mikael.capelle/advent-of-code
1
1
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity

Compare commits

base: mikael.capelle:dev/refactor-for-ui
Branches Tags
mikael.capelle:master mikael.capelle:dev/2024/17 mikael.capelle:dev/refactor-for-ui mikael.capelle:2024/day4 mikael.capelle:ci/add-ci mikael.capelle:2023/day17 mikael.capelle:2023/day12 mikael.capelle:2022/day16 mikael.capelle:day22 mikael.capelle:day20 mikael.capelle:day19 mikael.capelle:day16-tmp
..
compare: mikael.capelle:1289aed19c9ad483f424b1b381d6a47751c1acc3
Branches Tags
mikael.capelle:master mikael.capelle:dev/2024/17 mikael.capelle:dev/refactor-for-ui mikael.capelle:2024/day4 mikael.capelle:ci/add-ci mikael.capelle:2023/day17 mikael.capelle:2023/day12 mikael.capelle:2022/day16 mikael.capelle:day22 mikael.capelle:day20 mikael.capelle:day19 mikael.capelle:day16-tmp

1 Commits
dev/refact ... 1289aed19c

Author SHA1 Message Date
Mikaël Capelle
1289aed19c Start fixing 2015 for new API.
Some checks failed
continuous-integration/drone/pr Build is failing
Details
continuous-integration/drone/push Build is failing
Details
2024-12-08 11:57:35 +01:00
54 changed files with 1249 additions and 1294 deletions
Expand all files Collapse all files

21
src/holt59/aoc/2015/day22.py
View File

@@ -63,6 +63,17 @@ def play(
continue
visited.add((player, player_hp, player_mana, player_armor, boss_hp, buffs))
if hard_mode and player == "player":
player_hp = max(0, player_hp - 1)
if player_hp == 0:
continue
if boss_hp == 0:
winning_node = spells
continue
new_buffs: list[tuple[BuffType, int]] = []
for buff, length in buffs:
length = length - 1
@@ -78,16 +89,6 @@ def play(
if length > 0:
new_buffs.append((buff, length))
if hard_mode and player == "player":
player_hp = player_hp - 1
if player_hp <= 0:
continue
if boss_hp <= 0:
winning_node = spells
continue
buffs = tuple(new_buffs)
if player == "boss":

23
src/holt59/aoc/2021/day1.py
View File

@@ -1,17 +1,14 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
values = [int(line) for line in lines]
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
lines = input.splitlines()
# part 1
answer_1 = sum(v2 > v1 for v1, v2 in zip(values[:-1], values[1:]))
print(f"answer 1 is {answer_1}")
values = [int(line) for line in lines]
# part 1
yield sum(v2 > v1 for v1, v2 in zip(values[:-1], values[1:]))
# part 2
runnings = [sum(values[i : i + 3]) for i in range(len(values) - 2)]
yield sum(v2 > v1 for v1, v2 in zip(runnings[:-1], runnings[1:]))
# part 2
runnings = [sum(values[i : i + 3]) for i in range(len(values) - 2)]
answer_2 = sum(v2 > v1 for v1, v2 in zip(runnings[:-1], runnings[1:]))
print(f"answer 2 is {answer_2}")

12
src/holt59/aoc/2021/day10.py
View File

@@ -1,7 +1,11 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
# part 1
answer_1 = ...
print(f"answer 1 is {answer_1}")
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]: ...
# part 2
answer_2 = ...
print(f"answer 2 is {answer_2}")

12
src/holt59/aoc/2021/day11.py
View File

@@ -1,7 +1,11 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
# part 1
answer_1 = ...
print(f"answer 1 is {answer_1}")
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]: ...
# part 2
answer_2 = ...
print(f"answer 2 is {answer_2}")

12
src/holt59/aoc/2021/day12.py
View File

@@ -1,7 +1,11 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
# part 1
answer_1 = ...
print(f"answer 1 is {answer_1}")
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]: ...
# part 2
answer_2 = ...
print(f"answer 2 is {answer_2}")

12
src/holt59/aoc/2021/day13.py
View File

@@ -1,7 +1,11 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
# part 1
answer_1 = ...
print(f"answer 1 is {answer_1}")
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]: ...
# part 2
answer_2 = ...
print(f"answer 2 is {answer_2}")

12
src/holt59/aoc/2021/day14.py
View File

@@ -1,7 +1,11 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
# part 1
answer_1 = ...
print(f"answer 1 is {answer_1}")
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]: ...
# part 2
answer_2 = ...
print(f"answer 2 is {answer_2}")

12
src/holt59/aoc/2021/day15.py
View File

@@ -1,7 +1,11 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
# part 1
answer_1 = ...
print(f"answer 1 is {answer_1}")
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]: ...
# part 2
answer_2 = ...
print(f"answer 2 is {answer_2}")

12
src/holt59/aoc/2021/day16.py
View File

@@ -1,7 +1,11 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
# part 1
answer_1 = ...
print(f"answer 1 is {answer_1}")
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]: ...
# part 2
answer_2 = ...
print(f"answer 2 is {answer_2}")

12
src/holt59/aoc/2021/day17.py
View File

@@ -1,7 +1,11 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
# part 1
answer_1 = ...
print(f"answer 1 is {answer_1}")
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]: ...
# part 2
answer_2 = ...
print(f"answer 2 is {answer_2}")

12
src/holt59/aoc/2021/day18.py
View File

@@ -1,7 +1,11 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
# part 1
answer_1 = ...
print(f"answer 1 is {answer_1}")
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]: ...
# part 2
answer_2 = ...
print(f"answer 2 is {answer_2}")

12
src/holt59/aoc/2021/day19.py
View File

@@ -1,7 +1,11 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
# part 1
answer_1 = ...
print(f"answer 1 is {answer_1}")
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]: ...
# part 2
answer_2 = ...
print(f"answer 2 is {answer_2}")

57
src/holt59/aoc/2021/day2.py
View File

@@ -1,38 +1,41 @@
import sys
from math import prod
from typing import Any, Iterator, Literal, TypeAlias, cast
from typing import Literal, TypeAlias, cast
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
Command: TypeAlias = Literal["forward", "up", "down"]
commands: list[tuple[Command, int]] = [
(cast(Command, (p := line.split())[0]), int(p[1])) for line in lines
]
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
lines = input.splitlines()
commands: list[tuple[Command, int]] = [
(cast(Command, (p := line.split())[0]), int(p[1])) for line in lines
]
def depth_and_position(use_aim: bool):
aim, pos, depth = 0, 0, 0
for command, value in commands:
d_depth = 0
match command:
case "forward":
pos += value
depth += value * aim
case "up":
d_depth = -value
case "down":
d_depth = value
def depth_and_position(use_aim: bool):
aim, pos, depth = 0, 0, 0
for command, value in commands:
d_depth = 0
match command:
case "forward":
pos += value
depth += value * aim
case "up":
d_depth = -value
case "down":
d_depth = value
if use_aim:
aim += d_depth
else:
depth += value
if use_aim:
aim += d_depth
else:
depth += value
return depth, pos
return depth, pos
yield prod(depth_and_position(False))
yield prod(depth_and_position(True))
# part 1
answer_1 = prod(depth_and_position(False))
print(f"answer 1 is {answer_1}")
# part 2
answer_2 = prod(depth_and_position(True))
print(f"answer 2 is {answer_2}")

12
src/holt59/aoc/2021/day20.py
View File

@@ -1,7 +1,11 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
# part 1
answer_1 = ...
print(f"answer 1 is {answer_1}")
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]: ...
# part 2
answer_2 = ...
print(f"answer 2 is {answer_2}")

12
src/holt59/aoc/2021/day21.py
View File

@@ -1,7 +1,11 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
# part 1
answer_1 = ...
print(f"answer 1 is {answer_1}")
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]: ...
# part 2
answer_2 = ...
print(f"answer 2 is {answer_2}")

12
src/holt59/aoc/2021/day22.py
View File

@@ -1,7 +1,11 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
# part 1
answer_1 = ...
print(f"answer 1 is {answer_1}")
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]: ...
# part 2
answer_2 = ...
print(f"answer 2 is {answer_2}")

12
src/holt59/aoc/2021/day23.py
View File

@@ -1,7 +1,11 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
# part 1
answer_1 = ...
print(f"answer 1 is {answer_1}")
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]: ...
# part 2
answer_2 = ...
print(f"answer 2 is {answer_2}")

12
src/holt59/aoc/2021/day24.py
View File

@@ -1,7 +1,11 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
# part 1
answer_1 = ...
print(f"answer 1 is {answer_1}")
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]: ...
# part 2
answer_2 = ...
print(f"answer 2 is {answer_2}")

12
src/holt59/aoc/2021/day25.py
View File

@@ -1,7 +1,11 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
# part 1
answer_1 = ...
print(f"answer 1 is {answer_1}")
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]: ...
# part 2
answer_2 = ...
print(f"answer 2 is {answer_2}")

38
src/holt59/aoc/2021/day3.py
View File

@@ -1,7 +1,6 @@
import sys
from collections import Counter
from typing import Any, Iterator, Literal
from ..base import BaseSolver
from typing import Literal
def generator_rating(
@@ -21,23 +20,20 @@ def generator_rating(
return values[0]
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
lines = input.splitlines()
lines = sys.stdin.read().splitlines()
# part 1
most_and_least_common = [
tuple(
Counter(line[col] for line in lines).most_common(2)[m][0]
for m in range(2)
)
for col in range(len(lines[0]))
]
gamma_rate = int("".join(most for most, _ in most_and_least_common), base=2)
epsilon_rate = int("".join(least for _, least in most_and_least_common), base=2)
yield gamma_rate * epsilon_rate
# part 2
oxygen_generator_rating = int(generator_rating(lines, True, "1"), base=2)
co2_scrubber_rating = int(generator_rating(lines, False, "0"), base=2)
yield oxygen_generator_rating * co2_scrubber_rating
# part 1
most_and_least_common = [
tuple(Counter(line[col] for line in lines).most_common(2)[m][0] for m in range(2))
for col in range(len(lines[0]))
]
gamma_rate = int("".join(most for most, _ in most_and_least_common), base=2)
epsilon_rate = int("".join(least for _, least in most_and_least_common), base=2)
print(f"answer 1 is {gamma_rate * epsilon_rate}")
# part 2
oxygen_generator_rating = int(generator_rating(lines, True, "1"), base=2)
co2_scrubber_rating = int(generator_rating(lines, False, "0"), base=2)
answer_2 = oxygen_generator_rating * co2_scrubber_rating
print(f"answer 2 is {answer_2}")

73
src/holt59/aoc/2021/day4.py
View File

@@ -1,52 +1,45 @@
from typing import Any, Iterator
import sys
import numpy as np
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
numbers = [int(c) for c in lines[0].split(",")]
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
lines = input.splitlines()
boards = np.asarray(
[
[[int(c) for c in line.split()] for line in lines[start : start + 5]]
for start in range(2, len(lines), 6)
]
)
numbers = [int(c) for c in lines[0].split(",")]
# (round, score) for each board (-1 when not found)
winning_rounds: list[tuple[int, int]] = [(-1, -1) for _ in range(len(boards))]
marked = np.zeros_like(boards, dtype=bool)
boards = np.asarray(
[
[[int(c) for c in line.split()] for line in lines[start : start + 5]]
for start in range(2, len(lines), 6)
]
)
for round, number in enumerate(numbers):
# mark boards
marked[boards == number] = True
# (round, score) for each board (-1 when not found)
winning_rounds: list[tuple[int, int]] = [(-1, -1) for _ in range(len(boards))]
marked = np.zeros_like(boards, dtype=bool)
# check each board for winning
for index in range(len(boards)):
if winning_rounds[index][0] > 0:
continue
for round, number in enumerate(numbers):
# mark boards
marked[boards == number] = True
if np.any(np.all(marked[index], axis=0) | np.all(marked[index], axis=1)):
winning_rounds[index] = (
round,
number * int(np.sum(boards[index][~marked[index]])),
)
# check each board for winning
for index in range(len(boards)):
if winning_rounds[index][0] > 0:
continue
# all boards are winning - break
if np.all(marked.all(axis=1) | marked.all(axis=2)):
break
if np.any(
np.all(marked[index], axis=0) | np.all(marked[index], axis=1)
):
winning_rounds[index] = (
round,
number * int(np.sum(boards[index][~marked[index]])),
)
# part 1
(_, score) = min(winning_rounds, key=lambda w: w[0])
print(f"answer 1 is {score}")
# all boards are winning - break
if np.all(marked.all(axis=1) | marked.all(axis=2)):
break
# part 1
(_, score) = min(winning_rounds, key=lambda w: w[0])
yield score
# part 2
(_, score) = max(winning_rounds, key=lambda w: w[0])
yield score
# part 2
(_, score) = max(winning_rounds, key=lambda w: w[0])
print(f"answer 2 is {score}")

74
src/holt59/aoc/2021/day5.py
View File

@@ -1,48 +1,48 @@
from typing import Any, Iterator
import sys
import numpy as np
from ..base import BaseSolver
lines: list[str] = sys.stdin.read().splitlines()
sections: list[tuple[tuple[int, int], tuple[int, int]]] = [
(
(
int(line.split(" -> ")[0].split(",")[0]),
int(line.split(" -> ")[0].split(",")[1]),
),
(
int(line.split(" -> ")[1].split(",")[0]),
int(line.split(" -> ")[1].split(",")[1]),
),
)
for line in lines
]
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
lines = input.splitlines()
np_sections = np.array(sections).reshape(-1, 4)
sections: list[tuple[tuple[int, int], tuple[int, int]]] = [
(
(
int(line.split(" -> ")[0].split(",")[0]),
int(line.split(" -> ")[0].split(",")[1]),
),
(
int(line.split(" -> ")[1].split(",")[0]),
int(line.split(" -> ")[1].split(",")[1]),
),
)
for line in lines
]
x_min, x_max, y_min, y_max = (
min(np_sections[:, 0].min(), np_sections[:, 2].min()),
max(np_sections[:, 0].max(), np_sections[:, 2].max()),
min(np_sections[:, 1].min(), np_sections[:, 3].min()),
max(np_sections[:, 1].max(), np_sections[:, 3].max()),
)
np_sections = np.array(sections).reshape(-1, 4)
counts_1 = np.zeros((y_max + 1, x_max + 1), dtype=int)
counts_2 = counts_1.copy()
x_max, y_max = (
max(np_sections[:, 0].max(), np_sections[:, 2].max()),
max(np_sections[:, 1].max(), np_sections[:, 3].max()),
)
for (x1, y1), (x2, y2) in sections:
x_rng = range(x1, x2 + 1, 1) if x2 >= x1 else range(x1, x2 - 1, -1)
y_rng = range(y1, y2 + 1, 1) if y2 >= y1 else range(y1, y2 - 1, -1)
counts_1 = np.zeros((y_max + 1, x_max + 1), dtype=int)
counts_2 = counts_1.copy()
if x1 == x2 or y1 == y2:
counts_1[list(y_rng), list(x_rng)] += 1
counts_2[list(y_rng), list(x_rng)] += 1
elif abs(x2 - x1) == abs(y2 - y1):
for i, j in zip(y_rng, x_rng):
counts_2[i, j] += 1
for (x1, y1), (x2, y2) in sections:
x_rng = range(x1, x2 + 1, 1) if x2 >= x1 else range(x1, x2 - 1, -1)
y_rng = range(y1, y2 + 1, 1) if y2 >= y1 else range(y1, y2 - 1, -1)
answer_1 = (counts_1 >= 2).sum()
print(f"answer 1 is {answer_1}")
if x1 == x2 or y1 == y2:
counts_1[list(y_rng), list(x_rng)] += 1
counts_2[list(y_rng), list(x_rng)] += 1
elif abs(x2 - x1) == abs(y2 - y1):
for i, j in zip(y_rng, x_rng):
counts_2[i, j] += 1
yield (counts_1 >= 2).sum()
yield (counts_2 >= 2).sum()
answer_2 = (counts_2 >= 2).sum()
print(f"answer 2 is {answer_2}")

32
src/holt59/aoc/2021/day6.py
View File

@@ -1,21 +1,21 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
values = [int(c) for c in sys.stdin.read().strip().split(",")]
days = 256
lanterns = {day: 0 for day in range(days)}
for value in values:
for day in range(value, days, 7):
lanterns[day] += 1
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
values = [int(c) for c in input.split(",")]
for day in range(days):
for day2 in range(day + 9, days, 7):
lanterns[day2] += lanterns[day]
days = 256
lanterns = {day: 0 for day in range(days)}
for value in values:
for day in range(value, days, 7):
lanterns[day] += 1
# part 1
answer_1 = sum(v for k, v in lanterns.items() if k < 80) + len(values)
print(f"answer 1 is {answer_1}")
for day in range(days):
for day2 in range(day + 9, days, 7):
lanterns[day2] += lanterns[day]
yield sum(v for k, v in lanterns.items() if k < 80) + len(values)
yield sum(lanterns.values()) + len(values)
# part 2
answer_2 = sum(lanterns.values()) + len(values)
print(f"answer 2 is {answer_2}")

33
src/holt59/aoc/2021/day7.py
View File

@@ -1,22 +1,19 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
positions = [int(c) for c in sys.stdin.read().strip().split(",")]
min_position, max_position = min(positions), max(positions)
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
positions = [int(c) for c in input.split(",")]
# part 1
answer_1 = min(
sum(abs(p - position) for p in positions)
for position in range(min_position, max_position + 1)
)
print(f"answer 1 is {answer_1}")
min_position, max_position = min(positions), max(positions)
# part 1
yield min(
sum(abs(p - position) for p in positions)
for position in range(min_position, max_position + 1)
)
# part 2
yield min(
sum(abs(p - position) * (abs(p - position) + 1) // 2 for p in positions)
for position in range(min_position, max_position + 1)
)
# part 2
answer_2 = min(
sum(abs(p - position) * (abs(p - position) + 1) // 2 for p in positions)
for position in range(min_position, max_position + 1)
)
print(f"answer 2 is {answer_2}")

104
src/holt59/aoc/2021/day8.py
View File

@@ -1,7 +1,8 @@
import itertools
from typing import Any, Iterator
import os
import sys
from ..base import BaseSolver
VERBOSE = os.getenv("AOC_VERBOSE") == "True"
digits = {
"abcefg": 0,
@@ -16,74 +17,71 @@ digits = {
"abcdfg": 9,
}
lines = sys.stdin.read().splitlines()
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
lines = input.splitlines()
# part 1
lengths = {len(k) for k, v in digits.items() if v in (1, 4, 7, 8)}
answer_1 = sum(
len(p) in lengths for line in lines for p in line.split("|")[1].strip().split()
)
print(f"answer 1 is {answer_1}")
# part 1
lengths = {len(k) for k, v in digits.items() if v in (1, 4, 7, 8)}
yield sum(
len(p) in lengths
for line in lines
for p in line.split("|")[1].strip().split()
)
# part 2
values: list[int] = []
# part 2
values: list[int] = []
for line in lines:
parts = line.split("|")
broken_digits = sorted(parts[0].strip().split(), key=len)
for line in lines:
parts = line.split("|")
broken_digits = sorted(parts[0].strip().split(), key=len)
per_length = {
k: list(v)
for k, v in itertools.groupby(sorted(broken_digits, key=len), key=len)
}
per_length = {
k: list(v)
for k, v in itertools.groupby(sorted(broken_digits, key=len), key=len)
}
# a can be found immediately
a = next(u for u in per_length[3][0] if u not in per_length[2][0])
# a can be found immediately
a = next(u for u in per_length[3][0] if u not in per_length[2][0])
# c and f have only two possible values corresponding to the single entry of
# length 2
cf = list(per_length[2][0])
# c and f have only two possible values corresponding to the single entry of
# length 2
cf = list(per_length[2][0])
# the only digit of length 4 contains bcdf, so we can deduce bd by removing cf
bd = [u for u in per_length[4][0] if u not in cf]
# the only digit of length 4 contains bcdf, so we can deduce bd by removing cf
bd = [u for u in per_length[4][0] if u not in cf]
# the 3 digits of length 5 have a, d and g in common
adg = [u for u in per_length[5][0] if all(u in pe for pe in per_length[5][1:])]
# the 3 digits of length 5 have a, d and g in common
adg = [
u for u in per_length[5][0] if all(u in pe for pe in per_length[5][1:])
]
# we can remove a
dg = [u for u in adg if u != a]
# we can remove a
dg = [u for u in adg if u != a]
# we can deduce d and g
d = next(u for u in dg if u in bd)
g = next(u for u in dg if u != d)
# we can deduce d and g
d = next(u for u in dg if u in bd)
g = next(u for u in dg if u != d)
# then b
b = next(u for u in bd if u != d)
# then b
b = next(u for u in bd if u != d)
# f is in the three 6-length digits, while c is only in 2
f = next(u for u in cf if all(u in p for p in per_length[6]))
# f is in the three 6-length digits, while c is only in 2
f = next(u for u in cf if all(u in p for p in per_length[6]))
# c is not f
c = next(u for u in cf if u != f)
# c is not f
c = next(u for u in cf if u != f)
# e is the last one
e = next(u for u in "abcdefg" if u not in {a, b, c, d, f, g})
# e is the last one
e = next(u for u in "abcdefg" if u not in {a, b, c, d, f, g})
mapping = dict(zip((a, b, c, d, e, f, g), "abcdefg"))
mapping = dict(zip((a, b, c, d, e, f, g), "abcdefg"))
value = 0
for number in parts[1].strip().split():
digit = "".join(sorted(mapping[c] for c in number))
value = 10 * value + digits[digit]
value = 0
for number in parts[1].strip().split():
digit = "".join(sorted(mapping[c] for c in number))
value = 10 * value + digits[digit]
if VERBOSE:
print(value)
self.logger.info(f"value for '{line}' is {value}")
values.append(value)
values.append(value)
yield sum(values)
answer_2 = sum(values)
print(f"answer 2 is {answer_2}")

