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Permutation Group Library

This code contains permutation group code adapted from GAP. The goal is to have permutation groups and the partition backtrack.

Downloading code

Full source code to be downloaded is from

$ git clone [email protected]:MathieuDutSik/permutalib.git --recursive

or

$ git clone http://github.com/MathieuDutSik/permutalib.git --recursive

Usage

  • The first step is to choose the data type for the permutation. For example:
using Tidx = int16_t;
using Telt = permutalib::SingleSidedPerm<Tidx>;

The number of elements on which the group can act is 2^16 - 1.

  • The permutation element is build as
std::vector<Tidx> eList(10);
Telt eElt(eList);
  • The second step is to choose an integer type. For example:
using Tint = mpz_class;

This integer type is used for computing order of groups. Since the size can grow pretty large (The symmetric group has n! elements) an arbitrary large integer type is needed.

  • The permutation group is built as
std::vector<Telt> ListGen;
permutalib::Group<Telt,Tint> eG(ListGen, n);
permutalib::Face subset1, subset1;
permutalib::Group<Telt,Tint> stab = eG.Stabilizer_OnSets(subset1);
std::pair<bool, Telt> test = eG.RepresentativeAction_OnSets(subset1, subset2);
Face subset1_can = eG.CanonicalImage(subset1);
  • See Group.h for the full functionality and the examples.

Rationale

The code in GAP is a very good basis for computing with permutation group and this author was very satisfied with its speed and functionality (only one case related to shortest vectors of Leech lattice created problems).

However, GAP itself had some problems:

  • While the permutation code is very good, GAP itself is slow
  • We want the code of permutation group accessible as a library.
  • We want parallel code using groups.
  • The benefits of C++ (speed, templates) are very attractive for this kind of code.

The permlib code (https://github.com/tremlin/PermLib) provided a solution to this problem. It is a reimplementation of the algorithms and generally very satisfying. However, in some cases it was very very slow compared to the GAP code. This made it unusable in many contexts.

Thus the idea is to simply recode the GAP code into C++ in order to achieve this. Idea is really not to try to be too clever and adapt the code accordingly. We work with gap-4.7.8 as reference gap source code implementation.

The library is single threaded but it can be used into multithreaded code because the code is thread safe. There is no global variable used.

Design choices

There are some differences that we have decided to do with the existing GAP code:

  • The GAP uses a shared pointer (i.e. std::shared_ptr) semantic for storing the permutation. This can be seen by taking a very long permutation and taking 10000 copy of it: memory usage barely changes. We do not use shared pointer and instead use a std::vector and we store the common vectors.
  • The GAP code uses a linked list recursive data structure (i.e. struct GRP { ....., GRP* stab}). We follow this convention as well after trying to use a std::vector for storing.
  • The GAP code has deterministic random algorithms. It means that if you run again a GAP program you get exactly the same result. The C++ code uses simple rand() but we have the option of getting random number as in GAP in order to reproduce bugs.
  • The permutalib code uses just a single type for the permutation.

Licensing

The GPLv2 licensing is available from the GAP. The LGPL licensing is available so that the library can be used in other programs.

Contact information

Contact Mathieu Dutour Sikiric at [email protected] in case of any question.

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