Les deux révisions précédentes Révision précédente Prochaine révision | Révision précédente Prochaine révisionLes deux révisions suivantes |
floss:python [2021/10/04 08:25] – [À classer :] villersd | floss:python [2022/04/21 09:10] – [Livres] villersd |
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* [[http://www.southampton.ac.uk/~fangohr/teaching/python/book.html|Python for Computational Science and Engineering]] | * [[http://www.southampton.ac.uk/~fangohr/teaching/python/book.html|Python for Computational Science and Engineering]] |
* Python 101 & Python 201, par Michael Driscoll | * Python 101 & Python 201, par Michael Driscoll |
* [[http://www.labri.fr/perso/nrougier/from-python-to-numpy/|From Python to Numpy]], 2017 - Nicolas P. Rougier | * livres de Nicolas Rougier : [[https://github.com/rougier]] |
| * [[https://github.com/rougier/scientific-visualization-book|Scientific Visualization: Python & Matplotlib]] |
| * [[http://www.labri.fr/perso/nrougier/from-python-to-numpy/|From Python to Numpy]], 2017 - Nicolas P. Rougier |
* [[https://press.princeton.edu/books/paperback/9780691223650/a-students-guide-to-python-for-physical-modeling|A Student's Guide to Python for Physical Modeling: Second Edition]] Jesse M. Kinder and Philip Nelson, Princeton University Press, 2021, ISBN: 9780691223650 | * [[https://press.princeton.edu/books/paperback/9780691223650/a-students-guide-to-python-for-physical-modeling|A Student's Guide to Python for Physical Modeling: Second Edition]] Jesse M. Kinder and Philip Nelson, Princeton University Press, 2021, ISBN: 9780691223650 |
* Livres sur [[http://en.wikibooks.org/wiki/Main_Page|wikibooks]] : | * Livres sur [[http://en.wikibooks.org/wiki/Main_Page|wikibooks]] : |
* Tutoriels ciblés : | * Tutoriels ciblés : |
* [[http://www.analyticsvidhya.com/blog/2015/06/regular-expression-python/|Beginners Tutorial for Regular Expressions in Python]] | * [[http://www.analyticsvidhya.com/blog/2015/06/regular-expression-python/|Beginners Tutorial for Regular Expressions in Python]] |
| * [[https://medium.com/@valeria.aynbinder.edu/python-regular-expressions-cheat-sheet-cd0992c36f6f|Python Regular Expressions — cheat sheet - Many code examples + useful tips]] Valeria Aynbinder, Medium, 17/03/2022 |
* [[http://people.duke.edu/~ccc14/sta-663/index.html|Computational Statistics in Python]] (y compris quelques informations plus générales) | * [[http://people.duke.edu/~ccc14/sta-663/index.html|Computational Statistics in Python]] (y compris quelques informations plus générales) |
* [[http://www.programiz.com/python-programming|Python programming tutorial sur Programiz]] | * [[http://www.programiz.com/python-programming|Python programming tutorial sur Programiz]] |
* [[http://www.simplecv.org/|SimpleCV]] : interface simplifié à OpenCV : "computer vision made easy" | * [[http://www.simplecv.org/|SimpleCV]] : interface simplifié à OpenCV : "computer vision made easy" |
* [[https://github.com/ojii/pymaging|pymaging]] (pure python) | * [[https://github.com/ojii/pymaging|pymaging]] (pure python) |
* [[http://www.vpython.org/|Vpython]] (**la version sous python3 (yc glowscript) ne semble pas compatible avec la version antérieure sous python2**, visual python, permet la programmation d'animations 3D simples (balles, rebonds, graphes,...). [[http://guigui.developpez.com/Tutoriel/Python/frvpython/webdoc/visual/index.php|traduction française du tutoriel de la version 3]] | * GlowScript : [[https://www.glowscript.org/|glowscript.org]] reprend les objectifs de [[http://www.vpython.org/|Vpython]], (sous Python 3), permet la programmation d'animations 3D simples (balles, rebonds, graphes,...). |
| * [[https://rjallain.medium.com/a-physicists-guide-to-functions-in-python-9aec73cc4dcb|A Physicist’s Guide to Functions in Python]], Rhett Allain, Medium, 17/12/2020 |
| * [[https://rjallain.medium.com/examples-of-stokes-theorem-and-the-divergence-theorem-using-python-2f4be23b81d4|Examples of Stoke’s Theorem and the Divergence Theorem Using Python]] Rhett Allain, Medium, 01/03/2022 |
* [[http://www.visualrelativity.com/vpython/|VPython applications for Teaching Physics]] | * [[http://www.visualrelativity.com/vpython/|VPython applications for Teaching Physics]] |
* [[http://spe.num.edu.mn/altankhuu/web2/vpython.html|Visual Python demos]] (ne fonctionnent pas toutes) | * [[http://spe.num.edu.mn/altankhuu/web2/vpython.html|Visual Python demos]] (ne fonctionnent pas toutes) |
* [[http://new.math.uiuc.edu/math198/repo/illipython/stanblank/pyopengl/collision.py|collision.py]] et répertoires parents | * [[http://new.math.uiuc.edu/math198/repo/illipython/stanblank/pyopengl/collision.py|collision.py]] et répertoires parents |
* [[http://vpython.wikidot.com/|Vpython wiki site]] | |
* GlowScript : [[https://www.glowscript.org/|glowscript.org]] reprend les objectifs de Vpython, (sous Python 3) | |
* cf. exemples, articel [[https://rjallain.medium.com/a-physicists-guide-to-functions-in-python-9aec73cc4dcb]],... | |
* [[http://code.google.com/p/visvis/|Visvis]] : approche orientée objet de la visualisation | * [[http://code.google.com/p/visvis/|Visvis]] : approche orientée objet de la visualisation |
* [[http://www.pyzo.org|Pyzo]] : environnement d'analyse de données et de visualisation | * [[http://www.pyzo.org|Pyzo]] : environnement d'analyse de données et de visualisation |