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@flatten-js/interval-tree
Advanced tools
@flatten-js/interval-tree is an npm package that provides an efficient data structure for managing and querying intervals. It is particularly useful for applications that require frequent interval overlap checks, such as computational geometry, scheduling, and range queries.
Insert Intervals
This feature allows you to insert intervals into the interval tree. Each interval can be associated with a value, making it easy to manage and query intervals.
const IntervalTree = require('@flatten-js/interval-tree');
const tree = new IntervalTree();
tree.insert([5, 10], 'Interval 1');
tree.insert([15, 20], 'Interval 2');
console.log(tree);
Search Overlapping Intervals
This feature allows you to search for intervals that overlap with a given interval. It is useful for finding all intervals that intersect with a specific range.
const IntervalTree = require('@flatten-js/interval-tree');
const tree = new IntervalTree();
tree.insert([5, 10], 'Interval 1');
tree.insert([15, 20], 'Interval 2');
const overlapping = tree.search([7, 17]);
console.log(overlapping);
Remove Intervals
This feature allows you to remove intervals from the interval tree. It helps in maintaining the tree by removing intervals that are no longer needed.
const IntervalTree = require('@flatten-js/interval-tree');
const tree = new IntervalTree();
tree.insert([5, 10], 'Interval 1');
tree.insert([15, 20], 'Interval 2');
tree.remove([5, 10]);
console.log(tree);
The 'interval-tree' package provides similar functionality for managing and querying intervals. It supports insertion, deletion, and searching for overlapping intervals. Compared to @flatten-js/interval-tree, it offers a more basic API but is still efficient for interval management.
The 'node-interval-tree' package is another alternative for interval management. It provides a balanced interval tree implementation with support for insertion, deletion, and querying. It is comparable to @flatten-js/interval-tree in terms of performance and features.
The 'interval-tree2' package offers a simple and efficient way to manage intervals. It supports basic operations like insertion, deletion, and searching for overlapping intervals. It is a lightweight alternative to @flatten-js/interval-tree with a focus on simplicity.
The package @flatten-js/interval-tree is an implementation of interval binary search tree according to Cormen et al. Introduction to Algorithms (2009, Section 14.3: Interval trees, pp. 348–354). Cormen shows that insertion, deletion of nodes and range queries take O(log(n)) time where n is the number of items stored in the tree.
This package is a part of flatten-js library.
An earlier implementation, in package flatten-interval-tree, is no longer supported and will be deprecated soon. Please use this package (@flatten-js/interval-tree) instead.
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npm install --save @flatten-js/interval-tree
import IntervalTree from '@flatten-js/interval-tree'
Tree stores pairs <key,value>
where key is an interval, and value is an object of any type.
If value omitted, tree stores only keys. value
cannot be undefined
.
Interval can be a pair of numbers or an object that implements IntervalInterface
described in
typescript declaration file index.d.ts
.
Axis aligned rectangle is an example of such interval. We may look at rectangle as an interval between its low left and top right corners. It makes possible to use interval tree in spatial queries. See Box class in flatten-js library for such implementation.
let tree = new IntervalTree();
let intervals = [[6,8],[1,4],[5,12],[1,1],[5,7]];
// Insert interval as a key and string "val0", "val1" etc. as a value
for (let i=0; i < intervals.length; i++) {
tree.insert(intervals[i],"val"+i);
}
// Get array of keys sorted in ascendant order
let sorted_intervals = tree.keys; // expected array [[1,1],[1,4],[5,7],[5,12],[6,8]]
// Search items which keys intersect with given interval, and return array of values
let values_in_range = tree.search([2,3]); // expected array ['val1']
Create new instance of interval tree
let tree = new IntervalTree()
Insert new item into the tree. Key is an interval object or pair of numbers [low, high].
Value may represent any value or reference to any object. If value omitted, tree will store and retrieve keys as values.
Method returns reference to the inserted node
let node = tree.insert(key, value)
Method returns true if item {key, value} exists in the tree.
let exist = tree.exist(key, value)
Removes item from the tree. Returns true if item was found and deleted, false if not found
let removed = tree.remove(key, value)
Returns array of values which keys intersected with given interval.
let resp = tree.search(interval)
Optional outputMapperFn(value, key) enables to map search results into custom defined output. Example:
const composers = [
{name: "Ludwig van Beethoven", period: [1770, 1827]},
{name: "Johann Sebastian Bach", period: [1685, 1750]},
{name: "Wolfgang Amadeus Mozart", period: [1756, 1791]},
{name: "Johannes Brahms", period: [1833, 1897]},
{name: "Richard Wagner", period: [1813, 1883]},
{name: "Claude Debussy", period: [1862, 1918]},
{name: "Pyotr Ilyich Tchaikovsky", period: [1840, 1893]},
{name: "Frédéric Chopin", period: [1810, 1849]},
{name: "Joseph Haydn", period: [1732, 1809]},
{name: "Antonio Vivaldi", period: [1678, 1741]}
];
const tree = new IntervalTree();
for (let composer of composers)
tree.insert(composer.period, composer.name);
// Great composers who lived in 17th century
const searchRes = tree.search( [1600,1700],
(name, period) => {return `${name} (${period.low}-${period.high})`});
console.log(searchRes)
// expected to be
// [ 'Antonio Vivaldi (1678-1741)', 'Johann Sebastian Bach (1685-1750)' ]
Returns true if intersection found between given interval and any of intervals stored in the tree
let found = tree.intersect_any(interval)
Returns number of items stored in the tree (getter)
let size = tree.size
Returns tree keys in ascendant order (getter)
let keys = tree.keys
Returns tree values in ascendant keys order (getter)
let values = tree.values
Returns items in ascendant keys order (getter)
let items = tree.items
Enables to traverse the whole tree and perform operation for each item
tree.forEach( (key, value) => console.log(value) )
Creates new tree with same keys using callback to transform (key,value) to a new value
let tree1 = tree.map((value, key) => (key.high-key.low))
Clear tree
tree.clear()
Returns an iterator (and iterable).
Call next
on the iterator to navigate to successor tree nodes and return the corresponding values.
In the absence of a starting interval, the iterator will start with the lowest interval.
let iterator = tree.iterate();
let next = iterator.next().value;
Optional outputMapperFn(value, key) enables to map search results into custom defined output.
Example:
let iterator = tree.iterate([5,5], (value, key) => key);
let next_key = iterator.next().value;
Supports for .. of
syntax.
Example:
for (let key of tree.iterate([5,5], (value, key) => key)) {
if (key[0] > 8) break;
console.log(key);
}
Documentation may be found here: https://alexbol99.github.io/flatten-interval-tree
npm test
In lieu of a formal style guide, take care to maintain the existing coding style. Add unit tests for any new or changed functionality. Lint and test your code.
MIT
FAQs
Interval search tree
The npm package @flatten-js/interval-tree receives a total of 159,526 weekly downloads. As such, @flatten-js/interval-tree popularity was classified as popular.
We found that @flatten-js/interval-tree demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 1 open source maintainer collaborating on the project.
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