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For a while I was confused about the direction of D's operator overloading, but now I realize it's a beautiful system... if It would only work with core types (int, float, etc). Consider the follow code:

struct Vector {
    float X, Y;

    void opOpAssign(string op)(Vector vector) {
        X.opOpAssign!op(vector.X); // ERROR: no property "opOpAssign" for float
        Y.opOpAssign!op(vector.Y); // ERROR: ditto
    }
}

This would be beautiful code if it worked, seeing as it overloads all +=, -=, *=, etc.. operators in one method. However, as you can see, it doesn't work out of the box. I have created a solution using templates (god I love D):

template Op(string op, T) {
    void Assign(ref T a, T b) {
        static if (op == "+") a += b;
          else if (op == "-") a -= b;
          else if (op == "*") a *= b;
          else if (op == "/") a /= b;
    }
}

struct Vector {
    float X, Y;

    void opOpAssign(string op)(Vector vector) {
        Op!(op, typeof(X)).Assign(X, vector.X);
        Op!(op, typeof(Y)).Assign(Y, vector.Y);
    }
}

This is fine, only I'd much prefer to keep everything "in house". Is there a way to make this work without the aid of a template? I know I'm being picky here, seeing as there's no performance loss and it's not hard to import a module in situation I need to do this. I'm just wondering if it's built in and I'm overlooking something.

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2 Answers 2

up vote 18 down vote accepted

Almost all overloaded operators in D are templates by definition. Notice that void opOpAssign(string op)(Vector vector) has a template parameter which is a string. So, no you can't overload it as a non-template function. Now, you don't need a second template to do it (so if by asking whether you need a template, you mean a helper template, then the answer is no), but the overloaded operator function is already a template.

The canonical way to do what you you're trying to do here is to use string mixins:

void opOpAssign(string op)(Vector vector)
{
    mixin("X" ~ op ~ "=vector.X;");
    mixin("Y" ~ op ~ "=vector.Y;");
}
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Damn that was fast! Thanks! –  F i L Oct 19 '11 at 19:58

this is meant to be combined with mixins

void opOpAssign(string op)(Vector vector) {
    mixin("X"~op~"=vector.X;");
    mixin("Y"~op~"=vector.Y;");
}

not to mention this can easily be coupled to other arithmetic operations

Vector opBinary(string op)(Vector l)if(op=="+"||op=="-"){//only addition and subtraction makes sense for 2D vectors
    mixin("return Vector(x"~op~"l.x,y"~op~"l.y;");
}

///take in anything as long as a corresponding binaryOp exists
///this essentially rewrites all "vec op= variable;" to "vec = vec op variable;"
void opOpAssign(string op,T)(T l){
    this  = this.binaryOp!op(l);
}

and even to other scaling the Vector

Vector opBinary(string op)(real l)if(op=="*"||op=="/"){
    mixin("return Vector(x"~op~"l,y"~op~"l;");
}

Vector opBinaryRight(string op)(real l)if(op=="*"){// for 2 * vec
    return this*l;
}

note that the defined opBinarys restrict what can be passed to opOpAssign but you can go both ways (define opBinary in terms of opOpAssign)

share|improve this answer
    
Johnathan posted first and explained more, so I marked his as the answer, but I'd like to thank you for responding so quickly as well! –  F i L Oct 19 '11 at 20:02
    
@FiL check my edit for a bit more overloading goodness –  ratchet freak Oct 20 '11 at 12:40

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