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03-树3 Tree Traversals Again

时间:2018-03-26 19:06:37      阅读:172      评论:0      收藏:0      [点我收藏+]

标签:log   malloc   body   type   后序   ==   遍历   struct   方法   

  这道题我的思路是先根据输入得到PreOrder[]和InOrder[],即先序和中序遍历的序列,最后用递归方式构造好树并进行遍历输出。事实上仅该题要求而言无需构造出二叉树再对树本身进行遍历,只需要直到先序和中序的序列,递归找出后序序列即可,网上方法也多是这种。而我当时一心想着就要用已知的两个序列把这颗树完全构建出来,才有了如下方法:

  1 #include <stdio.h>
  2 #include <stdlib.h>
  3 #include <string.h>
  4 #define MaxSize 30
  5 #define STR_LEN 5
  6 
  7 typedef struct TreeNode *BinTree;
  8 struct TreeNode{
  9     int Data;
 10     BinTree Left;
 11     BinTree Right;
 12 };
 13 
 14 typedef struct SNode *Stack;
 15 struct SNode{
 16     int Data[MaxSize];
 17     int Top;
 18     int Cap;  //capability
 19 };
 20 
 21 int InOrder[MaxSize], PreOrder[MaxSize];
 22 
 23 void Push(int data, Stack PtrS)
 24 {
 25     if(PtrS->Top == PtrS->Cap - 1)
 26         return;
 27     else{
 28         PtrS->Data[++(PtrS->Top)] = data;
 29         return;
 30     }
 31 }
 32 
 33 int Pop(Stack PtrS)
 34 {
 35     if(PtrS->Top == -1)
 36         return -1;
 37     else
 38         return PtrS->Data[(PtrS->Top)--];
 39 }
 40 
 41 void GetTwoOrders(int N)
 42 {
 43     char oper[STR_LEN];
 44     Stack S;
 45     S = (Stack)malloc(sizeof(struct SNode));
 46     S->Top = -1;
 47     S->Cap = MaxSize;
 48     int i, data, j = 0, k = 0;
 49     for(i = 0; i < 2 * N; i++){
 50         scanf("%s", &oper);
 51         if(strcmp(oper, "Push") == 0){
 52             scanf("%d", &data);
 53             PreOrder[k++] = data;
 54             Push(data, S);
 55         }
 56         else{
 57             InOrder[j] = Pop(S);
 58             j++;
 59         }
 60     }
 61     return;
 62 }
 63 
 64 BinTree BuildTree(int *PreOrder, int pl, int pr,
 65                  int *InOrder, int il, int ir)
 66 {
 67     int j, k, nN;
 68     BinTree Root;
 69     Root = (BinTree)malloc(sizeof(struct TreeNode));
 70 //每一层新传进来,都让两个order从0到N,这样就得用两个新的order
 71     nN = ir - il;
 72     int newPreOrder[MaxSize], newInOrder[MaxSize];
 73     for(j = 0; j < nN; j++)
 74         newPreOrder[j] = PreOrder[j + pl];
 75     for(j = 0; j < nN; j++)
 76         newInOrder[j] = InOrder[j + il];
 77     int RootIndex;
 78     for(k = 0; k < nN; k++){
 79         if(newInOrder[k] == newPreOrder[0]){
 80             RootIndex = k;
 81             break;
 82         }
 83     }
 84     Root->Data = newPreOrder[0];
 85     if(nN == 1){
 86         Root->Left = NULL;
 87         Root->Right = NULL;
 88     }else if(nN == 0){
 89         return NULL;
 90     }else{
 91         int lpl, lpr, rpl, rpr, lil, lir, ril, rir;
 92     //means (left or right)side (pre or in)order (left or right)limit Index
 93         lil = 0;
 94         lir = RootIndex;
 95         lpl = 1;
 96         lpr = lpl + (lir - lil);
 97         ril = RootIndex + 1;
 98         rir = nN;
 99         rpl = ril;
100         rpr = nN;
101         Root->Left = BuildTree(newPreOrder, lpl, lpr, newInOrder, lil, lir);
102         Root->Right = BuildTree(newPreOrder, rpl, rpr, newInOrder, ril, rir);
103     }
104     return Root;
105 }
106 
107 int count = 1;
108 
109 int PostOrderTraversal(BinTree BT, int count)
110 {
111     if(BT){
112         count = PostOrderTraversal(BT->Left, count);
113         count = PostOrderTraversal(BT->Right, count);
114         if(count == 1){
115             printf("%d", BT->Data);
116             count++;
117         }
118         else
119             printf(" %d", BT->Data);
120     }
121     return count;
122 }
123 
124 int main(int argc, char const *argv[])
125 {
126     int N, i;
127     BinTree T;
128     T = (BinTree)malloc(sizeof(struct TreeNode));
129     scanf("%d\n", &N);
130     int pl, pr, il, ir;
131     GetTwoOrders(N);
132     pl = 0;
133     pr = N;
134     il = 0;
135     ir = N;
136     T = BuildTree(PreOrder, pl, pr, InOrder, il, ir);
137     count = PostOrderTraversal(T, count);
138     printf("\n");
139     return 0;
140 }

  构造树的主要思想是,对传入的已知PreOrder与InOrder序列找到根节点后进行左右子树拆分、链接两边后再递归此过程(101 - 102行),直到链接至叶节点。

03-树3 Tree Traversals Again

标签:log   malloc   body   type   后序   ==   遍历   struct   方法   

原文地址:https://www.cnblogs.com/biankun/p/8652598.html

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