I'm trying to use Python to calculate the Rodrigues formula, P_n(x).


That is, I would like a function which takes into two input parameters, n and x, and returns the output of this formula.

However, I don't think SciPy has this function yet. SpiPy does offer a Legendre module:


I don't think any of these is the Rodrigues formula. Am I wrong?

Is there a standard way SciPy offers to do this?

EDIT: I would like the input parameters to be arrays, not just single input values.


1 Answer 1


If you simply want P_n(x), then you can create a suitable object representing the P_n polynomial using scipy.special.legendre and call it with your values of x:

In [1]: from scipy.special import legendre
In [2]: n = 3
In [3]: Pn = legendre(n)
In [4]: Pn(2.5)
Out[4]: 35.3125        # P_3(2.5)

The object Pn is, in a sense, the "output" of the Rodrigues formula: it is a polynomial of the required order, which can be evaluated at a provided value of x. If you want a single function that takes n and x, you can use eval_legendre:

In [5]: from scipy.special import eval_legendre
In [6]: eval_legendre(3, 2.5)
Out[6]: 35.3125

As noted in the docs, this is the recommended way to do it for large-ish n (e.g. n > 20), instead of creating a polynomial object with all the coefficients which does not handle rounding errors and numerical stability as well.

EDIT: Both approaches work with arrays (at least for the x argument). For example:

In [7]: x = np.array([0, 1, 2, 5, 10])
In [8]: Pn(x)
array([  0.00000000e+00,   1.00000000e+00,   1.70000000e+01,
     3.05000000e+02,   2.48500000e+03])
  • It would be nice if I could get something that works with n as an array as well. This is a great start though. Thanks! Apr 20, 2015 at 20:12
  • scipy.special.eval_legendre
    – pv.
    Apr 20, 2015 at 21:45
  • Thanks, @pv: I'd forgotten about the eval_ methods: edited.
    – xnx
    Apr 21, 2015 at 0:51
  • If you only need function values, and not the power basis representation and roots etc., using eval_legendre is recommended (try legendre(1000)(0.1) and eval_legendre(1000, 0.1)). Then read the warning notice in the documentation, and look at x=0.1*legendre(50); print(x(0.9), 0.1*legendre(50)(0.9), 0.1*eval_legendre(50, 0.9))
    – pv.
    Apr 21, 2015 at 8:20
  • This warning is well-made, though I don't know whether it applies to OP's use-case. I've edited in a few comments, but if you have anything to add feel free to edit or add an answer yourself.
    – xnx
    Apr 21, 2015 at 15:01

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