# calculate palindromic length from center with incrementing difference def palindromic_length( center, diff, string): if center-diff == -1 or center+diff == len(string) or string[center-diff] != string[center+diff] : return 0 return 1 + palindromic_length(center, diff+1, string) def palindromic_string( input_string ): """ Manacher’s algorithm which finds Longest Palindromic Substring in linear time. 1. first this conver input_string("xyx") into new_string("x|y|x") where odd positions are actual input characters. 2. for each character in new_string it find corresponding length and store, a. max_length b. max_length's center 3. return output_string from center - max_length to center + max_length and remove all "|" """ max_length = 0 # if input_string is "aba" than new_input_string become "a|b|a" new_input_string = "" output_string = "" # append each character + "|" in new_string for range(0, length-1) for i in input_string[:len(input_string)-1] : new_input_string += i + "|" #append last character new_input_string += input_string[-1] # for each character in new_string find corresponding palindromic string for i in range(len(new_input_string)) : # get palindromic length from ith position length = palindromic_length(i, 1, new_input_string) # update max_length and start position if max_length < length : max_length = length start = i #create that string for i in new_input_string[start-max_length:start+max_length+1] : if i != "|": output_string += i return output_string if __name__ == '__main__': n = input() print(palindromic_string(n))