Consider two functions of SymPy symbols e
and i
:
from sympy import Symbol, expand, Order
i = Symbol('i')
e = Symbol('e')
f = (i**3 + i**2 + i + 1)
g = (e**3 + e**2 + e + 1)
z = expand(f*g)
This will produce
z = e**3*i**3 + e**3*i**2 + e**3*i + e**3 + e**2*i**3 + e**2*i**2 + e**2*i + e**2 + e*i**3 + e*i**2 + e*i + e + i**3 + i**2 + i + 1
However, assume that e
and i
are both small and we can neglect both terms that are order three or higher. Using Sympy’s series tool or simply adding an O-notation Order
class can handle this:
In : z = expand(f*g + Order(i**3) + Order(e**3))
Out: 1 + i + i**2 + e + e*i + e*i**2 + e**2 + e**2*i + e**2*i**2 + O(i**3) + O(e**3)
Looks great. However, I am still left with mixed terms e**2 * i**2
. Individual variables in these terms are less than the desired cut-off so SymPy keeps them. However, mathematically small²·small² = small⁴. Likewise, e·i² = small·small² = small³.
At least for my purposes, I want these mixed terms dropped. Adding a mixed Order
does not produce the desired result (it seems to ignore the first two orders).
In : expand(f*g + Order(i**3) + Order(e**3) + Order((i**2)*(e**2)))
Out: 1 + i + i**2 + i**3 + e + e*i + e*i**2 + e*i**3 + e**2 + e**2*i + e**3 + e**3*i + O(e**2*i**2, e, i)
Question: Does SymPy have an easy system to quickly remove the n-th order terms, as well as terms that are (e^a)·(i^b) where a+b > n?
Messy Solution: I have found a way to solve this, but it is messy and potentially not general.
z = expand(f*g + Order((e**2)*i) + Order(e*(i**2)))
zz = expand(z.removeO() + Order(e**3) + Order(i**3))
produces
zz = 1 + i + i**2 + e + e*i + e**2 + O(i**3) + O(e**3)
which is exactly what I want. So to specify my question: Is there a way to do this in one step that can be generalized to any n? Also, my solution loses the big-O notation that indicates mixed-terms were lost. This is not needed but would be nice.
As you have a dual limit, you must specify both infinitesimal variables (
e
andi
) in allOrder
objects, even if they don’t appear in the first argument.The reason for this is that
Order(expr)
only automatically chooses those symbols as infinitesimal that actually appear in theexpr
and thus, e.g.,O(e)
is only for the limit e→0. Now,Order
objects with different limits don’t mix well, e.g.:This leads to a mess where results depend on the order of addition, which is a good indicator that this is something to avoid. This can be avoided by explicitly specifying the infinitesimal symbols (as addition arguments of
Order
), e.g.:I haven’t found a way to avoid going through all combinations of
e
andi
manually, but this can be done by a simple iteration: