Opened 4 years ago
Closed 4 years ago
#24884 closed defect (fixed)
Matrixrelated fixes in differential geometry
Reported by:  jdemeyer  Owned by:  

Priority:  major  Milestone:  sage8.2 
Component:  geometry  Keywords:  
Cc:  egourgoulhon, tscrim  Merged in:  
Authors:  Jeroen Demeyer, Eric Gourgoulhon  Reviewers:  Travis Scrimshaw 
Report Upstream:  N/A  Work issues:  
Branch:  6ae84f1 (Commits, GitHub, GitLab)  Commit:  6ae84f147a2209e0396d508c77b4c86e706f3227 
Dependencies:  Stopgaps: 
Description (last modified by )
These are changes which are needed because of #24742.
src/sage/schemes/riemann_surfaces/riemann_surface.py
: #24742 will disallow passing strings to the matrix constructor. It's a rarely used feature and hard to get right properly. The fix is easy: pass actual elements of the ring instead of the generator names. This is clearly the right thing to do.
src/sage/tensor/modules/comp.py
: I needed to change_get_list()
but I have to say that I don't understand what the code is supposed to do. I wrote the code the way I did mainly to pass doctests. I also added some documentation to reflect better what the_get_list()
method does. I also got rid of the eviltry
/except
block trying to construct a matrix but happily returning a list if that failed.
src/sage/manifolds/differentiable/metric.py
: this is a consequence of the change in 2. and it looks like a sensible change.
Change History (22)
comment:1 Changed 4 years ago by
 Branch set to u/jdemeyer/matrix_related_fixes_in_differential_geometry
comment:2 Changed 4 years ago by
 Commit set to bd532ab6734f5a87df0c237f75105c92c1158c3d
 Description modified (diff)
 Status changed from new to needs_review
comment:3 Changed 4 years ago by
 Description modified (diff)
comment:4 Changed 4 years ago by
 Description modified (diff)
comment:5 followup: ↓ 7 Changed 4 years ago by
 Reviewers set to Travis Scrimshaw
 Status changed from needs_review to positive_review
Changes LGTM (Eric, if you see something you do not like, feel free to revert).
comment:6 Changed 4 years ago by
 Status changed from positive_review to needs_info
comment:7 in reply to: ↑ 5 ; followup: ↓ 8 Changed 4 years ago by
Replying to tscrim:
Changes LGTM (Eric, if you see something you do not like, feel free to revert).
Hi Travis, I was just looking to the ticket, at the same time as you apparently! The change in the doctest of src/sage/manifold/differentiable/metric.py
(point 3 in the ticket description) is not desirable: it results from a forced conversion of SymPy to SR
due to the change in src/sage/tensor/modules/comp.py
(point 2). Jeroen, the line
return matrix(SR, resu)
forces the conversion of elements of the list resu
to SR
elements, while they can actually belong to something else, like SymPy. Is there a good reason for this? Do we have now to explicitly specify the ring as the first argument of matrix
? Since SymPy elements do not constitute a ring in Sage, one cannot construct a matrix for them. I plan to improve this in the short future, by implementing a ring of SymPy coordinate functions. But for the time being, I would say it is preferable to return a list of SymPy elements instead of a matrix of SR
elements.
comment:8 in reply to: ↑ 7 ; followup: ↓ 10 Changed 4 years ago by
Replying to egourgoulhon:
Jeroen, the line
return matrix(SR, resu)forces the conversion of elements of the list
resu
toSR
elements, while they can actually belong to something else, like SymPy. Is there a good reason for this?
I just did that to be consistent with the documentation. The documentation never said "return a matrix, except when using the SymPy backend". I did make an exception for the str
formatter, because that was documented (not in this method but elsewhere).
Do we have now to explicitly specify the ring as the first argument of
matrix
?
No, that won't be required. But again, it's good for consistency that you always get the same kind of object back (a symbolic matrix).
I would say it is preferable to return a list of SymPy elements instead of a matrix of
SR
elements.
