GCJ102A - Elegant Diamond

Problem

The king has hired you to make him an elegant diamond. An elegant diamond is a two-dimensional object made out of digits that's symmetric about a horizontal and a vertical axis. For example, the following four shapes are elegant diamonds:

   2       8      3     7
  3 3     8 8    2 2
 4 1 4     8      3
  3 3
   2

These three shapes are diamonds, but are not elegant:

  2       1        3
 1 1     1 2      1 1
  1     1 1 1    3 1 3
         2 1      1 1
          1        2

These three shapes are not diamonds:

  1     2     8   8
 1 1   222      0
        2     00000

The king will start by giving you a diamond, which may not be elegant. Your job is to make it elegant by enhancing it, adding digits on to make a bigger diamond. Because you don't want to spend too much money, you want to do it with as little cost as possible.

Definitions

A diamond of size k is 2k-1 lines of digits, 0-9, separated by single spaces, organized in the following way:

  • Line i (1 ≤ i ≤ k) contains k-i spaces, then i digits separated by single spaces.
  • Line i (k < i < 2k) contains i-k spaces, then 2k-i digits separated by single spaces.

An elegant diamond of size k is a diamond of size k with the following two symmetry properties:

  • Horizontal symmetry: Let ci be the number of digits on line i. The jth digit on line i (where j=1 for the first digit) must be the same as the ci+1-jth digit.
  • Vertical symmetry: The jth digit on line i (where i=1 for the first line) must be the same as the jth digit on line 2k-i.

A diamond of size k can be enhanced by adding digits to it. The result of enhancing a diamond of size k has the following properties:

  • The result is a diamond of size ≥ k.
  • The original diamond is part of the result. In other words, there exist some X and some Y such that, for all values of i and j such that the jth character of the ith line of the original is a digit (as opposed to a space), the j+Xth character on the i+Yth line of the result is also a digit and it's the same as the jth character on the ith line of the original.

The cost of enhancing a diamond is equal to the number of digits in the result of the enhancement, minus the number of digits in the original diamond.

Input

The first line of the input gives the number of test cases, T. T test cases follow. Each test case consists of a single integer k in a line on its own, followed by a diamond of size k.

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 minimum cost required to enhance the given diamond into an elegant diamond. If the diamond is already elegant, y=0.

Limits

1 ≤ T ≤ 100.

1 ≤ k ≤ 51.

Sample

Input
4
1
0
2
 1
2 2
 1
2
 1
1 2
 1
3
  1
 6 3
9 5 5
 6 3
  1

Output
Case #1: 0
Case #2: 0
Case #3: 5
Case #4: 7

Explanation

There are four cases. The first two cases start as elegant diamonds of size 1 and 2, respectively, and don't need to be enhanced; so the cost is 0. The third case can be enhanced to look like:

  3
 1 1
1 2 1
 1 1
  3

There are several possible enhancements, but this is one with the lowest possible cost, which is 5. n the fourth case we can enhance the diamond into the following elegant diamond for a cost of 7:

   9
  1 1
 6 3 6
9 5 5 9
 6 3 6
  1 1
   9

Added by:Shafaet
Date:2013-05-29
Time limit:20s
Source limit:50000B
Memory limit:1536MB
Cluster: Cube (Intel G860)
Languages:All except: ASM64
Resource:Google Codejam 2010 Round 2

hide comments
2013-06-02 10:03:50 Michael Kharitonov
One case can be solved in O(k^2)
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