cf.Data.outerproduct¶
-
Data.
outerproduct
(e, i=False)[source]¶ Compute the outer product with another data array.
The axes of result will be the combined axes of the two input arrays:
>>> d.outerproduct(e).ndim == d.ndim + e.ndim True >>> d.outerproduct(e).shape == d.shape + e.shape True
Parameters: - e : data-like
The data array with which to form the outer product.
- i : bool, optional
If True then update the data array in place. By default a new data array is created.
Returns: out : cf.Data
Examples: >>> d = cf.Data([1, 2, 3], 'metre') >>> o = d.outerproduct([4, 5, 6, 7]) >>> o <CF Data: [[4, ..., 21]] m> >>> print o.array [[ 4 5 6 7] [ 8 10 12 14] [12 15 18 21]]
>>> e = cf.Data([[4, 5, 6, 7], [6, 7, 8, 9]], 's-1') >>> o = d.outerproduct(e) >>> o <CF Data: [[[4, ..., 27]]] m.s-1> >>> print d.shape, e.shape, o.shape (3,) (2, 4) (3, 2, 4) >>> print o.array [[[ 4 5 6 7] [ 6 7 8 9]] [[ 8 10 12 14] [12 14 16 18]] [[12 15 18 21] [18 21 24 27]]]