这里主要是三种遍历,先序(preorder,NLR),中序(Inorder,LNR),后序(Postorder,LRN)
N:node,L:left,R:right
基本排序:先序(NLR,节点,左,右),中序(LNR,左,节点,右),后序(LRN,左,右,节点)
要点:在每一种排序里,必须遵守基本排序。看图:
为了更加直观的了解,看下面的c语言实现的代码,参考了:https://www.geeksforgeeks.org/tree-traversals-inorder-preorder-and-postorder/
#include<cstdio>
#include<cstdlib>
using namespace std;
struct node{
int data;
struct node* left;
struct node* right;
};
struct node* newNode(int data){
struct node* node = (struct node*)malloc(sizeof(struct node));
node->data=data;
node->left=NULL;
node->right=NULL;
return node;
}
void printPostorder(struct node* node){
if(node == NULL)
return;
printPostorder(node->left);
printPostorder(node->right);
printf("%d ",node->data);
}
void printInorder(struct node* node){
if(node==NULL){
return;
}
printInorder(node->left);
printf("%d ",node->data);
printInorder(node->right);
}
void printPreorder(struct node* node){
if(node==NULL){
return;
}
printf("%d ",node->data);
printPreorder(node->left);
printPreorder(node->right);
}
int main(){
struct node *root=newNode();
root->left=newNode();
root->right=newNode();
root->left->left=newNode();
root->left->right=newNode();
root->right->left=newNode();
root->right->right=newNode();
root->left->left->left=newNode();
root->left->left->right=newNode();
root->left->right->left=newNode();
root->left->right->right=newNode();
root->right->left->left=newNode();
root->right->left->right=newNode();
root->right->right->left=newNode();
root->right->right->right=newNode();
printf("\nPreorder raversal of binary tree is \n");
printPreorder(root);
printf("\nInorder raversal of binary tree is \n");
printInorder(root);
printf("\nPostorder raversal of binary tree is \n");
printPostorder(root);
return ;
}
输出:
Preorder raversal of binary tree is
Inorder raversal of binary tree is
Postorder raversal of binary tree is
写一个中序输出的图解:
