目录
#include<iostream>
#include<stack>
using namespace std;
struct BTNode
{
int data;
BTNode* left, * right;
BTNode(int val) :data(val), left(NULL), right(NULL) {}
};
//先序 遍历递归算法
/*void preorder(BTNode* t)
{
if (t == NULL)
return;
cout << t->data;
preorder(t->left);
preorder(t->right);
}*/
//先序非递归
void preorder(BTNode* t)
{
if (t == NULL)
return;
stack<BTNode*> s; //栈的实质:寄放右子树的根指针
while (!s.empty() || t)
{
if (t)
{
cout << t->data;
s.push(t);
t = t->left;
}
else
{
t = s.top();//遍历左子树将结点取出
s.pop();
t = t->right; //通过这些结点来访问右子树
}
}
}
int main()
{
BTNode* root = new BTNode(1);
root->left = new BTNode(2);
root->right = new BTNode(3);
root->left->left = new BTNode(4);
root->left->right = new BTNode(5);
root->right->left = new BTNode(6);
root->right->right = new BTNode(7);
preorder(root);
return 0;
}#include<iostream>
#include<stack>
using namespace std;
struct BTNode
{
int data;
BTNode* left, * right;
BTNode(int val) :data(val), left(NULL), right(NULL) {}
};
//中序 遍历递归算法
/*void inorder(BTNode* t)
{
if (t == NULL)
return;
inorder(t->left);
cout << t->data<<'\t';
inorder(t->right);
}*/
//中序非递归
void inorder(BTNode* t)
{
if (t == NULL)
return;
stack<BTNode*> s;
while (!s.empty() || t)
{
if (t)
{
s.push(t); //将根节点放入栈中
t = t->left; //将左孩子全部放入栈中,直到栈为空
}
else
{
t = s.top(); //取出右子树的根指针
s.pop();
cout << t->data<<"\t"; //左根右
t = t->right;
}
}
}
int main()
{
BTNode* root = new BTNode(1);
root->left = new BTNode(2);
root->right = new BTNode(3);
root->left->left = new BTNode(4);
root->left->right = new BTNode(5);
root->right->left = new BTNode(6);
root->right->right = new BTNode(7);
cout << "中序遍历:" << endl;
inorder(root);
return 0;
}#include<iostream>
#include<stack>
using namespace std;
struct BTNode
{
int data;
BTNode* left, * right;
BTNode(int val) :data(val), left(NULL), right(NULL) {}
};
//后序 遍历递归算法
/*void postorder(BTNode* t)
{
if (t == NULL)
return;
postorder(t->left);
postorder(t->right);
cout << t->data<<'\t';
}*/
//后序遍历非递归算法
void postorder(BTNode* t)
{
if (t == NULL)
return;
stack<BTNode*> s;
BTNode* r;
r = NULL;
while (t || !s.empty())
{
if (t) //步骤一:沿着根的左孩子,依次入栈,直到左孩子为空
{
s.push(t);
t = t->left;
}
else
{
t = s.top(); //步骤二:读栈顶元素进行判定
if (t->right && t->right != r) //如果栈顶元素的右孩子存在且右孩子没有被访问过 执行步骤一
{
t = t->right; //更新指向指针为它的右孩子
s.push(t);//右孩子入栈
t = t->left;//沿着根(右孩子)的左孩子,依次入栈,直到左孩子为空
}
else
{
s.pop(); //步骤三:栈顶元素出栈
cout << t->data<<'\t';
r = t; //将标记指针更新为指向指针
t = NULL; //出栈之后把指向指示指针置空
//因为应经访问了,出栈了 所以不用管了
//t也应该更新为栈顶元素
}
}
}
}
int main()
{
BTNode* root = new BTNode(1);
root->left = new BTNode(2);
root->right = new BTNode(3);
root->left->left = new BTNode(4);
root->left->right = new BTNode(5);
root->right->left = new BTNode(6);
root->right->right = new BTNode(7);
cout << "后序遍历:" << endl;
postorder(root);
return 0;
}