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Author SHA1 Message Date
dece 047a183f60 2018 day 4 2020-11-16 17:55:16 +01:00
dece 057d99fcea 2018 day 3 2020-11-16 17:13:13 +01:00
dece 50eee15a8a 2018 day 2 2020-11-16 16:36:46 +01:00
7 changed files with 211 additions and 1 deletions

1
.gitignore vendored
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@ -1 +1,2 @@
day*.txt
venv/

30
2018/day2.py Normal file
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@ -0,0 +1,30 @@
def main():
with open("day2.txt", "rt") as f:
lines = [line.rstrip() for line in f.readlines()]
n2 = 0
n3 = 0
for line in lines:
occurences = [line.count(letter) for letter in line]
if 2 in occurences:
n2 += 1
if 3 in occurences:
n3 += 1
print(n2 * n3)
for line in lines:
for other in lines:
diffs = 0
common = ""
for c1, c2 in zip(line, other):
if c1 == c2:
common += c1
else:
diffs += 1
if diffs == 1:
print(common)
return
if __name__ == "__main__":
main()

59
2018/day3.py Normal file
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import re
from grid import Grid
EX = [
"#1 @ 1,3: 4x4",
"#2 @ 3,1: 4x4",
"#3 @ 5,5: 2x2",
]
def main():
with open("day3.txt", "rt") as f:
lines = [line.rstrip() for line in f.readlines()]
# Part 1
g = Grid()
for line in lines:
ident, left, top, width, height = parse_line(line)
for i in range(int(width)):
for j in range(int(height)):
x = int(left) + i
y = int(top) + j
g.setv(x, y, g.getv(x, y) + 1)
n = get_overlaps(g)
print(n)
# Part 2
g = Grid()
over = []
for line in lines:
ident, left, top, width, height = parse_line(line)
for i in range(int(width)):
for j in range(int(height)):
x = int(left) + i
y = int(top) + j
current_v = g.getv(x, y)
if current_v == None:
over.append(int(ident))
continue
elif current_v == 0:
g.setv(x, y, int(ident))
else:
over += [int(ident), current_v]
g.setv(x, y, None)
print(set(v for _, _, v in g.values_gen()).difference(set(over)))
LINE_RE = re.compile(r"#(\d+) @ (\d+),(\d+): (\d+)x(\d+)")
def parse_line(line):
match = LINE_RE.match(line)
return match.groups()
def get_overlaps(grid):
return sum([v > 1 for _, _, v in grid.values_gen()])
if __name__ == "__main__":
main()

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2018/day4.py Normal file
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import re
from collections import defaultdict
from datetime import datetime
def main():
with open("day4.txt", "rt") as f:
lines = [line.rstrip() for line in f.readlines()]
entries = [parse_entry(line) for line in lines]
entries = sorted(entries, key=lambda e: e[0])
sleepz = defaultdict(int)
noight = defaultdict(lambda: [0] * 60)
for t, v in entries:
if not isinstance(v, bool):
guard = v
elif v == False:
sleep_t = t
elif v == True:
sleep_d = t - sleep_t
sleep_minutes = sleep_d.seconds // 60
sleepz[guard] += sleep_minutes
for i in range(sleep_minutes):
noight[guard][sleep_t.minute + i] += 1
lazy_g = max(sleepz, key=lambda k: sleepz[k])
print("Laziest guard:", lazy_g)
sleepiest_min = max(range(60), key=lambda m: noight[lazy_g][m])
print("Sleepiest minute:", sleepiest_min)
print("Part 1:", lazy_g * sleepiest_min)
reliable_v = -1
for g in noight:
sleepiest_min = max(range(60), key=lambda m: noight[g][m])
sleepiest_v = noight[g][sleepiest_min]
if sleepiest_v > reliable_v:
reliable_g = g
reliable_m = sleepiest_min
reliable_v = sleepiest_v
print("Part 2:", reliable_g * reliable_m)
LINE_RE = re.compile(r"^\[([^\]]+)\] (.+)$")
def parse_entry(line):
match = LINE_RE.match(line)
ts, content = match.groups()
dt = datetime.fromisoformat(ts)
if content.startswith("Guard"):
v = int(content.split()[1][1:])
elif content.startswith("w"):
v = True
elif content.startswith("f"):
v = False
return (dt, v)
if __name__ == "__main__":
main()

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2018/grid.py Normal file
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"""Generic 2D grid with a few helpers."""
from collections import defaultdict
class Grid:
def __init__(self, value_factory=int, lines=None):
self.g = defaultdict(lambda: defaultdict(value_factory))
if lines:
self.load(lines)
def getv(self, x, y):
return self.g[y][x]
def setv(self, x, y, value):
self.g[y][x] = value
def load(self, lines, f=lambda v: v):
for y, line in enumerate(lines):
for x, c in enumerate(line.rstrip()):
self.g[y][x] = f(c)
def values_gen(self):
for y, row in self.g.items():
for x, v in row.items():
yield (x, y, v)
def near_objects(self, p):
"""Return a dict of neighbor positions to values (U, L, D, R)."""
return {q: self.g[q[1]][q[0]] for q in Grid.near(p)}
def dumb_print(self, f=lambda v: v):
for row in self.g.values():
for x in row.values():
print(f(x), end="")
print()
def print_near(self, p, view_size=2):
"""Print near values in an area of view_size. Works iff keys support addition."""
for dy in range(-view_size, view_size + 1):
print("".join([
self.g[p[1] + dy][p[0] + dx]
for dx in range(-view_size, view_size + 1)
]))
@staticmethod
def near(p):
"""Return a tuple of neighbor positions (up, left, down, right)."""
return (
(p[0] , p[1] - 1),
(p[0] + 1, p[1] ),
(p[0] , p[1] + 1),
(p[0] - 1, p[1] ),
)

7
2018/skel.py.txt Normal file
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def main():
with open("", "rt") as f:
lines = [line.rstrip() for line in f.readlines()]
if __name__ == "__main__":
main()

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@ -12,7 +12,7 @@ class Grid:
def getv(self, x, y):
return self.g[y][x]
def setv(self, x, y, value):
self.g[y][x] = value