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I'm working with the templated Matrix class in the Eigen linear algebra library (link). The Matrix class takes three nominal template parameters:

Matrix<type, rows, cols>

In the above, an example of type is double, or std::complex<double>. In addition, rows is the number of rows, and cols is the number of columns in the Matrix.

As shown by the code below, what I would like to do is use a different templated Matrix class at run-time using a conditional statement.

The first solution that comes to mind might be to use void pointers.

#include <iostream>
#include <Eigen/Dense>
#include <complex>

using namespace Eigen;

int main()

{  
    // this flag is set at run-time, but it is only set here
    // in the code as an example
    int create_complex = 1;
    void *M;

        if(create_complex)
    {
        Matrix<std::complex<double>,3,3> m0;
        M = &m0;
    }
    else
    {
        Matrix<double,3,3> m0;
        M = &m0;
    }
    // de-reference pointer here and use it    

 return 0;
}

Although this code compiles, the void *M pointer needs to be explicitly de-referenced before use. This is inconvenient, since I then have to write different code blocks for the same program logic.

I am wondering if there is something similar to polymorphism that might be applied here, where I don't have to use void pointers.

share|improve this question
    
The create_complex flag is not known at compile time. I am simply using create_complex as an example. –  Nicholas Kinar Dec 6 '12 at 21:23
    
Do you mind using boost::variant ? I'd try very hard to avoid being in your situation (maybe a little more background would help us help you), but if I must, I'd go with it. –  Alexandre C. Dec 6 '12 at 21:25
    
@AlexandreC.: Sure, I would like to use boost::variant. I've used the boost library before, but I can't say that I've heard of that particular container. It seems very interesting. How might I use it? –  Nicholas Kinar Dec 6 '12 at 21:28
1  
Boost variant will allow you to define a type that can store either a Matrix<double, n, m> or a Matrix<complex<double>, n, m>. This way, you don't need a pointer to void. Again, there may be a better way to write the code. –  Alexandre C. Dec 6 '12 at 21:32
    
Thanks, Alexandre C. Boost variant is indeed very nice. Hooray for boost! –  Nicholas Kinar Dec 6 '12 at 22:01

3 Answers 3

up vote 1 down vote accepted

You should templatize your method too:

template<class T>
my_main() { 

   Matrix<T,3,3> m0;

   // ...


}

UPDATE

Or you can define your class

#ifndef CREATE_COMPLEX
    typedef double MyClass;
#else
    typedef std::complex<double> MyClass;
#endif

main() { 

   Matrix<MyClass,3,3> m0;

   // ...


}

you can switch these definitions with preprocessor definition.

share|improve this answer
    
Sure, the method could be templatized, and then I wouldn't have to deal with the void pointers. Thanks, Dims. –  Nicholas Kinar Dec 6 '12 at 21:34

You can write your own function as a template based on the matrix type and call different versions of that in the conditionals.

This is the only way because templates are for generating code at compile time. You must generate all code paths at compile time and then just select one of them.

share|improve this answer
    
Thanks for pointing this out. –  Nicholas Kinar Dec 6 '12 at 21:38

This is inconvenient

If you read "inconvenient" as "illegal", then you're spot on.

The local variables are destroyed when their scope ends (i.e. the closing }), so you're left with a dangling pointer. So you'll run into undefined behavior when trying to de-reference it.

There's no easy way to do this, because Matrix<std::complex<double>,3,3> and Matrix<double,3,3> are completely unrelated classes. I'll say it again. They are completely unrelated classes.

An alternative is that Matrix has a base type and you have a pointer to that, but then you'd need dynamic allocation. Something like:

BaseMatrix* m;
if ()
    m = new Matrix<std::complex<double>,3,3>;
else 
    m = new Matrix<double,3,3>;
share|improve this answer
    
@Lucian: Thanks, Luchian; that makes sense. –  Nicholas Kinar Dec 6 '12 at 21:29

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