That is fine for me, but then SymPy elements should always return a list. The main thing that I do not like about the current code is this try
/except
block:
try: for i in range(self._dim): for j in range(self._dim): a = resu[i][j] if hasattr(a, '_express'): resu[i][j] = a.expr() resu = matrix(resu) # for a nicer output except TypeError: pass
With this code, you really have no idea whether a matrix or a list will be returned. And if it's a matrix, you don't know over which base ring.
Travis, what do you think?
comment:9 Changed 4 years ago by
 Branch changed from u/jdemeyer/matrix_related_fixes_in_differential_geometry to public/manifolds/matrix_related_fixes_in_differential_geometry
 Commit changed from bd532ab6734f5a87df0c237f75105c92c1158c3d to 6ae84f147a2209e0396d508c77b4c86e706f3227
 Status changed from needs_info to needs_review
New commits:
6ae84f1  Improve treatment of matrix output in sage.tensor.modules.comp.Components._get_list.

comment:10 in reply to: ↑ 8 ; followup: ↓ 11 Changed 4 years ago by
Replying to jdemeyer:
I just did that to be consistent with the documentation. The documentation never said "return a matrix, except when using the SymPy backend". I did make an exception for the
str
formatter, because that was documented (not in this method but elsewhere).
I agree the documentation of the method _get_list
is pretty poor (but this is a "private" (underscored) method). Sorry about this. Note that the class Components
to which it belongs does not know anything about SR or SymPy: it manipulates only elements of a ring. The SymPy or str
objects appear only through the output formatter.
Do we have now to explicitly specify the ring as the first argument of
matrix
?No, that won't be required. But again, it's good for consistency that you always get the same kind of object back (a symbolic matrix).
OK, thanks.
That is fine for me, but then SymPy elements should always return a list. The main thing that I do not like about the current code is this
try
/except
block: With this code, you really have no idea whether a matrix or a list will be returned. And if it's a matrix, you don't know over which base ring.
I agree, this piece of code was not very good. Actually it pertains to the early time of the SageManifolds project, where the elements stored in Components
where not guaranteed to belong to any ring. This is no longer the case for the Components
used in tensor calculus: they all belong to the algebra of scalar fields and, after being processed by self._output_formatter
, they belong to the ring of chart functions, sage.manifolds.chart_func.ChartFunctionRing
whatever their internal representation (SR
or Sympy). I've therefore modified the code of Components._get_list
to
if self._nid == 2: # 2dim case: convert to matrix for a nicer output from sage.matrix.constructor import matrix from sage.structure.element import parent from sage.categories.rings import Rings if parent(resu[0][0]) in Rings(): return matrix(resu) return resu
In this way, there is no special treatment for strings or whatever else that is not a ring, since the test if parent(resu[0][0]) in Rings()
will return false in this case. For tensor field components, the treatment is now at the level of ChartFunctionRing
(there is no longer any reference to the internal representation via _express
and expr()
), so it works for both SR
and !SymPy
. In particular the doctest in src/sage/manifolds/differentiable/metric.py
now displays a matrix of SymPy objects, and no longer a list, which is an improvement! Thanks for having triggered it!
I've pushed these changes in the new branch public/manifolds/matrix_related_fixes_in_differential_geometry
, which is based on your branch (simply one commit ahead). I am attaching it to the ticket.
comment:11 in reply to: ↑ 10 Changed 4 years ago by
Replying to egourgoulhon:
An alternative to
if parent(resu[0][0]) in Rings(): return matrix(resu)
is
R = parent(resu[0][0]) if R in Rings(): return matrix(R, resu)
I don't know which form is preferable. Note that in the latter, the ring is passed as the first argument to matrix
.
comment:12 followups: ↓ 14 ↓ 16 Changed 4 years ago by
IMO, a more ideal form is
R = parent(resu[0][0]) if R in Rings(): return MatrixSpace(R,2)(resu)
Given comment:7
I plan to improve this in the short future, by implementing a ring of SymPy coordinate functions
I would also add a comment to the code saying to remove the Rings
check once SymPy coordinate functions are a ring.
