hello-algo/codes/c/chapter_divide_and_conquer/hanota.c
Yudong Jin e720aa2d24
feat: Revised the book (#978)
* Sync recent changes to the revised Word.

* Revised the preface chapter

* Revised the introduction chapter

* Revised the computation complexity chapter

* Revised the chapter data structure

* Revised the chapter array and linked list

* Revised the chapter stack and queue

* Revised the chapter hashing

* Revised the chapter tree

* Revised the chapter heap

* Revised the chapter graph

* Revised the chapter searching

* Reivised the sorting chapter

* Revised the divide and conquer chapter

* Revised the chapter backtacking

* Revised the DP chapter

* Revised the greedy chapter

* Revised the appendix chapter

* Revised the preface chapter doubly

* Revised the figures
2023-12-02 06:21:34 +08:00

74 lines
2 KiB
C

/**
* File: hanota.c
* Created Time: 2023-10-01
* Author: Zuoxun (845242523@qq.com), lucas(superrat6@gmail.com)
*/
#include "../utils/common.h"
// 假设最多有 1000 个排列
#define MAX_SIZE 1000
/* 移动一个圆盘 */
void move(int *src, int *srcSize, int *tar, int *tarSize) {
// 从 src 顶部拿出一个圆盘
int pan = src[*srcSize - 1];
src[*srcSize - 1] = 0;
(*srcSize)--;
// 将圆盘放入 tar 顶部
tar[*tarSize] = pan;
(*tarSize)++;
}
/* 求解汉诺塔问题 f(i) */
void dfs(int i, int *src, int *srcSize, int *buf, int *bufSize, int *tar, int *tarSize) {
// 若 src 只剩下一个圆盘,则直接将其移到 tar
if (i == 1) {
move(src, srcSize, tar, tarSize);
return;
}
// 子问题 f(i-1) :将 src 顶部 i-1 个圆盘借助 tar 移到 buf
dfs(i - 1, src, srcSize, tar, tarSize, buf, bufSize);
// 子问题 f(1) :将 src 剩余一个圆盘移到 tar
move(src, srcSize, tar, tarSize);
// 子问题 f(i-1) :将 buf 顶部 i-1 个圆盘借助 src 移到 tar
dfs(i - 1, buf, bufSize, src, srcSize, tar, tarSize);
}
/* 求解汉诺塔问题 */
void solveHanota(int *A, int *ASize, int *B, int *BSize, int *C, int *CSize) {
// 将 A 顶部 n 个圆盘借助 B 移到 C
dfs(*ASize, A, ASize, B, BSize, C, CSize);
}
/* Driver Code */
int main() {
// 列表尾部是柱子顶部
int a[] = {5, 4, 3, 2, 1};
int b[MAX_SIZE] = {0};
int c[MAX_SIZE] = {0};
int ASize = sizeof(a) / sizeof(a[0]);
int BSize = 0;
int CSize = 0;
printf("\n初始状态下:");
printf("\nA = ");
printArray(a, ASize);
printf("B = ");
printArray(b, BSize);
printf("C = ");
printArray(c, CSize);
solveHanota(a, &ASize, b, &BSize, c, &CSize);
printf("\n圆盘移动完成后:");
printf("A = ");
printArray(a, ASize);
printf("B = ");
printArray(b, BSize);
printf("C = ");
printArray(c, CSize);
return 0;
}