Opened 6 years ago
Last modified 7 months ago
#18528 new task
SageManifolds metaticket — at Version 28
Reported by: | egourgoulhon | Owned by: | egourgoulhon |
---|---|---|---|
Priority: | major | Milestone: | |
Component: | geometry | Keywords: | manifold, tensor, differential geometry |
Cc: | mbejger, mmancini, tscrim, bpillet, gh-LBrunswic, gh-mjungmath | Merged in: | |
Authors: | Eric Gourgoulhon, Michal Bejger, Marco Mancini | Reviewers: | |
Report Upstream: | N/A | Work issues: | |
Branch: | Commit: | ||
Dependencies: | #18175 | Stopgaps: |
Description (last modified by )
This is the implementation of manifolds resulting from the SageManifolds project.
Algebraic part
- Tensors on free modules of finite rank: #15916 (merged in Sage 6.6)
- Parallelization of tensor computations on free modules of finite rank: #18100 (merged in Sage 6.10)
- Improve category for finite rank free modules and provide list functionality for basis: #20770 (merged in Sage 7.3.beta3)
Topological and differential part
- Topological manifolds (over R, C or a topological field K):
- Differentiable manifolds (over R, C or a non-discrete topological field K):
- Complex and almost complex manifolds:
- almost complex structures through Hodge structures: #18786
Change History (28)
comment:1 Changed 6 years ago by
- Description modified (diff)
comment:2 Changed 6 years ago by
- Cc bpillet added
- Description modified (diff)
comment:3 Changed 6 years ago by
- Description modified (diff)
- Summary changed from SageManifolds meta-ticket to SageManifolds metaticket
comment:4 Changed 6 years ago by
- Description modified (diff)
comment:5 Changed 6 years ago by
- Description modified (diff)
comment:6 Changed 6 years ago by
- Description modified (diff)
- Milestone changed from sage-6.8 to sage-6.9
comment:7 Changed 6 years ago by
- Description modified (diff)
comment:8 Changed 6 years ago by
- Description modified (diff)
comment:9 Changed 6 years ago by
- Keywords manifold tensor added; manifolds tensors removed
comment:10 Changed 6 years ago by
- Description modified (diff)
comment:11 Changed 6 years ago by
- Description modified (diff)
comment:12 Changed 6 years ago by
- Milestone changed from sage-6.9 to sage-6.10
comment:13 Changed 6 years ago by
All the tickets are now based on the category ticket #18175, so that the manifold categories are
Manifolds(K)
for topological manifolds over a topological field KManifolds(K).Differentiable()
for differentiable manifoldsManifolds(K).Smooth()
for smooth manifolds
comment:14 follow-up: ↓ 15 Changed 6 years ago by
Something I would like to see once the basics are done is a catalog of examples and common interesting manifolds:
- n-sphere
- n-torus
- real/complex projective n-space
- surfaces
- (Affine) Grassmannians
- Classical Lie groups (more for my info, a description of charts is on page 5 of https://www.dpmms.cam.ac.uk/~agk22/mfds.pdf, but this probably isn't a good atlas for doing computations)
I understand that some of these could be considered more wishlist than others. Some other wishlist items:
- Morse theory to compute homology of manifolds.
- Manifolds with boundary
- Cartesian products of manifolds (or more generally, fiber bundles)
- DeRham? cohomology (see, e.g., lecture notes above)
comment:15 in reply to: ↑ 14 Changed 6 years ago by
Replying to tscrim:
Something I would like to see once the basics are done is a catalog of examples and common interesting manifolds:
Thanks for these suggestions. For sure, one should have a catalog of standard manifolds. For the time being, there are only examples available as worksheets at http://sagemanifolds.obspm.fr/examples.html, for instance
- the 2-sphere at http://sagemanifolds.obspm.fr/examples/html/SM_sphere_S2.html
- the real projective plane at http://sagemanifolds.obspm.fr/examples/html/SM_projective_plane_RP2.html
- the hyperbolic plane at http://nbviewer.ipython.org/github/sagemanifolds/SageManifolds/blob/master/Worksheets/v0.8/SM_hyperbolic_plane.ipynb
I understand that some of these could be considered more wishlist than others. Some other wishlist items:
- Morse theory to compute homology of manifolds.
- Manifolds with boundary
- Cartesian products of manifolds (or more generally, fiber bundles)
- DeRham? cohomology (see, e.g., lecture notes above)
All the above seem indeed desirable extensions. Even if they are not implemented yet, we should have them in mind when setting the basics.
comment:16 Changed 6 years ago by
PS: could you point to some existing catalog in Sage, in order to have some example?
comment:17 follow-up: ↓ 18 Changed 6 years ago by
algebras.<tab>
insage/algebras/catalog.py
crystals.<tab>
insage/combinat/crystals.catalog.py
designs.<tab>
insage/combinat/designs.designs_catalog.py
groups.<tab>
insage/groups/groups_catalog.py
comment:18 in reply to: ↑ 17 Changed 6 years ago by
Thanks!
comment:19 Changed 5 years ago by
- Description modified (diff)
- Milestone changed from sage-6.10 to sage-7.0
comment:20 Changed 5 years ago by
- Description modified (diff)
- Milestone changed from sage-7.0 to sage-7.1
comment:21 Changed 5 years ago by
- Description modified (diff)
comment:22 Changed 5 years ago by
- Description modified (diff)
- Milestone changed from sage-7.1 to sage-7.3
comment:23 Changed 5 years ago by
- Description modified (diff)
comment:24 Changed 5 years ago by
- Description modified (diff)
comment:25 Changed 5 years ago by
- Description modified (diff)
comment:26 Changed 5 years ago by
- Description modified (diff)
comment:27 Changed 5 years ago by
- Milestone changed from sage-7.3 to sage-7.4
comment:28 Changed 5 years ago by
- Description modified (diff)
All the tickets, except for #18786, are now ready for review.