I think this also addresses Jeroen's comment about code flow clarity and the code LBTM (B for better). Any other comments Jeroen?
comment:13 Changed 4 years ago by
Instead of asking whether the parent is a ring, it seems more sensible to check for a Sage Element
. i.e. I would suggest to replace
parent(x) in Rings()
by
isinstance(x, Element)
comment:14 in reply to: ↑ 12 ; followup: ↓ 17 Changed 4 years ago by
Replying to tscrim:
IMO, a more ideal form is
R = parent(resu[0][0]) if R in Rings(): return MatrixSpace(R,2)(resu)
What if the different elements have different parents? Is there a guarantee that the parent of resu[0][0]
is the same as the parent of resu[0][1]
? So matrix(resu)
will autodetect the correct parent (using the coercion model) and that looks better.
Of course the same argument could be made for the isinstance(resu[0][0], Element)
check. But it seems less likely to mix Elements and nonElements than to mix different parents.
comment:15 Changed 4 years ago by
 Status changed from needs_review to needs_work
comment:16 in reply to: ↑ 12 Changed 4 years ago by
Replying to tscrim:
I would also add a comment to the code saying to remove the
Rings
check once SymPy coordinate functions are a ring.
Actually, with the latest version, it works with SymPy, i.e. it does generate a matrix, the elements of which are chart functions, which are displayed as SymPy objects when SymPy is used as the symbolic engine (see the matrix containing x**2
and y**2
instead of x^2
and y^2
in the doctest in metric.py
).
The Rings
check is then for other possible cases, not involving chart functions (I don't have any precise use case at the moment, except for the str
output formatter used as illustration in the doctests). SymPy was a problem in the previous version of the code, where the matrix construction was attempted directly at the level of symbolic representations, either SR
or SymPy. Now the matrix construction is at the (higher) level of chart functions, and, thanks to you IIRC ;), chart functions now forms a ring, so that the matrix construction always succeeds.
comment:17 in reply to: ↑ 14 ; followup: ↓ 18 Changed 4 years ago by
Replying to jdemeyer:
What if the different elements have different parents? Is there a guarantee that the parent of
resu[0][0]
is the same as the parent ofresu[0][1]
? Somatrix(resu)
will autodetect the correct parent (using the coercion model) and that looks better.
OK.
Of course the same argument could be made for the
isinstance(resu[0][0], Element)
check. But it seems less likely to mix Elements and nonElements than to mix different parents.
A priori, all elements of resu
should have the same parent: this is guaranted if no output formatter is used: the parent is nothing but the ring on which the Components
object is constructed. If some output formatter is used, it is likely that its output is of a fixed type, hence giving rise to the same parent (in the extended sense, i.e. the parent default to the Python type if the object has no Sage Parent), like for instance the str
output formatter. My concern with the Element
check is that it does not guarantee that the parent is a ring. If it is not, then the matrix construction will fail.
comment:18 in reply to: ↑ 17 Changed 4 years ago by
 Status changed from needs_work to needs_review
Replying to egourgoulhon:
If it is not, then the matrix construction will fail.
I didn't know that, but you are right. If you ask me, that's a silly artificial restriction.
In that case, maybe Eric's code is fine. Travis, what do you think?
comment:19 followup: ↓ 20 Changed 4 years ago by
My understanding is that they should all be of the same parent. Yet, I don't hold a stake in this code, so I don't really care either way. I doubt this will ever make a difference in the wild (barring very esoteric uses).
comment:20 in reply to: ↑ 19 Changed 4 years ago by
Replying to tscrim:
My understanding is that they should all be of the same parent. Yet, I don't hold a stake in this code, so I don't really care either way. I doubt this will ever make a difference in the wild (barring very esoteric uses).
Yes, I think it's pretty safe to leave the code in the current state.
comment:21 Changed 4 years ago by
 Status changed from needs_review to positive_review
I'm taking that as positive review :)
comment:22 Changed 4 years ago by
 Branch changed from public/manifolds/matrix_related_fixes_in_differential_geometry to 6ae84f147a2209e0396d508c77b4c86e706f3227
 Resolution set to fixed
 Status changed from positive_review to closed
New commits:
Matrixrelated fixes in differential geometry