This is immediate to achieve by a Classifier
.
Just add all your items to a Classifier
by converting each pair [name, char]
to a tern [char, name, char]
.
const
classifier = new Classifier()
.letAll(data.map(([name, char]) => [char, name, char]));
This way, all the pairs [name, char]
sharing same char
are grouped in the same subtree within the Classifier
internal tree structure.
const
got = sorting
.map(char => classifier.view(true, char).poll());
The call view(true, char)
provides a Classifier.View
of the subtree addressed by the given char
. This view is a queue
of arrays expressed relative to the subtree. The first parameter true
determines the order inside the queue
. By passing false
the items would appear in reverse order. The method poll()
can therefore consume all the pairs [name, char]
sharing the same char
.
You can check validity of the proposed solution by:
import { Classifier } from "@ut8pia/classifier/queue/Classifier.js";
import assert from "assert";
const
data = [
['Anne', 'a'],
['Bob', 'b'],
['Henry', 'b'],
['Andrew', 'd'],
['Jason', 'c'],
['Thomas', 'b']
],
sorting = [ 'b', 'c', 'b', 'b', 'a', 'd' ],
expected = [
['Bob', 'b'],
['Jason', 'c'],
['Henry', 'b'],
['Thomas', 'b'],
['Anne', 'a'],
['Andrew', 'd']
];
assert.deepEqual(got, expected)
It's important to notice that the View
does not replicate the Classifier
tree structure. It only offers an interface to deal with relative arrays. Any extraction of a pair [name, char]
from the View
results in the extraction of the corresponding tern [char, name, char]
from the Classifier
itself.
To become acquainted with the concepts of Classifier
and Classifier.View
you might want to explore the @ut8pia/classifier library.