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A simple scientific library for Haskell
---------------------------------------
REQUIREMENTS
Development packages of:
1) GNU Scientific Library (http://www.gnu.org/software/gsl)
2) BLAS and LAPACK (http://www.netlib.org/lapack)
3) ATLAS (recommended) (http://math-atlas.sourceforge.net/)
For example, in Ubuntu Linux we need:
- libgsl0-dev
- refblas3-dev
- lapack3-dev
- atlas3-base-dev
You can also install an atlas version specifically tuned
for your machine (e.g., atlas3-sse2-dev, atlas3-3dnow-dev, etc.).
However, do not install atlas3-sse2-dev on ubuntu 6.06 Dapper
(see the TESTS section below).
The following packages are used for simple graphics:
- gnuplot
- imagemagick
It is also a good idea to install GNU-Octave to check
that the results obtained by this library are correct...
INSTALLATION
$ runhaskell Setup.lhs configure --prefix=$HOME
$ runhaskell Setup.lhs build
$ runhaskell Setup.lhs haddock
$ runhaskell Setup.lhs install --user
See below for installation on Windows.
TESTS
$ runhaskell examples/tests
Additional tests with big matrices (taking a few minutes):
$ runhaskell examples/tests --big
NOTE: On Ubuntu 6.06 LTS (Dapper) atlas3-sse2-dev (3.6.0-20)
produces segmentation faults when working with big matrices
on compiled programs. To expose the problem:
$ cd examples
$ ghc --make -O tests.hs
$ ./tests --big
If this crashes, just uninstall atlas3-sse2 (atlas3-base-dev will be used).
Fortunately, atlas3-sse2-dev seems to work well on Ubuntu 7.10 Gutsy.
A similar problem was reported at:
http://article.gmane.org/gmane.linux.debian.devel.bugs.general/323065
EXAMPLES
$ ghci
Prelude> :m + Numeric.GSL
Prelude Numeric.GSL> let quad = integrateQNG 1E-10
Prelude Numeric.GSL> quad (^2) 0 1
(0.3333333333333333,3.700743415417188e-15)
Prelude Numeric.GSL> :m + Numeric.LinearAlgebra
Prelude Numeric.LinearAlgebra> let m = (2><3)[1,2,3,4,5,6::Double]
Prelude Numeric.LinearAlgebra> let (u,d,v) = full svd m
Prelude Numeric.LinearAlgebra> d
(2><3)
[ 9.508032000695724, 0.0, 0.0
, 0.0, 0.7728696356734838, 0.0 ]
Prelude Numeric.LinearAlgebra> u <> d <> trans v
(2><3)
[ 1.0000000000000004, 2.0, 3.0
, 3.9999999999999996, 5.000000000000001, 6.0 ]
Prelude Numeric.GSL> :q
Leaving GHCi.
A few illustrative programs are included in the examples folder.
CHANGES
This is a new version of GSLHaskell. The package is provisionally
called "hssl" (a simple scientific library for Haskell) because only
a small part of GSL is available and linear algebra is based on LAPACK.
The code has been extensively refactored. There is a new internal representation
which admits both C and Fortran matrices and avoids many transposes.
There are only minor API changes:
- The matrix product operator (<>) is now overloaded only for matrix-matrix,
matrix-vector and vector-matrix, with the same base type. Dot product and scaling
of vectors or matrices is now denoted by `dot` or (<.>) and `scale` or (.*).
Conversions from real to complex objects must now be explicit.
- Most linear algebra functions admit both real and complex objects. Utilities such as
ident or constant are now polymorphic.
- Runtime errors produced by GSL or LAPACK can be handled using Control.Exeception.catch.
Old GSLHaskell code will work with small modifications.
INSTALLATION ON WINDOWS
1) Download the developer files gsl-1.8-lib.zip from
http://gnuwin32.sourceforge.net/packages/gsl.htm
and copy the gsl folder (under include) to the include folder of ghc:
C:\ghc\ghc.6.6.1\include
2) Install the package as usual from the command line in the hssl-0.1 folder:
runhaskell Setup.lhs configure
runhaskell Setup.lhs build
runhaskell Setup.lhs install
3) Copy libgsl.dll, libcblas.dll (from the binaries package gsl-1.8.bin.zip)
and liblapack.dll (borrowed from the R system) to the folder where
hssl has been installed: C:\Program Files\haskell\hss-0.1\ghc-6.6.1.
Rename libcblas.dll to libblas.dll.
They are needed to compile programs.
These three dlls are also available from
http://perception.inf.um.es/~aruiz/darcs/HSSL/dll1.zip
4) Copy the dlls at http://perception.inf.um.es/~aruiz/darcs/HSSL/dll2.zip
to the working directory or C:\windows\system
They are required to run the programs and ghci.
Unfortunately the lapack dll supplied by the R system does not include
zgels_, zgelss_, and zgees_, so the functions depending on them
(linearSolveLS, linearSolveSVD, and schur for complex data)
will produce a "non supported in this OS" runtime error.
If you find an alternative free and complete lapack.dll which works well
for this system please let me know.
NOTE: I get a syntax error when compiling LAPACK.hs in Windows with ghc-opts -O.
Please change it to ghc-opts -O0 in hssl.cabal and build again.
You won't notice any appreciable difference in performance, but I will try to fix it asap.
ACKNOWLEDGEMENTS
I thank Henning Thielemann and all the people in the Haskell mailing lists for their help.
- Nico Mahlo discovered a bug in the eigendecomposition wrapper.
- Frederik Eaton discovered a bug in the design of the wrappers.
- Eric Kidd has created a wiki page explaining the installation on MacOS X:
http://www.haskell.org/haskellwiki/GSLHaskell_on_MacOS_X
- Fawzi Mohamed discovered a portability bug in the lapack wrappers.
- Pedro E. López de Teruel fixed the interface to lapack.
- Antti Siira discovered a bug in the plotting functions.
- Paulo Tanimoto helped to fix the configuration of the required libraries.
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