表达树就是依据后缀表达式来建立一个二叉树。
这个二叉树的每一个叶子节点就是数。真祖先都是操作符。
通过栈来建立的,所以这里也会有非常多栈的操作。
树的先序遍历。中序遍历。后序遍历的概念我就不讲了,不会的自行百度,不然也看不懂我的代码。
以下是代码:
//
// main.cpp
// expressionTree
//
// Created by Alps on 14-7-29.
// Copyright (c) 2014年 chen. All rights reserved.
//
#include <iostream>
#define ElementType char
using namespace std;
struct Tree;
typedef Tree* TreeNode;
struct Node;
typedef Node* PtrToNode;
typedef PtrToNode Stack;
struct Tree{
ElementType element;
TreeNode left;
TreeNode right;
};
struct Node{
TreeNode rootNode;
Stack Next;
};
/****************** Stack operate ****************/
Stack createStack(void){
Stack S = (Stack)malloc(sizeof(Stack));
S->Next = NULL;
return S;
}
int isEmptyStack(Stack S){
return S->Next == NULL;
}
void Push(TreeNode T, Stack S){
Stack SNode = (Stack)malloc(sizeof(Node));
SNode->rootNode = NULL;
SNode->Next = NULL;
SNode->rootNode = T;
SNode->Next = S->Next;
S->Next = SNode;
}
TreeNode Top(Stack S){
if (!isEmptyStack(S)) {
return S->Next->rootNode;
}else{
// printf("stack is empty, can't get top element!
");
return NULL;
}
}
void Pop(Stack S){
if (!isEmptyStack(S)) {
Stack tmp = S->Next;
S->Next = tmp->Next;
free(tmp);
tmp = NULL;
}else{
printf("stack is empty, can't pop the stack!
");
exit(1);
}
}
Stack switchStack(Stack S){
Stack tmp = (Stack)malloc(sizeof(Node));
Stack switchTmp = S->Next;
while (switchTmp != NULL) {
Push(switchTmp->rootNode, tmp);
switchTmp = switchTmp->Next;
}
return tmp;
}
int findStack(TreeNode T, Stack S){
Stack tmp = S->Next;
while (tmp != NULL) {
if (tmp->rootNode == T) {
return 1;
}
tmp = tmp->Next;
}
return 0;
}
void PrintStack(Stack S){
if (S == NULL) {
printf("please create stack first!
");
exit(1);
}
Stack tmp = S->Next;
while (tmp != NULL) {
ElementType X = tmp->rootNode->element;
printf("%c ",X);
tmp = tmp->Next;
}
printf("
");
}
/****************** Tree operate ****************/
TreeNode createNode(ElementType X){
TreeNode expressionTree = (TreeNode)malloc(sizeof(Tree));
expressionTree->element = X;
expressionTree->left = NULL;
expressionTree->right = NULL;
return expressionTree;
}
TreeNode createTree(ElementType A[], int length, Stack S){
int i = 0;
TreeNode tmpNode;
for (i = 0; i < length; i++) {
tmpNode = createNode(A[i]);
if (tmpNode->element == '+' || tmpNode->element == '-' || tmpNode->element == '*' || tmpNode->element == '/') {
tmpNode->right = Top(S);
Pop(S);
tmpNode->left = Top(S);
Pop(S);
Push(tmpNode, S);
}else{
Push(tmpNode, S);
}
}
return S->Next->rootNode;
}
int PushTreeNode(TreeNode T, Stack S){
if (T == NULL) {
return 0;
}else{
Push(T, S);
PushTreeNode(T->left, S);
PushTreeNode(T->right, S);
}
return 0;
}
void PreorderPrint(TreeNode T){
Stack S = createStack();
if (T == NULL) {
printf("empty tree
");
exit(1);
}
PushTreeNode(T, S);
S = switchStack(S);
PrintStack(S);
}
void inOrder(TreeNode T){
Stack S = createStack();
TreeNode tmpTree;
if (T == NULL) {
printf("empty tree
");
exit(1);
}
while (T) {
Push(T, S);
T = T->left;
if (T == NULL) {
while (1) {
tmpTree = Top(S);
if (tmpTree == NULL) {
break;
}
printf("%c ",tmpTree->element);
if (tmpTree->right != NULL) {
T = tmpTree->right;
Pop(S);
break;
}else{
Pop(S);
}
}
}
}
printf("
");
}
void afterPreorder(TreeNode T){
Stack S = createStack();
TreeNode tmpTree;
Stack saveS = createStack();
if (T == NULL) {
printf("empty tree
");
exit(1);
}
while (T) {
Push(T, S);
T = T->left;
if (T == NULL) {
while (1) {
tmpTree = Top(S);
if (tmpTree == NULL) {
break;
}
if (tmpTree->right != NULL) {
if (findStack(tmpTree, saveS)) {
printf("%c ",tmpTree->element);
Pop(S);
continue;
}
Push(tmpTree, saveS);
T = tmpTree->right;
break;
}else{
printf("%c ",tmpTree->element);
Pop(S);
}
}
}
}
printf("
");
}
/****************** Main ****************/
int main(int argc, const char * argv[])
{
char A[] = {'a','b','+','c','d','e','+','*','*'};
Stack S = createStack();
int length = sizeof(A)/sizeof(char);
TreeNode T = createTree(A, length, S);
// printf("%lu
",sizeof(Node));
printf("create Tree success!
");
PreorderPrint(T);
inOrder(T);
afterPreorder(T);
return 0;
}
代码就是这些~~不懂的留言评论好了~