I want to represent a 2D shape in such a way that it can be interacted with as if it were a vector of points, in particular I want to be able to call operator
at() on it and return references to things that act like 2D points. Currently I just use a class whose only member variable is a vector of points and that has various arithmetic and geometric operations defined pointwise on its elements.
However, in other parts of my code I need to treat a vector of n points as an element of 2n dimensional space and perform basic linear algebra on it (e.g. projecting the vector onto a given subspace of R^2n). Currently I'm creating an
Eigen::VectorXd object every time I want to do this, and then converting back after performing these operations. I don't want to do this, as I make the conversion often enough that all the copying is a noticeable source of inefficiency.
If I was storing the data as a flat array of doubles/floats/ints, I could cast a pointer to its nth element to a pointer to a Point (whose members would just be a pair of doubles/floats/ints). However, as I don't know the internal representation that Eigen uses for vectors (and it may well change), this isn't possible.
Is there a sensible way of solving this? I could just use
Eigen::Vectors everywhere, but I really want most of the code to be able to pretend that it is dealing with a set of points.