I was asked the following question in an interview
You are given a 4 X 4 grid. Some locations on the grid contain
treasure. Your task is the visit all the locations that contain the
treasure and collect it. You are allowed to move on the four adjacent
cells (up, down, left, right). Each movement and the action of
“treasure collection” is of a single unit cost. You need to traverse
the entire grid, and collect all the treasure on the grid, minimizing
the cost taken.
If I can recall properly, here is a sample graph that was given:
U..X
..X.
X..X
..X.
Where, U is my current position and X marks the position of the treasure.
The solution that I presented was to use breadth first search traversing the graph and “collecting the treasure” while doing so. However, the interviewer insisted that there was a better way to minimize the cost. I hope you could help me in figuring it out.
You should have recognized that this is a Traveling Salesman Problem in a small disguise. Using breadth-first, you can determine the shortest way between the different vertices you have to visit which gives you a derived graph containing just those ways as weighted edges between the vertices. From then on, it’s a classic TSP.