# How to extract all coefficients in sympy

You can get a coefficient of a specific term by using coeff();

``````x, a = symbols("x, a")
expr = 3 + x + x**2 + a*x*2
expr.coeff(x)
# 2*a + 1
``````

Here I want to extract all the coefficients of x, x**2 (and so on), like;

``````# for example
expr.coefficients(x)
# want {1: 3, x: (2*a + 1), x**2: 1}
``````

There is a method as_coefficients_dict(), but it seems this doesn't work in the way I want;

``````expr.as_coefficients_dict()
# {1: 3, x: 1, x**2: 1, a*x: 2}
expr.collect(x).as_coefficients_dict()
# {1: 3, x**2: 1, x*(2*a + 1): 1}
``````
• Are there limits on your expression `expr`, i.e. is it always a polynomial? Is its degree limited? – Carsten Apr 9 '14 at 8:12
• @Carsten It would be great if there's an "unlimited" way, and in fact I think there must be especially because collect() is (probably) unlimited, but at least a method that works on a polynomial is needed. – akai Apr 9 '14 at 20:28

The easiest way is to use `Poly`

``````>>> a = Poly(expr, x)
>>> a.coeffs()
[1, 2*a + 1, 3]
``````

`all_coeffs()` can be sometime better than using `coeffs()` for a `Poly`. The difference lies in output of these both. `coeffs()` returns a list containing all coefficients which has a value and ignores those whose coefficient is `0` whereas `all_coeffs()` returns all coefficients including those whose coefficient is zero.

``````>>> a = Poly(x**3 + a*x**2 - b, x)
>>> a.coeffs()
[1, a, -b]

>>> a.all_coeffs()
[1, a, 0, -b]
``````
• Thanks. I was caught with my pants down by `coeffs()` ignoring zeroed coefficients. It's also worth noting that `numpy` uses the reverse ordering so when using `numpy` polynomial its worthwhile doing `a.reverse()` – Alexander McFarlane Jul 27 '16 at 17:09

One thing you can do is use a dictionary comprehension like so:

``````dict = {x**p: expr.collect(x).coeff(x**p) for p in range(1,n)}
``````

where n is the highest power+1. In this case n=3. So you would have the list `[1,2]`

This would give

``````dict = {x: (2*a+1), x**2: 1}
``````

Then you can add in the single term with

``````dict = 3
``````

So

`````` dict = {1:3,x:(2*a+1),x**2:1}
``````

You may also try:

``````a = list(reversed(expr.collect(x).as_ordered_terms()))
dict = {x**p: a[p],coeff(x**p) for p in range(1,n)}
dict = a # Would only apply if there is single term such as the 3 in the example
``````

where n is the highest power + 1.