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Kvector::Kvector(float x, float y, float z) : x(x), y(y),z(z) {};

Kvector& Kvector::operator+(const Kvector& other) {
    return Kvector(x + other.x, y + other.y, z + other.z);

Kvector& Kvector::operator*(const Kvector& other) {
    return Kvector((x == 0) ? 0 : x*other.x, 
                   (y == 0) ? y * other.y : 0,
                   (z == 0) ? 0 : z * other.z);

Kvector& Kvector::operator*(const float other) {
    return Kvector(x * other, y * other, z * other);

void Kvector::operator+=(const Kvector& other) {
    x += other.x;
    y += other.y;
    z += other.z;

Above is the definition of the operators for struct called Kvector( struct with float x y z, three simple objects and that's it).

If my understanding of the code is correct following code should print 29 29 29. And it does so.

Kvector a(1,1,1);
a = a*29;
cout<<"poss "<<a.x << " "<<a.y<< " "<< a.z<<endl;

However if I try

Kvector a(1,1,1);
a += a*29;
cout<<"poss "<<a.x << " "<<a.y<< " "<< a.z<<endl;

It prints 1 1 1 for some reason. So I tried the below code instead.

Kvector a(1,1,1);
a = a+ a*29;
cout<<"poss "<<a.x << " "<<a.y<< " "<< a.z<<endl;

The code above prints the following

poss -1.07374e+008 -1.07374e+008 -1.07374e+008

I expected it to print 30 30 30 since a= (1,1,1) + (1,1,1) * 29 = (1,1,1) + ( 29, 29,29) = (30,30,30)

I would deeply appreciate an explanation on this behavior. Thank you for reading my question.

share|improve this question
If you are using MSVC++, the first thing to do is go to project settings and ask the compiler to disable all language extensions. Your code is not even valid C++. Formally it is not compilable. Your compiler accepted it because of the extensions being enabled. And in this case that extension led to code that simply doesn't work. – AnT Jul 23 '12 at 6:29
BTW, what is the point of branching on x == 0 (and y == 0 and z == 0) in the first operator *? Why not just multiply it without branching? Your second operator * does not branch for zero. Why does the first one do? – AnT Jul 23 '12 at 6:32
I was working on division. Somehow the concept, don't devide by zero got mixed with multiplication in my brain. Sorry about that. What do you mean that my code is not even valid c++? I thought I was writing c++? – BlueBug Jul 23 '12 at 6:38
In C++ it is illegal to attach non-cont references to temporary objects. Your operators + and * do exactly that in their return statements. This is invalid, non-compilable. – AnT Jul 23 '12 at 14:43
up vote 1 down vote accepted

operator+= signature is :

Kvector& Kvector::operator+=(const Kvector& other) 
  z +=other.z;

  return *this;

It's also a good practice to implement + usign += to reduce code duplication and as a free function.

Kvector Kvector::operator+(const Kvector& a, const Kvector& b) 
  Kvector result(a);
  result += b;
  return result;

Currently your code is returning a Kvector& for operator+ which return a reference to a local variable, which is obviously wrong.

share|improve this answer
+ can be written in one line as return Kvector(a) += b;, if one prefers it. – AnT Jul 23 '12 at 6:33
thank you for the good technique. I really appreciate it. Wish I could vote your answer up and all others for their effort but I can't since my reputation is only something like 3. Thank you. – BlueBug Jul 23 '12 at 6:36
@AndreyT: But that can be less that optimal and the form that @JoelFalcou supplied is one of the reasons that I upvoted. It explicitly returns the copy made rather than the result of operator+=. While these should be the same thing being explicit makes it easier on the optimizer to use [N]RVO and eliminate the temporary. Being explicit especially helps when the implementation of op+= is not inline: what if the implementation of op+= didn't return a reference to *this? the compiler can't tell from the signature. – Charles Bailey Jul 23 '12 at 6:52
Just a nit, but it is only a convention that operator+= return a reference, rather than a void. There's nothing formally that requires it. (Of course, it's best to follow such well established conventions.) – James Kanze Jul 23 '12 at 7:49
@Charles Bailey: It depends. I'd say that NRVO is still more "exotic" than plain RVO. – AnT Jul 23 '12 at 14:49
Kvector& Kvector::operator+(const Kvector& other){return Kvector    (x+other.x,y+other.y,z+other.z); };
Kvector& Kvector::operator*(const Kvector& other){return Kvector((x==0)?0: x*other.x,(y==0)?    y*other.y:0,(z== 0)? 0: z*other.z); };
Kvector& Kvector::operator*(const float other){return Kvector( x*other,y*other,z*other); };

You return reference to the temporary object. Incorrect. Replace Kvector& with Kvector in return-type.

share|improve this answer
thank you for your answer. I appreciate it. – BlueBug Jul 23 '12 at 6:39

You should not return a local variable in a method as reference. Result can be unexpected. Many c++ compiler should give you warning about this, such as vc++11

share|improve this answer
thank you for the advice. I will remember not to return local variables the next time. – BlueBug Jul 23 '12 at 6:40

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