|
Size: 4865
Comment: ReStructuredText formatting needs newline after {{{#!rst
|
Size: 3584
Comment:
|
| Deletions are marked like this. | Additions are marked like this. |
| Line 7: | Line 7: |
| A tentative list of external packages for SageMath (spkg, pip-installable packages, etc). | A list of external packages for SageMath (spkg, pip-installable packages, etc). |
| Line 9: | Line 9: |
| - Please free to add more packages, links, notes to `Meta-ticket #31164 <https://github.com/sagemath/sage/issues/31164>`_, which tracks the task of adding packages to Sage so that they appear in the spkg section of the Sage reference manual. | |
| Line 10: | Line 11: |
| - Feel free to add more packages, links, notes. | - Please do not duplicate information that is already available in the `spkg section of the Sage reference manual <https://doc.sagemath.org/html/en/reference/spkg/>`_. |
| Line 12: | Line 15: |
| - Use this list to add examples to the | - Use this list to add examples to the |
| Line 16: | Line 19: |
| `Template for creating Sage packages <https://github.com/cswiercz/sage_packages>`_. | `Creating External Sage Packages <https://gist.github.com/cswiercz/c632d920565a2da519b73bd2b79d7920>`_. |
| Line 18: | Line 21: |
| See also | - With the `SageMath sample package <https://github.com/sagemath/sage_sample>`_ you will find a minimal example of a Sage package. |
| Line 20: | Line 24: |
| - `Packages on PyPI matching 'sagemath' <https://pypi.python.org/pypi?%3Aaction=search&term=sagemath&submit=search>`_ |
- See an `April 2020 sage-devel thread <https://groups.google.com/d/msg/sage-devel/jOD5QaGAfHs/og91glYsAwAJ>`_ on CI infrastructure options for external Sage packages. - See `Sage GitHub wiki: Mathematical software landscape <https://github.com/sagemath/sage/wiki/Mathematical-Software-Landscape>`_ --------------- New-style SPKGs --------------- The single authoritative source for the packages integrated in the Sage distribution (SPKGs) is the `SAGE_ROOT/build/pkgs/ <https://git.sagemath.org/sage.git/tree/build/pkgs>`_ directory. Each SPKG is represented by a subdirectory. The structure of these subdirectories is explained in the `Developer's Guide <https://doc.sagemath.org/html/en/developer/packaging.html>`_. Since Sage 9.2, the `spkg section of the Sage reference manual <https://doc.sagemath.org/html/en/reference/spkg/>`_ is automatically generated from the information in ``SAGE_ROOT/build/pkgs/``. Use the following shell commands below to access the information from the `SAGE_ROOT/build/pkgs` directory of your copy of Sage: * Standard packages: ``./sage -standard`` * Installed packages: ``./sage -installed`` * Optional packages available: ``./sage -optional`` * Experimental packages available: ``./sage -experimental`` * Details about an SPKG: ``./sage -info <SPKG>`` For some advanced package tools, use ``./sage -package`` |
| Line 27: | Line 56: |
| `SageManifolds <http://sagemanifolds.obspm.fr/>`_ ------------------------------------------------- |
These packages are not (yet?) integrated in the SageMath distribution as SPKGs and have to be installed separately. |
| Line 30: | Line 59: |
| by Pablo Angulo, Michał Bejger, Éric Gourgoulhon, Marco Mancini and Travis Scrimshaw | See `Meta-ticket #31164 <https://github.com/sagemath/sage/issues/31164>`_. |
| Line 32: | Line 61: |
| cf. the metaticket `#18528 <http://trac.sagemath.org/ticket/18528>`_ |
See also https://github.com/slel/external-packages for another collection |
| Line 35: | Line 64: |
| `Modular Abelian Varities <https://github.com/williamstein/sage_modabvar>`_ --------------------------------------------------------------------------- |
-------- See also -------- |
| Line 38: | Line 68: |
| by William Stein and Hao Chen | - `Packages on PyPI matching 'sagemath' <https://pypi.org/search/?q=sagemath>`_ - `Packages on PyPI matching 'sage' and Mathematics <https://pypi.org/search/?q=sage&o=&c=Topic+%3A%3A+Scientific%2FEngineering+%3A%3A+Mathematics>`_ - `Packages on PyPI matching 'sage' and Science <https://pypi.org/search/?q=sage&o=&c=Intended+Audience+%3A%3A+Science%2FResearch>`_ |
| Line 40: | Line 73: |
| Links: - https://github.com/williamstein/sage_modabvar - https://github.com/haochenuw/sage_modabvar `Python implementation of chebfun <https://github.com/cswiercz/pychebfun>`_ --------------------------------------------------------------------------- by Chris Swierczewski `Purple Sage <https://github.com/williamstein/psage>`_ ------------------------------------------------------ by William Stein `Sébastien Labbé's research code <http://www.slabbe.org/blogue/categorie/slabbe-spkg/>`_ ---------------------------------------------------------------------------------------- by Sébastien Labbé See also this `blog post <http://www.slabbe.org/blogue/2014/08/releasing-slabbe-my-own-sage-package/>`_ Notes: - This is an spkg, rather than a standard pip-installable package. - Version 