39
src/holt59/aoc/2021/day9.py
View File

@@ -1,18 +1,18 @@
import sys
from math import prod
from typing import Any, Iterator
from ..base import BaseSolver
values = [[int(c) for c in row] for row in sys.stdin.read().splitlines()]
n_rows, n_cols = len(values), len(values[0])
def neighbors(point: tuple[int, int], n_rows: int, n_cols: int):
def neighbors(point: tuple[int, int]):
i, j = point
for di, dj in ((-1, 0), (+1, 0), (0, -1), (0, +1)):
if 0 <= i + di < n_rows and 0 <= j + dj < n_cols:
yield (i + di, j + dj)
def basin(values: list[list[int]], start: tuple[int, int]) -> set[tuple[int, int]]:
n_rows, n_cols = len(values), len(values[0])
def basin(start: tuple[int, int]) -> set[tuple[int, int]]:
visited: set[tuple[int, int]] = set()
queue = [start]
@@ -23,25 +23,22 @@ def basin(values: list[list[int]], start: tuple[int, int]) -> set[tuple[int, int
continue
visited.add((i, j))
queue.extend(neighbors((i, j), n_rows, n_cols))
queue.extend(neighbors((i, j)))
return visited
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
values = [[int(c) for c in row] for row in input.splitlines()]
n_rows, n_cols = len(values), len(values[0])
low_points = [
(i, j)
for i in range(n_rows)
for j in range(n_cols)
if all(values[ti][tj] > values[i][j] for ti, tj in neighbors((i, j)))
]
low_points = [
(i, j)
for i in range(n_rows)
for j in range(n_cols)
if all(
values[ti][tj] > values[i][j]
for ti, tj in neighbors((i, j), n_rows, n_cols)
)
]
# part 1
answer_1 = sum(values[i][j] + 1 for i, j in low_points)
print(f"answer 1 is {answer_1}")
yield sum(values[i][j] + 1 for i, j in low_points)
yield prod(sorted(len(basin(values, point)) for point in low_points)[-3:])
# part 2
answer_2 = prod(sorted(len(basin(point)) for point in low_points)[-3:])
print(f"answer 2 is {answer_2}")

15
src/holt59/aoc/2022/day1.py
View File

@@ -1,12 +1,7 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
blocks = sys.stdin.read().split("\n\n")
values = sorted(sum(map(int, block.split())) for block in blocks)
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
blocks = input.split("\n\n")
values = sorted(sum(map(int, block.split())) for block in blocks)
yield values[-1]
yield sum(values[-3:])
print(f"answer 1 is {values[-1]}")
print(f"answer 2 is {sum(values[-3:])}")

71
src/holt59/aoc/2022/day10.py
View File

@@ -1,43 +1,38 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
cycle = 1
x = 1
values = {cycle: x}
for line in lines:
cycle += 1
if line == "noop":
pass
else:
r = int(line.split()[1])
values[cycle] = x
cycle += 1
x += r
values[cycle] = x
answer_1 = sum(c * values[c] for c in range(20, max(values.keys()) + 1, 40))
print(f"answer 1 is {answer_1}")
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
lines = [line.strip() for line in input.splitlines()]
for i in range(6):
for j in range(40):
v = values[1 + i * 40 + j]
cycle, x = 1, 1
values = {cycle: x}
if j >= v - 1 and j <= v + 1:
print("#", end="")
else:
print(".", end="")
for line in lines:
cycle += 1
if line == "noop":
pass
else:
r = int(line.split()[1])
values[cycle] = x
cycle += 1
x += r
values[cycle] = x
answer_1 = sum(c * values[c] for c in range(20, max(values.keys()) + 1, 40))
yield answer_1
yield (
"\n"
+ "\n".join(
"".join(
"#"
if j >= (v := values[1 + i * 40 + j]) - 1 and j <= v + 1
else "."
for j in range(40)
)
for i in range(6)
)
+ "\n"
)
print()

47
src/holt59/aoc/2022/day11.py
View File

@@ -1,8 +1,7 @@
import copy
import sys
from functools import reduce
from typing import Any, Callable, Final, Iterator, Mapping, Sequence
from ..base import BaseSolver
from typing import Callable, Final, Mapping, Sequence
class Monkey:
@@ -120,28 +119,24 @@ def monkey_business(inspects: dict[Monkey, int]) -> int:
return sorted_levels[-2] * sorted_levels[-1]
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
monkeys = [parse_monkey(block.splitlines()) for block in input.split("\n\n")]
monkeys = [parse_monkey(block.splitlines()) for block in sys.stdin.read().split("\n\n")]
# case 1: we simply divide the worry by 3 after applying the monkey worry operation
yield monkey_business(
run(copy.deepcopy(monkeys), 20, me_worry_fn=lambda w: w // 3)
)
# case 1: we simply divide the worry by 3 after applying the monkey worry operation
answer_1 = monkey_business(
run(copy.deepcopy(monkeys), 20, me_worry_fn=lambda w: w // 3)
)
print(f"answer 1 is {answer_1}")
# case 2: to keep reasonable level values, we can use a modulo operation, we need to
# use the product of all "divisible by" test so that the test remains valid
#
# (a + b) % c == ((a % c) + (b % c)) % c --- this would work for a single test value
#
# (a + b) % c == ((a % d) + (b % d)) % c --- if d is a multiple of c, which is why here
# we use the product of all test value
#
total_test_value = reduce(lambda w, m: w * m.test_value, monkeys, 1)
yield monkey_business(
run(
copy.deepcopy(monkeys),
10_000,
me_worry_fn=lambda w: w % total_test_value,
)
)
# case 2: to keep reasonable level values, we can use a modulo operation, we need to
# use the product of all "divisible by" test so that the test remains valid
#
# (a + b) % c == ((a % c) + (b % c)) % c --- this would work for a single test value
#
# (a + b) % c == ((a % d) + (b % d)) % c --- if d is a multiple of c, which is why here
# we use the product of all test value
#
total_test_value = reduce(lambda w, m: w * m.test_value, monkeys, 1)
answer_2 = monkey_business(
run(copy.deepcopy(monkeys), 10_000, me_worry_fn=lambda w: w % total_test_value)
)
print(f"answer 2 is {answer_2}")

121
src/holt59/aoc/2022/day12.py
View File

@@ -1,7 +1,6 @@
import heapq
from typing import Any, Callable, Iterator, TypeVar
from ..base import BaseSolver
import sys
from typing import Callable, Iterator, TypeVar
Node = TypeVar("Node")
@@ -69,6 +68,30 @@ def make_path(parents: dict[Node, Node], start: Node, end: Node) -> list[Node] |
return list(reversed(path))
def print_path(path: list[tuple[int, int]], n_rows: int, n_cols: int) -> None:
end = path[-1]
graph = [["." for _c in range(n_cols)] for _r in range(n_rows)]
graph[end[0]][end[1]] = "E"
for i in range(0, len(path) - 1):
cr, cc = path[i]
nr, nc = path[i + 1]
if cr == nr and nc == cc - 1:
graph[cr][cc] = "<"
elif cr == nr and nc == cc + 1:
graph[cr][cc] = ">"
elif cr == nr - 1 and nc == cc:
graph[cr][cc] = "v"
elif cr == nr + 1 and nc == cc:
graph[cr][cc] = "^"
else:
assert False, "{} -> {} infeasible".format(path[i], path[i + 1])
print("\n".join("".join(row) for row in graph))
def neighbors(
grid: list[list[int]], node: tuple[int, int], up: bool
) -> Iterator[tuple[int, int]]:
@@ -95,74 +118,46 @@ def neighbors(
# === main code ===
lines = sys.stdin.read().splitlines()
class Solver(BaseSolver):
def print_path(self, path: list[tuple[int, int]], n_rows: int, n_cols: int) -> None:
end = path[-1]
grid = [[ord(cell) - ord("a") for cell in line] for line in lines]
graph = [["." for _c in range(n_cols)] for _r in range(n_rows)]
graph[end[0]][end[1]] = "E"
start: tuple[int, int] | None = None
end: tuple[int, int] | None = None
for i in range(0, len(path) - 1):
cr, cc = path[i]
nr, nc = path[i + 1]
# for part 2
start_s: list[tuple[int, int]] = []
if cr == nr and nc == cc - 1:
graph[cr][cc] = "<"
elif cr == nr and nc == cc + 1:
graph[cr][cc] = ">"
elif cr == nr - 1 and nc == cc:
graph[cr][cc] = "v"
elif cr == nr + 1 and nc == cc:
graph[cr][cc] = "^"
else:
assert False, "{} -> {} infeasible".format(path[i], path[i + 1])
for i_row, row in enumerate(grid):
for i_col, col in enumerate(row):
if chr(col + ord("a")) == "S":
start = (i_row, i_col)
start_s.append(start)
elif chr(col + ord("a")) == "E":
end = (i_row, i_col)
elif col == 0:
start_s.append((i_row, i_col))
for row in graph:
self.logger.info("".join(row))
assert start is not None
assert end is not None
def solve(self, input: str) -> Iterator[Any]:
lines = input.splitlines()
# fix values
grid[start[0]][start[1]] = 0
grid[end[0]][end[1]] = ord("z") - ord("a")
grid = [[ord(cell) - ord("a") for cell in line] for line in lines]
start: tuple[int, int] | None = None
end: tuple[int, int] | None = None
lengths_1, parents_1 = dijkstra(
start=start, neighbors=lambda n: neighbors(grid, n, True), cost=lambda lhs, rhs: 1
)
path_1 = make_path(parents_1, start, end)
assert path_1 is not None
# for part 2
start_s: list[tuple[int, int]] = []
print_path(path_1, n_rows=len(grid), n_cols=len(grid[0]))
for i_row, row in enumerate(grid):
for i_col, col in enumerate(row):
if chr(col + ord("a")) == "S":
start = (i_row, i_col)
start_s.append(start)
elif chr(col + ord("a")) == "E":
end = (i_row, i_col)
elif col == 0:
start_s.append((i_row, i_col))
print(f"answer 1 is {lengths_1[end] - 1}")
assert start is not None
assert end is not None
# fix values
grid[start[0]][start[1]] = 0
grid[end[0]][end[1]] = ord("z") - ord("a")
lengths_1, parents_1 = dijkstra(
start=start,
neighbors=lambda n: neighbors(grid, n, True),
cost=lambda lhs, rhs: 1,
)
path_1 = make_path(parents_1, start, end)
assert path_1 is not None
self.print_path(path_1, n_rows=len(grid), n_cols=len(grid[0]))
yield lengths_1[end] - 1
lengths_2, _ = dijkstra(
start=end,
neighbors=lambda n: neighbors(grid, n, False),
cost=lambda lhs, rhs: 1,
)
yield min(lengths_2.get(start, float("inf")) for start in start_s)
lengths_2, parents_2 = dijkstra(
start=end, neighbors=lambda n: neighbors(grid, n, False), cost=lambda lhs, rhs: 1
)
answer_2 = min(lengths_2.get(start, float("inf")) for start in start_s)
print(f"answer 2 is {answer_2}")

