312 lines
7.1 KiB
C
312 lines
7.1 KiB
C
#include <stdio.h>
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#include <stdlib.h>
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#ifdef _WIN32
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#include <windows.h>
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#include <direct.h>
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#endif
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// 链式二叉树节点结构
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struct BiTNode
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{
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char data;
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struct BiTNode *lchild;
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struct BiTNode *rchild;
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};
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// 二叉树指针类型定义
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typedef struct BiTNode *BiTree;
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// 函数声明
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void CreateBiTree(BiTree *T); // 创建二叉树
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void PreOrderTraverse(BiTree T); // 先序遍历
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void InOrderTraverse(BiTree T); // 中序遍历
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void PostOrderTraverse(BiTree T); // 后序遍历
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void LevelOrderTraverse(BiTree T); // 层次遍历
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int MaxWidth(BiTree T); // 计算最大宽度
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void PrintMenu(); // 打印菜单
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void FreeTree(BiTree T); // 释放二叉树内存
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int main(void)
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{
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// 设置控制台编码为UTF-8,防止中文乱码
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#ifdef _WIN32
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system("chcp 65001 > nul"); // 设置控制台编码为UTF-8
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SetConsoleOutputCP(65001); // 设置控制台输出编码
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SetConsoleCP(65001); // 设置控制台输入编码
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#endif
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BiTree T = NULL;
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int choice;
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printf("=== 链式二叉树遍历系统 (C语言非递归) ===\n");
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printf("请输入先序扩展序列构建二叉树(# 表示空节点,例如 AB#C##D##):\n");
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CreateBiTree(&T);
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do
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{
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PrintMenu();
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if (scanf("%d", &choice) != 1)
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{
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printf("无效输入,请输入1~6之间的数字!\n");
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continue;
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}
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switch (choice)
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{
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case 1:
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printf("先序遍历结果: ");
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PreOrderTraverse(T);
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printf("\n");
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break;
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case 2:
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printf("中序遍历结果: ");
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InOrderTraverse(T);
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printf("\n");
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break;
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case 3:
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printf("后序遍历结果: ");
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PostOrderTraverse(T);
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printf("\n");
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break;
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case 4:
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printf("层次遍历结果: ");
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LevelOrderTraverse(T);
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printf("\n");
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break;
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case 5:
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printf("程序已退出。\n");
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break;
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case 6:
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printf("最大宽度: %d\n", MaxWidth(T));
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break;
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default:
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printf("无效输入,请输入 1~6 之间的数字!\n");
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}
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} while (choice != 5);
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FreeTree(T);
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return 0;
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}
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// 创建二叉树(先序扩展输入)
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void CreateBiTree(BiTree *T)
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{
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char ch;
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if (scanf(" %c", &ch) != 1)
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{
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*T = NULL;
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return;
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}
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if (ch == '#')
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{
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*T = NULL;
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return;
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}
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else
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{
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*T = (struct BiTNode *)malloc(sizeof(struct BiTNode));
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(*T)->data = ch;
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(*T)->lchild = NULL;
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(*T)->rchild = NULL;
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CreateBiTree(&(*T)->lchild);
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CreateBiTree(&(*T)->rchild);
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}
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}
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// 先序遍历:根 -> 左 -> 右
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void PreOrderTraverse(BiTree T)
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{
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if (!T)
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{
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return;
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}
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// 栈初始化,用栈来显性表示递归时的函数调用
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int cap = 128, top = 0;
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BiTree *st = (BiTree *)malloc(sizeof(BiTree) * cap);
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st[top++] = T;
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while (top)
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{
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BiTree p = st[--top];
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printf("%c ", p->data);
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if (p->rchild)
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{
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if (top >= cap)
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{
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cap *= 2;
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st = (BiTree *)realloc(st, sizeof(BiTree) * cap);
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}
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st[top++] = p->rchild;
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}
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if (p->lchild)
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{
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if (top >= cap)
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{
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cap *= 2;
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st = (BiTree *)realloc(st, sizeof(BiTree) * cap);
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}
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st[top++] = p->lchild;
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}
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}
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free(st);
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}
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// 中序遍历:左 -> 根 -> 右
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void InOrderTraverse(BiTree T)
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{
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int cap = 128, top = 0;
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BiTree *st = (BiTree *)malloc(sizeof(BiTree) * cap);
