Expand description
Day 22: Mode Maze
This is it, your final stop: the year -483. It’s snowing and dark outside; the only light you can see is coming from a small cottage in the distance. You make your way there and knock on the door.
A portly man with a large, white beard answers the door and invites you inside. For someone living near the North Pole in -483, he must not get many visitors, but he doesn’t act surprised to see you. Instead, he offers you some milk and cookies.
After talking for a while, he asks a favor of you. His friend hasn’t come back in a few hours, and he’s not sure where he is. Scanning the region briefly, you discover one life signal in a cave system nearby; his friend must have taken shelter there. The man asks if you can go there to retrieve his friend.
The cave is divided into square regions which are either dominantly rocky, narrow,
or wet (called its type). Each region occupies exactly one coordinate in X,Y
format where X and Y are integers and zero or greater. (Adjacent regions can be the same
type.)
The scan (your puzzle input) is not very detailed: it only reveals the depth of the cave
system and the coordinates of the target. However, it does not reveal the type of each
region. The mouth of the cave is at 0,0.
The man explains that due to the unusual geology in the area, there is a method to determine any region’s type based on its erosion level. The erosion level of a region can be determined from its geologic index. The geologic index can be determined using the first rule that applies from the list below:
- The region at
0,0(the mouth of the cave) has a geologic index of0. - The region at the coordinates of the target has a geologic index of
0. - If the region’s
Ycoordinate is0, the geologic index is itsXcoordinate times16807. - If the region’s
Xcoordinate is0, the geologic index is itsYcoordinate times48271. - Otherwise, the region’s geologic index is the result of multiplying the erosion levels of
the regions at
X-1,YandX,Y-1.
A region’s erosion level is its geologic index plus the cave system’s depth, all
modulo 20183. Then:
- If the erosion level modulo
3is0, the region’s type is rocky. - If the erosion level modulo
3is1, the region’s type is wet. - If the erosion level modulo
3is2, the region’s type is narrow.
For example, suppose the cave system’s depth is 510 and the target’s coordinates are 10,10.
Using % to represent the modulo operator, the cavern would look as follows:
- At
0,0, the geologic index is0. The erosion level is(0 + 510) % 20183 = 510. The type is510 % 3 = 0, rocky. - At
1,0, because theYcoordinate is0, the geologic index is1 * 16807 = 16807. The erosion level is(16807 + 510) % 20183 = 17317. The type is17317 % 3 = 1, wet. - At
0,1, because theXcoordinate is0, the geologic index is1 * 48271 = 48271. The erosion level is(48271 + 510) % 20183 = 8415. The type is8415 % 3 = 0, rocky. - At
1,1, neither coordinate is0and it is not the coordinate of the target, so the geologic index is the erosion level of0,1(8415) times the erosion level of1,0(17317),8415 * 17317 = 145722555. The erosion level is(145722555 + 510) % 20183 = 1805. The type is1805 % 3 = 2, narrow. - At
10,10, because they are the target’s coordinates, the geologic index is0. The erosion level is(0 + 510) % 20183 = 510. The type is510 % 3 = 0, rocky.
Drawing this same cave system with rocky as ., wet as =, narrow as |, the mouth as M,
the target as T, with 0,0 in the top-left corner, X increasing to the right, and Y
increasing downward, the top-left corner of the map looks like this:
M=.|=.|.|=.|=|=.
.|=|=|||..|.=...
.==|....||=..|==
=.|....|.==.|==.
=|..==...=.|==..
=||.=.=||=|=..|=
|.=.===|||..=..|
|..==||=.|==|===
.=..===..=|.|||.
.======|||=|=.|=
.===|=|===T===||
=|||...|==..|=.|
=.=|=.=..=.||==|
||=|=...|==.=|==
|=.=||===.|||===
||.|==.|.|.||=||
Before you go in, you should determine the risk level of the area. For the rectangle that
has a top-left corner of region 0,0 and a bottom-right corner of the region containing the
target, add up the risk level of each individual region: 0 for rocky regions, 1 for wet
regions, and 2 for narrow regions.
In the cave system above, because the mouth is at 0,0 and the target is at 10,10, adding up
the risk level of all regions with an X coordinate from 0 to 10 and a Y coordinate from
0 to 10, this total is 114.
What is the total risk level for the smallest rectangle that includes 0,0 and the target’s
coordinates?