27
src/holt59/aoc/2022/day13.py
View File

@@ -1,8 +1,11 @@
import json
import sys
from functools import cmp_to_key
from typing import Any, Iterator, TypeAlias, cast
from typing import TypeAlias, cast
from ..base import BaseSolver
blocks = sys.stdin.read().strip().split("\n\n")
pairs = [tuple(json.loads(p) for p in block.split("\n")) for block in blocks]
Packet: TypeAlias = list[int | list["Packet"]]
@@ -25,18 +28,14 @@ def compare(lhs: Packet, rhs: Packet) -> int:
return len(rhs) - len(lhs)
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
blocks = input.split("\n\n")
pairs = [tuple(json.loads(p) for p in block.split("\n")) for block in blocks]
answer_1 = sum(i + 1 for i, (lhs, rhs) in enumerate(pairs) if compare(lhs, rhs) > 0)
print(f"answer_1 is {answer_1}")
yield sum(i + 1 for i, (lhs, rhs) in enumerate(pairs) if compare(lhs, rhs) > 0)
dividers = [[[2]], [[6]]]
dividers = [[[2]], [[6]]]
packets = [packet for packets in pairs for packet in packets]
packets.extend(dividers)
packets = list(reversed(sorted(packets, key=cmp_to_key(compare))))
packets = [packet for packets in pairs for packet in packets]
packets.extend(dividers)
packets = list(reversed(sorted(packets, key=cmp_to_key(compare))))
d_index = [packets.index(d) + 1 for d in dividers]
yield d_index[0] * d_index[1]
d_index = [packets.index(d) + 1 for d in dividers]
print(f"answer 2 is {d_index[0] * d_index[1]}")

131
src/holt59/aoc/2022/day14.py
View File

@@ -1,7 +1,6 @@
import sys
from enum import Enum, auto
from typing import Any, Callable, Iterator, cast
from ..base import BaseSolver
from typing import Callable, cast
class Cell(Enum):
@@ -13,6 +12,26 @@ class Cell(Enum):
return {Cell.AIR: ".", Cell.ROCK: "#", Cell.SAND: "O"}[self]
def print_blocks(blocks: dict[tuple[int, int], Cell]):
"""
Print the given set of blocks on a grid.
Args:
blocks: Set of blocks to print.
"""
x_min, y_min, x_max, y_max = (
min(x for x, _ in blocks),
0,
max(x for x, _ in blocks),
max(y for _, y in blocks),
)
for y in range(y_min, y_max + 1):
print(
"".join(str(blocks.get((x, y), Cell.AIR)) for x in range(x_min, x_max + 1))
)
def flow(
blocks: dict[tuple[int, int], Cell],
stop_fn: Callable[[int, int], bool],
@@ -65,75 +84,57 @@ def flow(
# === inputs ===
lines = sys.stdin.read().splitlines()
class Solver(BaseSolver):
def print_blocks(self, blocks: dict[tuple[int, int], Cell]):
"""
Print the given set of blocks on a grid.
paths: list[list[tuple[int, int]]] = []
for line in lines:
parts = line.split(" -> ")
paths.append(
[
cast(tuple[int, int], tuple(int(c.strip()) for c in part.split(",")))
for part in parts
]
)
Args:
blocks: Set of blocks to print.
"""
x_min, y_min, x_max, y_max = (
min(x for x, _ in blocks),
0,
max(x for x, _ in blocks),
max(y for _, y in blocks),
)
for y in range(y_min, y_max + 1):
self.logger.info(
"".join(
str(blocks.get((x, y), Cell.AIR)) for x in range(x_min, x_max + 1)
)
)
blocks: dict[tuple[int, int], Cell] = {}
for path in paths:
for start, end in zip(path[:-1], path[1:]):
x_start = min(start[0], end[0])
x_end = max(start[0], end[0]) + 1
y_start = min(start[1], end[1])
y_end = max(start[1], end[1]) + 1
def solve(self, input: str) -> Iterator[Any]:
lines = [line.strip() for line in input.splitlines()]
for x in range(x_start, x_end):
for y in range(y_start, y_end):
blocks[x, y] = Cell.ROCK
paths: list[list[tuple[int, int]]] = []
for line in lines:
parts = line.split(" -> ")
paths.append(
[
cast(
tuple[int, int], tuple(int(c.strip()) for c in part.split(","))
)
for part in parts
]
)
print_blocks(blocks)
print()
blocks: dict[tuple[int, int], Cell] = {}
for path in paths:
for start, end in zip(path[:-1], path[1:]):
x_start = min(start[0], end[0])
x_end = max(start[0], end[0]) + 1
y_start = min(start[1], end[1])
y_end = max(start[1], end[1]) + 1
x_min, y_min, x_max, y_max = (
min(x for x, _ in blocks),
0,
max(x for x, _ in blocks),
max(y for _, y in blocks),
)
for x in range(x_start, x_end):
for y in range(y_start, y_end):
blocks[x, y] = Cell.ROCK
# === part 1 ===
self.print_blocks(blocks)
blocks_1 = flow(
blocks.copy(), stop_fn=lambda x, y: y > y_max, fill_fn=lambda x, y: Cell.AIR
)
print_blocks(blocks_1)
print(f"answer 1 is {sum(v == Cell.SAND for v in blocks_1.values())}")
print()
y_max = max(y for _, y in blocks)
# === part 2 ===
# === part 1 ===
blocks_1 = flow(
blocks.copy(), stop_fn=lambda x, y: y > y_max, fill_fn=lambda x, y: Cell.AIR
)
self.print_blocks(blocks_1)
yield sum(v == Cell.SAND for v in blocks_1.values())
# === part 2 ===
blocks_2 = flow(
blocks.copy(),
stop_fn=lambda x, y: x == 500 and y == 0,
fill_fn=lambda x, y: Cell.AIR if y < y_max + 2 else Cell.ROCK,
)
blocks_2[500, 0] = Cell.SAND
self.print_blocks(blocks_2)
yield sum(v == Cell.SAND for v in blocks_2.values())
blocks_2 = flow(
blocks.copy(),
stop_fn=lambda x, y: x == 500 and y == 0,
fill_fn=lambda x, y: Cell.AIR if y < y_max + 2 else Cell.ROCK,
)
blocks_2[500, 0] = Cell.SAND
print_blocks(blocks_2)
print(f"answer 2 is {sum(v == Cell.SAND for v in blocks_2.values())}")

13
src/holt59/aoc/2022/day15.py
View File

@@ -1,4 +1,4 @@
import itertools as it
import sys
from typing import Any, Iterator
import numpy as np
@@ -21,7 +21,9 @@ class Solver(BaseSolver):
no_beacons_row_l.append(sx + np.arange(0, d - abs(sy - row) + 1)) # type: ignore
beacons_at_row = set(bx for (bx, by) in sensor_to_beacon.values() if by == row)
no_beacons_row = set(it.chain(*no_beacons_row_l)).difference(beacons_at_row) # type: ignore
no_beacons_row = set(np.concatenate(no_beacons_row_l)).difference(
beacons_at_row
) # type: ignore
return len(no_beacons_row)
@@ -60,9 +62,8 @@ class Solver(BaseSolver):
for (sx, sy), (bx, by) in sensor_to_beacon.items():
d = abs(sx - bx) + abs(sy - by)
m.add_constraint(
m.abs(x - sx) + m.abs(y - sy) >= d + 1, # type: ignore
ctname=f"ct_{sx}_{sy}",
)
m.abs(x - sx) + m.abs(y - sy) >= d + 1, ctname=f"ct_{sx}_{sy}"
) # type: ignore
m.set_objective("min", x + y)
@@ -91,5 +92,5 @@ class Solver(BaseSolver):
# x, y, a2 = part2_cplex(sensor_to_beacon, xy_max)
x, y, a2 = self.part2_intervals(sensor_to_beacon, xy_max)
self.logger.info(f"answer 2 is {a2} (x={x}, y={y})")
self.logger.info("answer 2 is {at} (x={x}, y={y})")
yield a2