0.1 contains modules on digital geometry, combinatorics on words and more. - Version 0.2 provides modules on multidimensional continued fraction algorithms, matrix cocycles, languages and tikzpictures. - Version 0.3 to be released will be pip-installable. `CHA <https://bitbucket.org/nborie/cha>`_ ----------------------------------------- by Nicolas Borie `Sage-semigroups <https://github.com/nthiery/sage-semigroups/>`_ ---------------------------------------------------------------- by Nicolas M. Thiéry (very preliminary!!!) `Automata and semigroups <https://www.irif.univ-paris-diderot.fr/~paperman/index.php?page=sage>`_ ------------------------------------------------------------------------------------------------- by Charles Paperman `ss-isogeny-software <https://github.com/defeo/ss-isogeny-software>`_ --------------------------------------------------------------------- by Luca De Feo keywords: isogeny elliptic curve cryptography quantum `Abel Functions <https://github.com/abelfunctions/abelfunctions>`_ ------------------------------------------------------------------ by Chris Swierczewski Discussion at https://groups.google.com/d/msg/sage-devel/29ndCD8z94k/K6H2OK5TAgAJ `Schottky uniformization <https://github.com/jupsal/SchottkyUniformizationSageComputations>`_ --------------------------------------------------------------------------------------------- by Jeremy Upsal Various ideas from Schottky uniformization are implemented in Sage. These now include the SK prime function and will later include the Riemann Theta function built from a RS via Schottky uniformization due to Darren Crowdy. `flatsurf: flat surfaces <http://www.labri.fr/perso/vdelecro/flatsurf.html>`_ ----------------------------------------------------------------------------- by Vincent Delecroix and Samuel Lelièvre `sage-flatsurf: flat surfaces <https://github.com/videlec/sage-flatsurf>`_ -------------------------------------------------------------------------- by Vincent Delecroix and Pat Hooper `Lyapunov exponents for multidimensional continued fractions <https://github.com/seblabbe/lecf>`_ ------------------------------------------------------------------------------------------------- by Vincent Delecroix and Sébastien Labbé Links: - https://github.com/videlec/lecf - https://github.com/seblabbe/lecf `Sage train track <https://github.com/coulbois/sage-train-track>`_ ------------------------------------------------------------------ by Thierry Coulbois `Flagmatic <https://github.com/emil79/flagmatic>`_ -------------------------------------------------- by Emil R. Vaughan (it is a subject of a GSoC 2016 project to port it to the current Sage) |
- `Packages on github matching "Sage code" <https://github.com/search?q=%22Sage+code%22>`_ - `Packages on gitlab matching "sagemath" <https://gitlab.com/search?search=sagemath>`_ - `Packages on Google Code Archive with tag "SAGE" <https://code.google.com/archive/search?q=domain:code.google.com%20label:SAGE>`_ - `Packages on Bitbucket matching "sagemath" <https://bitbucket.org/repo/all?name=sagemath>`_ |
SageMath external packages
A list of external packages for SageMath (spkg, pip-installable packages, etc).
- Please free to add more packages, links, notes to Meta-ticket #31164, which tracks the task of adding packages to Sage so that they appear in the spkg section of the Sage reference manual.
- Please do not duplicate information that is already available in the spkg section of the Sage reference manual.
- Use this list to add examples to the Code Sharing Workflow wiki page.
- Note also Chris Swierczewski's Creating External Sage Packages.
- With the SageMath sample package you will find a minimal example of a Sage package.
- See an April 2020 sage-devel thread on CI infrastructure options for external Sage packages.
- See Sage GitHub wiki: Mathematical software landscape
New-style SPKGs
The single authoritative source for the packages integrated in the Sage distribution (SPKGs) is the SAGE_ROOT/build/pkgs/ directory. Each SPKG is represented by a subdirectory. The structure of these subdirectories is explained in the Developer's Guide.
Since Sage 9.2, the spkg section of the Sage reference manual is automatically generated from the information in SAGE_ROOT/build/pkgs/.
Use the following shell commands below to access the information from the SAGE_ROOT/build/pkgs directory of your copy of Sage:
- Standard packages: ./sage -standard
- Installed packages: ./sage -installed
- Optional packages available: ./sage -optional
- Experimental packages available: ./sage -experimental
- Details about an SPKG: ./sage -info <SPKG>
For some advanced package tools, use ./sage -package
List of external packages
These packages are not (yet?) integrated in the SageMath distribution as SPKGs and have to be installed separately.
See Meta-ticket #31164.
See also https://github.com/slel/external-packages for another collection