# Ignore imaginary roots in sympy

I'm using sympy to solve a polynomial:

``````x = Symbol('x')
y = solve(int(row["scaleA"])*x**3 + int(row["scaleB"])*x**2 + int(row["scaleC"])*x + int(row["scaleD"]), x)
``````

y is a list of possible solutions. However, I need to ignore the imaginary ones and only use the real solutions. Also, I would like the solution as a value not an expression. Right now it looks like:

``````[-2/3 - 55**(1/3)*(-1/2 - sqrt(3)*I/2)/3, -2/3 - 55**(1/3)*(-1/2 + sqrt(3)*I/2)/3, -55**(1/3)/3 - 2/3]
``````

I need the last expression's value (-2.22756). Are there functions in sympy to simplify this?

-
SymPy is most probably not the right library to use if you are interested only in float/double approximation of the root. If you use numpy/scipy you will probably get better performance and simpler code. And if you choose sympy over numpy/scipy because it is smaller you can get even smaller with mpmath which is used inside sympy for numerics (of arbitrary precision not limited by the machine) –  Krastanov Mar 4 '13 at 23:50

If you set `x` to be real, SymPy will only give you the real solutions

``````x = Symbol('x', real=True)
solve(..., x)
``````
-

As Krastonov had mentioned mpmath provided an easier method:

``````y = polyroots([int(row["scaleA"]), int(row["scaleB"]), int(row["scaleC"]), int(row["scaleD"])-value])
for root in y:
if "j" not in str(root):
value = root
``````
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I managed to simply ignore solutions containing the character `"I"` and used `.evalf()` to evaluate the expression. The code is now:
``````    x = Symbol('x')
A better way to filter out real roots is to check `root.is_real`. –  asmeurer Mar 8 '13 at 7:43