template<typename Type> class MinHeap{
public:
MinHeap(int size):m_nMaxSize(size > defaultsize ? size : defaultsize)
,m_pheap(new Type[m_nMaxSize]),m_ncurrentsize(0){}
MinHeap(Type heap[],int n); //initialize heap by a array
~MinHeap(){
delete[] m_pheap;
}
public:
bool Insert(const Type item); //insert element
bool Delete(const Type item); //delete element
bool IsEmpty() const{
return m_ncurrentsize == 0;
}
bool IsFull() const{
reutrn m_ncurrentsize == m_nMaxSize;
}
void Print(const int start=0, int n=0);
private:
//adjust the elements of the child tree with the root of start from top to bottom
void Adjust(const int start, const int end);
private:
static const int defaultsize = 100;
const int m_nMaxSize;
Type *m_pheap;
int m_ncurrentsize;
};
template<typename Type> void MinHeap<Type>::Adjust(const int start, const int end){
int i = start,j = i*2+1; //get the position of the child of i
Type temp=m_pheap[i];
while(j <= end){
if(j<end && m_pheap[j]>m_pheap[j+1]){ //left>right
j++;
}
if(temp <= m_pheap[j]){ //adjust over
break;
}
else{ //change the parent and the child, then adjust the child
m_pheap[i] = m_pheap[j];
i = j;
j = 2*i+1;
}
}
m_pheap[i] = temp;
}
template<typename Type> MinHeap<Type>::MinHeap(Type heap[], int n):m_nMaxSize(
n > defaultsize ? n : defaultsize){
m_pheap = new Type[m_nMaxSize];
for(int i=0; i<n; i++){
m_pheap[i] = heap[i];
}
m_ncurrentsize = n;
int pos=(n-2)/2; //Find the last child tree which has more than one element;
while(pos>=0){
Adjust(pos, n-1);
pos--;
}
}
template<typename Type> bool MinHeap<Type>::Insert(const Type item){
if(m_ncurrentsize == m_nMaxSize){
cerr<<"Heap Full!"<<endl;
return 0;
}
m_pheap[m_ncurrentsize] = item;
int j = m_ncurrentsize, i = (j-1)/2; //get the position of the parent of j
Type temp = m_pheap[j];
while(j > 0){ //adjust from bottom to top
if(m_pheap[i] <= temp){
break;
}
else{
m_pheap[j] = m_pheap[i];
j = i;
i = (j-1)/2;
}
}
m_pheap[j] = temp;
m_ncurrentsize++;
return 1;
}
template<typename Type> bool MinHeap<Type>::Delete(const Type item){
if(0 == m_ncurrentsize){
cerr<<"Heap Empty!"<<endl;
return 0;
}
for(int i=0; i<m_ncurrentsize; i++){
if(m_pheap[i] == item){
m_pheap[i] = m_pheap[m_ncurrentsize-1]; //filled with the last element
Adjust(i,m_ncurrentsize-2); //adjust the tree with start of i
m_ncurrentsize--;
i=0;
}
}
return 1;
}
template<typename Type> void MinHeap<Type>::Print(const int start, int n){
if(start >= m_ncurrentsize){
return;
}
Print(start*2+2, n+1); //print the right child tree
for(int i=0; i<n; i++){
cout<<" ";
}
cout<< m_pheap[start] << "--->" << endl;
Print(start*2+1, n+1); //print the left child tree
}
#include <iostream>
using namespace std;
#include "MinHeap.h"
int main(){
int init[30]={17,6,22,29,14,0,21,13,27,18,2,28,8
,26,3,12,20,4,9,23,15,1,11,5,19,24,16,7,10,25};
MinHeap<int> heap(init,30);
heap.Print();
cout<<endl<<endl<<endl;
heap.Insert(20);
heap.Print();
cout<<endl<<endl<<endl;
heap.Delete(20);
heap.Print();
cout<<endl<<endl<<endl;
return 0;
}
