Opened 7 years ago
Closed 5 years ago
#14630 closed enhancement (fixed)
Add `simplify_real` method to symbolic expressions
Reported by:  mjo  Owned by:  burcin 

Priority:  major  Milestone:  sage6.4 
Component:  symbolics  Keywords:  
Cc:  egourgoulhon  Merged in:  
Authors:  Michael Orlitzky  Reviewers:  KarlDieter Crisman, Ralf Stephan 
Report Upstream:  N/A  Work issues:  
Branch:  649e3b3 (Commits)  Commit:  649e3b3eece6daea3d3c043d2034f3416a85fb09 
Dependencies:  #11912  Stopgaps: 
Description
Symbolic expressions in sage are by default assumed complex. There is a maxima variable, called the "simplification domain," which affects whether or not it simplifies sqrt(x^2)
to abs(x)
. Since our expressions are complex, we set the simplification domain to complex, but provide no easy way to change it.
By adding a simplify_real()
method to Expression, we give the user a way to perform the aforementioned simplification by declaring his expression real.
This might provide a quick fix for #14305. See also:
https://groups.google.com/forum/?fromgroups=#!topic/sagesupport/jhCJujRtNA4/discussion
Attachments (1)
Change History (27)
comment:1 Changed 7 years ago by
 Status changed from new to needs_review
comment:2 followup: ↓ 3 Changed 7 years ago by
You need to do \leftx\\right
.
I'm not sure about all the stuff in the doc and the code, but I think that some of the doc is doing the code and vice versa? For instance,
# Forget all assumptions
but you don't do that in the code. And the corresponding part in the doc seems to imply that in order to use simplify_real
you have to assume variables are real... I may be misunderstanding something here. I think this could be a good way to solve the issue at hand.
My question is how this will interact with the other simplifications. I seem to recall that in some of the more controversial (e.g. radcan
related) simplifications we do, part of the issue is whether the variable is real... that recollection may be outdated. Anyway, I could imagine that simplify_foo
simplified differently whether one was real or complex, though I hesitate to add simplify_foo_real
for all foo
!
comment:3 in reply to: ↑ 2 Changed 7 years ago by
Replying to kcrisman:
You need to do
\leftx\\right
.
Fixed in the new patch, but my MathJAX still doesn't work, so please give it a look.
I'm not sure about all the stuff in the doc and the code, but I think that some of the doc is doing the code and vice versa? For instance,
# Forget all assumptionsbut you don't do that in the code.
Whoops, I forgot to call forget()
; the comment was correct. I fixed it and added a doctest to ensure that no new assumptions remain after the call.
And the corresponding part in the doc seems to imply that in order to use
simplify_real
you have to assume variables are real... I may be misunderstanding something here. I think this could be a good way to solve the issue at hand.
I didn't mean that the user has to assume()
anything, only that we have to assume things are real in the traditional sense. You can call simplify_real()
on an expression containing complex variables, but the answer might not make sense.
My question is how this will interact with the other simplifications. I seem to recall that in some of the more controversial (e.g.
radcan
related) simplifications we do, part of the issue is whether the variable is real... that recollection may be outdated. Anyway, I could imagine thatsimplify_foo
simplified differently whether one was real or complex, though I hesitate to addsimplify_foo_real
for allfoo
!
Expressions should be complex everywhere. I believe there are one or two functions which treat them as real, but they're documented to do that, so it's fine. Radcan via simplify_radical()
will still produce crazy answers that are invalid for complex numbers, but there isn't much that can be done about that now except revoke the name "simplify" from "simplify_radical."
Not many expressions are actually affected by the domain and 'real' assumptions. We can get most of the benefit of simplify_foo_real()
by doing simplify_foo().simplify_real()
. Simplifications can be combined/repeated to produce better answers, and we already have a situation where calling e.g. simplify_full()
twice might give you a better answer than calling it once. So you're kind of on your own regarding how many simplifications to try and in what order.
comment:4 followup: ↓ 5 Changed 7 years ago by
What about adding a parameter to all the simplify_* functions instead of adding more functions? Like "def simplify(real_domain=False):..."
comment:5 in reply to: ↑ 4 Changed 7 years ago by
Replying to sluther:
What about adding a parameter to all the simplify_* functions instead of adding more functions? Like "def simplify(real_domain=False):..."
If instead of simplify_rational
, simplify_log
