private ITestApi testApi;

    public TestApi(ITestApi testApi)
    {
        this.testApi = testApi;
    }

    [Wrapper]
    private async Task Wrapper(Func<Task> next)
    {
        // Logging code here...
        await next();
        // More Logging code here...
    }
}

It will generate the interface implementation using back-up field and wapper method.

// <auto-generated />
partial class TestApi : ITestApi
{
    public async System.Threading.Tasks.Task FunA(int x)
    {
        Func<System.Threading.Tasks.Task> func = () => testApi.FunA(x);
        await Wrapper(func);
    }

    public async System.Threading.Tasks.Task FunB(int x, string y)
    {
        Func<System.Threading.Tasks.Task> func = () => testApi.FunB(x, y);
        await Wrapper(func);
    }
}

Wrapper for Task method:

  • Having [Wrapper] attribute
  • Signature: async Task Wrapper(Func<Task> next)
2.3 Task<TResult> method

Given the interface

public interface ITestApi
{
    Task<int> FunA(int x);
    Task<string> FunB(int x, string y);
}

and the class

public partial class TestApi : ITestApi
{
    [InterfaceFiller]
    private ITestApi testApi;

    public TestApi(ITestApi testApi)
    {
        this.testApi = testApi;
    }

    [Wrapper]
    private async Task<T> Wrapper<T>(Func<Task<T>> next)
    {
        // Logging code here...
        var r = await next();
        // More Logging code here...
        return r;
    }
}

It will generate the interface implementation.

// <auto-generated />
partial class TestApi : ITestApi
{
    public async System.Threading.Tasks.Task<int> FunA(int x)
    {
        Func<System.Threading.Tasks.Task<int>> func = () => testApi.FunA(x);
        return await Wrapper(func);
    }

    public async System.Threading.Tasks.Task<string> FunB(int x, string y)
    {
        Func<System.Threading.Tasks.Task<string>> func = () => testApi.FunB(x, y);
        return await Wrapper(func);
    }
}

Wrapper method:

  • Having [Wrapper] attribute
  • Signature: async Task<T> Wrapper<T>(Func<Task<T>> next)
  • Must be Generic method
  • The generic type must be method generic type

3. Wrapper (with parameter)

3.1 Single param

Concern your 'Aspect' only.

Given the interface

public interface ITestApi
{
    int FunA(int role);
    string FunB(int role, string y);
}

and the class

public partial class TestApi : ITestApi
{
    [InterfaceFiller]
    private ITestApi testApi;

    public TestApi(ITestApi testApi)
    {
        this.testApi = testApi;
    }

    [Wrapper]
    private T Wrapper<T>(int role, Func<int, T> next)
    {
        // If role is VIP then call manager for permission
        var r = next(role);
        // More logging code here...
        return r;
    }
}

It will generate the interface implementation using back-up field and wapper method.

// <auto-generated />
partial class TestApi : ITestApi
{
    public int FunA(int role)
    {
        Func<int, int> func = (__role) => testApi.FunA(__role);

        return Wrapper(role, func);
    }

    public string FunB(int role, string y)
    {
        Func<int, string> func = (__role) => testApi.FunB(__role, y);

        return Wrapper(role, func);
    }
}

Wrapper method:

  • Having [Wrapper] attribute
  • Signature: T Wrapper<T>(int role, Func<int, T> next)
    • All parameters before the last param (Func<int, T> next) must be match exactly within parameters of each interface methods. If not, default implementation is used. E.g. int userRole or double role will not be match.
    • Last param signature Func<int, T> next).
    • Input in last param int must match with int role
  • Must be Generic method
  • The generic type must be method generic type

3.2 Too many param

Concern your 'Aspect' only.

