Day 6: Guard Gallivant

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FAQ

  • TunaCowboy@lemmy.world
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    13 days ago

    python

    Takes around 10s on my machine. I came up 10 short at first for part two and then realized sometimes you have to turn multiple times to avoid an obstacle.

    solution
    from dataclasses import dataclass
    import aoc
    
    @dataclass
    class Guard():
        r: int = 0
        c: int = 0
        d: str = 'n'
    
        def move(self, lines):
            for _ in range(4):
                if self.d == 'n':
                    if lines[self.r - 1][self.c] == '#':
                        self.d = 'e'
                    else:
                        self.r -= 1
                        break
                elif self.d == 'e':
                    if lines[self.r][self.c + 1] == '#':
                        self.d = 's'
                    else:
                        self.c += 1
                        break
                elif self.d == 's':
                    if lines[self.r + 1][self.c] == '#':
                        self.d = 'w'
                    else:
                        self.r += 1
                        break
                elif self.d == 'w':
                    if lines[self.r][self.c - 1] == '#':
                        self.d = 'n'
                    else:
                        self.c -= 1
                        break
    
    def setup():
        lines = aoc.get_lines(6, padded=(True, 'X', 1))
        g = Guard()
        for row, l in enumerate(lines):
            for col, c in enumerate(l):
                if c == '^':
                    g.r, g.c = (row, col)
        s = (g.r, g.c)
        p = set()
        while lines[g.r][g.c] != 'X':
            p.add((g.r, g.c))
            g.move(lines)
        return (lines, g, s, p)
    
    def one():
        print(len(setup()[3]))
    
    def two():
        lines, g, s, p = setup()
        acc = 0
        for r, c in p:
            t = list(lines)
            ts = list(t[r])
            ts[c] = '#'
            t[r] = ''.join(ts)
            g.r, g.c, g.d = (s[0], s[1], 'n')
            v = set()
            while t[g.r][g.c] != 'X':
                st = (g.r, g.c, g.d)
                if st in v:
                    acc += 1
                    break
                v.add(st)
                g.move(t)
        print(acc)
    
    one()
    two()