data-structure-typed/test/integration/index.html

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<!DOCTYPE html>
<html lang='en'>
<head>
<meta charset='UTF-8'>
<title>CDN Test</title>
<!-- <script src="../../dist/umd/data-structure-typed.min.js"></script>-->
<script src="../../dist/umd/data-structure-typed.js"></script>
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<script src='https://unpkg.com/js-sdsl@4.4.2/dist/umd/js-sdsl.js'></script>
</head>
<body>
<div id='app'>
<ul class='modules'>
</ul>
</div>
<script defer>
const $modules = document.querySelector('.modules');
try {
const { Queue } = dataStructureTyped;
const queue = new Queue();
const n = 1000000;
const startEn = performance.now();
for (let i = 0; i < n; i++) {
queue.enqueue(i);
}
console.log((performance.now() - startEn).toFixed(2), `Queue ${n.toLocaleString()} enqueue `);
let last = 0;
const startTime = performance.now();
for (let i = 0; i < n; i++) {
last = queue.dequeue();
}
console.log((performance.now() - startTime).toFixed(2), `Queue ${n.toLocaleString()} dequeue `);
} catch (e) {
console.error(e);
}
try {
const { AVLTree } = dataStructureTyped;
const avlTree = new AVLTree();
const $avlTree = document.createElement('li');
const $avlTreeSpan = document.createElement('span');
$avlTreeSpan.innerText = 'AVLTree';
$avlTree.append($avlTreeSpan);
for (let i = 1; i < 31; i++) {
avlTree.add(i, i);
}
console.log(avlTree.bfs(), `avlTree.bfs()`);
avlTree.print();
$modules.append($avlTree);
} catch (e) {
console.error(e);
}
try {
const { BinaryTree } = dataStructureTyped;
const tree = new BinaryTree();
tree.add(3);
tree.add(12);
tree.addMany([1, 6, 9, 8, 5, 2, 3, 4, 7])
tree.add(10);
console.log(tree.isPerfectlyBalanced(), `tree.isPerfectlyBalanced()`);
tree.print(undefined, { isShowUndefined: true });
const node3 = tree.getNode(3);
if (node3) node3.right = tree.createNode(1);
console.log(tree.isPerfectlyBalanced(), `tree.isPerfectlyBalanced()`);
tree.print();
tree.clear();
tree.addMany([1, null, 2, null, 3, null, 4, null, 5, null, 6, null]);
console.log(tree.isPerfectlyBalanced(), `tree.isPerfectlyBalanced()`);
tree.print(undefined, { isShowNull: true });
} catch (e) {
console.error(e);
}
try {
const { OrderedMap } = sdsl;
const { RedBlackTree } = dataStructureTyped;
const cRBTree = new OrderedMap();
const rbTree = new RedBlackTree();
const tS = performance.now();
const n = 100000;
for (let i = 0; i < n; i++) {
rbTree.add(i, i);
}
console.log((performance.now() - tS).toFixed(2), `RedBlackTree ${n.toLocaleString()} add`);
console.log(`rbTree.size`, rbTree.size);
for (let i = 0; i < n - 8; i++) {
rbTree.delete(i)
}
rbTree.print(rbTree.root, { isShowRedBlackNIL: true });
const cS = performance.now();
for (let i = 1; i < 100000; i++) {
cRBTree.setElement(i, i);
}
console.log((performance.now() - cS).toFixed(2), `CRedBlackTree ${n.toLocaleString()} add`);
console.log(cRBTree.size(), `cRBTree.size()`);
} catch (e) {
console.error(e);
}
try {
const { PriorityQueue: CPriorityQueue } = sdsl;
const { PriorityQueue } = dataStructureTyped;
const pq = new PriorityQueue({ comparator: (a, b) => b - a });
const tS = performance.now();
const n = 1000000;
for (let i = 0; i < n; i++) {
pq.add(i);
}
for (let i = 0; i < n; i++) {
pq.pop();
}
console.log((performance.now() - tS).toFixed(2), `PriorityQueue ${n.toLocaleString()} add`);
console.log(pq.size, `pq.size`);
const cS = performance.now();
const cpq = new CPriorityQueue();
for (let i = 0; i < n; i++) {
cpq.push(i);
}
for (let i = 0; i < n; i++) {
cpq.pop();
}
console.log((performance.now() - cS).toFixed(), `CPriorityQueue ${n.toLocaleString()} add`);
