template<typename Type> class BTree;
template<typename Type> class BTreeNode{
public:
friend BTree<Type>;
BTreeNode(): m_nMaxSize(0), m_ptr(NULL), m_pparent(NULL){}
BTreeNode(int size): m_nsize(0), m_nMaxSize(size), m_pparent(NULL){
m_pkey = new Type[size+1];
m_ptr = new BTreeNode<Type> *[size+1];
for (int i=0; i<=size; i++){
m_ptr[i] = NULL;
m_pkey[i] = this->m_Infinity;
}
}
void Destroy(BTreeNode<Type> *root);
~BTreeNode(){
if (m_nMaxSize){
delete[] m_pkey;
for (int i=0; i<=m_nMaxSize; i++){
m_ptr[i] = NULL;
}
}
}
bool IsFull(){
return m_nsize == m_nMaxSize;
}
Type GetKey(int i){
if (this){
return this->m_pkey[i];
}
return -1;
}
private:
int m_nsize;
int m_nMaxSize; //the Max Size of key
Type *m_pkey;
BTreeNode<Type> *m_pparent;
BTreeNode<Type> **m_ptr;
static const Type m_Infinity = 10000;
};
template<typename Type> struct Triple{
BTreeNode<Type> *m_pfind;
int m_nfind;
bool m_ntag;
};
template<typename Type> void BTreeNode<Type>::Destroy(BTreeNode<Type> *root){
if (NULL == root){
return;
}
for (int i=0; i<root->m_nsize; i++){
Destroy(root->m_ptr[i]);
}
delete root;
}
#include "BTreeNode.h"
template<typename Type> class BTree{
public:
BTree(int size): m_nMaxSize(size), m_proot(NULL){}
~BTree();
Triple<Type> Search(const Type item);
int Size();
int Size(BTreeNode<Type> *root);
bool Insert(const Type item); //insert item
bool Remove(const Type item); //delete item
void Print(); //print the BTree
BTreeNode<Type> *GetParent(const Type item);
private:
//insert the pright and item to pinsert in the nth place;
void InsertKey(BTreeNode<Type> *pinsert, int n, const Type item, BTreeNode<Type> *pright);
void PreMove(BTreeNode<Type> *root, int n); //move ahead
//merge the child tree
void Merge(BTreeNode<Type> *pleft, BTreeNode<Type> *pparent, BTreeNode<Type> *pright, int n);
//adjust with the parent and the left child tree
void LeftAdjust(BTreeNode<Type> *pright, BTreeNode<Type> *pparent, int min, int n);
//adjust with the parent and the left child tree
void RightAdjust(BTreeNode<Type> *pleft, BTreeNode<Type> *pparent, int min, int n);
void Print(BTreeNode<Type> *start, int n = 0);
private:
BTreeNode<Type> *m_proot;
const int m_nMaxSize;
};
template<typename Type> BTree<Type>::~BTree(){
m_proot->Destroy(m_proot);
}
template<typename Type> Triple<Type> BTree<Type>::Search(const Type item){
Triple<Type> result;
BTreeNode<Type> *pmove = m_proot, *parent = NULL;
int i = 0;
while (pmove){
i = -1;
while (item > pmove->m_pkey[++i]); //find the suit position
if (pmove->m_pkey[i] == item){
result.m_pfind = pmove;
result.m_nfind = i;
result.m_ntag = 1;
return result;
}
parent = pmove;
pmove = pmove->m_ptr[i]; //find in the child tree
}
result.m_pfind = parent;
result.m_nfind = i;
result.m_ntag = 0;
return result;
}