63
src/holt59/aoc/2022/day16.py
View File

@@ -3,13 +3,12 @@ from __future__ import annotations
import heapq
import itertools
import re
import sys
from collections import defaultdict
from typing import Any, FrozenSet, Iterator, NamedTuple
from typing import FrozenSet, NamedTuple
from tqdm import tqdm
from ..base import BaseSolver
class Pipe(NamedTuple):
name: str
@@ -37,8 +36,8 @@ def breadth_first_search(pipes: dict[str, Pipe], pipe: Pipe) -> dict[Pipe, int]:
Runs a BFS from the given pipe and return the shortest distance (in term of hops)
to all other pipes.
"""
queue = [(0, pipe)]
visited: set[Pipe] = set()
queue = [(0, pipe_1)]
visited = set()
distances: dict[Pipe, int] = {}
while len(distances) < len(pipes):
@@ -123,37 +122,37 @@ def part_2(
# === MAIN ===
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
lines = [line.strip() for line in input.splitlines()]
lines = sys.stdin.read().splitlines()
pipes: dict[str, Pipe] = {}
for line in lines:
r = re.match(
R"Valve ([A-Z]+) has flow rate=([0-9]+); tunnels? leads? to valves? (.+)",
line,
)
assert r
g = r.groups()
pipes: dict[str, Pipe] = {}
for line in lines:
r = re.match(
R"Valve ([A-Z]+) has flow rate=([0-9]+); tunnels? leads? to valves? (.+)",
line,
)
assert r
pipes[g[0]] = Pipe(g[0], int(g[1]), g[2].split(", "))
g = r.groups()
# compute distances from one valve to any other
distances: dict[tuple[Pipe, Pipe], int] = {}
for pipe_1 in pipes.values():
distances.update(
{
(pipe_1, pipe_2): distance
for pipe_2, distance in breadth_first_search(pipes, pipe_1).items()
}
)
pipes[g[0]] = Pipe(g[0], int(g[1]), g[2].split(", "))
# valves with flow
relevant_pipes = frozenset(pipe for pipe in pipes.values() if pipe.flow > 0)
# compute distances from one valve to any other
distances: dict[tuple[Pipe, Pipe], int] = {}
for pipe_1 in pipes.values():
distances.update(
{
(pipe_1, pipe_2): distance
for pipe_2, distance in breadth_first_search(pipes, pipe_1).items()
}
)
# 1651, 1653
yield part_1(pipes["AA"], 30, distances, relevant_pipes)
# valves with flow
relevant_pipes = frozenset(pipe for pipe in pipes.values() if pipe.flow > 0)
# 1707, 2223
yield part_2(pipes["AA"], 26, distances, relevant_pipes)
# 1651, 1653
print(part_1(pipes["AA"], 30, distances, relevant_pipes))
# 1707, 2223
print(part_2(pipes["AA"], 26, distances, relevant_pipes))

52
src/holt59/aoc/2022/day17.py
View File

@@ -1,16 +1,12 @@
from typing import Any, Iterator, Sequence, TypeAlias, TypeVar
import sys
from typing import Sequence, TypeVar
import numpy as np
from numpy.typing import NDArray
from ..base import BaseSolver
T = TypeVar("T")
Tower: TypeAlias = NDArray[np.bool]
def print_tower(tower: Tower, out: str = "#"):
def print_tower(tower: np.ndarray, out: str = "#"):
print("-" * (tower.shape[1] + 2))
non_empty = False
for row in reversed(range(1, tower.shape[0])):
@@ -21,7 +17,7 @@ def print_tower(tower: Tower, out: str = "#"):
print("+" + "-" * tower.shape[1] + "+")
def tower_height(tower: Tower) -> int:
def tower_height(tower: np.ndarray) -> int:
return int(tower.shape[0] - tower[::-1, :].argmax(axis=0).min() - 1)
@@ -49,8 +45,8 @@ def build_tower(
n_rocks: int,
jets: str,
early_stop: bool = False,
init: Tower = np.ones(WIDTH, dtype=bool),
) -> tuple[Tower, int, int, dict[int, int]]:
init: np.ndarray = np.ones(WIDTH, dtype=bool),
) -> tuple[np.ndarray, int, int, dict[int, int]]:
tower = EMPTY_BLOCKS.copy()
tower[0, :] = init
@@ -99,24 +95,26 @@ def build_tower(
return tower, rock_count, done_at.get((i_rock, i_jet), -1), heights
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
tower, *_ = build_tower(2022, input)
yield tower_height(tower)
line = sys.stdin.read().strip()
TOTAL_ROCKS = 1_000_000_000_000
_tower_1, n_rocks_1, prev_1, heights_1 = build_tower(TOTAL_ROCKS, input, True)
assert prev_1 > 0
tower, *_ = build_tower(2022, line)
answer_1 = tower_height(tower)
print(f"answer 1 is {answer_1}")
# 2767 1513
remaining_rocks = TOTAL_ROCKS - n_rocks_1
n_repeat_rocks = n_rocks_1 - prev_1
n_repeat_towers = remaining_rocks // n_repeat_rocks
TOTAL_ROCKS = 1_000_000_000_000
tower_1, n_rocks_1, prev_1, heights_1 = build_tower(TOTAL_ROCKS, line, True)
assert prev_1 > 0
base_height = heights_1[prev_1]
repeat_height = heights_1[prev_1 + n_repeat_rocks - 1] - heights_1[prev_1]
remaining_height = (
heights_1[prev_1 + remaining_rocks % n_repeat_rocks] - heights_1[prev_1]
)
# 2767 1513
remaining_rocks = TOTAL_ROCKS - n_rocks_1
n_repeat_rocks = n_rocks_1 - prev_1
n_repeat_towers = remaining_rocks // n_repeat_rocks
yield base_height + (n_repeat_towers + 1) * repeat_height + remaining_height
base_height = heights_1[prev_1]
repeat_height = heights_1[prev_1 + n_repeat_rocks - 1] - heights_1[prev_1]
remaining_height = (
heights_1[prev_1 + remaining_rocks % n_repeat_rocks] - heights_1[prev_1]
)
answer_2 = base_height + (n_repeat_towers + 1) * repeat_height + remaining_height
print(f"answer 2 is {answer_2}")

78
src/holt59/aoc/2022/day18.py
View File

@@ -1,58 +1,50 @@
from typing import Any, Iterator
import sys
import numpy as np
from ..base import BaseSolver
xyz = np.asarray(
[
tuple(int(x) for x in row.split(",")) # type: ignore
for row in sys.stdin.read().splitlines()
]
)
xyz = xyz - xyz.min(axis=0) + 1
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
xyz = np.asarray(
[
tuple(int(x) for x in row.split(",")) # type: ignore
for row in input.splitlines()
]
)
cubes = np.zeros(xyz.max(axis=0) + 3, dtype=bool)
cubes[xyz[:, 0], xyz[:, 1], xyz[:, 2]] = True
xyz = xyz - xyz.min(axis=0) + 1
n_dims = len(cubes.shape)
cubes = np.zeros(xyz.max(axis=0) + 3, dtype=bool)
cubes[xyz[:, 0], xyz[:, 1], xyz[:, 2]] = True
faces = [(-1, 0, 0), (1, 0, 0), (0, -1, 0), (0, 1, 0), (0, 0, -1), (0, 0, 1)]
faces = [(-1, 0, 0), (1, 0, 0), (0, -1, 0), (0, 1, 0), (0, 0, -1), (0, 0, 1)]
answer_1 = sum(
1 for x, y, z in xyz for dx, dy, dz in faces if not cubes[x + dx, y + dy, z + dz]
)
print(f"answer 1 is {answer_1}")
yield sum(
1
for x, y, z in xyz
for dx, dy, dz in faces
if not cubes[x + dx, y + dy, z + dz]
)
visited = np.zeros_like(cubes, dtype=bool)
queue = [(0, 0, 0)]
visited = np.zeros_like(cubes, dtype=bool)
queue = [(0, 0, 0)]
n_faces = 0
while queue:
x, y, z = queue.pop(0)
n_faces = 0
while queue:
x, y, z = queue.pop(0)
if visited[x, y, z]:
continue
if visited[x, y, z]:
continue
visited[x, y, z] = True
visited[x, y, z] = True
for dx, dy, dz in faces:
nx, ny, nz = x + dx, y + dy, z + dz
if not all(n >= 0 and n < cubes.shape[i] for i, n in enumerate((nx, ny, nz))):
continue
for dx, dy, dz in faces:
nx, ny, nz = x + dx, y + dy, z + dz
if not all(
n >= 0 and n < cubes.shape[i] for i, n in enumerate((nx, ny, nz))
):
continue
if visited[nx, ny, nz]:
continue
if visited[nx, ny, nz]:
continue
if cubes[nx, ny, nz]:
n_faces += 1
else:
queue.append((nx, ny, nz))
yield n_faces
if cubes[nx, ny, nz]:
n_faces += 1
else:
queue.append((nx, ny, nz))
print(f"answer 2 is {n_faces}")

62
src/holt59/aoc/2022/day19.py
View File

@@ -1,11 +1,10 @@
from typing import Any, Iterator, Literal
import sys
from typing import Any, Literal
import numpy as np
import parse # pyright: ignore[reportMissingTypeStubs]
from numpy.typing import NDArray
from ..base import BaseSolver
Reagent = Literal["ore", "clay", "obsidian", "geode"]
REAGENTS: tuple[Reagent, ...] = (
"ore",
@@ -63,6 +62,29 @@ def dominates(lhs: State, rhs: State):
)
lines = sys.stdin.read().splitlines()
blueprints: list[dict[Reagent, IntOfReagent]] = []
for line in lines:
r: list[int] = parse.parse( # type: ignore
"Blueprint {}: "
"Each ore robot costs {:d} ore. "
"Each clay robot costs {:d} ore. "
"Each obsidian robot costs {:d} ore and {:d} clay. "
"Each geode robot costs {:d} ore and {:d} obsidian.",
line,
)
blueprints.append(
{
"ore": {"ore": r[1]},
"clay": {"ore": r[2]},
"obsidian": {"ore": r[3], "clay": r[4]},
"geode": {"ore": r[5], "obsidian": r[6]},
}
)
def run(blueprint: dict[Reagent, dict[Reagent, int]], max_time: int) -> int:
# since we can only build one robot per time, we do not need more than X robots
# of type K where X is the maximum number of K required among all robots, e.g.,
@@ -151,31 +173,11 @@ def run(blueprint: dict[Reagent, dict[Reagent, int]], max_time: int) -> int:
return max(state.reagents["geode"] for state in state_after_t[max_time])
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
blueprints: list[dict[Reagent, IntOfReagent]] = []
for line in input.splitlines():
r: list[int] = parse.parse( # type: ignore
"Blueprint {}: "
"Each ore robot costs {:d} ore. "
"Each clay robot costs {:d} ore. "
"Each obsidian robot costs {:d} ore and {:d} clay. "
"Each geode robot costs {:d} ore and {:d} obsidian.",
line,
)
answer_1 = sum(
(i_blueprint + 1) * run(blueprint, 24)
for i_blueprint, blueprint in enumerate(blueprints)
)
print(f"answer 1 is {answer_1}")
blueprints.append(
{
"ore": {"ore": r[1]},
"clay": {"ore": r[2]},
"obsidian": {"ore": r[3], "clay": r[4]},
"geode": {"ore": r[5], "obsidian": r[6]},
}
)
yield sum(
(i_blueprint + 1) * run(blueprint, 24)
for i_blueprint, blueprint in enumerate(blueprints)
)
yield (run(blueprints[0], 32) * run(blueprints[1], 32) * run(blueprints[2], 32))
answer_2 = run(blueprints[0], 32) * run(blueprints[1], 32) * run(blueprints[2], 32)
print(f"answer 2 is {answer_2}")

