`numpy.polynomial.polynomial:polyval3d`

source: /numpy/polynomial/polynomial.py :962

Signature

def polyval3d ( x , y , z , c )

Summary

Evaluate a 3-D polynomial at points (x, y, z).

Extended Summary

This function returns the values:

p (x, y, z) = i, j, k \sum c_{i, j, k} * x^{i} * y^{j} * z^{k}

The parameters x, y, and z are converted to arrays only if they are tuples or a lists, otherwise they are treated as a scalars and they must have the same shape after conversion. In either case, either x, y, and z or their elements must support multiplication and addition both with themselves and with the elements of c.

If c has fewer than 3 dimensions, ones are implicitly appended to its shape to make it 3-D. The shape of the result will be c.shape[3:] + x.shape.

Parameters

x, y, z : array_like, compatible object: The three dimensional series is evaluated at the points (x, y, z), where x, y, and z must have the same shape. If any of x, y, or z is a list or tuple, it is first converted to an ndarray, otherwise it is left unchanged and if it isn't an ndarray it is treated as a scalar.
c : array_like: Array of coefficients ordered so that the coefficient of the term of multi-degree i,j,k is contained in c[i,j,k]. If c has dimension greater than 3 the remaining indices enumerate multiple sets of coefficients.

Returns

values : ndarray, compatible object: The values of the multidimensional polynomial on points formed with triples of corresponding values from x, y, and z.

Examples

from numpy.polynomial import polynomial as P
c = ((1, 2, 3), (4, 5, 6), (7, 8, 9))

✓

P.polyval3d(1, 1, 1, c)

✗

Aliases

numpy.polynomial.polynomial.polyval3d