hello-algo/en/codes/java/chapter_divide_and_conquer/hanota.java

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/**
* File: hanota.java
* Created Time: 2023-07-17
* Author: krahets (krahets@163.com)
*/
package chapter_divide_and_conquer;
import java.util.*;
public class hanota {
/* Move a disc */
static void move(List<Integer> src, List<Integer> tar) {
// Take out a disc from the top of src
Integer pan = src.remove(src.size() - 1);
// Place the disc on top of tar
tar.add(pan);
}
/* Solve the Tower of Hanoi problem f(i) */
static void dfs(int i, List<Integer> src, List<Integer> buf, List<Integer> tar) {
// If only one disc remains on src, move it to tar
if (i == 1) {
move(src, tar);
return;
}
// Subproblem f(i-1): move the top i-1 discs from src with the help of tar to buf
dfs(i - 1, src, tar, buf);
// Subproblem f(1): move the remaining one disc from src to tar
move(src, tar);
// Subproblem f(i-1): move the top i-1 discs from buf with the help of src to tar
dfs(i - 1, buf, src, tar);
}
/* Solve the Tower of Hanoi problem */
static void solveHanota(List<Integer> A, List<Integer> B, List<Integer> C) {
int n = A.size();
// Move the top n discs from A with the help of B to C
dfs(n, A, B, C);
}
public static void main(String[] args) {
// The tail of the list is the top of the pillar
List<Integer> A = new ArrayList<>(Arrays.asList(5, 4, 3, 2, 1));
List<Integer> B = new ArrayList<>();
List<Integer> C = new ArrayList<>();
System.out.println("Initial state:");
System.out.println("A = " + A);
System.out.println("B = " + B);
System.out.println("C = " + C);
solveHanota(A, B, C);
System.out.println("After the discs are moved:");
System.out.println("A = " + A);
System.out.println("B = " + B);
System.out.println("C = " + C);
}
}