gyoto 1.2.0-4 source package in Ubuntu

Changelog

gyoto (1.2.0-4) unstable; urgency=low

  * Prepare for Boost >= 1.64. New patch boost1.64.

 -- Thibaut Paumard <email address hidden>  Mon, 20 Nov 2017 15:05:17 +0100

Upload details

Uploaded by:
Debian Astronomy Maintainers on 2017-11-20
Uploaded to:
Sid
Original maintainer:
Debian Astronomy Maintainers
Architectures:
any all
Section:
science
Urgency:
Low Urgency

See full publishing history Publishing

Series Pocket Published Component Section
Bionic release on 2017-11-22 universe science

Downloads

File Size SHA-256 Checksum
gyoto_1.2.0-4.dsc 3.0 KiB 71a9c90c70009e17a908554fc68dbe61194540aa173c77f154f0bba49784f01e
gyoto_1.2.0.orig.tar.gz 1.8 MiB 1e82889a9f72edf0cfb26b5663f2357bd0956098b38b34c2c58252f97673da3e
gyoto_1.2.0-4.debian.tar.xz 11.7 KiB eadbcd247ade354b5f2138e016f8d853a15cbf9273b68c3d11d6420ee07c9b1f

No changes file available.

Binary packages built by this source

gyoto: General relativistic geodesic integration and ray-tracing

 Gyoto is a framework for computing geodesics in curved
 space-times. The gyoto utility program uses this framework to compute
 images of astronomical objects in the vicinity of compact objects
 (e.g. black-holes). Such images are distorted by strong gravitational
 lensing. The gyoto program takes a scenery description in XML format,
 computes this scenery using relativistic ray-tracing, and saves the
 result in FITS format.
 .
 This metapackage depends on all the Gyoto interfaces (command-line, Yorick,
 Python 2 and 3).
 .
 MPI parallelization requires the mpi-default-bin package. The Gyoto
 documentation is provided in the gyoto-doc package.

gyoto-bin: General relativistic ray-tracing command-line interface

 Gyoto is a framework for computing geodesics in curved
 space-times. The gyoto utility program uses this framework to compute
 images of astronomical objects in the vicinity of compact objects
 (e.g. black-holes). Such images are distorted by strong gravitational
 lensing. The gyoto program takes a scenery description in XML format,
 computes this scenery using relativistic ray-tracing, and saves the
 result in FITS format.
 .
 This package contains the `gyoto' command-line utility. More complex
 uses of the Gyoto framework can be achieved using the yorick-gyoto,
 python-gyoto or python3-gyoto packages. Gyoto can be extended with
 plug-ins (see libgyoto6-dev).
 .
 MPI parallelization requires the mpi-default-bin package.

gyoto-dbg: debugging symbols for the Gyoto framework

 Gyoto aims at providing a framework for computing orbits and
 ray-traced images in General relativity. It consists in a shared
 library (this package), utility programs (in the gyoto package), and
 a plug-in for the Yorick and Python 2 and 3 programming language (in
 yorick-gyoto, python-gyoto and python3-gyoto).
 .
 This package contains the debugging symbols for the gyoto-bin,
 libgyoto6, yorick-gyoto, python-gyoto and python3-gyoto packages.

gyoto-doc: documentation for the Gyoto library

 Gyoto aims at providing a framework for computing orbits and
 ray-traced images in General relativity. It consists in a library
 (libgyoto), utility programs, and a plug-in for the Yorick programming
 language.
 .
 This package contains the Gyoto Reference Manual.

libgyoto6: Gyoto framework main library an standard plug-in

 Gyoto aims at providing a framework for computing orbits and
 ray-traced images in General relativity. It consists in a shared
 library (this package), utility programs (in the gyoto package), and
 a plug-in for the Yorick and Python 2 and 3 programming languages (in
 yorick-gyoto, python-gyoto and python3-gyoto respectively). Gyoto can
 be extended with plug-ins (see libgyoto6-dev).
 .
 The standard plugin (stdplug) is included in this package. Plug-ins
 for extending Gyoto in the Python 2 or 3 languages are shipped in the
 python-gyoto and python3-gyoto packages respectively.
 .
 MPI parallelization requires the gyoto-bin and mpi-default-bin packages.

libgyoto6-dev: development files for libgyoto

 Gyoto aims at providing a framework for computing orbits and
 ray-traced images in General relativity.
 .
 This package provides the files necessary to compile Gyoto plugins
 and codes using the libgyoto library.

python-gyoto: General relativistic geodesic integration for the Python 2 language

 Gyoto aims at providing a framework for computing orbits and
 ray-traced images in General relativity.
 .
 This package also includes a Gyoto plug-in allowing to write new
 Gyoto objects in the Python 2 language.
 .
 This package provides an extension for the Python 2 programming language
 exposing the Gyoto facilities. It allows using Gyoto interactively
 from the Python prompt or running complex Gyoto scripts.

python3-gyoto: General relativistic geodesic integration for the Python 3 language

 Gyoto aims at providing a framework for computing orbits and
 ray-traced images in General relativity.
 .
 This package also includes a Gyoto plug-in allowing to write new
 Gyoto objects in the Python 3 language.
 .
 This package provides an extension for the Python 3 programming language
 exposing the Gyoto facilities. It allows using Gyoto interactively
 from the Python 3 prompt or running complex Gyoto scripts.

yorick-gyoto: General relativistic geodesic integration for the Yorick language

 Gyoto aims at providing a framework for computing orbits and
 ray-traced images in General relativity.
 .
 This package provides a plug-in for the Yorick programming language
 exposing the Gyoto facilities. It allows using Gyoto interactively
 from the yorick prompt or running complex Gyoto scripts.