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I would like to eliminate duplicity of code in this problem:

class PopulationMember
{
public:
    vector<int> x_;
    vector<int> y_;
}

class Population
{
    vector<PopulationMember*> members_;

    void doComputationforX_1();  // uses the attribute x_ of all members_
    void doComputationforX_2();  
    void doComputationforX_3();

    void doComputationforY_1();  // exactly same as doComputationforX_1, but 
    void doComputationforY_2();  // uses the attribute y_ of all members_
    void doComputationforY_3();  

 EDIT: // there are also functions that use all the members_ simultaniously

    double standardDeviationInX(); // computes the standard deviation of all the x_'s
    double standardDeviationInY(); // computes the standard deviation of all the y_'s
}

The duplicity is causing me to have 6 methods instead of 3. The pairwise similarity is so striking, that I can get the implementation of doComputationforY_1 out of doComputationforX_1 by simply replacing the "x_" by "y_".

I thought about remaking the problem in this way:

class PopulationMember
{
public:
    vector<vector<int>> data_; // data[0] == x_ and data[1] == y_ 
} 

But it becomes less clear this way.

I know that a precompiler macro is a bad solution in general, but I do not see any other. My subconciousness keeps suggesting templates, but I just do not see how can I use them.

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2 Answers 2

up vote 2 down vote accepted

If you want to keep x_ and y_ separately in the same class PopulationMember then it's better to choose pass by value solution rather than template solution:

Define the generic method as:

void doComputationfor (vector<int> (PopulationMember::*member_));
                // pointer to data  ^^^^^^^^^^^^^^^^^^^^^^^^^^

Call it as:

doComputationfor(&PopulationMember::x_);
doComputationfor(&PopulationMember::y_);

Remember that if your doComputationfor is large enough then, imposing template method would make code duplication.
With the pointer to member method, you will avoid the code duplication with a little runtime penalty.

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1  
Oh wow, it never occurred to me, that there is such a thing as pointer to member! Thanks! It seems that I should hit the C++ books some more :) –  Martin Drozdik Mar 8 '12 at 5:05
    
@MartinDrozdik, if you are new to this concept then, for startup you can also refer pointer to data member and pointer to function member for knowing how to call them. There is lot of such info on internet. –  iammilind Mar 8 '12 at 5:10
    
Thank you very much! –  Martin Drozdik Mar 8 '12 at 5:16

If the API you have specified is exactly what you want users of the class to see, then just make private methods in Population called doComputation_1( const vector<int> &v ) { do stuff on v; }

And then make the public implementations 1 line long:

public:
    void DoComputationX_1() { doComputation_1( x_ ); }
    void DoComputationY_1() { doComputation_1( y_ ); }
private:
    // drop the 'const' if you will need to modify the vector
    void doComputation_1( const vector<int> &v ) { do stuff on v; }

I don't feel like this is the right solution, but I can't piece together what your class is really trying to do in order to offer up anything more meaningful.

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Sorry I did not specify my question well enough. I need to make computation using all the data at once. But Thank you anyway! –  Martin Drozdik Mar 8 '12 at 5:08

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