Simple challenge: given a series of positive integer numbers, find the number that contains among its digits the longest run of consecutive digits. The trick? It's allowed for the digits in the runs to wrap around the possible values (
0123456789) and to run backwards. So both
5432109 are valid runs of consecutive digits (but not
321090123 as the run must be always in the same direction, although
3456765 can be considered as two runs:
765). In the case of ties, return the first one.
Input: [3274569283, 387652323, 23987654323648, 2345687913624] Output: 23987654323648 (The run is 98765432; run length: 8) Input: [123012363672023, 098761766325432, 15890123456765] Output: 15890123456765 (The run is 8901234567; run length: 10) Input: [43, 19, 456] Output: 456 Input: [5, 9, 0] Output: 5 Input: [71232107, 7012347] Output: 7012347 Input: [1234, 32109876] Output: 32109876 Input: [9090, 123] Output: 123
- There will be at least one number in the input.
- Input numbers can contain leading zeroes.
- Input and output can be in any reasonable format. So input numbers can be taken as strings, lists of digits/characters...
- Output can contain trailing and/or leading whitespaces and newlines as long as the number is printed.
- This is code-golf, so may the shortest program/function for each language win!