template<typename Type> void BTree<Type>::InsertKey(BTreeNode<Type> *pinsert, int n, const Type item, BTreeNode<Type> *pright){
pinsert->m_nsize++;
for (int i=pinsert->m_nsize; i>n; i--){
pinsert->m_pkey[i] = pinsert->m_pkey[i-1];
pinsert->m_ptr[i+1] = pinsert->m_ptr[i];
}
pinsert->m_pkey[n] = item;
pinsert->m_ptr[n+1] = pright;
if (pinsert->m_ptr[n+1]){ //change the right child tree's parent
pinsert->m_ptr[n+1]->m_pparent = pinsert;
for (int i=0; i<=pinsert->m_ptr[n+1]->m_nsize; i++){
if (pinsert->m_ptr[n+1]->m_ptr[i]){
pinsert->m_ptr[n+1]->m_ptr[i]->m_pparent = pinsert->m_ptr[n+1];
}
}
}
}
template<typename Type> bool BTree<Type>::Insert(const Type item){
if (NULL == m_proot){ //insert the first node
m_proot = new BTreeNode<Type>(m_nMaxSize);
m_proot->m_nsize = 1;
m_proot->m_pkey[1] = m_proot->m_pkey[0];
m_proot->m_pkey[0] = item;
m_proot->m_ptr[0] = m_proot->m_ptr[1] =NULL;
return 1;
}
Triple<Type> find = this->Search(item); //search the position
if (find.m_ntag){
cerr << "The item is exist!" << endl;
return 0;
}
BTreeNode<Type> *pinsert = find.m_pfind, *newnode;
BTreeNode<Type> *pright = NULL, *pparent;
Type key = item;
int n = find.m_nfind;
while (1){
if (pinsert->m_nsize < pinsert->m_nMaxSize-1){ //There is some space
InsertKey(pinsert, n, key, pright);
return 1;
}
int m = (pinsert->m_nsize + 1) / 2; //get the middle item
InsertKey(pinsert, n, key, pright); //insert first, then break up
newnode = new BTreeNode<Type>(this->m_nMaxSize);//create the newnode for break up
//break up
for (int i=m+1; i<=pinsert->m_nsize; i++){
newnode->m_pkey[i-m-1] = pinsert->m_pkey[i];
newnode->m_ptr[i-m-1] = pinsert->m_ptr[i];
pinsert->m_pkey[i] = pinsert->m_Infinity;
pinsert->m_ptr[i] = NULL;
}
newnode->m_nsize = pinsert->m_nsize - m - 1;
pinsert->m_nsize = m;
for (int i=0; i<=newnode->m_nsize; i++){ //change the parent
if (newnode->m_ptr[i]){
newnode->m_ptr[i]->m_pparent = newnode;
for (int j=0; j<=newnode->m_ptr[i]->m_nsize; j++){
if (newnode->m_ptr[i]->m_ptr[j]){
newnode->m_ptr[i]->m_ptr[j]->m_pparent = newnode->m_ptr[i];
}
}
}
}
for (int i=0; i<=pinsert->m_nsize; i++){ //change the parent
if (pinsert->m_ptr[i]){
pinsert->m_ptr[i]->m_pparent = pinsert;
for (int j=0; j<=pinsert->m_nsize; j++){
if (pinsert->m_ptr[i]->m_ptr[j]){
pinsert->m_ptr[i]->m_ptr[j]->m_pparent = pinsert->m_ptr[i];
}
}
}
}
//break up over
key = pinsert->m_pkey[m];
pright = newnode;
if (pinsert->m_pparent){ //insert the key to the parent
pparent = pinsert->m_pparent;
n = -1;
pparent->m_pkey[pparent->m_nsize] = pparent->m_Infinity;
while (key > pparent->m_pkey[++n]);
newnode->m_pparent = pinsert->m_pparent;
pinsert = pparent;
}
else { //create new root
m_proot = new BTreeNode<Type>(this->m_nMaxSize);
m_proot->m_nsize = 1;
m_proot->m_pkey[1] = m_proot->m_pkey[0];
m_proot->m_pkey[0] = key;
m_proot->m_ptr[0] = pinsert;
