+ * Worst-case performance O(n) + * Best-case performance O(n) + * Average performance O(n) + * Worst-case space complexity O(1) + * + * @author https://github.com/Chiefpatwal + */ +public final class LongestSubarrayWithSumLessOrEqualToK { + + // Prevent instantiation + private LongestSubarrayWithSumLessOrEqualToK() { + } + + /** + * This method finds the length of the longest subarray with a sum less than or equal to k. + * + * @param arr is the input array + * @param k is the maximum sum allowed + * @return the length of the longest subarray with sum less than or equal to k + */ + public static int longestSubarrayWithSumLEK(int[] arr, int k) { + int maxLength = 0; // To store the maximum length found + int currentSum = 0; // To store the current sum of the window + int left = 0; // Left index of the sliding window + + for (int right = 0; right < arr.length; right++) { + currentSum += arr[right]; // Expand the window to the right + + // Shrink the window from the left if the current sum exceeds k + while (currentSum > k && left <= right) { + currentSum -= arr[left]; // Remove the leftmost element + left++; // Move the left index to the right + } + + // Update maxLength if the current window is valid + maxLength = Math.max(maxLength, right - left + 1); + } + + return maxLength; // Return the maximum length found + } +} diff --git a/src/test/java/com/thealgorithms/datastructures/trees/BinaryTreeTest.java b/src/test/java/com/thealgorithms/datastructures/trees/BinaryTreeTest.java index 08a82e50ca02..d6581fb8c4e8 100644 --- a/src/test/java/com/thealgorithms/datastructures/trees/BinaryTreeTest.java +++ b/src/test/java/com/thealgorithms/datastructures/trees/BinaryTreeTest.java @@ -1,82 +1,78 @@ package com.thealgorithms.datastructures.trees; -import static org.junit.jupiter.api.Assertions.assertEquals; -import static org.junit.jupiter.api.Assertions.fail; - +import org.junit.jupiter.api.Assertions; import org.junit.jupiter.api.Test; +/** + * Unit tests for the BinaryTree class. + */ public class BinaryTreeTest { - // checks that adding populating the tree and searching for data - // retrieves the expected data @Test - void test1() { - BinaryTree t = new BinaryTree(); - t.put(3); - t.put(5); - t.put(7); - t.put(9); - t.put(12); + public void testInsertAndFind() { + BinaryTree tree = new BinaryTree(); + tree.put(3); + tree.put(5); + tree.put(7); + tree.put(9); + tree.put(12); - assertEquals(t.find(5).data, 5); - assertEquals(t.find(7).data, 7); + Assertions.assertNotNull(tree.find(5), "Node with value 5 should exist"); + Assertions.assertEquals(5, tree.find(5).data, "Value of the found node should be 5"); + Assertions.assertEquals(7, tree.find(7).data, "Value of the found node should be 7"); } - // checks that removing data from the tree - // properly removes and makes the new root the expected new root @Test - void test2() { - BinaryTree t = new BinaryTree(); - t.put(3); - t.put(5); - t.put(7); - t.put(9); - t.put(12); - t.remove(3); - t.remove(5); - t.remove(7); + public void testRemove() { + BinaryTree tree = new BinaryTree(); + tree.put(3); + tree.put(5); + tree.put(7); + tree.put(9); + tree.put(12); + tree.remove(3); + tree.remove(5); + tree.remove(7); - // Checks whether the root is null before accessing date - if (t.getRoot() != null) { - assertEquals(t.getRoot().data, 9); + Assertions.assertNotNull(tree.getRoot(), "Root should not be null after removals"); + if (tree.getRoot() != null) { + Assertions.assertEquals(9, tree.getRoot().data, "Root value should be 9 after removals"); } else { - fail("The root node is null after removal."); + Assertions.fail("Root should not be null after removals, but it is."); } } - // checks that removing an unexistend node returns false - // as specified by the documentation of the function @Test - void test3() { - BinaryTree t = new BinaryTree(); - t.put(3); - t.put(5); - t.put(7); - t.put(9); - t.put(12); + public void testRemoveReturnValue() { + BinaryTree tree = new BinaryTree(); + tree.put(3); + tree.put(5); + tree.put(7); + tree.put(9); + tree.put(12); - assertEquals(t.remove(9), true); - assertEquals(t.remove(398745987), false); + Assertions.assertTrue(tree.remove(9), "Removing existing node 9 should return true"); + Assertions.assertFalse(tree.remove(398745987), "Removing non-existing node should return false"); } - // check if the bfs, inOrder, preOrder and postOrder functions - // worg as expected, also increases the coverage measures in - // JaCoCo @Test - void test4() { - BinaryTree t = new BinaryTree(); - t.put(3); - t.put(5); - t.put(7); - t.put(9); - t.put(12); + public void testTraversalMethods() { + BinaryTree tree = new BinaryTree(); + tree.put(3); + tree.put(5); + tree.put(7); + tree.put(9); + tree.put(12); + + // Testing traversal methods + tree.bfs(tree.getRoot()); + tree.inOrder(tree.getRoot()); + tree.preOrder(tree.getRoot()); + tree.postOrder(tree.getRoot()); - t.bfs(t.find(12)); - t.inOrder(t.getRoot()); - t.preOrder(t.getRoot()); - t.postOrder(t.getRoot()); + Assertions.assertTrue(tree.remove(9), "Removing existing node 9 should return true"); + Assertions.assertFalse(tree.remove(398745987), "Removing non-existing node should return false"); - assertEquals(t.remove(9), true); - assertEquals(t.remove(398745987), false); + Assertions.assertNotNull(tree.getRoot(), "Root should not be null after operations"); } } diff --git a/src/test/java/com/thealgorithms/slidingwindow/LongestSubarrayWithSumLessOrEqualToKTest.java b/src/test/java/com/thealgorithms/slidingwindow/LongestSubarrayWithSumLessOrEqualToKTest.java new file mode 100644 index 000000000000..da282ab35ef3 --- /dev/null +++ b/src/test/java/com/thealgorithms/slidingwindow/LongestSubarrayWithSumLessOrEqualToKTest.java @@ -0,0 +1,22 @@ +package com.thealgorithms.slidingwindow; + +import static org.junit.jupiter.api.Assertions.assertEquals; + +import org.junit.jupiter.api.Test; + +/** + * Unit tests for the LongestSubarrayWithSumLessOrEqualToK algorithm. + */ +public class LongestSubarrayWithSumLessOrEqualToKTest { + + /** + * Tests for the longest subarray with a sum less than or equal to k. + */ + @Test + public void testLongestSubarrayWithSumLEK() { + assertEquals(3, LongestSubarrayWithSumLessOrEqualToK.longestSubarrayWithSumLEK(new int[] {1, 2, 3, 4}, 6)); // {1, 2, 3} + assertEquals(4, LongestSubarrayWithSumLessOrEqualToK.longestSubarrayWithSumLEK(new int[] {1, 2, 3, 4}, 10)); // {1, 2, 3, 4} + assertEquals(2, LongestSubarrayWithSumLessOrEqualToK.longestSubarrayWithSumLEK(new int[] {5, 1, 2, 3}, 5)); // {5} + assertEquals(0, LongestSubarrayWithSumLessOrEqualToK.longestSubarrayWithSumLEK(new int[] {1, 2, 3}, 0)); // No valid subarray + } +}
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