5

I am a reasonably experiences hobby programmer, and I have good familiarity with C++, D, Java, C# and others.

With the exception of Go, almost every language requires me to explicitly state that I am implementing an interface. This is borderline ridiculous, since we today have compilers for languages like Haskell, which can do almost full-program type inference with very few hints.

What I am looking for is a programming language that does this:

interface ITest {
    void Test();
}

class Test {
    void Test() { }
}

void main() {
    ITest x;
    x = new Test;
}

What languages would see this, and automatically flag Test as implementing ITest?

ETA: I am not looking for duck typing. I am looking for strictly typed languages with inference.

12
0

D has something called wrap in its standard library, Phobos, which can do what you're looking for. Here's an example copied from the function's unittest:

interface A {
  int run();
}

interface B {
  int stop();
  @property int status();
}

class X {
  int run() {
    return 1;
  }

  int stop() {
    return 2;
  }

  @property int status() {
    return 3;
  }
}

auto x = new X();

auto ab = x.wrap!(A, B);
A a = ab;
B b = ab;
assert(a.run() == 1);
assert(b.stop() == 2);
assert(b.status == 3);

The work will be available starting from v2.064, and it is already on git HEAD.

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0
0

Virtually any dynamic language out there (javascript, python, etc ...) supports this pattern. But I'm guessing you are interested in languages which statically verify that the type satisfies the interface in question.

C++

This support is not exactly what you are asking for though because you wouldn't use ITest directly. Instead you would use a template which simply access the needed members of the type

// C# style solution 
void UseIt(ITest p) { 
  p.Test();
}

// C++ style solution
template <typename T>
void UseIt(T p) { 
  p.Test();
}

The C++ UseIt method will work for any type which has an accessible member Test. There is no interface needed here

class C1 { 
public: 
  void Test() { }
}

class C2 { } 

UseIt<C1>(C1());  // Ok
UseIt<C2>(C2());  // Error! 

TypeScript

Typescript directly implements the pattern you described. At the end of the day typescript is just a thin wrapper over javascript and hence dynamic. But it does provide compile time type annotations. It's support for interfaces exactly matches the pattern you described in the question

F#

F# has similar support to C++ via member constraints on inline declarations

let inline UseIt<^T when ^T : (member Test: unit -> unit)> s = ...
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  • Yeah, and D is similar to C++ in this respect. – Adam D. Ruppe Jul 24 '13 at 16:55
  • @AdamD.Ruppe i assumed D was but I didn't have enough experience with it to intelligently comment on it – JaredPar Jul 24 '13 at 16:57
  • This is not quite what I was looking for: A template/genetic solution has (unless the compiler is VERY smart) several machine code sequences associated, while an interface solution usually has only one (dependent on an interface table lookup). – Karl Damgaard Asmussen Jul 24 '13 at 17:01
  • @KarlDamgaardAsmussen a C++ template will result in a direct call to the method in question. That should always be less instructions than an interface dispatch. – JaredPar Jul 24 '13 at 22:23
  • But it will create a different function for each type leading to some amount of code bloat. – BCS Jul 25 '13 at 2:54

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