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This approach involves traversing the string and counting the balance between opening and closing brackets. You increase a count when you find an opening bracket and decrease the count when you find a closing bracket. If at any point the count goes negative, a swap is needed to balance out the string, and the swap count is incremented. The final swap count will be the required number of swaps to make the string balanced.
Time Complexity: O(n), where n is the length of string s.
Space Complexity: O(1), as no extra space is used aside from a few variables.
1def min_swaps(s):
2 balance = 0
3 swaps = 0
4
5 for ch in s:
6 balance += 1 if ch == '[' else -1
7
8 if balance < 0:
9 swaps += 1
10 balance += 2
11
12 return swaps
13
14s = "][]["
15print("Minimum swaps:", min_swaps(s))The Python function loops over the string, updating the balance and counting swaps whenever the balance indicates an excess closing bracket.
This approach uses two pointers to traverse the string efficiently. One pointer starts from the beginning of the string, and the other starts at the end. Using these pointers, swaps are performed when an excessive number of closing brackets on one side can be paired with an opening bracket on the other side.
Time Complexity: O(n), where n is the length of string s, due to traversing the string once.
Space Complexity: O(1), as we're only using constants amount of space for pointers and variables.
public class MinSwaps {
public static int MinSwapsToBalance(string s) {
int left = 0, right = s.Length - 1, swaps = 0;
while (left < right) {
if (s[left] == '[') {
left++;
} else if (s[right] == ']') {
right--;
} else {
swaps++;
left++;
right--;
}
}
return swaps;
}
public static void Main(string[] args) {
string s = "][][";
Console.WriteLine("Minimum swaps: " + MinSwapsToBalance(s));
}
}C# method relies on two moving pointers that progress towards each other, handling mismatches effectively by swapping relevant indices, achieving a balanced result in minimum moves.