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BiTree cur = T;
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while (cur || top)
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{
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while (cur)
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{
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if (top >= cap)
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{
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cap *= 2;
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st = (BiTree *)realloc(st, sizeof(BiTree) * cap);
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}
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st[top++] = cur;
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cur = cur->lchild;
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}
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BiTree p = st[--top];
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printf("%c ", p->data);
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cur = p->rchild;
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}
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free(st);
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}
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// 后序遍历:左 -> 右 -> 根
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void PostOrderTraverse(BiTree T)
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{
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int cap = 128, top = 0;
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BiTree *st = (BiTree *)malloc(sizeof(BiTree) * cap);
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BiTree cur = T, last = NULL;
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while (cur || top)
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{
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while (cur)
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{
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if (top >= cap)
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{
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cap *= 2;
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st = (BiTree *)realloc(st, sizeof(BiTree) * cap);
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}
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st[top++] = cur;
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cur = cur->lchild;
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}
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BiTree p = st[top - 1];
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if (p->rchild && last != p->rchild)
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{
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cur = p->rchild;
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}
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else
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{
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printf("%c ", p->data);
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last = p;
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--top;
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}
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}
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free(st);
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}
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// 层次遍历:按层从左到右遍历
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void LevelOrderTraverse(BiTree T)
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{
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if (!T)
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{
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return;
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}
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int cap = 128;
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BiTree *q = (BiTree *)malloc(sizeof(BiTree) * cap);
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int head = 0, tail = 0;
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q[tail++] = T;
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while (head < tail)
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{
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BiTree p = q[head++];
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printf("%c ", p->data);
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if (p->lchild)
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{
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if (tail >= cap)
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{
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cap *= 2;
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q = (BiTree *)realloc(q, sizeof(BiTree) * cap);
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}
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q[tail++] = p->lchild;
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}
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if (p->rchild)
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{
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if (tail >= cap)
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{
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cap *= 2;
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q = (BiTree *)realloc(q, sizeof(BiTree) * cap);
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}
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q[tail++] = p->rchild;
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}
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}
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free(q);
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}
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// 计算二叉树的最大宽度
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int MaxWidth(BiTree T)
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{
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if (!T) return 0;
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int cap = 128;
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BiTree *q = (BiTree *)malloc(sizeof(BiTree) * cap);
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int head = 0, tail = 0;
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int maxw = 0;
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q[tail++] = T;
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while (head < tail)
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{
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int level_size = tail - head;
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if (level_size > maxw) maxw = level_size;
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for (int i = 0; i < level_size; ++i)
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{
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BiTree p = q[head++];
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if (p->lchild)
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{
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if (tail >= cap)
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{
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cap *= 2;
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q = (BiTree *)realloc(q, sizeof(BiTree) * cap);
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}
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q[tail++] = p->lchild;
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}
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if (p->rchild)
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{
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if (tail >= cap)
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{
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cap *= 2;
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q = (BiTree *)realloc(q, sizeof(BiTree) * cap);
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}
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q[tail++] = p->rchild;
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}
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}
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}
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free(q);
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return maxw;
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}
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// 打印菜单
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void PrintMenu(void)
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{
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printf("\n--- 选择遍历方式(非递归) ---\n");
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printf("1. 先序遍历\n");
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printf("2. 中序遍历\n");
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printf("3. 后序遍历\n");
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printf("4. 层次遍历\n");
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printf("5. 退出\n");
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printf("6. 最大宽度\n");
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printf("请输入选择 (1-6): ");
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}
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// 释放二叉树内存
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void FreeTree(BiTree T)
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{
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if (T)
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{
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FreeTree(T->lchild);
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FreeTree(T->rchild);
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free(T);
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}
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} |