Need help in building efficient exhaustive search algorithm
Imagine that you must open a locked door by inputting the correct 4-digit code on a keypad. After every keypress the lock evaluates the sequence of the last 4 digits inputted, i.e. by entering
123456 you have evaluated 3 codes:
- What is the shortest sequence of keypresses to evaluate all
- Is there a method for traversing the entire space easy enough for a human to follow?
I have pondered this from time to time since a friend of mine had to brute force such a lock, to not having to spend the night outdoors in wintertime.
My feeble attempts at wrapping my head around it
With a code of length
L=4 digits and an "alphabet" of digits of size
D=10 the length of the optimal sequence cannot be shorter than
D^L + L - 1. In simulations of smaller size than
[L,D] = [4,10] I have obtained optimal results by semi-randomly searching the space. However I do not know if a solution exists for an arbitrary
[L,D] pair and would not be able to remember the solution if I ever had to use it.
Lessons learned so far
When planning to spend the night at a friends house in another town, be sure to not arrive at 1 am if that person is going out to party and won't hear her cell phone.