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Minimum Number of Operations to Make String Sorted - Practice Coding | SlaveCode

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1830. Minimum Number of Operations to Make String Sorted

Hard

50 Points

Math

String

Combinatorics

You are given a string s (0-indexed). You are asked to perform the following operation on s until you get a sorted string: Return the number of operations needed to make the string sorted. Since the answer can be too large, return it modulo 109 + 7.

Examples

Example 1

Input: s = "cba" Output: 5 Explanation: The simulation goes as follows: Operation 1: i=2, j=2. Swap s[1] and s[2] to get s="cab", then reverse the suffix starting at 2. Now, s="cab". Operation 2: i=1, j=2. Swap s[0] and s[2] to get s="bac", then reverse the suffix starting at 1. Now, s="bca". Operation 3: i=2, j=2. Swap s[1] and s[2] to get s="bac", then reverse the suffix starting at 2. Now, s="bac". Operation 4: i=1, j=1. Swap s[0] and s[1] to get s="abc", then reverse the suffix starting at 1. Now, s="acb". Operation 5: i=2, j=2. Swap s[1] and s[2] to get s="abc", then reverse the suffix starting at 2. Now, s="abc".

Example 2

Input: s = "aabaa" Output: 2 Explanation: The simulation goes as follows: Operation 1: i=3, j=4. Swap s[2] and s[4] to get s="aaaab", then reverse the substring starting at 3. Now, s="aaaba". Operation 2: i=4, j=4. Swap s[3] and s[4] to get s="aaaab", then reverse the substring starting at 4. Now, s="aaaab".

Constraints

1 <= s.length <= 3000
s consists only of lowercase English letters.

1830. Minimum Number of Operations to Make String Sorted

Hard

50 Points

Math

String

Combinatorics

You are given a string s (0-indexed). You are asked to perform the following operation on s until you get a sorted string: Return the number of operations needed to make the string sorted. Since the answer can be too large, return it modulo 109 + 7.

Examples

Example 1

Input: s = "cba" Output: 5 Explanation: The simulation goes as follows: Operation 1: i=2, j=2. Swap s[1] and s[2] to get s="cab", then reverse the suffix starting at 2. Now, s="cab". Operation 2: i=1, j=2. Swap s[0] and s[2] to get s="bac", then reverse the suffix starting at 1. Now, s="bca". Operation 3: i=2, j=2. Swap s[1] and s[2] to get s="bac", then reverse the suffix starting at 2. Now, s="bac". Operation 4: i=1, j=1. Swap s[0] and s[1] to get s="abc", then reverse the suffix starting at 1. Now, s="acb". Operation 5: i=2, j=2. Swap s[1] and s[2] to get s="abc", then reverse the suffix starting at 2. Now, s="abc".

Example 2

Input: s = "aabaa" Output: 2 Explanation: The simulation goes as follows: Operation 1: i=3, j=4. Swap s[2] and s[4] to get s="aaaab", then reverse the substring starting at 3. Now, s="aaaba". Operation 2: i=4, j=4. Swap s[3] and s[4] to get s="aaaab", then reverse the substring starting at 4. Now, s="aaaab".

Constraints

1 <= s.length <= 3000
s consists only of lowercase English letters.