m_proot->m_ptr[1] = pright;
newnode->m_pparent = pinsert->m_pparent = m_proot;
return 1;
}
}
}
template<typename Type> void BTree<Type>::PreMove(BTreeNode<Type> *root, int n){
root->m_pkey[root->m_nsize] = root->m_Infinity;
for (int i=n; i<root->m_nsize; i++){
root->m_pkey[i] = root->m_pkey[i+1];
root->m_ptr[i+1] = root->m_ptr[i+2];
}
root->m_nsize--;
}
template<typename Type> void BTree<Type>::Merge(BTreeNode<Type> *pleft, BTreeNode<Type> *pparent, BTreeNode<Type> *pright, int n){
pleft->m_pkey[pleft->m_nsize] = pparent->m_pkey[n];
BTreeNode<Type> *ptemp;
for (int i=0; i<=pright->m_nsize; i++){ //merge the two child tree and the parent
pleft->m_pkey[pleft->m_nsize+i+1] = pright->m_pkey[i];
pleft->m_ptr[pleft->m_nsize+i+1] = pright->m_ptr[i];
ptemp = pleft->m_ptr[pleft->m_nsize+i+1];
if (ptemp){ //change thd right child tree's parent
ptemp->m_pparent = pleft;
for (int j=0; j<=ptemp->m_nsize; j++){
if (ptemp->m_ptr[j]){
ptemp->m_ptr[j]->m_pparent = ptemp;
}
}
}
}
pleft->m_nsize = pleft->m_nsize + pright->m_nsize + 1;
delete pright;
PreMove(pparent, n);
// this->Print();
}
template<typename Type> void BTree<Type>::LeftAdjust(BTreeNode<Type> *pright, BTreeNode<Type> *pparent, int min, int n){
BTreeNode<Type> *pleft = pparent->m_ptr[n-1], *ptemp;
if (pleft->m_nsize > min-1){
for (int i=pright->m_nsize+1; i>0; i--){
pright->m_pkey[i] = pright->m_pkey[i-1];
pright->m_ptr[i] = pright->m_ptr[i-1];
}
pright->m_pkey[0] = pparent->m_pkey[n-1];
pright->m_ptr[0] = pleft->m_ptr[pleft->m_nsize];
ptemp = pright->m_ptr[0];
if (ptemp){ //change the tree's parent which is moved
ptemp->m_pparent = pright;
for (int i=0; i<ptemp->m_nsize; i++){
if (ptemp->m_ptr[i]){
ptemp->m_ptr[i]->m_pparent = ptemp;
}
}
}
pparent->m_pkey[n-1] = pleft->m_pkey[pleft->m_nsize-1];
pleft->m_pkey[pleft->m_nsize] = pleft->m_Infinity;
pleft->m_nsize--;
pright->m_nsize++;
}
else {
Merge(pleft, pparent, pright, n-1);
}
// this->Print();
}
template<typename Type> void BTree<Type>::RightAdjust(BTreeNode<Type> *pleft, BTreeNode<Type> *pparent, int min, int n){
BTreeNode<Type> *pright = pparent->m_ptr[1], *ptemp;
if (pright && pright->m_nsize > min-1){
pleft->m_pkey[pleft->m_nsize] = pparent->m_pkey[0];
pparent->m_pkey[0] = pright->m_pkey[0];
pleft->m_ptr[pleft->m_nsize+1] = pright->m_ptr[0];
ptemp = pleft->m_ptr[pleft->m_nsize+1];
if (ptemp){ //change the tree's parent which is moved
ptemp->m_pparent = pleft;
for (int i=0; i<ptemp->m_nsize; i++){
if (ptemp->m_ptr[i]){
ptemp->m_ptr[i]->m_pparent = ptemp;
}
}
}
pright->m_ptr[0] = pright->m_ptr[1];
pleft->m_nsize++;
PreMove(pright,0);
}
else {
Merge(pleft, pparent, pright, 0);
}
}
template<typename Type> bool BTree<Type>::Remove(const Type item){
Triple<Type> result = this->Search(item);
if (!result.m_ntag){
return 0;
}
