mirror of
https://github.com/denoland/std.git
synced 2024-11-22 04:59:05 +00:00
ae78abb085
Co-authored-by: Yoshiya Hinosawa <stibium121@gmail.com>
376 lines
12 KiB
TypeScript
376 lines
12 KiB
TypeScript
// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
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import { assert, assertEquals, assertThrows } from "@std/assert";
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import { BinaryHeap } from "./binary_heap.ts";
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import { ascend, descend } from "./comparators.ts";
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import { type Container, MyMath } from "./_test_utils.ts";
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Deno.test("BinaryHeap throws if compare is not a function", () => {
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assertThrows(
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() => new BinaryHeap({} as (a: number, b: number) => number),
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TypeError,
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"Cannot construct a BinaryHeap: the 'compare' parameter is not a function, did you mean to call BinaryHeap.from?",
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);
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});
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Deno.test("BinaryHeap works with default descend comparator", () => {
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const maxHeap = new BinaryHeap<number>();
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const values: number[] = [-10, 9, -1, 100, 9, 1, 0, 9, -100, 10, -9];
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const expected: number[] = [100, 10, 9, 9, 9, 1, 0, -1, -9, -10, -100];
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let actual: number[] = [];
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assertEquals(maxHeap.length, 0);
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assertEquals(maxHeap.isEmpty(), true);
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assertEquals(maxHeap.peek(), undefined);
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for (const [i, value] of values.entries()) {
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assertEquals(maxHeap.push(value), i + 1);
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}
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assertEquals(maxHeap.length, values.length);
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assertEquals(maxHeap.isEmpty(), false);
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while (!maxHeap.isEmpty()) {
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assertEquals(maxHeap.peek(), expected[actual.length]);
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actual.push(maxHeap.pop() as number);
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assertEquals(maxHeap.length, expected.length - actual.length);
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assertEquals(maxHeap.isEmpty(), actual.length === expected.length);
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}
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assertEquals(maxHeap.peek(), undefined);
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assertEquals(actual, expected);
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actual = [];
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assertEquals(maxHeap.push(...values), values.length);
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assertEquals(maxHeap.length, values.length);
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assertEquals(maxHeap.isEmpty(), false);
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assertEquals(maxHeap.peek(), expected[0]);
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for (const value of maxHeap) {
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actual.push(value);
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assertEquals(maxHeap.length, expected.length - actual.length);
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assertEquals(maxHeap.isEmpty(), actual.length === expected.length);
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assertEquals(maxHeap.peek(), expected[actual.length]);
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}
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assertEquals(actual, expected);
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});
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Deno.test("BinaryHeap works with ascend comparator", () => {
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const minHeap = new BinaryHeap<number>(ascend);
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const values: number[] = [-10, 9, -1, 100, 9, 1, 0, 9, -100, 10, -9];
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const expected: number[] = [-100, -10, -9, -1, 0, 1, 9, 9, 9, 10, 100];
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let actual: number[] = [];
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assertEquals(minHeap.length, 0);
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assertEquals(minHeap.isEmpty(), true);
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assertEquals(minHeap.peek(), undefined);
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for (const [i, value] of values.entries()) {
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assertEquals(minHeap.push(value), i + 1);
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}
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assertEquals(minHeap.length, values.length);
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assertEquals(minHeap.isEmpty(), false);
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while (!minHeap.isEmpty()) {
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assertEquals(minHeap.peek(), expected[actual.length]);
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actual.push(minHeap.pop() as number);
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assertEquals(minHeap.length, expected.length - actual.length);
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assertEquals(minHeap.isEmpty(), actual.length === expected.length);
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}
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assertEquals(minHeap.peek(), undefined);
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assertEquals(actual, expected);
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actual = [];
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assertEquals(minHeap.push(...values), values.length);
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assertEquals(minHeap.length, values.length);
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assertEquals(minHeap.isEmpty(), false);
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assertEquals(minHeap.peek(), expected[0]);
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for (const value of minHeap) {
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actual.push(value);
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assertEquals(minHeap.length, expected.length - actual.length);
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assertEquals(minHeap.isEmpty(), actual.length === expected.length);
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assertEquals(minHeap.peek(), expected[actual.length]);
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}
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assertEquals(actual, expected);
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});
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Deno.test("BinaryHeap contains objects", () => {
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const heap = new BinaryHeap((
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a: Container,
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b: Container,
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) => ascend(a.id, b.id));
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const ids: number[] = [-10, 9, -1, 100, 1, 0, -100, 10, -9];
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for (const [i, id] of ids.entries()) {
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const newContainer: Container = { id, values: [] };
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assertEquals(heap.push(newContainer), i + 1);
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newContainer.values.push(i - 1, i, i + 1);
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assertEquals(heap.length, i + 1);
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assertEquals(heap.isEmpty(), false);
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}
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const expected: number[] = [-100, -10, -9, -1, 0, 1, 9, 10, 100];
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const expectedValue: number[] = [6, 0, 8, 2, 5, 4, 1, 7, 3];
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for (const [i, value] of expectedValue.entries()) {
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assertEquals(heap.length, ids.length - i);
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assertEquals(heap.isEmpty(), false);
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const expectedContainer = {
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id: expected[i],
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values: [value - 1, value, value + 1],
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};
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assertEquals(heap.peek(), expectedContainer);
