[![Actions Status](https://github.com/frithnanth/raku-Math-Libgsl-Permutation/workflows/test/badge.svg)](https://github.com/frithnanth/raku-Math-Libgsl-Permutation/actions) [![Build Status](https://travis-ci.org/frithnanth/raku-Math-Libgsl-Permutation.svg?branch=master)](https://travis-ci.org/frithnanth/raku-Math-Libgsl-Permutation) NAME ==== Math::Libgsl::Permutation - An interface to libgsl, the Gnu Scientific Library - Permutations. SYNOPSIS ======== ```perl6 use Math::Libgsl::Raw::Permutation :ALL; use Math::Libgsl::Permutation; ``` DESCRIPTION =========== Math::Libgsl::Permutation provides an interface to the permutation functions of libgsl, the GNU Scientific Library. This package provides both the low-level interface to the C library (Raw) and a more comfortable interface layer for the Raku programmer. ### new(:$elems!) ### new($elems!) The constructor accepts one parameter: the number of elements in the permutation; it can be passed as a Pair or as a single value. The permutation object is already initialized to the identity (0, 1, 2 … $elems - 1). ### init() This method initialize the permutation object to the identity and returns **self**. ### copy($src! where * ~~ Math::Libgsl::Permutation) This method copies the permutation **$src** into the current permutation object and returns **self**. ### get(Int $elem! --> Int) This method returns the permutation value at position **$elem**. ### all(--> Seq) This method returns a Seq of all the elements of the current permutation. ### swap(Int $elem1!, Int $elem2!) This method swamps two elements of the current permutation object and returns **self**. ### size(--> Int) This method returns the size of the current permutation object. ### is-valid(--> Bool) This method checks whether the current permutation is valid: the n elements should contain each of the numbers 0 to n - 1 once and only once. ### reverse() This method reverses the order of the elements of the current permutation object. ### inverse($dst! where * ~~ Math::Libgsl::Permutation) This method computes the inverse of the current permutation and stores the result into **$dst**. ### next() ### prev() These functions advance or step backwards the permutation and return **self**, useful for method chaining. ### bnext(--> Bool) ### bprev(--> Bool) These functions advance or step backwards the permutation and return a Bool: **True** if successful or **False** if there's no more permutation to produce. ### permute(@data!, Int $stride! --> List) This method applies the current permutation to the **@data** array with stride **$stride**. ### permute-inverse(@data!, Int $stride! --> List) This method applies the inverse of the current permutation to the **@data** array with stride **$stride**. ### permute-complex64(Complex @data!, Int $stride! --> List) This method applies the current permutation to the **@data** array array of Complex with stride **$stride**. ### permute-complex64-inverse(Complex @data!, Int $stride! --> List) This method applies the inverse of the current permutation to the **@data** array of Complex with stride **$stride**. ### permute-complex32(Complex @data!, Int $stride! --> List) This method applies the current permutation to the **@data** array array of Complex with stride **$stride**, trating the numbers as single precision floats. ### permute-complex32-inverse(Complex @data!, Int $stride! --> List) This method applies the inverse of the current permutation to the **@data** array of Complex with stride **$stride**, trating the numbers as single precision floats. ### permute-vector(Math::Libgsl::Vector $v) This method applies the permutation to a Vector object and returns the Vector object itself. As in the case of the Vector object, this method is available for all the supported data type, so we have * permute-vector-num32 * permute-vector-int32 * permute-vector-uint32 …and so on. ### permute-vector-inv(Math::Libgsl::Vector $v) This method applies the inverse permutation to a Vector object and returns the Vector object itself. As in the case of the Vector object, this method is available for all the supported data type, so we have * permute-vector-inv-num32 * permute-vector-inv-int32 * permute-vector-inv-uint32 …and so on. ### permute-matrix(Math::Libgsl::Matrix $m) This method applies the permutation to a Matrix object and returns the Matrix object itself. As in the case of the Matrix object, this method is available for all the supported data type, so we have * permute-matrix-num32 * permute-matrix-int32 * permute-matrix-uint32 …and so on. ### write(Str $filename! --> Int) This method writes the permutation data to a file. ### read(Str $filename! --> Int) This method reads the permutation data from a file. The permutation must be of the same size of the one to be read. ### fprintf(Str $filename!, Str $format! --> Int) This method writes the permutation data to a file, using the format specifier. ### fscanf(Str $filename!) This method reads the permutation data from a file. The permutation must be of the same size of the one to be read. ### multiply($dst! where * ~~ Math::Libgsl::Permutation, $p2! where * ~~ Math::Libgsl::Permutation) This method combines the current permutation with the permutation **$p2**, stores the result into **$dst** and returns **self**. ### to-canonical($dst! where * ~~ Math::Libgsl::Permutation) This method computes the canonical form of the current permutation, stores the result into **$dst** and returns **self**. ### to-linear($dst! where * ~~ Math::Libgsl::Permutation) This method computes the linear form of the current permutation, stores the result into **$dst** and returns **self**. ### inversions(--> Int) This method counts the number of inversions in the current permutation. ### linear-cycles(--> Int) This method counts the number of cycles in the current permutation given in linear form. ### canonical-cycles(--> Int) This method counts the number of cycles in the current permutation given in canonical form. C Library Documentation ======================= For more details on libgsl see [https://www.gnu.org/software/gsl/](https://www.gnu.org/software/gsl/). The excellent C Library manual is available here [https://www.gnu.org/software/gsl/doc/html/index.html](https://www.gnu.org/software/gsl/doc/html/index.html), or here [https://www.gnu.org/software/gsl/doc/latex/gsl-ref.pdf](https://www.gnu.org/software/gsl/doc/latex/gsl-ref.pdf) in PDF format. Prerequisites ============= This module requires the libgsl library to be installed. Please follow the instructions below based on your platform: Debian Linux and Ubuntu 20.04 ----------------------------- sudo apt install libgsl23 libgsl-dev libgslcblas0 That command will install libgslcblas0 as well, since it's used by the GSL. Ubuntu 18.04 ------------ libgsl23 and libgslcblas0 have a missing symbol on Ubuntu 18.04. I solved the issue installing the Debian Buster version of those three libraries: * [http://http.us.debian.org/debian/pool/main/g/gsl/libgslcblas0_2.5+dfsg-6_amd64.deb](http://http.us.debian.org/debian/pool/main/g/gsl/libgslcblas0_2.5+dfsg-6_amd64.deb) * [http://http.us.debian.org/debian/pool/main/g/gsl/libgsl23_2.5+dfsg-6_amd64.deb](http://http.us.debian.org/debian/pool/main/g/gsl/libgsl23_2.5+dfsg-6_amd64.deb) * [http://http.us.debian.org/debian/pool/main/g/gsl/libgsl-dev_2.5+dfsg-6_amd64.deb](http://http.us.debian.org/debian/pool/main/g/gsl/libgsl-dev_2.5+dfsg-6_amd64.deb) Installation ============ To install it using zef (a module management tool): $ zef install Math::Libgsl::Permutation AUTHOR ====== Fernando Santagata COPYRIGHT AND LICENSE ===================== Copyright 2020 Fernando Santagata This library is free software; you can redistribute it and/or modify it under the Artistic License 2.0.