package gsl

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GSL - Bindings to the GNU Scientific Library

Install

Dune Dependency

Authors

Maintainers

Sources

gsl-1.24.3.tbz
sha256=366f2becd41603fd64b1e5f5e9b5b5556c648c18b62e3c6344542898d763ffd6
sha512=c6e2578618591d1bef428693b69026cdea0f1606cd25d9f02d637a90256a5685eee70ecd0259d2595a1cd7b292c34e3c913c007e2706aa125af045d37e55d9c4

README.md.html

GSL-OCaml - GSL-Bindings for OCaml

GSL-OCaml is an interface to the GSL (GNU scientific library) for the OCaml-language. The currently latest GSL-version known to be compatible is 2.0.

Requirements

The platform must not align doubles on double-word addresses, i.e. the C-macro ARCH_ALIGN_DOUBLE must be undefined in the OCaml C-configuration header in <caml/config.h>.

Configuring alternative BLAS-libraries

The underlying GSL-library depends on a C-implementation of the BLAS-library (Basic Linear Algebra Subroutines). It comes with its own implementation, gslcblas, which GSL will link with by default.

This implementation is usually considerably slower than alternatives like OpenBLAS or ATLAS (Automatically Tuned Linear Algebra Software) or miscellaneous platform-specific vendor implementations.

If you want GSL-OCaml to link with another BLAS-implementation by default, you will need to set an environment variable before starting the build process (e.g. before opam install):

$ export GSL_CBLAS_LIB=-lopenblas

Note that on Mac OS X GSL-OCaml requires the Apple-specific, highly optimized vendor library vecLib, which is part of the Accelerate-framework, and will automatically link with it. If you do not wish to use Accelerate you can override it; for a Homebrew-installed OpenBlas in the usual place you then need to

export GSL_CBLAS_LIB="-L/usr/local/opt/openblas/lib/ -lopenblas"

Documentation

Read the GSL manual to learn more about the GNU Scientific Library, and also the GSL-OCaml API.

Usage Hints

Vectors and Matrices

There are several data types for handling vectors and matrices.

  • Modules Gsl.Vector, Gsl.Vector.Single, Gsl.Vector_complex, Gsl.Vector_complex.Single, and the corresponding matrix modules use bigarrays with single or double precision and real or complex values.

  • Modules Gsl.Vector_flat, Gsl.Vector_complex_flat, and the corresponding matrix modules use a record wrapping a regular OCaml float array. This is the equivalent of the gsl_vector and gsl_matrix structs in GSL.

  • Module Gsl.Vectmat defines a sum type with polymorphic variants that regroups these two representations. For instance:

    Gsl.Vectmat.v_add (`V v1) (`VF v2)
    

    adds a vector in an OCaml array to a bigarray.

  • Modules Gsl.Blas Gsl.Blas_flat and Gsl.Blas_gen provide a (quite incomplete) interface to CBLAS for these types.

ERROR HANDLING

Errors in GSL functions are reported as exceptions:

Gsl.Error.Gsl_exn (errno, msg)

You have to call Gsl.Error.init () to initialize error reporting. Otherwise, the default GSL error handler is used and aborts the program, leaving a core dump (not so helpful with OCaml).

If a callback (for minimizers, solvers, etc.) raises an exception, GSL-OCaml either returns GSL_FAILURE or NaN to GSL depending on the type of callback. In either case the original OCaml exception is not propagated. The GSL function will either return normally (but probably with values containing NaNs somewhere) or raise a Gsl_exn exception.

Contact Information and Contributing

Please submit bugs reports, feature requests, contributions and similar to the GitHub issue tracker.

Up-to-date information is available at: https://mmottl.github.io/gsl-ocaml

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