| <p> | |
| Every business can make use of a good accountant and, if they're not big on following the law, | |
| sometimes a bad one. | |
| Bad accountants try to make more money for their employers by fudging numbers | |
| without getting caught. | |
| </p> | |
| <p> | |
| Sometimes a bad accountant wants to make a number larger, and sometimes smaller. | |
| It is widely known that tax auditors will fail to notice two digits being swapped in any given number, | |
| but any discrepancy more egregious will certainly be caught. It's also painfully obvious when a | |
| number has fewer digits than it ought to, so a bad accountant will never swap the first digit of a number | |
| with a 0. | |
| </p> | |
| <p> | |
| Given a number, how small or large can it be made without being found out? | |
| </p> | |
| <h3>Input</h3> | |
| <p> | |
| Input begins with an integer <strong>T</strong>, the number of numbers | |
| that need tweaking. Each of the next <strong>T</strong> lines contains a | |
| integer <strong>N</strong>. | |
| </p> | |
| <h3>Output</h3> | |
| <p> | |
| For the <em>i</em>th number, print a line containing "Case #<em>i</em>: " followed by the smallest and largest | |
| numbers that can be made from the original number <strong>N</strong>, using at most a single swap and following the | |
| rules above. | |
| </p> | |
| <h3>Constraints</h3> | |
| <p> | |
| 1 ≤ <strong>T</strong> ≤ 100 <br /> | |
| 0 ≤ <strong>N</strong> ≤ 999999999 <br /> | |
| <strong>N</strong> will never begin with a leading 0 unless <strong>N</strong> = 0<br /> | |
| </p> | |