// Inserting a key on a B-tree in Java public class BTree { private int T; // Node Creation public class Node { int n; int key[] = new int[2 * T - 1]; Node child[] = new Node[2 * T]; boolean leaf = true; public int Find(int k) { for (int i = 0; i < this.n; i++) { if (this.key[i] == k) { return i; } } return -1; }; } public BTree(int t) { T = t; root = new Node(); root.n = 0; root.leaf = true; } private Node root; // split private void split(Node x, int pos, Node y) { Node z = new Node(); z.leaf = y.leaf; z.n = T - 1; for (int j = 0; j < T - 1; j++) { z.key[j] = y.key[j + T]; } if (!y.leaf) { for (int j = 0; j < T; j++) { z.child[j] = y.child[j + T]; } } y.n = T - 1; for (int j = x.n; j >= pos + 1; j--) { x.child[j + 1] = x.child[j]; } x.child[pos + 1] = z; for (int j = x.n - 1; j >= pos; j--) { x.key[j + 1] = x.key[j]; } x.key[pos] = y.key[T - 1]; x.n = x.n + 1; } // insert key public void insert(final int key) { Node r = root; if (r.n == 2 * T - 1) { Node s = new Node(); root = s; s.leaf = false; s.n = 0; s.child[0] = r; split(s, 0, r); _insert(s, key); } else { _insert(r, key); } } // insert node final private void _insert(Node x, int k) { if (x.leaf) { int i = 0; for (i = x.n - 1; i >= 0 && k < x.key[i]; i--) { x.key[i + 1] = x.key[i]; } x.key[i + 1] = k; x.n = x.n + 1; } else { int i = 0; for (i = x.n - 1; i >= 0 && k < x.key[i]; i--) { } ; i++; Node tmp = x.child[i]; if (tmp.n == 2 * T - 1) { split(x, i, tmp); if (k > x.key[i]) { i++; } } _insert(x.child[i], k); } } public void display() { display(root); } // Display the tree private void display(Node x) { assert (x == null); for (int i = 0; i < x.n; i++) { System.out.print(x.key[i] + " "); } if (!x.leaf) { for (int i = 0; i < x.n + 1; i++) { display(x.child[i]); } } } public static void main(String[] args) { BTree b = new BTree(3); b.insert(8); b.insert(9); b.insert(10); b.insert(11); b.insert(15); b.insert(20); b.insert(17); b.display(); } }