Evaluate a 2-D Laguerre series on the Cartesian product of x and y with 3d array of coefficient in Python

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To evaluate a 2-D Laguerre series on the Cartesian product of x and y, use the polynomial.laguerre.laggrid2d() method in Python. The method returns the values of the two dimensional Laguerre series at points in the Cartesian product of x and y.

If c has fewer than two dimensions, ones are implicitly appended to its shape to make it 2-D. The shape of the result will be c.shape[2:] + x.shape + y.shape. The 1st parameter,x, y is the two dimensional series is evaluated at the points in the Cartesian product of x and y. If x or y 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.

The 2nd parameter, c is an Array of coefficients ordered so that the coefficient of the term of multidegree i,j is contained in c[i,j]. If c has dimension greater than two the remaining indices enumerate multiple sets of coefficients.

Steps

At first, import the required library −

import numpy as np
from numpy.polynomial import laguerre as L

Create a 3d array of coefficients −

c = np.arange(24).reshape(2,2,6)

Display the array −

print("Our Array...\n",c)

Check the Dimensions −

print("\nDimensions of our Array...\n",c.ndim)

Get the Datatype −

print("\nDatatype of our Array object...\n",c.dtype)

Get the Shape −

print("\nShape of our Array object...\n",c.shape)

To evaluate a 2-D Laguerre series on the Cartesian product of x and y, use the polynomial.laguerre.laggrid2d() method in Python. The method returns the values of the two dimensional Laguerre series at points in the Cartesian product of x and y −

print("\nResult...\n",L.laggrid2d([1,2],[1,2], c))

Example

import numpy as np
from numpy.polynomial import laguerre as L

# Create a 3d array of coefficients
c = np.arange(24).reshape(2,2,6)

# Display the array
print("Our Array...\n",c)

# Check the Dimensions
print("\nDimensions of our Array...\n",c.ndim)

# Get the Datatype
print("\nDatatype of our Array object...\n",c.dtype)

# Get the Shape
print("\nShape of our Array object...\n",c.shape)

# To evaluate a 2-D Laguerre series on the Cartesian product of x and y, use the polynomial.laguerre.laggrid2d() method in Python
print("\nResult...\n",L.laggrid2d([1,2],[1,2], c))

Output

Our Array...
[[[ 0 1 2 3 4 5]
[ 6 7 8 9 10 11]]

[[12 13 14 15 16 17]
[18 19 20 21 22 23]]]

Dimensions of our Array...
3

Datatype of our Array object...
int64

Shape of our Array object...
(2, 2, 6)

Result...
[[[ 0. -6.]
[-12. 0.]]

[[ 1. -6.]
[-12. 0.]]

[[ 2. -6.]
[-12. 0.]]

[[ 3. -6.]
[-12. 0.]]

[[ 4. -6.]
[-12. 0.]]

[[ 5. -6.]
[-12. 0.]]]
Updated on 03-Mar-2022 06:41:38