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I am making a GVector class that contains will further derive into 3 types i.e
PVector (Pixel Space Vector)
MVector (Meter Space Vector)
RVector (Rendering Space Vector)

class GVector {
  public : 
    eVectorSpace eVS; // Defines which space the vector would be
    float x,y; // The x and y values of a 2-Dimensional vector
    GVector operator+ (const GVector& v) const { return GVector(x+v.x, y+v.y, v.eVS); }

class MVector {
  public :
    PVector toPVector() {...}
    //Will contain functions to convert the same vector into a different space

I want to make it possible to add 2 vectors lying in the same space

MVector operator+ (const MVector& v) const { return MVector(x+v.x, y+v.y); }  

Do I need to make the base class function like this ?

virtual GVector* operator+ (const GVector* v) const () = 0;  

But I would like to return a vector in the same space as the two adding vectors.

The function of adding the values of the x,y are same for each type of vector. Is there a way to minimize this into the base class itself ? Or is there a better approach to adding vectors in the same space and converting them into different spaces ?

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What if vectors in different spaces are operated upon? –  Ignacio Vazquez-Abrams Sep 3 '12 at 2:28
I want to do operations on a vector lying in the same space only. If they lie on a different space then I was planning to convert them using a conversion ratio. –  Jeffrey Chen Sep 3 '12 at 2:29

2 Answers 2

up vote 1 down vote accepted

If it makes no sense to perform operations on two different children then the operator should not be defined on the parent. Instead a protected helper function can be defined, and then the children should implement the operator separately, delegating to the helper function.

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Do you mean protected : GVector add(const GVector&) const { return a GVector; } and then in the respective children classes call this method and then typecast them into the required return types ? What if there was a need to perform operations on different children ? In the base class there is a enum that stores which space it would be in. I could use that to check and do the operations. If so what other suggestions could you offer? Thanks –  Jeffrey Chen Sep 3 '12 at 2:37
You don't need both the children and the field to describe which space it's in; you should use one or the other as appropriate. –  Ignacio Vazquez-Abrams Sep 3 '12 at 2:45
Oh.. can you explain why it would be a bad idea so I could prevent this architecture in the future. –  Jeffrey Chen Sep 3 '12 at 2:47
It's redundant. The type already is a flag of sorts, except it's the compiler that checks it instead of the code. –  Ignacio Vazquez-Abrams Sep 3 '12 at 2:49
How do I choose which will be better in this scenario if I need to perform operations on vector on different spaces? Also I need to be able to convert them into different spaces. –  Jeffrey Chen Sep 3 '12 at 2:53

Some code somewhere needs to know how to add two of the vector objects together, but it doesn't actually need to be the vector types themselves. You can define a set of addition operators outside the classes.

MVector operator+(const MVector &left, const MVector &right) {
    return MVector(left.x + right.x, left.y + right.y);

You can define as many different operator adds like this as you want, so long as the compiler can figure out what the types are without ambiguity. You can even provide implementations that accept a MVector and a GVector.

MVector operator+(const MVector &left, const RVector &right) {
    MVector tmp = right.toMVector();
    return MVector(left.x + tmp.x, left.y + tmp.y);
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