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algorithm - Finding the (lexicographic) index of a permutation of a given array.

Given an array say "bca", I need to find the number of permutations which are lexicographicaly greater than the given permutation.

Thus, in this example, cab, cba are permutations which are greater. Thus the answer would be 2.

I tried approaching the problem by finding the lexicographic ranking of the array, but am not able to devise an efficient algorithm for the say.

Any help/pointers in the right direction is appreciated!

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Let's look at the permutation dacb. Where does this come in lexicographic order among the 4! = 24 permutations of abcd?

  • Consider the first letter d. Among the remaining letters (acb) there are three letters smaller than d, and 3! = 6 permutations starting with each one of them, for a total of 18 permutations.
  • Consider the first two letters da. Among the remaining letters (cb) there are no letters smaller than a (if there were any there would be 2! = 2 permutations starting with d plus each one), for a total of 0 permutations.
  • Consider the first three letters dac. Among the remaining letters (b) there is one letter smaller than c, and 1! = 1 permutations starting with dab, for a total of 1 permutation.

So in total there are 19 permutations smaller than dacb. Let's check that.

>>> from itertools import permutations
>>> list(enumerate(''.join(p) for p in permutations('abcd')))
[(0, 'abcd'), (1, 'abdc'), (2, 'acbd'), (3, 'acdb'),
 (4, 'adbc'), (5, 'adcb'), (6, 'bacd'), (7, 'badc'),
 (8, 'bcad'), (9, 'bcda'), (10, 'bdac'), (11, 'bdca'),
 (12, 'cabd'), (13, 'cadb'), (14, 'cbad'), (15, 'cbda'),
 (16, 'cdab'), (17, 'cdba'), (18, 'dabc'), (19, 'dacb'),
 (20, 'dbac'), (21, 'dbca'), (22, 'dcab'), (23, 'dcba')]

Looks good. So there are 4! ? 19 ? 1 = 4 permutations that are greater than dacb.

It should be clear now how to generalize the method to make an algorithm. Here's an implementation in Python:

from math import factorial

def lexicographic_index(p):
    """
    Return the lexicographic index of the permutation `p` among all
    permutations of its elements. `p` must be a sequence and all elements
    of `p` must be distinct.

    >>> lexicographic_index('dacb')
    19
    >>> from itertools import permutations
    >>> all(lexicographic_index(p) == i
    ...     for i, p in enumerate(permutations('abcde')))
    True
    """
    result = 0
    for j in range(len(p)):
        k = sum(1 for i in p[j + 1:] if i < p[j])
        result += k * factorial(len(p) - j - 1)
    return result

def lexicographic_followers(p):
    """
    Return the number of permutations of `p` that are greater than `p`
    in lexicographic order. `p` must be a sequence and all elements
    of `p` must be distinct.
    """
    return factorial(len(p)) - lexicographic_index(p) - 1

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