Given the interface

public interface ITestApi
{
    int FunA(int role);
    string FunB(int role, string y);
}

and the class

public partial class TestApi : ITestApi
{
    [InterfaceFiller]
    private ITestApi testApi;

    public TestApi(ITestApi testApi)
    {
        this.testApi = testApi;
    }

    [Wrapper]
    private T Wrapper<T>(int role, string name, Func<int, string, T> next)
    {
        // If role is VIP then call manager for permission
        var r = next(role, name);
        // More logging code here...
        return r;
    }
}

It will generate the interface implementation using default not wrapper.

// <auto-generated />
partial class TestApi : ITestApi
{
    public int FunA(int role)
        => testApi.FunA(role);

    public string FunB(int role, string y)
        => testApi.FunB(role, y);
}

Wrapper method:

  • string name param in wrapper method match NO param in all interface methods.

4. Mutiple Wrapper (Wrapper resolution)

4.1 Exactly match

Given the interface

public interface ITestApi
{
    int FunA(int role);
    string FunB(int role, string y);
}

and the class

public partial class TestApi : ITestApi
{
    [InterfaceFiller]
    private ITestApi testApi;

    public TestApi(ITestApi testApi)
    {
        this.testApi = testApi;
    }

    [Wrapper]
    private T Wrapper1<T>(int role, Func<int, T> next)
    {
        // If role is VIP then call manager for permission
        var r = next(role);
        // More logging code here...
        return r;
    }

    [Wrapper]
    private T Wrapper2<T>(int role, string y, Func<int, string, T> next)
    {
        // If role is VIP then call manager for permission
        var r = next(role, y);
        // More logging code here...
        return r;
    }
}

It will generate the interface implementation.

  • Wrapper1FunA
  • Wrapper2FunB
// <auto-generated />
partial class TestApi : ITestApi
{
    public int FunA(int role)
    {
        Func<int, int> func = (__role) => testApi.FunA(__role);
        return Wrapper1(role, func);
    }

    public string FunB
        (int role, string y)
    {
        Func<int, string, string> func = (__role, __y) => testApi.FunB(__role, __y);
        return Wrapper2(role, y, func);
    }
}
4.2 More params - higher precedence

Given the interface

public interface ITestApi
{
    int FunA(int role, string name, DateTime dob, decimal amount);
}

and the class

public partial class TestApi : ITestApi
{
    [InterfaceFiller]
    private ITestApi testApi;

    public TestApi(ITestApi testApi)
    {
        this.testApi = testApi;
    }

    [Wrapper]
    private T Wrapper1<T>(int role, Func<int, T> next)
    {
        // If role is VIP then call manager for permission
        var r = next(role);
        // More logging code here...
        return r;
    }

    [Wrapper]
    private T Wrapper2<T>(int role, string name, Func<int, string, T> next)
    {
        // If role is VIP then call manager for permission
        var r = next(role, name);
        // More logging code here...
        return r;
    }
}

It will generate the interface implementation.

  • Wrapper2FunA
  • Wrapper2 is higher precedence because it covers more aspect (params) of FunA than Wrapper1
// <auto-generated />
partial class TestApi : ITestApi
{
    public int FunA(int role, string name, System.DateTime dob, decimal amount)
    {
        Func<int, string, int> func = (__role, __name) => testApi.FunA(__role, __name, dob, amount);
        return Wrapper2(role, name, func);
    }
}
4.2 Equal params - compile error

Given the interface

public interface ITestApi
{
    int FunA(int role, string name, DateTime dob, decimal amount);
}

and the class

public partial class TestApi : ITestApi
{
    [InterfaceFiller]
    private ITestApi testApi;

    public TestApi(ITestApi testApi)
    {
        this.testApi = testApi;
    }

    [Wrapper]
    private T Wrapper1<T>(int role, string name, Func<int, string, T> next)
    {
        // If role is VIP then call manager for permission
        var r = next(role, name);
        // More logging code here...
        return r;
    }

    [Wrapper]
    private T Wrapper2<T>(int role, DateTime dob, Func<int, DateTime, T> next)
    {
        // If role is VIP then call manager for permission
        var r = next(role, dob);
        // More logging code here...
        return r;
    }
}

