I'm writing a basic class program and I have it all done without operator overloading, and now I want to try overloading all my operators. I'm also going to try out +, ==, !=, and << but right now I'm confused on the multiplying.

1. In the test driver, the user inputs a factor. I have this factor defined in the class but don't know how to assign it a value from the driver. Any assistance?

2. In the operator overload function I want to multiply that factor by the object. --> There are five components to the object, which is a list of numbers. Sum, Length, Mean, Minimum, and Maximum. The point of multiplying an object by a constant is to produce a class that is identical to the first, except each number in the list has been multiplied by the factor. To reach this end, all that needs to be done is to multiply the Sum by the factor, divide the new Sum by the old Length to get the new Mean, and then multiply the Min and Max by the factor.

``````Statistician Statistician::operator* (Statistician& temp)
{
Statistician Stat3;

Stat3.newLength = temp.newLength;
Stat3.newSum = (factor * temp.newSum);
Stat3.newMean = (temp.newSum / temp.newLength);
Stat3.newMaximum = (factor * temp.newMaximum);
Stat3.newMinimum = (factor * temp.newMinimum);

return Stat3;
}
``````

And here's what is in the test driver:

``````system("CLS");
cout << endl << " Multiply by factor of:  ";
cin >> // Input factor
Stat3 = Stat1 * factor;
``````

Finally, I have "factor" defined in the class, under "private" - let me know if that's wrong.

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What error are you getting? In your example, unless Factor is a variable of type Statistician, you are going to have compiler errors. The parameter in an operator overload is the object on the right side of the expression, IE Stat1*factor is equivalent to Stat1.operator*(factor);. –  Namfuak Sep 30 '13 at 16:13

You usually don't want to modify the object that you are applying `operator*` to, hence its signature would be

``````Statistician Statistician::operator* (const Statistician& temp) const;
``````

where if you call `Stat1*factor`, `*this` is `Stat1` and `temp` is `factor`. That said, you probably want to consider implementing `operator*=` and define `operator*` in terms of that. There are libraries to help you with that, see my profile for some links.

If you want to implement `operator*=`, its signature will be

``````Statistician& Statistician::operator*= (const Statistician& value);
``````

and, if `factor` could be some other type, you can overload on that type, for example:

``````Statistician& Statistician::operator*= (const int value);
``````

to allow scaling an instance of `Statistician` by an integer value. The latter seems more appropriate than storing some factor inside your class, but without seeing more of your code it's hard to tell.

Here's a suggestion for an `operator*=(const int factor)`:

``````Statistician& Statistician::operator*= (const int factor)
{
newSum *= factor;
newMean = newSum / newLength;
newMaximum *= factor;
newMinimum *= factor;
return *this;
}
``````

as you can see, things usually become easier and hence less error-prone if you do them the right way.

Now that you can call `operator*=` with a factor directly, there is no need to store a factor in your class and the class itself becomes easier. Finally, you can define `operator*` as a free function outside of your class:

``````Statistician operator* (const Statistician& lhs, const int factor )
{
Statistician result( lhs ); // make a copy
result *= factor;
return result;
}
``````

or just use one of the libraries to generate `operator*` for you.

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Thanks a bunch. I successfully implemented *= ... did some more research and found that overloading * is rare and for my purposes unnecessary. Thank you for your help! -Rachel –  404Cat Sep 30 '13 at 19:12