// Insert a new element in the tree
public boolean Insert(int v_key) {
Tree new_node;
boolean ntb;
boolean cont;
int key_aux;
Tree current_node;
new_node = new Tree();
ntb = new_node.Init(v_key);
current_node = this;
cont = true;
while (cont) {
key_aux = current_node.GetKey();
if (v_key < key_aux) {
if (current_node.GetHas_Left()) current_node = current_node.GetLeft();
else {
cont = false;
ntb = current_node.SetHas_Left(true);
ntb = current_node.SetLeft(new_node);
}
} else {
if (current_node.GetHas_Right()) current_node = current_node.GetRight();
else {
cont = false;
ntb = current_node.SetHas_Right(true);
ntb = current_node.SetRight(new_node);
}
}
}
return true;
}
// Delete an element from the tree
public boolean Delete(int v_key) {
Tree current_node;
Tree parent_node;
boolean cont;
boolean found;
boolean is_root;
int key_aux;
boolean ntb;
current_node = this;
parent_node = this;
cont = true;
found = false;
is_root = true;
while (cont) {
key_aux = current_node.GetKey();
if (v_key < key_aux)
if (current_node.GetHas_Left()) {
parent_node = current_node;
current_node = current_node.GetLeft();
} else cont = false;
else if (key_aux < v_key)
if (current_node.GetHas_Right()) {
parent_node = current_node;
current_node = current_node.GetRight();
} else cont = false;
else {
if (is_root)
if ((!current_node.GetHas_Right()) && (!current_node.GetHas_Left())) ntb = true;
else ntb = this.Remove(parent_node, current_node);
else ntb = this.Remove(parent_node, current_node);
found = true;
cont = false;
}
is_root = false;
}
return found;
}
// Copy the child key to the parent until a leaf is
// found and remove the leaf. This is done with the
// left subtree
public boolean RemoveLeft(Tree p_node, Tree c_node) {
boolean ntb;
while (c_node.GetHas_Left()) {
// auxtree01 = c_node.GetLeft() ;
// auxint02 = auxtree01.GetKey();
// ntb = c_node.SetKey(auxint02);
ntb = c_node.SetKey((c_node.GetLeft()).GetKey());
p_node = c_node;
c_node = c_node.GetLeft();
}
ntb = p_node.SetLeft(my_null);
ntb = p_node.SetHas_Left(false);
return true;
}
// Print the elements of the tree
public boolean RecPrint(Tree node) {
boolean ntb;
if (node.GetHas_Left()) {
// auxtree01 = node.GetLeft() ;
// ntb = this.RecPrint(auxtree01);
ntb = this.RecPrint(node.GetLeft());
} else ntb = true;
System.out.println(node.GetKey());
if (node.GetHas_Right()) {
// auxtree01 = node.GetRight() ;
// ntb = this.RecPrint(auxtree01);
ntb = this.RecPrint(node.GetRight());
} else ntb = true;
return true;
}
// Check if the element to be removed will use the
// righ or left subtree if one exists
public boolean Remove(Tree p_node, Tree c_node) {
boolean ntb;
int auxkey1;
int auxkey2;
if (c_node.GetHas_Left()) ntb = this.RemoveLeft(p_node, c_node);
else if (c_node.GetHas_Right()) ntb = this.RemoveRight(p_node, c_node);
else {
auxkey1 = c_node.GetKey();
// auxtree01 = p_node.GetLeft() ;
// auxkey2 = auxtree01.GetKey() ;
auxkey2 = (p_node.GetLeft()).GetKey();
if (this.Compare(auxkey1, auxkey2)) {
ntb = p_node.SetLeft(my_null);
ntb = p_node.SetHas_Left(false);
} else {
ntb = p_node.SetRight(my_null);
ntb = p_node.SetHas_Right(false);
}
}
return true;
}
// Search for an elemnt in the tree
public int Search(int v_key) {
boolean cont;
int ifound;
Tree current_node;
int key_aux;
current_node = this;
cont = true;
ifound = 0;
while (cont) {
key_aux = current_node.GetKey();
if (v_key < key_aux)
if (current_node.GetHas_Left()) current_node = current_node.GetLeft();
else cont = false;
else if (key_aux < v_key)
if (current_node.GetHas_Right()) current_node = current_node.GetRight();
else cont = false;
else {
ifound = 1;
cont = false;
}
}
return ifound;
}