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BinarySearchTreeNode.test.js
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255 lines (188 loc) · 7 KB
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import BinarySearchTreeNode from '../BinarySearchTreeNode';
describe('BinarySearchTreeNode', () => {
it('should create binary search tree', () => {
const bstNode = new BinarySearchTreeNode(2);
expect(bstNode.value).toBe(2);
expect(bstNode.left).toBeNull();
expect(bstNode.right).toBeNull();
});
it('should insert in itself if it is empty', () => {
const bstNode = new BinarySearchTreeNode();
bstNode.insert(1);
expect(bstNode.value).toBe(1);
expect(bstNode.left).toBeNull();
expect(bstNode.right).toBeNull();
});
it('should insert nodes in correct order', () => {
const bstNode = new BinarySearchTreeNode(2);
const insertedNode1 = bstNode.insert(1);
expect(insertedNode1.value).toBe(1);
expect(bstNode.toString()).toBe('1,2');
expect(bstNode.contains(1)).toBe(true);
expect(bstNode.contains(3)).toBe(false);
const insertedNode2 = bstNode.insert(3);
expect(insertedNode2.value).toBe(3);
expect(bstNode.toString()).toBe('1,2,3');
expect(bstNode.contains(3)).toBe(true);
expect(bstNode.contains(4)).toBe(false);
bstNode.insert(7);
expect(bstNode.toString()).toBe('1,2,3,7');
expect(bstNode.contains(7)).toBe(true);
expect(bstNode.contains(8)).toBe(false);
bstNode.insert(4);
expect(bstNode.toString()).toBe('1,2,3,4,7');
expect(bstNode.contains(4)).toBe(true);
expect(bstNode.contains(8)).toBe(false);
bstNode.insert(6);
expect(bstNode.toString()).toBe('1,2,3,4,6,7');
expect(bstNode.contains(6)).toBe(true);
expect(bstNode.contains(8)).toBe(false);
});
it('should not insert duplicates', () => {
const bstNode = new BinarySearchTreeNode(2);
bstNode.insert(1);
expect(bstNode.toString()).toBe('1,2');
expect(bstNode.contains(1)).toBe(true);
expect(bstNode.contains(3)).toBe(false);
bstNode.insert(1);
expect(bstNode.toString()).toBe('1,2');
expect(bstNode.contains(1)).toBe(true);
expect(bstNode.contains(3)).toBe(false);
});
it('should find min node', () => {
const node = new BinarySearchTreeNode(10);
node.insert(20);
node.insert(30);
node.insert(5);
node.insert(40);
node.insert(1);
expect(node.findMin()).not.toBeNull();
expect(node.findMin().value).toBe(1);
});
it('should be possible to attach meta information to binary search tree nodes', () => {
const node = new BinarySearchTreeNode(10);
node.insert(20);
const node1 = node.insert(30);
node.insert(5);
node.insert(40);
const node2 = node.insert(1);
node.meta.set('color', 'red');
node1.meta.set('color', 'black');
node2.meta.set('color', 'white');
expect(node.meta.get('color')).toBe('red');
expect(node.findMin()).not.toBeNull();
expect(node.findMin().value).toBe(1);
expect(node.findMin().meta.get('color')).toBe('white');
expect(node.find(30).meta.get('color')).toBe('black');
});
it('should find node', () => {
const node = new BinarySearchTreeNode(10);
node.insert(20);
node.insert(30);
node.insert(5);
node.insert(40);
node.insert(1);
expect(node.find(6)).toBeNull();
expect(node.find(5)).not.toBeNull();
expect(node.find(5).value).toBe(5);
});
it('should remove leaf nodes', () => {
const bstRootNode = new BinarySearchTreeNode();
bstRootNode.insert(10);
bstRootNode.insert(20);
bstRootNode.insert(5);