34
src/holt59/aoc/2022/day2.py
View File

@@ -1,6 +1,4 @@
from typing import Any, Iterator
from ..base import BaseSolver
import sys
def score_1(ux: int, vx: int) -> int:
@@ -35,23 +33,21 @@ def score_2(ux: int, vx: int) -> int:
return (ux + vx - 1) % 3 + 1 + vx * 3
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
lines = input.splitlines()
lines = sys.stdin.readlines()
# the solution relies on replacing rock / paper / scissor by values 0 / 1 / 2 and using
# modulo-3 arithmetic
#
# in modulo-3 arithmetic, the winning move is 1 + the opponent move (e.g., winning move
# if opponent plays 0 is 1, or 0 if opponent plays 2 (0 = (2 + 1 % 3)))
#
# the solution relies on replacing rock / paper / scissor by values 0 / 1 / 2 and using
# modulo-3 arithmetic
#
# in modulo-3 arithmetic, the winning move is 1 + the opponent move (e.g., winning move
# if opponent plays 0 is 1, or 0 if opponent plays 2 (0 = (2 + 1 % 3)))
#
# we read the lines in a Nx2 in array with value 0/1/2 instead of A/B/C or X/Y/Z for
# easier manipulation
values = [(ord(row[0]) - ord("A"), ord(row[2]) - ord("X")) for row in lines]
# we read the lines in a Nx2 in array with value 0/1/2 instead of A/B/C or X/Y/Z for
# easier manipulation
values = [(ord(row[0]) - ord("A"), ord(row[2]) - ord("X")) for row in lines]
# part 1 - 13526
yield sum(score_1(*v) for v in values)
# part 1 - 13526
print(f"answer 1 is {sum(score_1(*v) for v in values)}")
# part 2 - 14204
yield sum(score_2(*v) for v in values)
# part 2 - 14204
print(f"answer 2 is {sum(score_2(*v) for v in values)}")

15
src/holt59/aoc/2022/day20.py
View File

@@ -1,8 +1,6 @@
from __future__ import annotations
from typing import Any, Iterator
from ..base import BaseSolver
import sys
class Number:
@@ -67,9 +65,10 @@ def decrypt(numbers: list[Number], key: int, rounds: int) -> int:
)
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
numbers = [Number(int(x)) for x in input.splitlines()]
numbers = [Number(int(x)) for i, x in enumerate(sys.stdin.readlines())]
yield decrypt(numbers, 1, 1)
yield decrypt(numbers, 811589153, 10)
answer_1 = decrypt(numbers, 1, 1)
print(f"answer 1 is {answer_1}")
answer_2 = decrypt(numbers, 811589153, 10)
print(f"answer 2 is {answer_2}")

47
src/holt59/aoc/2022/day21.py
View File

@@ -1,7 +1,6 @@
import operator
from typing import Any, Callable, Iterator
from ..base import BaseSolver
import sys
from typing import Callable
def compute(monkeys: dict[str, int | tuple[str, str, str]], monkey: str) -> int:
@@ -78,31 +77,31 @@ def invert(
return monkeys
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
lines = [line.strip() for line in input.splitlines()]
lines = sys.stdin.read().splitlines()
monkeys: dict[str, int | tuple[str, str, str]] = {}
monkeys: dict[str, int | tuple[str, str, str]] = {}
op_monkeys: set[str] = set()
op_monkeys: set[str] = set()
for line in lines:
parts = line.split(":")
name = parts[0].strip()
for line in lines:
parts = line.split(":")
name = parts[0].strip()
try:
value = int(parts[1].strip())
monkeys[name] = value
except ValueError:
op1, ope, op2 = parts[1].strip().split()
monkeys[name] = (op1, ope, op2)
try:
value = int(parts[1].strip())
monkeys[name] = value
except ValueError:
op1, ope, op2 = parts[1].strip().split()
monkeys[name] = (op1, ope, op2)
op_monkeys.add(name)
op_monkeys.add(name)
yield compute(monkeys.copy(), "root")
# assume the second operand of 'root' can be computed, and the first one depends on
# humn, which is the case is my input and the test input
assert isinstance(monkeys["root"], tuple)
p1, _, p2 = monkeys["root"] # type: ignore
yield compute(invert(monkeys, "humn", compute(monkeys.copy(), p2)), "humn")
answer_1 = compute(monkeys.copy(), "root")
print(f"answer 1 is {answer_1}")
# assume the second operand of 'root' can be computed, and the first one depends on
# humn, which is the case is my input and the test input
p1, _, p2 = monkeys["root"] # type: ignore
answer_2 = compute(invert(monkeys, "humn", compute(monkeys.copy(), p2)), "humn")
print(f"answer 2 is {answer_2}")