, etc. we had simplify(rational=True, log=True,...)
that's what I would have done. As it is, if you want to do both rational and log simplifications, you just have to do expr.simplify_rational().simplify_log()
.
Particularly with simplify_real()
, it only does one specific thing that isn't done by other methods so you can be somewhat confident that simplify_foo().simplify_real()
will give you both simplifications. In other words I don't think you'd get a nicer expression back by setting the simplification domain to real before simplify_rational()
than you would by calling the two in succession.
comment:6 followup: ↓ 8 Changed 7 years ago by
Well I'd say this feels like mixing different concepts. The log, radical, etc. are about the form of the expression that's going to be transformed, whereas the domain is about the values the variables in the expression may take.
You're right that sometimes the application of simplifications in different order yields different results. But I find this rather annoying (not that I know how to fix it). By adding even more functions to the mix we make this situation even worse.
I usually use simplify_full(). So as I understand it I'd always need to call simplify_full() and simplify_real() in some order to benefit from the knowledge about the domain.
And then I'm still left wondering if there are simplifications in simplify_full() hat could benefit from this knowledge too, but didn't get it because there's only simplify_real() and not simplify_full_real().
Is here a list of which simplify_* function could use this domain parameter?
comment:7 followups: ↓ 9 ↓ 11 Changed 7 years ago by
Instead of adding a new function simplify_real()
or a domain
parameter to the existing functions, can we use a context manager instead?
Example use would be:
sage: t = sqrt(x^2) sage: t.simplify() sqrt(x^2) sage: with maxima_domain(RR): ....: u = t.simplify() ....: sage: u abs(x) sage: t.simplify() sqrt(x^2)
comment:8 in reply to: ↑ 6 Changed 7 years ago by
Replying to sluther:
All of the simplify_foo()
functions except simplify_radical()
could benefit from it. There are only a small number of subexpressions that can be simplified by simplify_real()
, and I think only simplify_radical()
will "simplify" out those subexpressions making simplify_real()
redundant.
The simplify_radical()
method will change the expression sqrt(x^2)
to either x
or x
"consistently but arbitrarily.". This is not really a simplification, since it gives the wrong answer in the default case, so beware using simplify_full()
. All of the rest could be combined with simplify_real()
in some way.
comment:9 in reply to: ↑ 7 Changed 7 years ago by
Replying to burcin:
Instead of adding a new function
simplify_real()
or adomain
parameter to the existing functions, can we use a context manager instead?Example use would be:
sage: t = sqrt(x^2) sage: t.simplify() sqrt(x^2) sage: with maxima_domain(RR): ....: u = t.simplify() ....: sage: u abs(x) sage: t.simplify() sqrt(x^2)
This is way better than what we currently have to do:
sage: maxima_lib.eval('domain: real;') 'real' sage: (sqrt(x^2)).simplify() abs(x) sage: maxima_lib.eval('domain: complex;') 'complex'
but still does two things undesirably:
 The user has to know about the maxima_domain() call, and there's no easy way to find out about it. This is in contrast with
x.<tab>
"what can I do with this expression?"
 It ties the simplification to the maxima backend. If we ever want to use sympy or some other backend, we're going to have a mess.
comment:10 Changed 7 years ago by
 Milestone changed from sage5.11 to sage5.12
comment:11 in reply to: ↑ 7 Changed 7 years ago by
Replying to burcin:
Instead of adding a new function
simplify_real()
or adomain
parameter to the existing functions, can we use a context manager instead?
You'd need to document that the user of the context manager should make sure to not relinquish control inside the context manager. Thanks to "yield" in python, lexical enclosure doesn't necessarily mean runtime enclosure.
comment:12 Changed 6 years ago by
 Milestone changed from sage6.1 to sage6.2
comment:13 Changed 6 years ago by
 Milestone changed from sage6.2 to sage6.3
comment:14 Changed 6 years ago by
 Milestone changed from sage6.3 to sage6.4
comment:15 Changed 5 years ago by
 Status changed from needs_review to needs_info
I think the form/domainsimplify design issue has not been resolved and should be discussed/decided first: the/an author may benefit from presenting a solution to sagedevel, and if the crowd has no opinion then it should be implemented. Thus, I'm setting to needs_info.
comment:16 Changed 5 years ago by
 Cc egourgoulhon added
comment:17 Changed 5 years ago by
 Branch set to u/mjo/ticket/14630
 Commit set to 24cc55466abd2f02a9187186364fb4373d7900e9
New commits:
24cc554  Trac #14630: Add Expression.simplify_real() method.

