— Day 12: Hill Climbing Algorithm —
You try contacting the Elves using your handheld device, but the river you're following must be too low to get a decent signal.
You ask the device for a heightmap of the surrounding area (your puzzle
input). The heightmap shows the local area from above broken into a
grid; the elevation of each square of the grid is given by a single
lowercase letter, where a is the lowest elevation, b is the
next-lowest, and so on up to the highest elevation, z.
Also included on the heightmap are marks for your current position (S)
and the location that should get the best signal (E). Your current
position (S) has elevation a, and the location that should get the
best signal (E) has elevation z.
You'd like to reach E, but to save energy, you should do it in as few
steps as possible. During each step, you can move exactly one square
up, down, left, or right. To avoid needing to get out your climbing
gear, the elevation of the destination square can be at most one
higher than the elevation of your current square; that is, if your
current elevation is m, you could step to elevation n, but not to
elevation o. (This also means that the elevation of the destination
square can be much lower than the elevation of your current square.)
For example:
Sabqponm abcryxxl accszExk acctuvwj abdefghi
Here, you start in the top-left corner; your goal is near the middle.
You could start by moving down or right, but eventually you'll need to
head toward the e at the bottom. From there, you can spiral around to
the goal:
v..v<<<< >v.vv<<^ .>vv>E^^ ..v>>>^^ ..>>>>>^
In the above diagram, the symbols indicate whether the path exits each
square moving up (^), down (v), left (<), or right (>). The
location that should get the best signal is still E, and . marks
unvisited squares.
This path reaches the goal in 31 steps, the fewest possible.
What is the fewest steps required to move from your current position to the location that should get the best signal?
Your puzzle answer was 408.
— Part Two —
As you walk up the hill, you suspect that the Elves will want to turn this into a hiking trail. The beginning isn't very scenic, though; perhaps you can find a better starting point.
To maximize exercise while hiking, the trail should start as low as
possible: elevation a. The goal is still the square marked E.
However, the trail should still be direct, taking the fewest steps to
reach its goal. So, you'll need to find the shortest path from any
square at elevation a to the square marked E.
Again consider the example from above:
Sabqponm abcryxxl accszExk acctuvwj abdefghi
Now, there are six choices for starting position (five marked a, plus
the square marked S that counts as being at elevation a). If you
start at the bottom-left square, you can reach the goal most quickly:
...v<<<< ...vv<<^ ...v>E^^ .>v>>>^^ >^>>>>>^
This path reaches the goal in only 29 steps, the fewest possible.
What is the fewest steps required to move starting from any square with
elevation a to the location that should get the best signal?
Your puzzle answer was 399.
Both parts of this puzzle are complete! They provide two gold stars: **