420
src/holt59/aoc/2022/day22.py
View File

@@ -1,243 +1,223 @@
import re
from typing import Any, Callable, Iterator
import sys
from typing import Callable
import numpy as np
from ..base import BaseSolver
VOID, EMPTY, WALL = 0, 1, 2
TILE_FROM_CHAR = {" ": VOID, ".": EMPTY, "#": WALL}
SCORES = {"E": 0, "S": 1, "W": 2, "N": 3}
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
board_map_s, direction_s = input.split("\n\n")
board_map_s, direction_s = sys.stdin.read().split("\n\n")
# board
board_lines = board_map_s.splitlines()
max_line = max(len(line) for line in board_lines)
board = np.array(
[
[TILE_FROM_CHAR[c] for c in row] + [VOID] * (max_line - len(row))
for row in board_map_s.splitlines()
]
)
# board
board_lines = board_map_s.splitlines()
max_line = max(len(line) for line in board_lines)
board = np.array(
[
[TILE_FROM_CHAR[c] for c in row] + [VOID] * (max_line - len(row))
for row in board_map_s.splitlines()
]
)
directions = [
int(p1) if p2 else p1
for p1, p2 in re.findall(R"(([0-9])+|L|R)", direction_s)
]
directions = [
int(p1) if p2 else p1 for p1, p2 in re.findall(R"(([0-9])+|L|R)", direction_s)
]
# find on each row and column the first and last non-void
row_first_non_void = np.argmax(board != VOID, axis=1)
row_last_non_void = (
board.shape[1] - np.argmax(board[:, ::-1] != VOID, axis=1) - 1
)
col_first_non_void = np.argmax(board != VOID, axis=0)
col_last_non_void = (
board.shape[0] - np.argmax(board[::-1, :] != VOID, axis=0) - 1
)
faces = np.zeros_like(board)
size = np.gcd(board.shape[0], board.shape[1])
for row in range(0, board.shape[0], size):
for col in range(row_first_non_void[row], row_last_non_void[row], size):
faces[row : row + size, col : col + size] = faces.max() + 1
# find on each row and column the first and last non-void
row_first_non_void = np.argmax(board != VOID, axis=1)
row_last_non_void = board.shape[1] - np.argmax(board[:, ::-1] != VOID, axis=1) - 1
col_first_non_void = np.argmax(board != VOID, axis=0)
col_last_non_void = board.shape[0] - np.argmax(board[::-1, :] != VOID, axis=0) - 1
SIZE = np.gcd(*board.shape)
# TODO: deduce this from the actual cube...
faces_wrap: dict[int, dict[str, Callable[[int, int], tuple[int, int, str]]]]
faces = np.zeros_like(board)
size = np.gcd(board.shape[0], board.shape[1])
for row in range(0, board.shape[0], size):
for col in range(row_first_non_void[row], row_last_non_void[row], size):
faces[row : row + size, col : col + size] = faces.max() + 1
if board.shape == (12, 16): # example
faces_wrap = {
1: {
"W": lambda y, x: (4, 4 + y, "S"), # 3N
"N": lambda y, x: (4, 11 - x, "S"), # 2N
"E": lambda y, x: (11 - y, 15, "W"), # 6E
},
2: {
"W": lambda y, x: (11, 19 - y, "N"), # 6S
"N": lambda y, x: (0, 11 - y, "S"), # 1N
"S": lambda y, x: (11, 11 - x, "N"), # 5S
},
3: {
"N": lambda y, x: (x - 4, 8, "E"), # 1W
"S": lambda y, x: (15 - x, 8, "E"), # 5W
},
4: {"E": lambda y, x: (8, 19 - y, "S")}, # 6N
5: {
"W": lambda y, x: (7, 15 - y, "N"), # 3S
"S": lambda y, x: (7, 11 - x, "N"), # 2S
},
6: {
"N": lambda y, x: (19 - x, 11, "W"), # 4E
"E": lambda y, x: (11 - y, 11, "W"), # 1E
"S": lambda y, x: (19 - x, 0, "E"), # 2W
},
}
SIZE = np.gcd(*board.shape)
# TODO: deduce this from the actual cube...
faces_wrap: dict[int, dict[str, Callable[[int, int], tuple[int, int, str]]]]
if board.shape == (12, 16): # example
faces_wrap = {
1: {
"W": lambda y, x: (4, 4 + y, "S"), # 3N
"N": lambda y, x: (4, 11 - x, "S"), # 2N
"E": lambda y, x: (11 - y, 15, "W"), # 6E
},
2: {
"W": lambda y, x: (11, 19 - y, "N"), # 6S
"N": lambda y, x: (0, 11 - y, "S"), # 1N
"S": lambda y, x: (11, 11 - x, "N"), # 5S
},
3: {
"N": lambda y, x: (x - 4, 8, "E"), # 1W
"S": lambda y, x: (15 - x, 8, "E"), # 5W
},
4: {"E": lambda y, x: (8, 19 - y, "S")}, # 6N
5: {
"W": lambda y, x: (7, 15 - y, "N"), # 3S
"S": lambda y, x: (7, 11 - x, "N"), # 2S
},
6: {
"N": lambda y, x: (19 - x, 11, "W"), # 4E
"E": lambda y, x: (11 - y, 11, "W"), # 1E
"S": lambda y, x: (19 - x, 0, "E"), # 2W
},
}
else:
faces_wrap = {
1: {
"W": lambda y, x: (3 * SIZE - y - 1, 0, "E"), # 4W
"N": lambda y, x: (2 * SIZE + x, 0, "E"), # 6W
},
2: {
"N": lambda y, x: (4 * SIZE - 1, x - 2 * SIZE, "N"), # 6S
"E": lambda y, x: (3 * SIZE - y - 1, 2 * SIZE - 1, "W"), # 5E
"S": lambda y, x: (x - SIZE, 2 * SIZE - 1, "W"), # 3E
},
3: {
"W": lambda y, x: (2 * SIZE, y - SIZE, "S"), # 4N
"E": lambda y, x: (SIZE - 1, SIZE + y, "N"), # 2S
},
4: {
"W": lambda y, x: (3 * SIZE - y - 1, SIZE, "E"), # 1W
"N": lambda y, x: (SIZE + x, SIZE, "E"), # 3W
},
5: {
"E": lambda y, x: (3 * SIZE - y - 1, 3 * SIZE - 1, "W"), # 2E
"S": lambda y, x: (2 * SIZE + x, SIZE - 1, "W"), # 6E
},
6: {
"W": lambda y, x: (0, y - 2 * SIZE, "S"), # 1N
"E": lambda y, x: (3 * SIZE - 1, y - 2 * SIZE, "N"), # 5S
"S": lambda y, x: (0, x + 2 * SIZE, "S"), # 2N
},
}
def wrap_part_1(y0: int, x0: int, r0: str) -> tuple[int, int, str]:
if r0 == "E":
return y0, row_first_non_void[y0], r0
elif r0 == "S":
return col_first_non_void[x0], x0, r0
elif r0 == "W":
return y0, row_last_non_void[y0], r0
elif r0 == "N":
return col_last_non_void[x0], x0, r0
assert False
def wrap_part_2(y0: int, x0: int, r0: str) -> tuple[int, int, str]:
cube = faces[y0, x0]
assert r0 in faces_wrap[cube]
return faces_wrap[cube][r0](y0, x0)
def run(wrap: Callable[[int, int, str], tuple[int, int, str]]) -> tuple[int, int, str]:
y0 = 0
x0 = np.where(board[0] == EMPTY)[0][0]
r0 = "E"
for direction in directions:
if isinstance(direction, int):
while direction > 0:
if r0 == "E":
xi = np.where(board[y0, x0 + 1 : x0 + direction + 1] == WALL)[0]
if len(xi):
x0 = x0 + xi[0]
direction = 0
elif (
x0 + direction < board.shape[1]
and board[y0, x0 + direction] == EMPTY
):
x0 = x0 + direction
direction = 0
else:
y0_t, x0_t, r0_t = wrap(y0, x0, r0)
if board[y0_t, x0_t] == WALL:
x0 = row_last_non_void[y0]
direction = 0
else:
direction = direction - (row_last_non_void[y0] - x0) - 1
y0, x0, r0 = y0_t, x0_t, r0_t
elif r0 == "S":
yi = np.where(board[y0 + 1 : y0 + direction + 1, x0] == WALL)[0]
if len(yi):
y0 = y0 + yi[0]
direction = 0
elif (
y0 + direction < board.shape[0]
and board[y0 + direction, x0] == EMPTY
):
y0 = y0 + direction
direction = 0
else:
y0_t, x0_t, r0_t = wrap(y0, x0, r0)
if board[y0_t, x0_t] == WALL:
y0 = col_last_non_void[x0]
direction = 0
else:
direction = direction - (col_last_non_void[x0] - y0) - 1
y0, x0, r0 = y0_t, x0_t, r0_t
elif r0 == "W":
left = max(x0 - direction - 1, 0)
xi = np.where(board[y0, left:x0] == WALL)[0]
if len(xi):
x0 = left + xi[-1] + 1
direction = 0
elif x0 - direction >= 0 and board[y0, x0 - direction] == EMPTY:
x0 = x0 - direction
direction = 0
else:
y0_t, x0_t, r0_t = wrap(y0, x0, r0)
if board[y0_t, x0_t] == WALL:
x0 = row_first_non_void[y0]
direction = 0
else:
direction = direction - (x0 - row_first_non_void[y0]) - 1
y0, x0, r0 = y0_t, x0_t, r0_t
elif r0 == "N":
top = max(y0 - direction - 1, 0)
yi = np.where(board[top:y0, x0] == WALL)[0]
if len(yi):
y0 = top + yi[-1] + 1
direction = 0
elif y0 - direction >= 0 and board[y0 - direction, x0] == EMPTY:
y0 = y0 - direction
direction = 0
else:
y0_t, x0_t, r0_t = wrap(y0, x0, r0)
if board[y0_t, x0_t] == WALL:
y0 = col_first_non_void[x0]
direction = 0
else:
direction = direction - (y0 - col_first_non_void[x0]) - 1
y0, x0, r0 = y0_t, x0_t, r0_t
else:
faces_wrap = {
1: {
"W": lambda y, x: (3 * SIZE - y - 1, 0, "E"), # 4W
"N": lambda y, x: (2 * SIZE + x, 0, "E"), # 6W
},
2: {
"N": lambda y, x: (4 * SIZE - 1, x - 2 * SIZE, "N"), # 6S
"E": lambda y, x: (3 * SIZE - y - 1, 2 * SIZE - 1, "W"), # 5E
"S": lambda y, x: (x - SIZE, 2 * SIZE - 1, "W"), # 3E
},
3: {
"W": lambda y, x: (2 * SIZE, y - SIZE, "S"), # 4N
"E": lambda y, x: (SIZE - 1, SIZE + y, "N"), # 2S
},
4: {
"W": lambda y, x: (3 * SIZE - y - 1, SIZE, "E"), # 1W
"N": lambda y, x: (SIZE + x, SIZE, "E"), # 3W
},
5: {
"E": lambda y, x: (3 * SIZE - y - 1, 3 * SIZE - 1, "W"), # 2E
"S": lambda y, x: (2 * SIZE + x, SIZE - 1, "W"), # 6E
},
6: {
"W": lambda y, x: (0, y - 2 * SIZE, "S"), # 1N
"E": lambda y, x: (3 * SIZE - 1, y - 2 * SIZE, "N"), # 5S
"S": lambda y, x: (0, x + 2 * SIZE, "S"), # 2N
},
}
r0 = {
"E": {"L": "N", "R": "S"},
"N": {"L": "W", "R": "E"},
"W": {"L": "S", "R": "N"},
"S": {"L": "E", "R": "W"},
}[r0][direction]
def wrap_part_1(y0: int, x0: int, r0: str) -> tuple[int, int, str]:
if r0 == "E":
return y0, row_first_non_void[y0], r0
elif r0 == "S":
return col_first_non_void[x0], x0, r0
elif r0 == "W":
return y0, row_last_non_void[y0], r0
elif r0 == "N":
return col_last_non_void[x0], x0, r0
return y0, x0, r0
assert False
def wrap_part_2(y0: int, x0: int, r0: str) -> tuple[int, int, str]:
cube = faces[y0, x0]
assert r0 in faces_wrap[cube]
return faces_wrap[cube][r0](y0, x0)
y1, x1, r1 = run(wrap_part_1)
answer_1 = 1000 * (1 + y1) + 4 * (1 + x1) + SCORES[r1]
print(f"answer 1 is {answer_1}")
def run(
wrap: Callable[[int, int, str], tuple[int, int, str]],
) -> tuple[int, int, str]:
y0 = 0
x0 = np.where(board[0] == EMPTY)[0][0]
r0 = "E"
for direction in directions:
if isinstance(direction, int):
while direction > 0:
if r0 == "E":
xi = np.where(
board[y0, x0 + 1 : x0 + direction + 1] == WALL
)[0]
if len(xi):
x0 = x0 + xi[0]
direction = 0
elif (
x0 + direction < board.shape[1]
and board[y0, x0 + direction] == EMPTY
):
x0 = x0 + direction
direction = 0
else:
y0_t, x0_t, r0_t = wrap(y0, x0, r0)
if board[y0_t, x0_t] == WALL:
x0 = row_last_non_void[y0]
direction = 0
else:
direction = (
direction - (row_last_non_void[y0] - x0) - 1
)
y0, x0, r0 = y0_t, x0_t, r0_t
elif r0 == "S":
yi = np.where(
board[y0 + 1 : y0 + direction + 1, x0] == WALL
)[0]
if len(yi):
y0 = y0 + yi[0]
direction = 0
elif (
y0 + direction < board.shape[0]
and board[y0 + direction, x0] == EMPTY
):
y0 = y0 + direction
direction = 0
else:
y0_t, x0_t, r0_t = wrap(y0, x0, r0)
if board[y0_t, x0_t] == WALL:
y0 = col_last_non_void[x0]
direction = 0
else:
direction = (
direction - (col_last_non_void[x0] - y0) - 1
)
y0, x0, r0 = y0_t, x0_t, r0_t
elif r0 == "W":
left = max(x0 - direction - 1, 0)
xi = np.where(board[y0, left:x0] == WALL)[0]
if len(xi):
x0 = left + xi[-1] + 1
direction = 0
elif (
x0 - direction >= 0
and board[y0, x0 - direction] == EMPTY
):
x0 = x0 - direction
direction = 0
else:
y0_t, x0_t, r0_t = wrap(y0, x0, r0)
if board[y0_t, x0_t] == WALL:
x0 = row_first_non_void[y0]
direction = 0
else:
direction = (
direction - (x0 - row_first_non_void[y0]) - 1
)
y0, x0, r0 = y0_t, x0_t, r0_t
elif r0 == "N":
top = max(y0 - direction - 1, 0)
yi = np.where(board[top:y0, x0] == WALL)[0]
if len(yi):
y0 = top + yi[-1] + 1
direction = 0
elif (
y0 - direction >= 0
and board[y0 - direction, x0] == EMPTY
):
y0 = y0 - direction
direction = 0
else:
y0_t, x0_t, r0_t = wrap(y0, x0, r0)
if board[y0_t, x0_t] == WALL:
y0 = col_first_non_void[x0]
direction = 0
else:
direction = (
direction - (y0 - col_first_non_void[x0]) - 1
)
y0, x0, r0 = y0_t, x0_t, r0_t
else:
r0 = {
"E": {"L": "N", "R": "S"},
"N": {"L": "W", "R": "E"},
"W": {"L": "S", "R": "N"},
"S": {"L": "E", "R": "W"},
}[r0][direction]
return y0, x0, r0
y1, x1, r1 = run(wrap_part_1)
yield 1000 * (1 + y1) + 4 * (1 + x1) + SCORES[r1]
y2, x2, r2 = run(wrap_part_2)
yield 1000 * (1 + y2) + 4 * (1 + x2) + SCORES[r2]
y2, x2, r2 = run(wrap_part_2)
answer_2 = 1000 * (1 + y2) + 4 * (1 + x2) + SCORES[r2]
print(f"answer 2 is {answer_2}")