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assertEquals(heap.pop(), expectedContainer);
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}
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assertEquals(heap.length, 0);
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assertEquals(heap.isEmpty(), true);
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});
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Deno.test("BinaryHeap.from() handles iterable", () => {
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const values: number[] = [-10, 9, -1, 100, 9, 1, 0, 9, -100, 10, -9];
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const originalValues: number[] = Array.from(values);
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const expected: number[] = [100, 10, 9, 9, 9, 1, 0, -1, -9, -10, -100];
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let heap = BinaryHeap.from(values);
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assertEquals(values, originalValues);
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assertEquals([...heap], expected);
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heap = BinaryHeap.from(values, { compare: ascend });
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assertEquals(values, originalValues);
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assertEquals([...heap].reverse(), expected);
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heap = BinaryHeap.from(values, {
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map: (v: number) => 2 * v,
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});
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assertEquals([...heap], expected.map((v: number) => 2 * v));
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const math = new MyMath();
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heap = BinaryHeap.from(values, {
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map: function (this: MyMath, v: number) {
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return this.multiply(3, v);
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},
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thisArg: math,
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});
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assertEquals(values, originalValues);
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assertEquals([...heap], expected.map((v: number) => 3 * v));
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heap = BinaryHeap.from(values, {
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compare: ascend,
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map: (v: number) => 2 * v,
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});
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assertEquals(values, originalValues);
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assertEquals([...heap].reverse(), expected.map((v: number) => 2 * v));
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heap = BinaryHeap.from(values, {
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compare: ascend,
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map: function (this: MyMath, v: number) {
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return this.multiply(3, v);
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},
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thisArg: math,
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});
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assertEquals(values, originalValues);
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assertEquals([...heap].reverse(), expected.map((v: number) => 3 * v));
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});
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Deno.test("BinaryHeap.from() handles default descend comparator", () => {
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const values: number[] = [-10, 9, -1, 100, 9, 1, 0, 9, -100, 10, -9];
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const expected: number[] = [100, 10, 9, 9, 9, 1, 0, -1, -9, -10, -100];
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const maxHeap = new BinaryHeap<number>();
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maxHeap.push(...values);
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let heap = BinaryHeap.from(maxHeap);
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assertEquals([...maxHeap], expected);
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assertEquals([...heap], expected);
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maxHeap.push(...values);
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heap = BinaryHeap.from(maxHeap, { compare: ascend });
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assertEquals([...maxHeap], expected);
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assertEquals([...heap].reverse(), expected);
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maxHeap.push(...values);
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heap = BinaryHeap.from(maxHeap, {
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map: (v: number) => 2 * v,
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});
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assertEquals([...maxHeap], expected);
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assertEquals([...heap], expected.map((v: number) => 2 * v));
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const math = new MyMath();
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maxHeap.push(...values);
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heap = BinaryHeap.from(maxHeap, {
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map: function (this: MyMath, v: number) {
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return this.multiply(3, v);
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},
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thisArg: math,
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});
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assertEquals([...maxHeap], expected);
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assertEquals([...heap], expected.map((v: number) => 3 * v));
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maxHeap.push(...values);
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heap = BinaryHeap.from(maxHeap, {
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compare: ascend,
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map: (v: number) => 2 * v,
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});
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assertEquals([...maxHeap], expected);
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assertEquals([...heap].reverse(), expected.map((v: number) => 2 * v));
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maxHeap.push(...values);
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heap = BinaryHeap.from(maxHeap, {
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compare: ascend,
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map: function (this: MyMath, v: number) {
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return this.multiply(3, v);
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},
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thisArg: math,
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});
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assertEquals([...maxHeap], expected);
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assertEquals([...heap].reverse(), expected.map((v: number) => 3 * v));
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});
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Deno.test("BinaryHeap.from() handles ascend comparator", () => {
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const values: number[] = [-10, 9, -1, 100, 9, 1, 0, 9, -100, 10, -9];
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const expected: number[] = [-100, -10, -9, -1, 0, 1, 9, 9, 9, 10, 100];
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const minHeap = new BinaryHeap<number>(ascend);
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minHeap.push(...values);
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let heap = BinaryHeap.from(minHeap);
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assertEquals([...minHeap], expected);
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assertEquals([...heap], expected);
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minHeap.push(...values);
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heap = BinaryHeap.from(minHeap, { compare: descend });
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assertEquals([...minHeap], expected);
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assertEquals([...heap].reverse(), expected);
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minHeap.push(...values);
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heap = BinaryHeap.from(minHeap, {
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map: (v: number) => 2 * v,
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});
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assertEquals([...minHeap], expected);
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assertEquals([...heap], expected.map((v: number) => 2 * v));
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const math = new MyMath();
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minHeap.push(...values);
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heap = BinaryHeap.from(minHeap, {
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map: function (this: MyMath, v: number) {
