Given a string, find its rank among all its permutations sorted lexicographically. For example, rank of “abc” is 1, rank of “acb” is 2, and rank of “cba” is 6.
Examples:
Input : str[] = "acb" Output : Rank = 2 Input : str[] = "string" Output : Rank = 598 Input : str[] = "cba" Output : Rank = 6
For simplicity, let us assume that the string does not contain any duplicated characters.
One simple solution is to initialize rank as 1, generate all permutations in lexicographic order. After generating a permutation, check if the generated permutation is same as given string, if same, then return rank, if not, then increment the rank by 1. The time complexity of this solution will be exponential in worst case. Following is an efficient solution.
Let the given string be “STRING”. In the input string, ‘S’ is the first character. There are total 6 characters and 4 of them are smaller than ‘S’. So there can be 4 * 5! smaller strings where first character is smaller than ‘S’, like following
R X X X X X
I X X X X X
N X X X X X
G X X X X X
Now let us Fix S’ and find the smaller strings starting with ‘S’.
Repeat the same process for T, rank is 4*5! + 4*4! +…
Now fix T and repeat the same process for R, rank is 4*5! + 4*4! + 3*3! +…
Now fix R and repeat the same process for I, rank is 4*5! + 4*4! + 3*3! + 1*2! +…
Now fix I and repeat the same process for N, rank is 4*5! + 4*4! + 3*3! + 1*2! + 1*1! +…
Now fix N and repeat the same process for G, rank is 4*5! + 4*4! + 3*3! + 1*2! + 1*1! + 0*0!
Rank = 4*5! + 4*4! + 3*3! + 1*2! + 1*1! + 0*0! = 597
Note that the above computations find count of smaller strings. Therefore rank of given string is count of smaller strings plus 1. The final rank = 1 + 597 = 598
Below is the implementation of above approach:
C++
// C++ program to find lexicographic rank // of a string #include <bits/stdc++.h> #include <string.h> using namespace std; // A utility function to find factorial of n int fact(int n) { return (n <= 1) ? 1 : n * fact(n - 1); } // A utility function to count smaller characters on right // of arr[low] int findSmallerInRight(char* str, int low, int high) { int countRight = 0, i; for (i = low + 1; i <= high; ++i) if (str[i] < str[low]) ++countRight; return countRight; } // A function to find rank of a string in all permutations // of characters int findRank(char* str) { int len = strlen(str); int mul = fact(len); int rank = 1; int countRight; int i; for (i = 0; i < len; ++i) { mul /= len - i; // count number of chars smaller than str[i] // fron str[i+1] to str[len-1] countRight = findSmallerInRight(str, i, len - 1); rank += countRight * mul; } return rank; } // Driver program to test above function int main() { char str[] = "string"; cout << findRank(str); return 0; } // This code is contributed // by Akanksha Rai |
C
// C program to find lexicographic rank // of a string #include <stdio.h> #include <string.h> // A utility function to find factorial of n int fact(int n) { return (n <= 1) ? 1 : n * fact(n - 1); } // A utility function to count smaller characters on right // of arr[low] int findSmallerInRight(char* str, int low, int high) { int countRight = 0, i; for (i = low + 1; i <= high; ++i) if (str[i] < str[low]) ++countRight; return countRight; } // A function to find rank of a string in all permutations // of characters int findRank(char* str) { int len = strlen(str); int mul = fact(len); int rank = 1; int countRight; int i; for (i = 0; i < len; ++i) { mul /= len - i; // count number of chars smaller than str[i] // fron str[i+1] to str[len-1] countRight = findSmallerInRight(str, i, len - 1); rank += countRight * mul; } return rank; } // Driver program to test above function int main() { char str[] = "string"; printf("%d", findRank(str)); return 0; } |
Java