BTreeNode<Type> *pdel, *pparent, *pmin;
int n = result.m_nfind;
pdel = result.m_pfind;
if (pdel->m_ptr[n+1] != NULL){ //change into delete leafnode
pmin = pdel->m_ptr[n+1];
pparent = pdel;
while (pmin != NULL){
pparent = pmin;
pmin = pmin->m_ptr[0];
}
pdel->m_pkey[n] = pparent->m_pkey[0];
pdel = pparent;
n = 0;
}
PreMove(pdel, n); //delete the node
int min = (this->m_nMaxSize + 1) / 2;
while (pdel->m_nsize < min-1){ //if it is not a BTree, then adjust
n = 0;
pparent = pdel->m_pparent;
if (NULL == pparent)
{
return 1;
}
while (n<= pparent->m_nsize && pparent->m_ptr[n]!=pdel){
n++;
}
if (!n){
RightAdjust(pdel, pparent, min, n); //adjust with the parent and the right child tree
}
else {
LeftAdjust(pdel, pparent, min, n); //adjust with the parent and the left child tree
}
pdel = pparent;
if (pdel == m_proot){
break;
}
}
if (!m_proot->m_nsize){ //the root is merged
pdel = m_proot->m_ptr[0];
delete m_proot;
m_proot = pdel;
m_proot->m_pparent = NULL;
for (int i=0; i<m_proot->m_nsize; i++){
if (m_proot->m_ptr[i]){
m_proot->m_ptr[i]->m_pparent = m_proot;
}
}
}
return 1;
}
template<typename Type> void BTree<Type>::Print(BTreeNode<Type> *start, int n){
if (NULL == start){
return;
}
if (start->m_ptr[0]){
Print(start->m_ptr[0], n+1); //print the first child tree
}
else {
for (int j=0; j<n; j++){
cout << " ";
}
cout << "NULL" << endl;
}
for (int i=0; i<start->m_nsize; i++){ //print the orther child tree
for (int j=0; j<n; j++){
cout << " ";
}
cout << start->m_pkey[i] << "--->" <<endl;
if (start->m_ptr[i+1]){
Print(start->m_ptr[i+1], n+1);
}
else {
for (int j=0; j<n; j++){
cout << " ";
}
cout << "NULL" << endl;
}
}
}
template<typename Type> void BTree<Type>::Print(){
Print(m_proot);
}
template<typename Type> int BTree<Type>::Size(BTreeNode<Type> *root){
if (NULL == root){
return 0;
}
int size=root->m_nsize;
for (int i=0; i<=root->m_nsize; i++){
if (root->m_ptr[i]){
size += this->Size(root->m_ptr[i]);
}
}
return size;
}
template<typename Type> int BTree<Type>::Size(){
return this->Size(this->m_proot);
}
template<typename Type> BTreeNode<Type>* BTree<Type>::GetParent(const Type item){
Triple<Type> result = this->Search(item);
return result.m_pfind->m_pparent;
}
#include <iostream>
#include <cstdlib>
using namespace std;
#include "BTree.h"
int main(){
BTree<int> btree(3);
int init[]={1,3,5,7,4,2,8,0,6,9,29,13,25,11,32,55,34,22,76,45
,14,26,33,88,87,92,44,54,23,12,21,99,19,27,57,18,72,124,158,234
,187,218,382,122,111,222,333,872,123};
for (int i=0; i<49; i++){
btree.Insert(init[i]);
}
btree.Print();
cout << endl << endl << endl;
Triple<int> result = btree.Search(13);
cout << result.m_pfind->GetKey(result.m_nfind) << endl;
cout << endl << endl << endl;
for (int i=0; i<49; i++){
btree.Remove(init[i]);
btree.Print();
cout << endl << endl << endl;
}
return 0;
}
