Getting all types that implement an interface

2020-01-22 11:43发布

问题:

Using reflection, how can I get all types that implement an interface with C# 3.0/.NET 3.5 with the least code, and minimizing iterations?

This is what I want to re-write:

foreach (Type t in this.GetType().Assembly.GetTypes())
    if (t is IMyInterface)
        ; //do stuff

回答1:

Mine would be this in c# 3.0 :)

var type = typeof(IMyInterface);
var types = AppDomain.CurrentDomain.GetAssemblies()
    .SelectMany(s => s.GetTypes())
    .Where(p => type.IsAssignableFrom(p));

Basically, the least amount of iterations will always be:

loop assemblies  
 loop types  
  see if implemented.


回答2:

This worked for me. It loops though the classes and checks to see if they are derrived from myInterface

 foreach (Type mytype in System.Reflection.Assembly.GetExecutingAssembly().GetTypes()
                 .Where(mytype => mytype .GetInterfaces().Contains(typeof(myInterface)))) {
    //do stuff
 }


回答3:

To find all types in an assembly that implement IFoo interface:

var results = from type in someAssembly.GetTypes()
              where typeof(IFoo).IsAssignableFrom(type)
              select type;

Note that Ryan Rinaldi's suggestion was incorrect. It will return 0 types. You cannot write

where type is IFoo

because type is a System.Type instance, and will never be of type IFoo. Instead, you check to see if IFoo is assignable from the type. That will get your expected results.

Also, Adam Wright's suggestion, which is currently marked as the answer, is incorrect as well, and for the same reason. At runtime, you'll see 0 types come back, because all System.Type instances weren't IFoo implementors.



回答4:

I appreciate this is a very old question but I thought I would add another answer for future users as all the answers to date use some form of Assembly.GetTypes.

Whilst GetTypes() will indeed return all types, it does not necessarily mean you could activate them and could thus potentially throw a ReflectionTypeLoadException.

A classic example for not being able to activate a type would be when the type returned is derived from base but base is defined in a different assembly from that of derived, an assembly that the calling assembly does not reference.

So say we have:

Class A // in AssemblyA
Class B : Class A, IMyInterface // in AssemblyB
Class C // in AssemblyC which references AssemblyB but not AssemblyA

If in ClassC which is in AssemblyC we then do something as per accepted answer:

var type = typeof(IMyInterface);
var types = AppDomain.CurrentDomain.GetAssemblies()
    .SelectMany(s => s.GetTypes())
    .Where(p => type.IsAssignableFrom(p));

Then it will throw a ReflectionTypeLoadException.

This is because without a reference to AssemblyA in AssemblyC you would not be able to:

var bType = typeof(ClassB);
var bClass = (ClassB)Activator.CreateInstance(bType);

In other words ClassB is not loadable which is something that the call to GetTypes checks and throws on.

So to safely qualify the result set for loadable types then as per this Phil Haacked article Get All Types in an Assembly and Jon Skeet code you would instead do something like:

public static class TypeLoaderExtensions {
    public static IEnumerable<Type> GetLoadableTypes(this Assembly assembly) {
        if (assembly == null) throw new ArgumentNullException("assembly");
        try {
            return assembly.GetTypes();
        } catch (ReflectionTypeLoadException e) {
            return e.Types.Where(t => t != null);
        }
    }
}

And then:

private IEnumerable<Type> GetTypesWithInterface(Assembly asm) {
    var it = typeof (IMyInterface);
    return asm.GetLoadableTypes().Where(it.IsAssignableFrom).ToList();
}


回答5:

Other answers here use IsAssignableFrom. You can also use FindInterfaces from the System namespace, as described here.

Here's an example that checks all assemblies in the currently executing assembly's folder, looking for classes that implement a certain interface (avoiding LINQ for clarity).

static void Main() {
    const string qualifiedInterfaceName = "Interfaces.IMyInterface";
    var interfaceFilter = new TypeFilter(InterfaceFilter);
    var path = Path.GetDirectoryName(Assembly.GetExecutingAssembly().Location);
    var di = new DirectoryInfo(path);
    foreach (var file in di.GetFiles("*.dll")) {
        try {
            var nextAssembly = Assembly.ReflectionOnlyLoadFrom(file.FullName);
            foreach (var type in nextAssembly.GetTypes()) {
                var myInterfaces = type.FindInterfaces(interfaceFilter, qualifiedInterfaceName);
                if (myInterfaces.Length > 0) {
                    // This class implements the interface
                }
            }
        } catch (BadImageFormatException) {
            // Not a .net assembly  - ignore
        }
    }
}

public static bool InterfaceFilter(Type typeObj, Object criteriaObj) {
    return typeObj.ToString() == criteriaObj.ToString();
}

You can set up a list of interfaces if you want to match more than one.



