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I'm having a little problem in providing an abstract base layer for my dataaccess.mysqlclient module where I have defined a bunch of interfaces for minimum requirements and a bunch of classes that implement them.

Now the dmd compiler complains:

Error: function dataaccess.mysqlclient.MySqlReader.columns of type @property MySqlColumnInfo[]() overrides but is not covariant with dataaccess.dbclient.IDbReader.columns of type @property IDbColumnInfo[]() Exit code 1

the relevant lines of code look like this:


interface IDbReader
    @property IDbColumnInfo[] columns();
    // ... 


class MySqlReader : IDbReader
    private MySqlColumnInfo[] _columns;
    @property public MySqlColumnInfo[] columns() {return _columns;}
    // ... 

There are a few ways I could probably work around this compiler issue;

  • Declare the concrete property to be of IDbColumnInfo[]
  • wrap the array in a list class

And probably a couple more if i think about it a bit longer. None of those seem quite elegant though.

Here come the big questions:

  • Am I overlooking something simple?
  • Can arrays of implementations ever be covariant with arrays of interfaces?

Also I can't really imagine the reason for the compilers' complaint. There are more complex structures in my code that have been compiling just fine. So if somebody can explain why this won't work as is, That'd be much appreciated.

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1 Answer 1

up vote 6 down vote accepted

You have run into the problem of array covariance.

Let's assume that your code compiled fine. Now, consider the following code:

class SomeOtherColumnInfo : IDbColumnInfo {}

IDbReader reader = new MySqlReader(...);
IDbColumnInfo[] columns = reader.columns;
columns[3] = new SomeOtherColumnInfo(); // OK

Since the array is mutable, we can overwrite its elements with instances of other IDbColumnInfo-derived classes. The problem with that is that we're also modifying the private _columns field of MySqlReader. So, now we have a SomeOtherColumnInfo instance as a member of the MySqlColumnInfo[] array. Thus, we've broken the type system without using casts or other unsafe code. Since the compiler is expected to stop us from doing that by accident, it will refuse to implicitly cast mutable arrays of classes to arrays of other classes, even if those classes are related.

Now, I think it would make sense for D to allow compilation if the returned array was not mutable (that is, const or immutable). However, the compiler doesn't like that either. I don't know if that's an omission, or if there's a reason unknown to me.

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I figured as much, but don't understand why that would pose a problem. Since, as far as I can see, SomeOtherColumnInfo would have to be a subclass of MySqlColumnInfo in this case. In other words; I don't understand how that breaks the type system. –  Kris Aug 10 '13 at 7:45
@Kris Think about what would happen if you cast MySqlReader[] to IDbReader[] and then appended a PosixReader to it or replaced one its elements with a PosixReader. You would have just put a PosixReader in what is really an array of MySqlReader[], which would definitely break the type system. In general, it makes no sense to cast a container of DerivedClass to a container of BaseClass, much as it might at first seem like it would. –  Jonathan M Davis Aug 10 '13 at 9:58
@JonathanMDavis: Yes I sort of see that but just can't really get my head around the idea that they both implement the same contract, so should fit in the same slots. If they wouldn't both be Duck the programmer wouldn't have tagged them that way right? As long as the type system asserts PosixReader to be a subclass of MySqlReader in that scenario. Isn't List<String> a subclass of List<Object> in c#? (I believe it is but haven't checked) Problem seems to be solved by having MySqlColumnInfoList : ArrayWrapper!(IDbColumnInfo) here. Now I still have to do that for a few more cases. –  Kris Aug 10 '13 at 15:20
Quoth the MSDN: "Because of array covariance, assignments to elements of reference type arrays include a run-time check that ensures that the value being assigned to the array element is actually of a permitted type." That's the only reason List<String> is allowed to be a subclass of List<Object> in C#. –  FeepingCreature Aug 10 '13 at 16:55
The important thing to realize is that they don't implement the same contract, because arrays have two operations - get element, which does implement covariance (because they return a supertype), and set element (or append element), which, since it takes the new element as a parameter, requires contravariance. So whichever way you cast an array, you have to throw away half its contract. So you could, symmetrically, cast something like an Object[] to an Apple[*], where T[*] is a "blind array" or "contravariant array" that only supported assignment and appending, not lookup. –  FeepingCreature Aug 10 '13 at 17:06

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