// Java program to find lexicographic rank // of a string import java.io.*; import java.util.*; class GFG { // A utility function to find factorial of n static int fact(int n) { return (n <= 1) ? 1 : n * fact(n - 1); } // A utility function to count smaller // characters on right of arr[low] static int findSmallerInRight(String str, int low, int high) { int countRight = 0, i; for (i = low + 1; i <= high; ++i) if (str.charAt(i) < str.charAt(low)) ++countRight; return countRight; } // A function to find rank of a string in // all permutations of characters static int findRank(String str) { int len = str.length(); int mul = fact(len); int rank = 1; int countRight; for (int i = 0; i < len; ++i) { mul /= len - i; // count number of chars smaller // than str[i] from str[i+1] to // str[len-1] countRight = findSmallerInRight(str, i, len - 1); rank += countRight * mul; } return rank; } // Driver program to test above function public static void main(String[] args) { String str = "string"; System.out.println(findRank(str)); } } // This code is contributed by Nikita Tiwari. |
Python
# Python program to find lexicographic # rank of a string # A utility function to find factorial # of n def fact(n) : f = 1 while n >= 1 : f = f * n n = n - 1 return f # A utility function to count smaller # characters on right of arr[low] def findSmallerInRight(st, low, high) : countRight = 0 i = low + 1 while i <= high : if st[i] < st[low] : countRight = countRight + 1 i = i + 1 return countRight # A function to find rank of a string # in all permutations of characters def findRank (st) : ln = len(st) mul = fact(ln) rank = 1 i = 0 while i < ln : mul = mul / (ln - i) # count number of chars smaller # than str[i] fron str[i + 1] to # str[len-1] countRight = findSmallerInRight(st, i, ln-1) rank = rank + countRight * mul i = i + 1 return rank # Driver program to test above function st = "string"print (findRank(st)) # This code is contributed by Nikita Tiwari. |
C#
// C# program to find lexicographic rank // of a string using System; class GFG { // A utility function to find factorial of n static int fact(int n) { return (n <= 1) ? 1 : n * fact(n - 1); } // A utility function to count smaller // characters on right of arr[low] static int findSmallerInRight(string str, int low, int high) { int countRight = 0, i; for (i = low + 1; i <= high; ++i) if (str[i] < str[low]) ++countRight; return countRight; } // A function to find rank of a string in // all permutations of characters static int findRank(string str) { int len = str.Length; int mul = fact(len); int rank = 1; int countRight; for (int i = 0; i < len; ++i) { mul /= len - i; // count number of chars smaller // than str[i] from str[i+1] to // str[len-1] countRight = findSmallerInRight(str, i, len - 1); rank += countRight * mul; } return rank; } // Driver program to test above function public static void Main() { string str = "string"; Console.Write(findRank(str)); } } // This code is contributed nitin mittal. |
PHP
<?php // A utility function to find factorial of n function fact($n) { return ($n <= 1) ? 1 :$n * fact($n - 1); } // A utility function to count smaller // characters on right of arr[low] function findSmallerInRight($str, $low, $high) { $countRight = 0; for ($i = $low + 1; $i <= $high; ++$i) if ($str[$i] < $str[$low]) ++$countRight; return $countRight; } // A function to find rank of a string // in all permutations of characters function findRank ($str) { $len = strlen($str); $mul = fact($len); $rank = 1; for ($i = 0; $i < $len; ++$i) { $mul /= $len - $i; // count number of chars smaller than // str[i] fron str[i+1] to str[len-1] $countRight = findSmallerInRight($str, $i, $len - 1); $rank += $countRight * $mul ; } return $rank; } // Driver Code $str = "string"; echo findRank($str); // This code is contributed by ChitraNayal ?> |
Output:
598
The time complexity of the above solution is O(n^2). We can reduce the time complexity to O(n) by creating an auxiliary array of size 256. See following code.
