https://issues.dlang.org/show_bug.cgi?id=16657
--- Comment #3 from Andrei Alexandrescu <[email protected]> --- It seems a case can be made for either behavior. * The "alias this" feature emulates subtyping of the kind typically achieved by class inheritance. If that is the default behavior to emulate, the current behavior is up to the task. Consider a moral equivalent: class A { int x; this(int x) { this.x = x; } override bool opEquals(Object rhs) { return x == (cast(A) rhs).x; } } class B : A { this(int x, int y) { super(x); this.y = y; } int y; } void main() { assert(new A(1) == new B(1, 2)); // pass } This "slices" B for the purpose of comparison. * Yes, "alias this" does emulate subtyping, but we have an autogenerated opEquals for every struct. Why should there be the case that such generation automatically disappears in the case "alias this" is used? * Another argument for changing behaviors has to do with practicality. Even though a subtyping-based argument can be created in favor of preserving existing compatibility, a better argument is that in fact the _current_ OOP behavior (illustrated by the example with classes above) is incorrect and error-prone. There's good evidence for that (e.g. http://stackoverflow.com/questions/12239344/why-should-i-not-use-equals-with-inheritance of many examples). The theoretical underpinnings for correctly defining comparison in conjunction with subtyping is bounded quantification (https://en.wikipedia.org/wiki/Bounded_quantification). The short of it all is the current behavior can and should be improved. Changing behavior silently is not a good choice, so we should probably issue a warning when the situation occurs. The warning can be extinguished by defining opEquals explicitly. With time the warning becomes an error following a schedule similar to deprecation. --
