So I would like to print polynomials in one variable (s) with one parameter (a), say

a·s^3 − s^2 - a^2·s − a + 1.

Sage always displays it with decreasing degree, and I would like to get something like

1 - a - a^2·s - s^2 + a·s^3

to export it to LaTeX. I can't figure out how to do this... Thanks in advance.


This is not easy, because the sort order is defined in Pynac, a fork of Ginac, which Sage uses for its basic symbolic manipulation. However, depending on what you need, it is possible programmatically:

sage: F = 1 + x + x^2
sage: "+".join(map(str,sorted([f for f in F.operands()],key=lambda exp:exp.degree(x))))

I don't know whether this sort of thing is powerful enough for your needs, though. You may have to traverse the "expression tree" quite a bit but at least your sort of example seems to work.

sage: F = a + a^2*x + x^2 - a*x^2
sage: "+".join(map(str,sorted([f for f in F.operands()],key=lambda exp:exp.degree(x))))

Doing this in a short statement requires a number of Python tricks like this, which are very well worth learning if you are going to use Sage (or Numpy, or pandas, or ...) a fair amount.

  • Really good info. This works very well as you say, but it turns out that exporting it to LaTeX doesn't work so well, being strings. – iipr Apr 14 '16 at 17:15
  • Sorry, I wasn't thinking about the LaTeX, good point! Though one could fairly easily do so by using map(latex instead of map(str, probably. – kcrisman Apr 14 '16 at 21:49
  • 1
    Yes thanks, that works better for the export, but still it inserts some newlines in the form of `\`. Both solutions are really handy and helpful for what I needed. – iipr Apr 15 '16 at 15:32

As an alternative to string manipulation, one can use the series expansion.

F = a*s^3 - s^2 - a^2*s - a + 1
F.series(s, F.degree(s)+1)


(-a + 1) + (-a^2)*s + (-1)*s^2 + (a)*s^3

which appears to be what you wanted, save for some redundant parentheses.

This works because (a) a power series is ordered from lowest to highest coefficients; (b) making the order of remainder greater than the degree of the polynomial ensures that the series is just the polynomial itself.

  • This seems to work very well for the purpose of exporting it to LaTeX, adding minor tweeks for the parentheses. – iipr Apr 14 '16 at 17:19

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