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return this.multiply(3, v);
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},
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thisArg: math,
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});
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assertEquals([...minHeap], expected);
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assertEquals([...heap], expected.map((v: number) => 3 * v));
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minHeap.push(...values);
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heap = BinaryHeap.from(minHeap, {
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compare: descend,
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map: (v: number) => 2 * v,
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});
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assertEquals([...minHeap], expected);
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assertEquals([...heap].reverse(), expected.map((v: number) => 2 * v));
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minHeap.push(...values);
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heap = BinaryHeap.from(minHeap, {
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compare: descend,
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map: function (this: MyMath, v: number) {
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return this.multiply(3, v);
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},
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thisArg: math,
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});
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assertEquals([...minHeap], expected);
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assertEquals([...heap].reverse(), expected.map((v: number) => 3 * v));
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});
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Deno.test("BinaryHeap handles edge case 1", () => {
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const minHeap = new BinaryHeap<number>(ascend);
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minHeap.push(4, 2, 8, 1, 10, 7, 3, 6, 5);
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assertEquals(minHeap.pop(), 1);
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minHeap.push(9);
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const expected = [2, 3, 4, 5, 6, 7, 8, 9, 10];
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assertEquals([...minHeap], expected);
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});
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Deno.test("BinaryHeap handles edge case 2", () => {
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interface Point {
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x: number;
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y: number;
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}
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const minHeap = new BinaryHeap<Point>((a, b) => ascend(a.x, b.x));
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minHeap.push({ x: 0, y: 1 }, { x: 0, y: 2 }, { x: 0, y: 3 });
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const expected = [{ x: 0, y: 1 }, { x: 0, y: 3 }, { x: 0, y: 2 }];
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assertEquals([...minHeap], expected);
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});
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Deno.test("BinaryHeap handles edge case 3", () => {
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interface Point {
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x: number;
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y: number;
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}
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const minHeap = new BinaryHeap<Point>((a, b) => ascend(a.x, b.x));
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minHeap.push(
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{ x: 0, y: 1 },
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{ x: 1, y: 2 },
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{ x: 1, y: 3 },
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{ x: 2, y: 4 },
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{ x: 2, y: 5 },
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{ x: 2, y: 6 },
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{ x: 2, y: 7 },
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);
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const expected = [
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{ x: 0, y: 1 },
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{ x: 1, y: 2 },
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{ x: 1, y: 3 },
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{ x: 2, y: 5 },
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{ x: 2, y: 4 },
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{ x: 2, y: 6 },
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{ x: 2, y: 7 },
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];
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assertEquals([...minHeap], expected);
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});
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Deno.test("BinaryHeap handles README example", () => {
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const maxHeap = new BinaryHeap<number>();
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maxHeap.push(4, 1, 3, 5, 2);
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assertEquals(maxHeap.peek(), 5);
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assertEquals(maxHeap.pop(), 5);
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assertEquals([...maxHeap], [4, 3, 2, 1]);
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assertEquals([...maxHeap], []);
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const minHeap = new BinaryHeap<number>(ascend);
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minHeap.push(4, 1, 3, 5, 2);
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assertEquals(minHeap.peek(), 1);
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assertEquals(minHeap.pop(), 1);
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assertEquals([...minHeap], [2, 3, 4, 5]);
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assertEquals([...minHeap], []);
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const words = new BinaryHeap<string>((a, b) => descend(a.length, b.length));
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words.push("truck", "car", "helicopter", "tank");
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assertEquals(words.peek(), "helicopter");
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assertEquals(words.pop(), "helicopter");
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assertEquals([...words], ["truck", "tank", "car"]);
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assertEquals([...words], []);
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});
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Deno.test("BinaryHeap.toArray()", () => {
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const values = [-10, 9, -1, 100, 9, 1, 0, 9, -100, 10, -9];
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const maxHeap = new BinaryHeap<number>();
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maxHeap.push(...values);
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assert(maxHeap.toArray().every((value) => values.includes(value)));
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});
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Deno.test("BinaryHeap.drain()", () => {
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const values = [2, 4, 3, 5, 1];
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const expected = [5, 4, 3, 2, 1];
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const heap = new BinaryHeap<number>();
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heap.push(...values);
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assertEquals([...heap.drain()], expected);
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assertEquals(heap.length, 0);
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});
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Deno.test("BinaryHeap drain copy", () => {
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const values = [2, 4, 3, 5, 1];
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const expected = [5, 4, 3, 2, 1];
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const heap = new BinaryHeap<number>();
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heap.push(...values);
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const copy = BinaryHeap.from(heap);
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assertEquals([...copy.drain()], expected);
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assertEquals(heap.length, 5);
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});
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Deno.test("BinaryHeap.clear()", () => {
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const values = [-10, 9, -1, 100, 9, 1, 0, 9, -100, 10, -9];
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const maxHeap = new BinaryHeap<number>();
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maxHeap.push(...values);
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maxHeap.clear();
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assertEquals(maxHeap.toArray(), []);
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});
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