comment:18 Changed 5 years ago by
This seems fine, given that it is extremely unlikely a context manager will appear and that having many options seems undesirable. However, if someone gets a sagedevel discussion on this going I'm not going to stop them.
sage: A = e^(sqrt(x^2)) sage: A e^(sqrt(x^2)) sage: A.simplify_real() e^abs(x)
I was pleased this worked, wasn't sure how much it would do. Maybe the following would be a useful test to show what it does and doesn't do.
sage: var('y z') (y, z) sage: A = e^(sqrt(x^2)+sqrt(y^2)+sqrt(i*z^2)) sage: A.simplify_real() e^((1)^(1/4)*abs(z) + abs(x) + abs(y))
Here's another one that, again, pleasantly works as one would think.
sage: C = (x^2+y^2).imag() sage: C 2*imag_part(x)*real_part(x) + 2*imag_part(y)*real_part(y) sage: C.simplify_real() 0
Now if only we had to use this for the following simplification!
sage: B = conjugate(z) sage: B.simplify_real() z sage: B.simplify() # wawa "you lose" noise  #6862 z
comment:19 Changed 5 years ago by
Also note this probably conflicts slightly with #11912.
comment:20 Changed 5 years ago by
Just making a note to myself here to update all of the "see also" references in the other simplify_*
methods. We should mention simplify_real()
, simplify_rectform()
, and any other new similar methods.
comment:21 Changed 5 years ago by
 Commit changed from 24cc55466abd2f02a9187186364fb4373d7900e9 to 612f8ede28c281e6e5f4bb0e3864ca35ff3906c3
Branch pushed to git repo; I updated commit sha1. This was a forced push. New commits:
f34ddfc  Trac #11912: Rename and deprecate Expression.simplify_radical().

2d50b88  Trac #11912, Trac #3520: Add numerical integral example.

e5ab339  Trac #11912 (review): Remove superfluous documentation paragraph.

5d24f4c  Trac #11912 (review): Add canonicalize_radical() to the "see also" list for Expression.simplify().

612f8ed  Trac #14630: Add Expression.simplify_real() method.

comment:22 Changed 5 years ago by
 Dependencies set to #11912
 Status changed from needs_info to needs_review
I just forcepushed a branch that's rebased on top of #11912 because of a conflict. That one has a positive review, so I guess when it's merged I could rebase this on top of the develop branch? Not sure what's easiest for the release manager.
comment:23 Changed 5 years ago by
 Commit changed from 612f8ede28c281e6e5f4bb0e3864ca35ff3906c3 to 649e3b3eece6daea3d3c043d2034f3416a85fb09
Branch pushed to git repo; I updated commit sha1. New commits:
649e3b3  Trac #14630: Add Expression.simplify_hypergeometric() to the "see also" list for Expression.simplify().

comment:24 Changed 5 years ago by
And per my note, I've included another leftout function in the simplify()
"see also" list.
comment:25 Changed 5 years ago by
 Reviewers set to KarlDieter Crisman, Ralf Stephan
 Status changed from needs_review to positive_review
I think it is fine now and certainly should be included, test pass in expression.pyx
.
comment:26 Changed 5 years ago by
 Branch changed from u/mjo/ticket/14630 to 649e3b3eece6daea3d3c043d2034f3416a85fb09
 Resolution set to fixed
 Status changed from positive_review to closed
MathJAX is throwing a "Math Processing Error"  I'm not sure whether it's busted or I screwed up but the docs definitely need a review.