It will generate junk text to fail compiler because both Wrapper1 and Wrapper2 cover equally 2 params of FunA

// <auto-generated />
partial class TestApi : ITestApi
{
    mutipleWrapper
//Error: WrapperDoc.ITest.FunA(int, string, System.DateTime, decimal) has mutiple wrapper: WrapperDoc.Test.Wrapper1<T>(int, string, System.Func<int, string, T>), WrapperDoc.Test.Wrapper2<T>(int, System.DateTime, System.Func<int, System.DateTime, T>)
}

5. Wrapper (with parameter) for Task method

Signature: async Task Wrapper(int a, Func<int, Task> next)

6. Wrapper (with parameter) for Task<TResult> method

Signature: async Task<T> Wrapper<T>(int a, Func<int, Task<T>> next)

7. Void method

Void (Unsupport)

8. Issue Report

https://github.com/ghostnguyen/InterfaceFillerIssue/issues

Product Compatible and additional computed target framework versions.
.NET net5.0 was computed.  net5.0-windows was computed.  net6.0 was computed.  net6.0-android was computed.  net6.0-ios was computed.  net6.0-maccatalyst was computed.  net6.0-macos was computed.  net6.0-tvos was computed.  net6.0-windows was computed.  net7.0 was computed.  net7.0-android was computed.  net7.0-ios was computed.  net7.0-maccatalyst was computed.  net7.0-macos was computed.  net7.0-tvos was computed.  net7.0-windows was computed.  net8.0 was computed.  net8.0-android was computed.  net8.0-browser was computed.  net8.0-ios was computed.  net8.0-maccatalyst was computed.  net8.0-macos was computed.  net8.0-tvos was computed.  net8.0-windows was computed. 
.NET Core netcoreapp2.0 was computed.  netcoreapp2.1 was computed.  netcoreapp2.2 was computed.  netcoreapp3.0 was computed.  netcoreapp3.1 was computed. 
.NET Standard netstandard2.0 is compatible.  netstandard2.1 was computed. 
.NET Framework net461 was computed.  net462 was computed.  net463 was computed.  net47 was computed.  net471 was computed.  net472 was computed.  net48 was computed.  net481 was computed. 
MonoAndroid monoandroid was computed. 
MonoMac monomac was computed. 
MonoTouch monotouch was computed. 
Tizen tizen40 was computed.  tizen60 was computed. 
Xamarin.iOS xamarinios was computed. 
Xamarin.Mac xamarinmac was computed. 
Xamarin.TVOS xamarintvos was computed. 
Xamarin.WatchOS xamarinwatchos was computed. 
Compatible target framework(s)
Included target framework(s) (in package)
Learn more about Target Frameworks and .NET Standard.

NuGet packages

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Version Downloads Last updated
5.0.0 132 3/23/2024
5.0.0-rc02 93 3/9/2024
5.0.0-rc01 89 3/9/2024
3.1.0 216 12/7/2023
3.1.0-rc03 121 12/5/2023
3.1.0-rc02 118 12/5/2023
3.1.0-rc01 119 12/4/2023
3.0.1-rc02 101 11/22/2023
3.0.1-rc01 80 11/22/2023
3.0.1-alpha01 113 11/16/2023
2.0.2-alpha02 128 8/30/2023
2.0.2-alpha01 112 8/28/2023
2.0.1 156 8/28/2023
2.0.0 140 8/28/2023
1.1.1-alpha 129 8/11/2023
1.1.0 176 8/10/2023
1.0.9 174 7/16/2023
1.0.8 161 7/16/2023
1.0.7 153 6/16/2023
1.0.6 143 6/16/2023
1.0.5 136 6/4/2023
1.0.4 128 6/4/2023
1.0.3 128 6/4/2023
1.0.2 135 6/4/2023
1.0.1 132 6/4/2023
1.0.0 132 6/3/2023