Problem
Pontius: You know, I like this number 127, I don't know why. Woland: Well, that is an object so pure. You know the prime numbers. Pontius: Surely I do. Those are the objects possessed by our ancient masters hundreds of years ago. Oh, yes, why then? 127 is indeed a prime number as I was told. Woland: Not... only... that. 127 is the 31st prime number; then, 31 is itself a prime, it is the 11th; and 11 is the 5th; 5 is the 3rd; 3, you know, is the second; and finally 2 is the 1st. Pontius: Heh, that is indeed... purely prime.
The game can be played on any subset S
of positive integers. A number in S
is considered pure with respect to S
if, starting from it, you can continue taking its rank in S
, and get a number that is also in S
, until in finite steps you hit the number 1, which is not in S
.
When n is given, in how many ways you can pick S
, a subset of {2, 3, ..., n}, so that n is pure, with respect to S
? The answer might be a big number, you need to output it modulo 100003.
Input
The first line of the input gives the number of test cases, T. T lines follow. Each contains a single integer n.
Output
For each test case, output one line containing "Case #x: y", where x is the case number (starting from 1) and y is the answer as described above.
Limits
Memory limit: 1GB.
T ≤ 100.
Small dataset (Test set 1 - Visible; 14 Points)
Time limit: 30 4 seconds.
2 ≤ n ≤ 25.
Large dataset (Test set 2 - Hidden; 30 Points)
Time limit: 60 8 seconds.
2 ≤ n ≤ 500.
Sample
2 5 6
Case #1: 5 Case #2: 8