expect(bstRootNode.toString()).toBe('5,10,20');
const removed1 = bstRootNode.remove(5);
expect(bstRootNode.toString()).toBe('10,20');
expect(removed1).toBe(true);
const removed2 = bstRootNode.remove(20);
expect(bstRootNode.toString()).toBe('10');
expect(removed2).toBe(true);
});
it('should remove nodes with one child', () => {
const bstRootNode = new BinarySearchTreeNode();
bstRootNode.insert(10);
bstRootNode.insert(20);
bstRootNode.insert(5);
bstRootNode.insert(30);
expect(bstRootNode.toString()).toBe('5,10,20,30');
bstRootNode.remove(20);
expect(bstRootNode.toString()).toBe('5,10,30');
bstRootNode.insert(1);
expect(bstRootNode.toString()).toBe('1,5,10,30');
bstRootNode.remove(5);
expect(bstRootNode.toString()).toBe('1,10,30');
});
it('should remove nodes with two children', () => {
const bstRootNode = new BinarySearchTreeNode();
bstRootNode.insert(10);
bstRootNode.insert(20);
bstRootNode.insert(5);
bstRootNode.insert(30);
bstRootNode.insert(15);
bstRootNode.insert(25);
expect(bstRootNode.toString()).toBe('5,10,15,20,25,30');
expect(bstRootNode.find(20).left.value).toBe(15);
expect(bstRootNode.find(20).right.value).toBe(30);
bstRootNode.remove(20);
expect(bstRootNode.toString()).toBe('5,10,15,25,30');
bstRootNode.remove(15);
expect(bstRootNode.toString()).toBe('5,10,25,30');
bstRootNode.remove(10);
expect(bstRootNode.toString()).toBe('5,25,30');
expect(bstRootNode.value).toBe(25);
bstRootNode.remove(25);
expect(bstRootNode.toString()).toBe('5,30');
bstRootNode.remove(5);
expect(bstRootNode.toString()).toBe('30');
});
it('should remove node with no parent', () => {
const bstRootNode = new BinarySearchTreeNode();
expect(bstRootNode.toString()).toBe('');
bstRootNode.insert(1);
bstRootNode.insert(2);
expect(bstRootNode.toString()).toBe('1,2');
bstRootNode.remove(1);
expect(bstRootNode.toString()).toBe('2');
bstRootNode.remove(2);
expect(bstRootNode.toString()).toBe('');
});
it('should throw error when trying to remove not existing node', () => {
const bstRootNode = new BinarySearchTreeNode();
bstRootNode.insert(10);
bstRootNode.insert(20);
function removeNotExistingElementFromTree() {
bstRootNode.remove(30);
}
expect(removeNotExistingElementFromTree).toThrow();
});
it('should be possible to use objects as node values', () => {
const nodeValueComparatorCallback = (a, b) => {
const normalizedA = a || { value: null };
const normalizedB = b || { value: null };
if (normalizedA.value === normalizedB.value) {
return 0;
}
return normalizedA.value < normalizedB.value ? -1 : 1;
};
const obj1 = { key: 'obj1', value: 1, toString: () => 'obj1' };
const obj2 = { key: 'obj2', value: 2, toString: () => 'obj2' };
const obj3 = { key: 'obj3', value: 3, toString: () => 'obj3' };
const bstNode = new BinarySearchTreeNode(obj2, nodeValueComparatorCallback);
bstNode.insert(obj1);
expect(bstNode.toString()).toBe('obj1,obj2');
expect(bstNode.contains(obj1)).toBe(true);
expect(bstNode.contains(obj3)).toBe(false);
bstNode.insert(obj3);
expect(bstNode.toString()).toBe('obj1,obj2,obj3');
expect(bstNode.contains(obj3)).toBe(true);
expect(bstNode.findMin().value).toEqual(obj1);
});
it('should abandon removed node', () => {
const rootNode = new BinarySearchTreeNode('foo');
rootNode.insert('bar');
const childNode = rootNode.find('bar');
rootNode.remove('bar');
expect(childNode.parent).toBeNull();
});
});