C++
// A O(n) solution for finding rank of string #include <bits/stdc++.h> using namespace std; #define MAX_CHAR 256 // A utility function to find factorial of n int fact(int n) { return (n <= 1) ? 1 : n * fact(n - 1); } // Construct a count array where value at every index // contains count of smaller characters in whole string void populateAndIncreaseCount(int* count, char* str) { int i; for (i = 0; str[i]; ++i) ++count[str[i]]; for (i = 1; i < MAX_CHAR; ++i) count[i] += count[i - 1]; } // Removes a character ch from count[] array // constructed by populateAndIncreaseCount() void updatecount(int* count, char ch) { int i; for (i = ch; i < MAX_CHAR; ++i) --count[i]; } // A function to find rank of a string in all permutations // of characters int findRank(char* str) { int len = strlen(str); int mul = fact(len); int rank = 1, i; // all elements of count[] are initialized with 0 int count[MAX_CHAR] = { 0 }; // Populate the count array such that count[i] // contains count of characters which are present // in str and are smaller than i populateAndIncreaseCount(count, str); for (i = 0; i < len; ++i) { mul /= len - i; // count number of chars smaller than str[i] // fron str[i+1] to str[len-1] rank += count[str[i] - 1] * mul; // Reduce count of characters greater than str[i] updatecount(count, str[i]); } return rank; } // Driver program to test above function int main() { char str[] = "string"; cout << findRank(str); return 0; } // This is code is contributed by rathbhupendra |
C
// A O(n) solution for finding rank of string #include <stdio.h> #include <string.h> #define MAX_CHAR 256 // A utility function to find factorial of n int fact(int n) { return (n <= 1) ? 1 : n * fact(n - 1); } // Construct a count array where value at every index // contains count of smaller characters in whole string void populateAndIncreaseCount(int* count, char* str) { int i; for (i = 0; str[i]; ++i) ++count[str[i]]; for (i = 1; i < MAX_CHAR; ++i) count[i] += count[i - 1]; } // Removes a character ch from count[] array // constructed by populateAndIncreaseCount() void updatecount(int* count, char ch) { int i; for (i = ch; i < MAX_CHAR; ++i) --count[i]; } // A function to find rank of a string in all permutations // of characters int findRank(char* str) { int len = strlen(str); int mul = fact(len); int rank = 1, i; // all elements of count[] are initialized with 0 int count[MAX_CHAR] = { 0 }; // Populate the count array such that count[i] // contains count of characters which are present // in str and are smaller than i populateAndIncreaseCount(count, str); for (i = 0; i < len; ++i) { mul /= len - i; // count number of chars smaller than str[i] // fron str[i+1] to str[len-1] rank += count[str[i] - 1] * mul; // Reduce count of characters greater than str[i] updatecount(count, str[i]); } return rank; } // Driver program to test above function int main() { char str[] = "string"; printf("%d", findRank(str)); return 0; } |
Java
// A O(n) solution for finding rank of string class GFG { static int MAX_CHAR = 256; // A utility function to find factorial of n static int fact(int n) { return (n <= 1) ? 1 : n * fact(n - 1); } // Construct a count array where value at every index // contains count of smaller characters in whole string static void populateAndIncreaseCount(int[] count, char[] str) { int i; for (i = 0; i < str.length; ++i) ++count[str[i]]; for (i = 1; i < MAX_CHAR; ++i) count[i] += count[i - 1]; } // Removes a character ch from count[] array // constructed by populateAndIncreaseCount() static void updatecount(int[] count, char ch) { int i; for (i = ch; i < MAX_CHAR; ++i) --count[i]; } // A function to find rank of a string in all permutations // of characters static int findRank(char[] str) { int len = str.length; int mul = fact(len); int rank = 1, i; // all elements of count[] are initialized with 0 int count[] = new int[MAX_CHAR]; // Populate the count array such that count[i] // contains count of characters which are present // in str and are smaller than i populateAndIncreaseCount(count, str); for (i = 0; i < len; ++i) { mul /= len - i; // count number of chars smaller than str[i] // fron str[i+1] to str[len-1] rank += count[str[i] - 1] * mul; // Reduce count of characters greater than str[i] updatecount(count, str[i]); } return rank; } // Driver code public static void main(String args[]) { char str[] = "string".toCharArray(); System.out.println(findRank(str)); } } // This code has been contributed by 29AjayKumar |
Python3
# A O(n) solution for finding rank of string MAX_CHAR=256; # all elements of count[] are initialized with 0 count=[0]*(MAX_CHAR + 1); # A utility function to find factorial of n def fact(n): return 1 if(n <= 1) else (n * fact(n - 1)); # Construct a count array where value at every index # contains count of smaller characters in whole string def populateAndIncreaseCount(str): for i in range(len(str)): count[ord(str[i])]+=1; for i in range(1,MAX_CHAR): count[i] += count[i - 1]; # Removes a character ch from count[] array # constructed by populateAndIncreaseCount() def updatecount(ch): for i in range(ord(ch),MAX_CHAR): count[i]-=1; # A function to find rank of a string in all permutations # of characters def findRank(str): len1 = len(str); mul = fact(len1); rank = 1; # Populate the count array such that count[i] # contains count of characters which are present # in str and are smaller than i populateAndIncreaseCount(str); for i in range(len1): mul = mul//(len1 - i); # count number of chars smaller than str[i] # fron str[i+1] to str[len-1] rank += count[ord(str[i]) - 1] * mul; # Reduce count of characters greater than str[i] updatecount(str[i]); return rank; # Driver code str = "string"; print(findRank(str)); # This is code is contributed by chandan_jnu |
C#
