diff --git a/src/Practice.java b/src/Practice.java index ca8e22b..132a419 100644 --- a/src/Practice.java +++ b/src/Practice.java @@ -1,6 +1,8 @@ +import java.util.HashSet; import java.util.List; import java.util.Map; import java.util.Set; +import java.util.HashMap; public class Practice { /** @@ -12,7 +14,19 @@ public class Practice { * @return the sum of the odd numbers in the array */ public static int oddSum(int[] nums) { - return 0; + if(nums == null){ + return 0; + } + + int sum = 0; + + for(int i = 0; i < nums.length; i++){ + if(nums[i] % 2 != 0){ + sum += nums[i]; + } + } + + return sum; } /** @@ -27,7 +41,27 @@ public static int oddSum(int[] nums) { * @throws NullPointerException if words is null */ public static String shortestWord(Set words) { - return null; + + if(words.size() == 0){ + throw new IllegalArgumentException("Cant be empty"); + } + + String shortestWord = ""; + int shortest = Integer.MAX_VALUE; + + for (String word : words) { + if(word.length() < shortest){ + shortestWord = word; + shortest = word.length(); + } else if(word.length() == shortest && shortestWord.charAt(0) == word.charAt(0)){ + if(word.compareTo(shortestWord) < 0){ + shortestWord = word; + shortest = word.length(); + } + } + } + + return shortestWord; } /** @@ -40,7 +74,17 @@ public static String shortestWord(Set words) { * @throws NullPointerException if ages is null */ public static Set adults(Map ages) { - return null; + if(ages == null){ + throw new NullPointerException("Cant be empty"); + } + Set result = new HashSet<>(); + + for(Map.Entry entry : ages.entrySet()){ + if(entry.getValue() >= 18) { + result.add(entry.getKey()); + } + } + return result; } /** @@ -51,7 +95,20 @@ public static Set adults(Map ages) { * @throws IllegalArgumentException if head is null */ public static int biggestNumber(ListNode head) { - return 0; + if(head == null){ + throw new IllegalArgumentException("Cant be null"); + } + + int biggest = Integer.MIN_VALUE; + + while(head != null){ + if(head.data > biggest){ + biggest = head.data; + } + head = head.next; + } + + return biggest; } /** @@ -68,7 +125,18 @@ public static int biggestNumber(ListNode head) { * @return a frequency map of values in the list */ public static Map frequencies(ListNode head) { - return null; + if(head == null){ + return Map.of(); + } + + Map frequencyMap = new HashMap<>(); + + while(head != null){ + frequencyMap.put(head.data, frequencyMap.getOrDefault(head.data, 0) + 1); + head = head.next; + } + + return frequencyMap; } @@ -81,7 +149,14 @@ public static Map frequencies(ListNode head) { * @return the number of levels in the tree */ public static int levelCount(BinaryTreeNode root) { - return 0; + if(root == null){ + return 0; + } + + int leftDepth = levelCount(root.left); + int rightDepth = levelCount(root.right); + + return Math.max(leftDepth, rightDepth) + 1; } @@ -109,7 +184,18 @@ public static int levelCount(BinaryTreeNode root) { * @return the sum of the nodes at the given level */ public static int sumAtLevel(BinaryTreeNode root, int level) { - return 0; + if(root == null){ + return 0; + } + + if(level == 1){ + return root.data; + } + + int leftSum = sumAtLevel(root.left, level - 1); + int rightSum = sumAtLevel(root.right, level - 1); + + return leftSum + rightSum; } @@ -124,7 +210,30 @@ public static int sumAtLevel(BinaryTreeNode root, int level) { * @return true if the sums are equal, false otherwise */ public static boolean sumMatch(BinaryTreeNode root, ListNode head) { - return false; + if(root == null && head == null){ + return true; + } + + int treeSum = treeSum(root); + int listSum = 0; + + while(head != null){ + listSum += head.data; + head = head.next; + } + + return treeSum == listSum; + } + + private static int treeSum(BinaryTreeNode node) { + if(node == null){ + return 0; + } + + int leftSum = treeSum(node.left); + int rightSum = treeSum(node.right); + + return node.data + leftSum + rightSum; } /** @@ -136,7 +245,15 @@ public static boolean sumMatch(BinaryTreeNode root, ListNode h * @return the sum of all the tree's values */ public static int nbSum(TreeNode root) { - return 0; + if(root == null){ + return 0; + } + + int sum = root.data; + for(TreeNode child : root.children){ + sum += nbSum(child); + } + return sum; } /** @@ -168,7 +285,20 @@ public static int nbSum(TreeNode root) { * @return the count of nodes that do not have siblings, EXCLUDING THE ROOT */ public static int onlyChildCount(TreeNode root) { - return 0; + if(root == null){ + return 0; + } + + int count = 0; + + for(TreeNode child : root.children){ + if(root.children.size() == 1){ + count++; + } + count += onlyChildCount(child); + } + + return count; } /** @@ -206,6 +336,23 @@ public static int onlyChildCount(TreeNode root) { * @return the depth of the tree, or 0 if the tree is null or the root is not present in the tree */ public static int maxDepth(Map> tree, T root) { - return 0; + if(tree == null || root == null || !tree.containsKey(root)){ + return 0; + } + + List children = tree.get(root); + + if(children == null || children.size() == 0){ + return 1; + } + int maxDepth = 1; + for(T child : children){ + int depth = maxDepth(tree, child); + if(depth > 0){ + maxDepth = Math.max(maxDepth, depth); + } + } + + return maxDepth + 1; } } \ No newline at end of file