100-days-of-rust/Week-04/Day-26_Briefcase-Lock/README.md

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2023-03-24 00:52:21 +00:00
## Briefcase Lock
A briefcase has a 4-digit **rolling-lock**. Each digit is a number from `0-9` that can be rolled either forwards or backwards.
Create a function that returns the smallest number of turns it takes to transform the lock from the current combination to the target combination. One turn is equivalent to rolling a number forwards or backwards by one.
To illustrate:
- **current-lock**: 4089
- **target-lock**: 5672
What is the minimum number of turns it takes to transform `4089` to `5672`?
```
4 ➞ 5
4 ➞ 5 // Forward Turns: 1 <- Min
4 ➞ 3 ➞ 2 ➞ 1 ➞ 0 ➞ 9 ➞ 8 ➞ 7 ➞ 6 ➞ 5 // Backward Turns: 9
0 ➞ 6
0 ➞ 1 ➞ 2 ➞ 3 ➞ 4 ➞ 5 ➞ 6 // Forward Turns: 6
0 ➞ 9 ➞ 8 ➞ 7 ➞ 6 // Backward Turns: 4 <- Min
8 ➞ 7
8 ➞ 9 ➞ 0 ➞ 1 ➞ 2 ➞ 3 ➞ 4 ➞ 5 ➞ 6 ➞ 7 // Forward Turns: 9
8 ➞ 7 // Backward Turns: 1 <- Min
9 ➞ 2
9 ➞ 0 ➞ 1 ➞ 2 // Forward Turns: 3 <- Min
9 ➞ 8 ➞ 7 ➞ 6 ➞ 5 ➞ 4 ➞ 3 ➞ 2 // Backward Turns: 7
```
It takes `1 + 4 + 1 + 3 = 9` minimum turns to change the lock from `4089` to `5672`.
### Example
```text
MinTurns("4089", "5672") ➞ 9
MinTurns("1111", "1100") ➞ 2
MinTurns("2391", "4984") ➞ 10
```
### Notes
- Both locks are in string format.
- A `9` rolls forward to `0`, and a `0` rolls backwards to a `9`.