#include #include #include #define MAX_LIST_LEN 100 struct node { struct node *next; int data; }; struct node *delete_highest(struct node *head); struct node *array_to_list(int len, int array[]); void print_list(struct node *head); static void free_list(struct node *head); // DO NOT CHANGE THIS MAIN FUNCTION int main(void) { // scan in quantity of numbers printf("Total numbers in list: "); int list_size; scanf(" %d", &list_size); // scan numbers into array int n_read = 0; int numbers_list[MAX_LIST_LEN] = {0}; while (n_read < list_size && scanf(" %d", &numbers_list[n_read])) { n_read++; } // create linked list from inputs struct node *head = array_to_list(n_read, numbers_list); struct node *new_head = delete_highest(head); print_list(new_head); free_list(new_head); return 0; } // // Delete the node(s) in the list that contain the highest value // The deleted node(s) are freed. // The head of the list is returned. // struct node *delete_highest(struct node *head) { // PUT YOUR CODE HERE (change the next line!) return NULL; } // DO NOT CHANGE THIS FUNCTION // Free all nodes in the supplied list static void free_list(struct node *head) { if (head != NULL) { free_list(head->next); free(head); } } // DO NOT CHANGE THIS FUNCTION // create linked list from array of ints struct node *array_to_list(int len, int array[]) { struct node *head = NULL; int i = len - 1; while (i >= 0) { struct node *n = malloc(sizeof (struct node)); assert(n != NULL); n->next = head; n->data = array[i]; head = n; i -= 1; } return head; } // DO NOT CHANGE THIS FUNCTION // print linked list void print_list(struct node *head) { printf("["); struct node *n = head; while (n != NULL) { // If you're getting an error here, // you have returned an invalid list printf("%d", n->data); if (n->next != NULL) { printf(", "); } n = n->next; } printf("]\n"); }