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I have a 2D Eigen Array where each item in the array is a 3-element Eigen Vector (e.g. a velocity field over a surface).

I want to multiply each each element of the 2D array with a 3-element Eigen RowVector, effectively taking the dot product.

    Eigen::Array<Eigen::Vector3d, Eigen::Dynamic, Eigen::Dynamic> velField(5, 5);
    Eigen::Vector3d n;
    // ... initialisation of n and velField not shown

    Eigen::Array<double, Eigen::Dynamic, Eigen::Dynamic> result(5, 5);
    result = n.transpose() * velField;

This gives a compile error YOU MIXED DIFFERENT NUMERIC TYPES. However, if I don't assign the result, but just compute it:

    n.transpose() * velField;

it compiles. What is the correct return type for 'result' - or how else can I fix this?

EDIT

The same problem can be observed in this simpler case (multiplying by a double):

Eigen::Array<Eigen::Vector3d, Eigen::Dynamic, Eigen::Dynamic> velField(5, 5);
// ... initialisation of velField not shown
Eigen::Array<Eigen::Vector3d, Eigen::Dynamic, Eigen::Dynamic> result(5, 5);
result = 3.0 * velField;

However the same code works when using std::complex<double> instead of Eigen::Vector3d:

Eigen::Array<std::complex<double>, Eigen::Dynamic, Eigen::Dynamic> velField(5, 5);
// ... initialisation of velField not shown
Eigen::Array<std::complex<double>, Eigen::Dynamic, Eigen::Dynamic> result(5, 5);
result = 3.0 * velField;

I wonder why it works for std::complex but not with Eigen::Vector3d. Both types define the operator * with a double.

share|improve this question
    
Which eigen version? 2 or 3? Which compiler you are using? – Anthony Kong Mar 21 '14 at 4:29
    
Eigen v3 and MSVS2012. – pancake Mar 21 '14 at 5:21
up vote 4 down vote accepted

After further reading, I found an answer:

According to the reference documentation of the matrix class, the first template parameter _Scalar is:

_Scalar: matrix_tparam_scalar Numeric type, e.g. float, double, int or std::complex<float>.
User defined sclar types are supported as well.

It links to this page. It lists the requirements for the "custom scalar types". In the above example Eigen::NumTraits for <Vector3d> is missing. It can't be implemented properly for Vector3d, so one should only store types that represent scalars inside an Eigen::Matrix/Eigen::Array.


Update:

The line without assignment n.transpose() * velField; works because of lazy evalutation. It also works when doing this (in C++11):

auto result = n.transpose() * velField;

But it has done no calculation at that point (check the type of result in the debugger). As soon as you use result it will fail the same way than in your first example.

share|improve this answer
    
Thanks for the answer. So it works for std::complex only because this has been implemented as a special case within Eigen? (If complex numbers 'just worked' automatically, I can't see why a Vector3D wouldn't). – pancake Mar 21 '14 at 21:23
    
Yes, Eigen::NumTraits<std::complex<T> > has been defined in the Eigen library, whereas Eigen::NumTraits<Vector3d > is not defined. Given that Vector3d is not a scalar from a vector field (in the linear algebra sense), it's not really possible to add an Eigen::NumTraits<Vector3d >. What is the "real" part of a Vector3d? – jcm Mar 22 '14 at 15:09

This is not allowed. I'd recommend to store velField as a Matrix, i.e., a 1D array of 3D vectors, and then use standard linear algebra operators.

share|improve this answer
1  
Can you elaborate why it is not allowed? Do you have a explanation why it works when using std::complex<double> instead of Eigen::Vector3d? – jcm Mar 21 '14 at 9:58

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