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### New Lottery Game

### Input

### Output

### Limits

#### Small dataset

#### Large dataset

### Sample

In the first test case, these are the 10 possible pairs generated by the
old and new machine respectively that will make her a winner:
<0,0>, <0,1>, <0,2>, <0,3>, <1,0>,
<1,1>, <1,2>, <1,3>, <2,0> and <2,1>.
Notice that <0,1> is not the same as <1,0>. Also, although
the pair <2, 2> could be generated by the machines it wouldn't
make Catalina win since (2 AND 2) = 2 and she only bought the numbers 0
and 1.

The Lottery is changing! The Lottery used to have a machine to generate a random winning number. But due to cheating problems, the Lottery has decided to add another machine. The new winning number will be the result of the bitwise-AND operation between the two random numbers generated by the two machines.

To find the bitwise-AND of X and Y, write them both in binary; then a bit in the result in binary has a 1 if the corresponding bits of X and Y were both 1, and a 0 otherwise. In most programming languages, the bitwise-AND of X and Y is written X&Y.

For example:

The old machine generates the number 7 = 0111.

The new machine generates the number 11 = 1011.

The winning number will be (7 AND 11) = (0111 AND 1011) = 0011 = 3.

With this measure, the Lottery expects to reduce the cases of fraudulent
claims, but unfortunately an employee from the Lottery company has
leaked the following information: the old machine will always generate a
non-negative integer less than **A** and the new one will always generate a non-negative integer less than **B**.

Catalina wants to win this lottery and to give it a try she decided to buy all non-negative integers less than **K**.

Given **A**, **B** and **K**, Catalina would like to know in
how many different ways the machines can generate a pair of numbers that
will make her a winner.

Could you help her?

The first line of the input gives the number of test cases, **T**. **T** lines follow, each line with three numbers **A** **B** **K**.

For each test case, output one line containing "Case #x: y", where x is the test case number (starting from 1) and y is the number of possible pairs that the machines can generate to make Catalina a winner.

1 ≤ **T** ≤ 100.

1 ≤ **A** ≤ 1000.

1 ≤ **B** ≤ 1000.

1 ≤ **K** ≤ 1000.

1 ≤ **A** ≤ 10^{9}.

1 ≤ **B** ≤ 10^{9}.

1 ≤ **K** ≤ 10^{9}.

Input |
Output |

5 3 4 2 4 5 2 7 8 5 45 56 35 103 143 88 |
Case #1: 10 Case #2: 16 Case #3: 52 Case #4: 2411 Case #5: 14377 |