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I am looking for a library with all the functionality that is standard for linear algebra. Such as determinants, matrix inverse, multiplication... but generic.

Octave has the perfect library for double and complex arithmetic, but I need to be able to change the implementation of arithmetic.

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closed as not constructive by casperOne Mar 7 '12 at 18:05

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Here's one place to look: scicomp.stackexchange.com/questions/351/… –  David Z Mar 6 '12 at 5:34
Thanks David! There sure is a lot of stuff to choose from! –  Martin Drozdik Mar 6 '12 at 5:39

3 Answers 3

up vote 6 down vote accepted

Eigen is definitely the best matrix library in C++ at the moment.


I warmly suggest you.

For example this code creates a random 10x10 matrix and compute its inverse:

MatrixXd A(10,10);
MatrixXd B = A.inverse();

you can have access to all numerical matrix algebra things, such as decompositions, linear system solving and other geometry algorithms.

It's only headers, no external dependency, no installation. It works for a large range of compilers and is very well mantained and documented.

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I'd also recommend Eigen: it works quickly both on small, fixed-sized matrices and large, dynamically allocated matrices. However, you may also want to look at Armadillo, which has a slightly different set of features; in particular supporting arrays with 3 rather than just 2 indexes (dimensions).

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From personal experience, Armadillo is pretty good at providing functions / APIs that resemble Matlab. This is an important factor to take into account when moving between Matlab and C++ (eg. converting code for production purposes). –  mtall Feb 8 '13 at 16:39
I've never found this to be problematic with Eigen. It's also to be faster in general (sometimes by a large margin). So by default I tend to use eigen unless there's some specific reason not to. –  Eamon Nerbonne Feb 8 '13 at 22:48
To be honest though; it's mostly laziness: it's so easy to use a header-only library, and since I cross-compile stuff for gcc/msc, I really don't like taking any binary dependencies. A possible downside for eigen is that it assumes a fair amount of knowledge of implementation details: you can lose quite a bit of performance if you use dynamically allocated matrices where fixed-size is better, or by failing to take into account temporaries and aliasing. So it's key advantage is a bit fragile. –  Eamon Nerbonne Feb 8 '13 at 23:07
I had a thorough look through Armadillo's source code: the developers took pains to make the library alias safe by default (ie. the user doesn't have to worry about effects of aliasing). The library also automatically handles small matrices and vectors in a different manner, making the speed of small dynamic-sized matrices comparable to fixed-size matrices, without the user needing to explicitly declare fixed-size matrices. This is not to say that Eigen is bad, just that I've found Armadillo easier to use. –  mtall Mar 5 '13 at 8:19
@mtall: that's a good start, but that comes at a significant performance cost. Eigen is also alias-safe by default, but by marking some variables as noalias, you can avoid temporaries which makes a huge difference for small-to-medium sized matrices where a single malloc call can dominate the runtime. Similarly, just using a separate code flow for small matrices isn't enough - just the runtime branching is a noticable cost for e.g. 8d vectors (not to mention 2d or 3d), and the real problem here again is the dynamic memory allocation. –  Eamon Nerbonne Mar 5 '13 at 9:00

I've no idea the boost::uBLAS could help you. You could check their docs here: http://www.boost.org/doc/libs/1_49_0/libs/numeric/ublas/doc/index.htm, this is a basic linear algebra library.

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uBLAS is very slow. –  Eamon Nerbonne Mar 6 '13 at 10:08

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