92 lines
3.7 KiB
Plaintext
92 lines
3.7 KiB
Plaintext
Advent of Code
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--- Day 14: Disk Defragmentation ---
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Suddenly, a scheduled job activates the system's disk defragmenter. Were the situation different, you might sit and watch it for a while, but today, you just
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don't have that kind of time. It's soaking up valuable system resources that are needed elsewhere, and so the only option is to help it finish its task as soon
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as possible.
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The disk in question consists of a 128x128 grid; each square of the grid is either free or used. On this disk, the state of the grid is tracked by the bits in a
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sequence of knot hashes.
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A total of 128 knot hashes are calculated, each corresponding to a single row in the grid; each hash contains 128 bits which correspond to individual grid
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squares. Each bit of a hash indicates whether that square is free (0) or used (1).
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The hash inputs are a key string (your puzzle input), a dash, and a number from 0 to 127 corresponding to the row. For example, if your key string were
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flqrgnkx, then the first row would be given by the bits of the knot hash of flqrgnkx-0, the second row from the bits of the knot hash of flqrgnkx-1, and so on
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until the last row, flqrgnkx-127.
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The output of a knot hash is traditionally represented by 32 hexadecimal digits; each of these digits correspond to 4 bits, for a total of 4 * 32 = 128 bits. To
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convert to bits, turn each hexadecimal digit to its equivalent binary value, high-bit first: 0 becomes 0000, 1 becomes 0001, e becomes 1110, f becomes 1111, and
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so on; a hash that begins with a0c2017... in hexadecimal would begin with 10100000110000100000000101110000... in binary.
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Continuing this process, the first 8 rows and columns for key flqrgnkx appear as follows, using # to denote used squares, and . to denote free ones:
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##.#.#..-->
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.#.#.#.#
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....#.#.
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#.#.##.#
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.##.#...
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##..#..#
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.#...#..
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##.#.##.-->
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V V
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In this example, 8108 squares are used across the entire 128x128 grid.
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Given your actual key string, how many squares are used?
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Your puzzle answer was ________.
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--- Part Two ---
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Now, all the defragmenter needs to know is the number of regions. A region is a group of used squares that are all adjacent, not including diagonals. Every used
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square is in exactly one region: lone used squares form their own isolated regions, while several adjacent squares all count as a single region.
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In the example above, the following nine regions are visible, each marked with a distinct digit:
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11.2.3..-->
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.1.2.3.4
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....5.6.
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7.8.55.9
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.88.5...
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88..5..8
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.8...8..
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88.8.88.-->
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V V
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Of particular interest is the region marked 8; while it does not appear contiguous in this small view, all of the squares marked 8 are connected when
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considering the whole 128x128 grid. In total, in this example, 1242 regions are present.
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How many regions are present given your key string?
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Your puzzle answer was _____.
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Both parts of this puzzle are complete! They provide two gold stars: **
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At this point, you should return to your advent calendar and try another puzzle.
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Your puzzle input was vbqugkhl.
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References
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Visible links
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. http://adventofcode.com/
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. http://adventofcode.com/2017/sponsors
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. http://adventofcode.com/2017/sponsors
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. https://en.wikipedia.org/wiki/Defragmentation
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. https://www.youtube.com/watch?v=kPv1gQ5Rs8A&t=37
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. http://adventofcode.com/2017/day/10
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. http://adventofcode.com/2017
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