C++資料結構--按層次遍歷二叉樹
阿新 • • 發佈:2019-01-23
class node
{
public:
T val; //節點值
node<T>* left; //左節點
node<T>* right; //右節點
node():val(T()),left(nullptr),right(nullptr){}
node(T v, node<T>* l=nullptr, node<T>* r=nullptr):val(v),left(l),right(r){}
};
node<char>* createBTree() //構建一棵示例二叉樹
{
node<char>* d=new node<char>('D');
node<char>* e=new node<char>('E');
node<char>* b=new node<char>('B',nullptr,d);
node<char>* c=new node<char>('C',e,nullptr);
node<char>* a=new node<char>('A',b,c);
}
void levelOrderTraver(node<char>* root)
{
queue<node<char>*> que;
node<char> *tem; //儲存佇列岀隊時的臨時變數
if(root) //當頭節點不為空時
{
que.push(root);
while(!que.empty())
{
tem=que.front(); //取隊首元素
que.pop(); //岀隊
cout<<tem->val<<ends;
if(tem->left) //左子樹非空時入隊
{
que.push(tem->left);
}
if(tem->right) //右子樹非空時入隊
{
que.push(tem->right);
}
}
}
}
int main()
{
node<char>* root=createBTree();
cout<<"levelOrderTraver :" ;
levelOrderTraver(root);
cout<<endl;
return 0;
}
output:
levelOrderTraver :A B C D E
{
public:
T val; //節點值
node<T>* left; //左節點
node<T>* right; //右節點
node():val(T()),left(nullptr),right(nullptr){}
node(T v, node<T>* l=nullptr, node<T>* r=nullptr):val(v),left(l),right(r){}
};
node<char>* createBTree() //構建一棵示例二叉樹
{
node<char>* d=new node<char>('D');
node<char>* e=new node<char>('E');
node<char>* b=new node<char>('B',nullptr,d);
node<char>* c=new node<char>('C',e,nullptr);
node<char>* a=new node<char>('A',b,c);
}
void levelOrderTraver(node<char>* root)
{
queue<node<char>*> que;
node<char> *tem; //儲存佇列岀隊時的臨時變數
if(root) //當頭節點不為空時
{
que.push(root);
while(!que.empty())
{
tem=que.front(); //取隊首元素
que.pop(); //岀隊
cout<<tem->val<<ends;
if(tem->left) //左子樹非空時入隊
{
que.push(tem->left);
}
if(tem->right) //右子樹非空時入隊
{
que.push(tem->right);
}
}
}
}
int main()
{
node<char>* root=createBTree();
cout<<"levelOrderTraver :" ;
levelOrderTraver(root);
cout<<endl;
return 0;
}
output:
levelOrderTraver :A B C D E