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Add RandomScheduling algorithm (#5810)
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package com.thealgorithms.scheduling;
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import java.util.ArrayList;
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import java.util.Collection;
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import java.util.Collections;
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import java.util.List;
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import java.util.Random;
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/**
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* RandomScheduling is an algorithm that assigns tasks in a random order.
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* It doesn't consider priority, deadlines, or burst times, making it
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* inefficient but useful in scenarios where fairness or unpredictability
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* is required (e.g., load balancing in distributed systems).
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*
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* Use Case: Distributed systems where randomness helps avoid task starvation.
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*
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* @author Hardvan
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*/
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public final class RandomScheduling {
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private final List<String> tasks;
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private final Random random;
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/**
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* Constructs a new RandomScheduling instance.
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*
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* @param tasks A collection of task names to be scheduled.
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* @param random A Random instance for generating random numbers.
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*/
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public RandomScheduling(Collection<String> tasks, Random random) {
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this.tasks = new ArrayList<>(tasks);
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this.random = random;
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}
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/**
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* Schedules the tasks randomly and returns the randomized order.
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*
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* @return A list representing the tasks in their randomized execution order.
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*/
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public List<String> schedule() {
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List<String> shuffledTasks = new ArrayList<>(tasks);
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Collections.shuffle(shuffledTasks, random);
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return shuffledTasks;
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}
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}
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@@ -0,0 +1,93 @@
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package com.thealgorithms.scheduling;
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import static org.junit.jupiter.api.Assertions.assertEquals;
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import static org.mockito.Mockito.anyInt;
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import static org.mockito.Mockito.mock;
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import static org.mockito.Mockito.when;
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import java.util.List;
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import java.util.Random;
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import org.junit.jupiter.api.BeforeEach;
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import org.junit.jupiter.api.Test;
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public class RandomSchedulingTest {
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private RandomScheduling randomScheduling;
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private Random mockRandom;
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@BeforeEach
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public void setup() {
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mockRandom = mock(Random.class); // Mocking Random for predictable behavior
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}
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@Test
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public void testRandomOrder1() {
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// Arrange
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List<String> tasks = List.of("Task1", "Task2", "Task3");
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// Mock the random sequence to control shuffling: swap 0 <-> 1, and 1 <-> 2.
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when(mockRandom.nextInt(anyInt())).thenReturn(1, 2, 0);
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randomScheduling = new RandomScheduling(tasks, mockRandom);
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// Act
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List<String> result = randomScheduling.schedule();
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// Assert
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assertEquals(List.of("Task1", "Task2", "Task3"), result);
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}
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@Test
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public void testRandomOrder2() {
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// Arrange
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List<String> tasks = List.of("A", "B", "C", "D");
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// Mocking predictable swaps for the sequence: [C, B, D, A]
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when(mockRandom.nextInt(anyInt())).thenReturn(2, 1, 3, 0);
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randomScheduling = new RandomScheduling(tasks, mockRandom);
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// Act
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List<String> result = randomScheduling.schedule();
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// Assert
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assertEquals(List.of("A", "C", "B", "D"), result);
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}
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@Test
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public void testSingleTask() {
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// Arrange
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List<String> tasks = List.of("SingleTask");
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when(mockRandom.nextInt(anyInt())).thenReturn(0); // No real shuffle
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randomScheduling = new RandomScheduling(tasks, mockRandom);
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// Act
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List<String> result = randomScheduling.schedule();
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// Assert
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assertEquals(List.of("SingleTask"), result);
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}
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@Test
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public void testEmptyTaskList() {
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// Arrange
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List<String> tasks = List.of();
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randomScheduling = new RandomScheduling(tasks, mockRandom);
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// Act
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List<String> result = randomScheduling.schedule();
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// Assert
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assertEquals(List.of(), result); // Should return an empty list
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}
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@Test
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public void testSameTasksMultipleTimes() {
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// Arrange
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List<String> tasks = List.of("X", "X", "Y", "Z");
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when(mockRandom.nextInt(anyInt())).thenReturn(3, 0, 1, 2);
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randomScheduling = new RandomScheduling(tasks, mockRandom);
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// Act
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List<String> result = randomScheduling.schedule();
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// Assert
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assertEquals(List.of("Y", "X", "X", "Z"), result);
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}
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}
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