// A O(n) solution for finding rank of string using System; class GFG { static int MAX_CHAR = 256; // A utility function to find factorial of n static int fact(int n) { return (n <= 1) ? 1 : n * fact(n - 1); } // Construct a count array where value at every index // contains count of smaller characters in whole string static void populateAndIncreaseCount(int[] count, char[] str) { int i; for (i = 0; i < str.Length; ++i) ++count[str[i]]; for (i = 1; i < MAX_CHAR; ++i) count[i] += count[i - 1]; } // Removes a character ch from count[] array // constructed by populateAndIncreaseCount() static void updatecount(int[] count, char ch) { int i; for (i = ch; i < MAX_CHAR; ++i) --count[i]; } // A function to find rank of a string in all permutations // of characters static int findRank(char[] str) { int len = str.Length; int mul = fact(len); int rank = 1, i; // all elements of count[] are initialized with 0 int[] count = new int[MAX_CHAR]; // Populate the count array such that count[i] // contains count of characters which are present // in str and are smaller than i populateAndIncreaseCount(count, str); for (i = 0; i < len; ++i) { mul /= len - i; // count number of chars smaller than str[i] // fron str[i+1] to str[len-1] rank += count[str[i] - 1] * mul; // Reduce count of characters greater than str[i] updatecount(count, str[i]); } return rank; } // Driver code public static void Main(String[] args) { char[] str = "string".ToCharArray(); Console.WriteLine(findRank(str)); } } /* This code contributed by PrinciRaj1992 */ |
PHP
<?php // A O(n) solution for finding rank of string $MAX_CHAR=256; // A utility function to find factorial of n function fact($n) { return ($n <= 1) ? 1 : $n * fact($n - 1); } // Construct a count array where value at every index // contains count of smaller characters in whole string function populateAndIncreaseCount(&$count, $str) { global $MAX_CHAR; for ($i = 0; $i < strlen($str); ++$i) ++$count[ord($str[$i])]; for ($i = 1; $i < $MAX_CHAR; ++$i) $count[$i] += $count[$i - 1]; } // Removes a character ch from count[] array // constructed by populateAndIncreaseCount() function updatecount(&$count, $ch) { global $MAX_CHAR; for ($i = ord($ch); $i < $MAX_CHAR; ++$i) --$count[$i]; } // A function to find rank of a string in all permutations // of characters function findRank($str) { global $MAX_CHAR; $len = strlen($str); $mul = fact($len); $rank = 1; // all elements of count[] are initialized with 0 $count=array_fill(0, $MAX_CHAR + 1, 0); // Populate the count array such that count[i] // contains count of characters which are present // in str and are smaller than i populateAndIncreaseCount($count, $str); for ($i = 0; $i < $len; ++$i) { $mul = (int)($mul/($len - $i)); // count number of chars smaller than str[i] // fron str[i+1] to str[len-1] $rank += $count[ord($str[$i]) - 1] * $mul; // Reduce count of characters greater than str[i] updatecount($count, $str[$i]); } return $rank; } // Driver code $str = "string"; echo findRank($str); // This is code is contributed by chandan_jnu ?> |
Output:
598
The above programs don’t work for duplicate characters. To make them work for duplicate characters, find all the characters that are smaller (include equal this time also), do the same as above but, this time divide the rank so formed by p! where p is the count of occurrences of the repeating character.
Please write comments if you find anything incorrect, or you want to share more information about the topic discussed above.
Attention reader! Don’t stop learning now. Get hold of all the important DSA concepts with the DSA Self Paced Course at a student-friendly price and become industry ready.
Recommended Posts:
- Lexicographic rank of a string using STL
- Lexicographic rank of a string among all its substrings
- Lexicographic rank of a string with duplicate characters
- Lexicographic smallest permutation of a String containing the second String as a Substring
- Generating distinct subsequences of a given string in lexicographic order
- Print a number as string of 'A' and 'B' in lexicographic order
- Find the N-th lexicographic permutation of string using Factoradic method
- Find a string in lexicographic order which is in between given two strings
- Print all permutations in sorted (lexicographic) order
- Power Set in Lexicographic order
- Find the smallest window in a string containing all characters of another string
- String matching where one string contains wildcard characters
- Check if a string can become empty by recursively deleting a given sub-string
- Sort a string according to the order defined by another string
- Check if a string can be obtained by rotating another string 2 places
- String slicing in Python to check if a string can become empty by recursive deletion
- String containing first letter of every word in a given string with spaces
- Find length of longest subsequence of one string which is substring of another string
- Check if a given string is sum-string
- Decode an Encoded Base 64 String to ASCII String