console.log(cpq.size(), `cpq.size()`);
} catch (e) {
console.error(e);
}
try {
const { BST, RedBlackTree, AVLTree } = dataStructureTyped;
const bst = new BST();
bst.add(11);
bst.add(3);
bst.addMany([15, 1, 8, 13, 16, 2, 6, 9, 12, 14, 4, 7, 10, 5]);
bst.size === 16; // true
bst.has(6); // true
const node6 = bst.getNode(6); // BSTNode
bst.getHeight(6) === 2; // true
bst.getHeight() === 5; // true
bst.getDepth(6) === 3; // true
bst.getLeftMost()?.key === 1; // true
bst.delete(6);
bst.get(6); // undefined
bst.isAVLBalanced(); // true
bst.bfs()[0] === 11; // true
bst.print();
const objBST = new BST();
objBST.add(11, { "name": "Pablo", "age": 15 });
objBST.add(3, { "name": "Kirk", "age": 1 });
objBST.addMany([15, 1, 8, 13, 16, 2, 6, 9, 12, 14, 4, 7, 10, 5], [
{ "name": "Alice", "age": 15 },
{ "name": "Bob", "age": 1 },
{ "name": "Charlie", "age": 8 },
{ "name": "David", "age": 13 },
{ "name": "Emma", "age": 16 },
{ "name": "Frank", "age": 2 },
{ "name": "Grace", "age": 6 },
{ "name": "Hannah", "age": 9 },
{ "name": "Isaac", "age": 12 },
{ "name": "Jack", "age": 14 },
{ "name": "Katie", "age": 4 },
{ "name": "Liam", "age": 7 },
{ "name": "Mia", "age": 10 },
{ "name": "Noah", "age": 5 }
]
);
objBST.print()
objBST.delete(11);
objBST.print()
const rbTree = new RedBlackTree();
rbTree.addMany([11, 3, 15, 1, 8, 13, 16, 2, 6, 9, 12, 14, 4, 7, 10, 5])
rbTree.isAVLBalanced(); // true
rbTree.delete(10);
rbTree.isAVLBalanced(); // true
console.log(`rbTree.delete(10)`);
rbTree.print();
rbTree.delete(14);
rbTree.print()
const avlTree = new AVLTree();
avlTree.addMany([11, 3, 15, 1, 8, 13, 16, 2, 6, 9, 12, 14, 4, 7, 10, 5])
avlTree.isAVLBalanced(); // true
avlTree.delete(10);
avlTree.isAVLBalanced(); // true
avlTree.print()
avlTree.delete(14);
avlTree.print()
} catch (e) {
console.error(e);
}
try {
const {
AVLTree,
BinaryTree,
BST,
Deque,
DoublyLinkedList,
HashMap,
Heap,
MaxPriorityQueue,
MinHeap,
MinPriorityQueue,
Queue,
RedBlackTree,
SinglyLinkedList,
Stack,
TreeMultimap,
Trie
} = dataStructureTyped;
const orgArr = [6, 1, 2, 7, 5, 3, 4, 9, 8];
const orgStrArr = ["trie", "trial", "trick", "trip", "tree", "trend", "triangle", "track", "trace", "transmit"];
const entries = [[6, 6], [1, 1], [2, 2], [7, 7], [5, 5], [3, 3], [4, 4], [9, 9], [8, 8]];
const queue = new Queue(orgArr);
queue.print();
const deque = new Deque(orgArr);
deque.print();
const sList = new SinglyLinkedList(orgArr);
sList.print();
const dList = new DoublyLinkedList(orgArr);
dList.print();
const stack = new Stack(orgArr);
stack.print();
const minHeap = new MinHeap(orgArr);
minHeap.print();
const maxPQ = new MaxPriorityQueue(orgArr);
maxPQ.print();
const biTree = new BinaryTree(entries);
biTree.print();
const bst = new BST(entries);
bst.print();
const rbTree = new RedBlackTree(entries);
rbTree.print();
const avl = new AVLTree(entries);
avl.print();
const treeMulti = new TreeMultimap(entries);
treeMulti.print();
const hm = new HashMap(entries);
hm.print()
const rbTreeH = new RedBlackTree(hm);
rbTreeH.print();
const pq = new MinPriorityQueue(orgArr);
pq.print();
const bst1 = new BST(pq);
bst1.print();
const dq1 = new Deque(orgArr);
dq1.print();
const rbTree1 = new RedBlackTree(dq1);
rbTree1.print();
const trie2 = new Trie(orgStrArr);
trie2.print();
const heap2 = new Heap(trie2, { comparator: (a, b) => Number(a) - Number(b) });
heap2.print();
const dq2 = new Deque(heap2);
dq2.print();
const entries2 = dq2.map((el, i) => [i, el]);
const avl2 = new AVLTree(entries2);
avl2.print();
} catch (e) {
console.error(e);
}
</script>
</body>
</html>