回答6:

loop through all loaded assemblies, loop through all their types, and check if they implement the interface.

something like:

Type ti = typeof(IYourInterface);
foreach (Assembly asm in AppDomain.CurrentDomain.GetAssemblies()) {
    foreach (Type t in asm.GetTypes()) {
        if (ti.IsAssignableFrom(t)) {
            // here's your type in t
        }
    }
}


回答7:

This worked for me (if you wish you could exclude system types in the lookup):

Type lookupType = typeof (IMenuItem);
IEnumerable<Type> lookupTypes = GetType().Assembly.GetTypes().Where(
        t => lookupType.IsAssignableFrom(t) && !t.IsInterface); 


回答8:

Edit: I've just seen the edit to clarify that the original question was for the reduction of iterations / code and that's all well and good as an exercise, but in real-world situations you're going to want the fastest implementation, regardless of how cool the underlying LINQ looks.

Here's my Utils method for iterating through the loaded types. It handles regular classes as well as interfaces, and the excludeSystemTypes option speeds things up hugely if you are looking for implementations in your own / third-party codebase.

public static List<Type> GetSubclassesOf(this Type type, bool excludeSystemTypes) {
    List<Type> list = new List<Type>();
    IEnumerator enumerator = Thread.GetDomain().GetAssemblies().GetEnumerator();
    while (enumerator.MoveNext()) {
        try {
            Type[] types = ((Assembly) enumerator.Current).GetTypes();
            if (!excludeSystemTypes || (excludeSystemTypes && !((Assembly) enumerator.Current).FullName.StartsWith("System."))) {
                IEnumerator enumerator2 = types.GetEnumerator();
                while (enumerator2.MoveNext()) {
                    Type current = (Type) enumerator2.Current;
                    if (type.IsInterface) {
                        if (current.GetInterface(type.FullName) != null) {
                            list.Add(current);
                        }
                    } else if (current.IsSubclassOf(type)) {
                        list.Add(current);
                    }
                }
            }
        } catch {
        }
    }
    return list;
}

It's not pretty, I'll admit.



回答9:

Other answer were not working with a generic interface.

This one does, just replace typeof(ISomeInterface) by typeof (T).

List<string> types = AppDomain.CurrentDomain.GetAssemblies().SelectMany(x => x.GetTypes())
            .Where(x => typeof(ISomeInterface).IsAssignableFrom(x) && !x.IsInterface && !x.IsAbstract)
            .Select(x => x.Name).ToList();

So with

AppDomain.CurrentDomain.GetAssemblies().SelectMany(x => x.GetTypes())

we get all the assemblies

!x.IsInterface && !x.IsAbstract

is used to exclude the interface and abstract ones and

.Select(x => x.Name).ToList();

to have them in a list.



回答10:

There's no easy way (in terms of performance) to do what you want to do.

Reflection works with assemblys and types mainly so you'll have to get all the types of the assembly and query them for the right interface. Here's an example:

Assembly asm = Assembly.Load("MyAssembly");
Type[] types = asm.GetTypes();
Type[] result = types.where(x => x.GetInterface("IMyInterface") != null);

That will get you all the types that implement the IMyInterface in the Assembly MyAssembly



回答11:

Even better when choosing the Assembly location. Filter most of the assemblies if you know all your implemented interfaces are within the same Assembly.DefinedTypes.

// We get the assembly through the base class
var baseAssembly = typeof(baseClass).GetTypeInfo().Assembly;

// we filter the defined classes according to the interfaces they implement
var typeList = baseAssembly.DefinedTypes.Where(type => type.ImplementedInterfaces.Any(inter => inter == typeof(IMyInterface))).ToList();

By Can Bilgin



回答12:

   public IList<T> GetClassByType<T>()
   {
        return AppDomain.CurrentDomain.GetAssemblies()
                          .SelectMany(s => s.GetTypes())
                          .ToList(p => typeof(T)
                          .IsAssignableFrom(p) && !p.IsAbstract && !p.IsInterface)
                          .SelectList(c => (T)Activator.CreateInstance(c));
   }


回答13:

I got exceptions in the linq-code so I do it this way (without a complicated extension):

private static IList<Type> loadAllImplementingTypes(Type[] interfaces)
{
    IList<Type> implementingTypes = new List<Type>();

    // find all types
    foreach (var interfaceType in interfaces)
        foreach (var currentAsm in AppDomain.CurrentDomain.GetAssemblies())
            try
            {
                foreach (var currentType in currentAsm.GetTypes())
                    if (interfaceType.IsAssignableFrom(currentType) && currentType.IsClass && !currentType.IsAbstract)
                        implementingTypes.Add(currentType);
            }
            catch { }

    return implementingTypes;
}


回答14:

You could use some LINQ to get the list:

var types = from type in this.GetType().Assembly.GetTypes()
            where type is ISomeInterface
            select type;

But really, is that more readable?