I was solving the question from the website CodeChef. I found this question:

Some programming contest problems are really tricky: not only do they require a different output format from what you might have expected, but also the sample output does not show the difference. For an example, let us look at permutations. A permutation of the integers 1 to n is an ordering of these integers. So the natural way to represent a permutation is to list the integers in this order. With n = 5, a permutation might look like 2, 3, 4, 5, 1. However, there is another possibility of representing a permutation: You create a list of numbers where the i-th number is the position of the integer i in the permutation. Let us call this second possibility an inverse permutation. The inverse permutation for the sequence above is 5, 1, 2, 3, 4. An ambiguous permutation is a permutation which cannot be distinguished from its inverse permutation. The permutation 1, 4, 3, 2 for example is ambiguous, because its inverse permutation is the same. To get rid of such annoying sample test cases, you have to write a program which detects if a given permutation is ambiguous or not.

Input Specification

The input contains several test cases. The first line of each test case contains an integer n (1 ≤ n ≤ 100000). Then a permutation of the integers 1 to n follows in the next line. There is exactly one space character between consecutive integers. You can assume that every integer between 1 and n appears exactly once in the permutation. The last test case is followed by a zero.

Output Specification

For each test case output whether the permutation is ambiguous or not. Adhere to the format shown in the sample output.

Sample Input

4 1 4 3 2 5 2 3 4 5 1 1 1 0 Sample Output

ambiguous not ambiguous ambiguous

I post the following python code but they said my answer is wrong can someone help me where is the mistake in my logic?

my code goes here:

def main():
    T=int(input())
    result=[]
    while(T!=0):
        list=[]
        list1=[]
        y=0
        value=raw_input().split(' ')
        for x in value:
            list.append(int(x))
        for x in list:
            y+=1
            x=list.index(y)+1
            list1.append(x)
        if(list==list1):
            result.append("ambiguous")
        else:
            result.append("non-ambiguous")
        T=int(input())
    for a in result:
        print a     
main()
  • You are testing for palindromes? If so, just reverse the string and test if it's equal to the original string – Chris_Rands Sep 20 '16 at 8:54
up vote 0 down vote accepted

For this kind of things, before doubting your code it's better to double-check that the way you handle input and output match what's expected.

I know how silly you feel when you realize you fail the tests despite a correct algorithm, for something like using the string non-ambiguous instead of the expected not ambiguous.

  • No, you don't use the correct sentence 'non-ambiguous' != 'not ambiguous'. – polku Sep 20 '16 at 9:56
arr = [int(i) for i in raw_input().split()]
if arr[::] == arr[::-1]:
    print 'ambiguous'
else:
    print ' not ambiguous'

https://code.hackerearth.com/e29c82h

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