59
src/holt59/aoc/2022/day23.py
View File

@@ -1,8 +1,6 @@
import itertools
import sys
from collections import defaultdict
from typing import Any, Iterator
from ..base import BaseSolver
Directions = list[
tuple[
@@ -20,7 +18,7 @@ DIRECTIONS: Directions = [
def min_max_yx(positions: set[tuple[int, int]]) -> tuple[int, int, int, int]:
ys, xs = {y for y, _x in positions}, {x for _y, x in positions}
ys, xs = {y for y, x in positions}, {x for y, x in positions}
return min(ys), min(xs), max(ys), max(xs)
@@ -71,38 +69,35 @@ def round(
directions.append(directions.pop(0))
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
POSITIONS = {
(i, j)
for i, row in enumerate(input.splitlines())
for j, col in enumerate(row)
if col == "#"
}
POSITIONS = {
(i, j)
for i, row in enumerate(sys.stdin.read().splitlines())
for j, col in enumerate(row)
if col == "#"
}
# === part 1 ===
# === part 1 ===
p1, d1 = POSITIONS.copy(), DIRECTIONS.copy()
for _ in range(10):
round(p1, d1)
p1, d1 = POSITIONS.copy(), DIRECTIONS.copy()
for r in range(10):
round(p1, d1)
min_y, min_x, max_y, max_x = min_max_yx(p1)
yield sum(
(y, x) not in p1
for y in range(min_y, max_y + 1)
for x in range(min_x, max_x + 1)
)
min_y, min_x, max_y, max_x = min_max_yx(p1)
answer_1 = sum(
(y, x) not in p1 for y in range(min_y, max_y + 1) for x in range(min_x, max_x + 1)
)
print(f"answer 1 is {answer_1}")
# === part 2 ===
# === part 2 ===
p2, d2 = POSITIONS.copy(), DIRECTIONS.copy()
answer_2 = 0
while True:
answer_2 += 1
backup = p2.copy()
round(p2, d2)
p2, d2 = POSITIONS.copy(), DIRECTIONS.copy()
answer_2 = 0
while True:
answer_2 += 1
backup = p2.copy()
round(p2, d2)
if backup == p2:
break
if backup == p2:
break
yield answer_2
print(f"answer 2 is {answer_2}")

175
src/holt59/aoc/2022/day24.py
View File

@@ -1,117 +1,98 @@
import heapq
import math
import sys
from collections import defaultdict
from typing import Any, Iterator
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
winds = {
(i - 1, j - 1, lines[i][j])
for i in range(1, len(lines) - 1)
for j in range(1, len(lines[i]) - 1)
if lines[i][j] != "."
}
n_rows, n_cols = len(lines) - 2, len(lines[0]) - 2
CYCLE = math.lcm(n_rows, n_cols)
east_winds = [{j for j in range(n_cols) if (i, j, ">") in winds} for i in range(n_rows)]
west_winds = [{j for j in range(n_cols) if (i, j, "<") in winds} for i in range(n_rows)]
north_winds = [
{i for i in range(n_rows) if (i, j, "^") in winds} for j in range(n_cols)
]
south_winds = [
{i for i in range(n_rows) if (i, j, "v") in winds} for j in range(n_cols)
]
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
lines = [line.strip() for line in input.splitlines()]
def run(start: tuple[int, int], start_cycle: int, end: tuple[int, int]):
def heuristic(y: int, x: int) -> int:
return abs(end[0] - y) + abs(end[1] - x)
winds = {
(i - 1, j - 1, lines[i][j])
for i in range(1, len(lines) - 1)
for j in range(1, len(lines[i]) - 1)
if lines[i][j] != "."
}
# (distance + heuristic, distance, (start_pos, cycle))
queue = [(heuristic(start[0], start[1]), 0, ((start[0], start[1]), start_cycle))]
visited: set[tuple[tuple[int, int], int]] = set()
distances: dict[tuple[int, int], dict[int, int]] = defaultdict(lambda: {})
n_rows, n_cols = len(lines) - 2, len(lines[0]) - 2
CYCLE = math.lcm(n_rows, n_cols)
while queue:
_, distance, ((y, x), cycle) = heapq.heappop(queue)
east_winds = [
{j for j in range(n_cols) if (i, j, ">") in winds} for i in range(n_rows)
]
west_winds = [
{j for j in range(n_cols) if (i, j, "<") in winds} for i in range(n_rows)
]
north_winds = [
{i for i in range(n_rows) if (i, j, "^") in winds} for j in range(n_cols)
]
south_winds = [
{i for i in range(n_rows) if (i, j, "v") in winds} for j in range(n_cols)
]
if ((y, x), cycle) in visited:
continue
def run(start: tuple[int, int], start_cycle: int, end: tuple[int, int]):
def heuristic(y: int, x: int) -> int:
return abs(end[0] - y) + abs(end[1] - x)
distances[y, x][cycle] = distance
# (distance + heuristic, distance, (start_pos, cycle))
queue = [
(heuristic(start[0], start[1]), 0, ((start[0], start[1]), start_cycle))
]
visited: set[tuple[tuple[int, int], int]] = set()
distances: dict[tuple[int, int], dict[int, int]] = defaultdict(lambda: {})
visited.add(((y, x), cycle))
while queue:
_, distance, ((y, x), cycle) = heapq.heappop(queue)
if (y, x) == (end[0], end[1]):
break
if ((y, x), cycle) in visited:
for dy, dx in (0, 0), (-1, 0), (1, 0), (0, -1), (0, 1):
ty = y + dy
tx = x + dx
n_cycle = (cycle + 1) % CYCLE
if (ty, tx) == end:
heapq.heappush(queue, (distance + 1, distance + 1, ((ty, tx), n_cycle)))
break
if ((ty, tx), n_cycle) in visited:
continue
if (ty, tx) != start and (ty < 0 or tx < 0 or ty >= n_rows or tx >= n_cols):
continue
if (ty, tx) != start:
if (ty - n_cycle) % n_rows in south_winds[tx]:
continue
if (ty + n_cycle) % n_rows in north_winds[tx]:
continue
if (tx + n_cycle) % n_cols in west_winds[ty]:
continue
if (tx - n_cycle) % n_cols in east_winds[ty]:
continue
distances[y, x][cycle] = distance
heapq.heappush(
queue,
((heuristic(ty, tx) + distance + 1, distance + 1, ((ty, tx), n_cycle))),
)
visited.add(((y, x), cycle))
return distances, next(iter(distances[end].values()))
if (y, x) == (end[0], end[1]):
break
for dy, dx in (0, 0), (-1, 0), (1, 0), (0, -1), (0, 1):
ty = y + dy
tx = x + dx
start = (
-1,
next(j for j in range(1, len(lines[0]) - 1) if lines[0][j] == ".") - 1,
)
end = (
n_rows,
next(j for j in range(1, len(lines[-1]) - 1) if lines[-1][j] == ".") - 1,
)
n_cycle = (cycle + 1) % CYCLE
distances_1, forward_1 = run(start, 0, end)
print(f"answer 1 is {forward_1}")
if (ty, tx) == end:
heapq.heappush(
queue, (distance + 1, distance + 1, ((ty, tx), n_cycle))
)
break
if ((ty, tx), n_cycle) in visited:
continue
if (ty, tx) != start and (
ty < 0 or tx < 0 or ty >= n_rows or tx >= n_cols
):
continue
if (ty, tx) != start:
if (ty - n_cycle) % n_rows in south_winds[tx]:
continue
if (ty + n_cycle) % n_rows in north_winds[tx]:
continue
if (tx + n_cycle) % n_cols in west_winds[ty]:
continue
if (tx - n_cycle) % n_cols in east_winds[ty]:
continue
heapq.heappush(
queue,
(
(
heuristic(ty, tx) + distance + 1,
distance + 1,
((ty, tx), n_cycle),
)
),
)
return distances, next(iter(distances[end].values()))
start = (
-1,
next(j for j in range(1, len(lines[0]) - 1) if lines[0][j] == ".") - 1,
)
end = (
n_rows,
next(j for j in range(1, len(lines[-1]) - 1) if lines[-1][j] == ".") - 1,
)
distances_1, forward_1 = run(start, 0, end)
yield forward_1
distances_2, return_1 = run(end, next(iter(distances_1[end].keys())), start)
_distances_3, forward_2 = run(start, next(iter(distances_2[start].keys())), end)
yield forward_1 + return_1 + forward_2
distances_2, return_1 = run(end, next(iter(distances_1[end].keys())), start)
distances_3, forward_2 = run(start, next(iter(distances_2[start].keys())), end)
print(f"answer 2 is {forward_1 + return_1 + forward_2}")

41
src/holt59/aoc/2022/day25.py
View File

@@ -1,28 +1,27 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
coeffs = {"2": 2, "1": 1, "0": 0, "-": -1, "=": -2}
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
lines = [line.strip() for line in input.splitlines()]
def snafu2number(number: str) -> int:
value = 0
for c in number:
value *= 5
value += coeffs[c]
return value
coeffs = {"2": 2, "1": 1, "0": 0, "-": -1, "=": -2}
def snafu2number(number: str) -> int:
value = 0
for c in number:
value *= 5
value += coeffs[c]
return value
def number2snafu(number: int) -> str:
values = ["0", "1", "2", "=", "-"]
res = ""
while number > 0:
mod = number % 5
res = res + values[mod]
number = number // 5 + int(mod >= 3)
return "".join(reversed(res))
def number2snafu(number: int) -> str:
values = ["0", "1", "2", "=", "-"]
res = ""
while number > 0:
mod = number % 5
res = res + values[mod]
number = number // 5 + int(mod >= 3)
return "".join(reversed(res))
yield number2snafu(sum(map(snafu2number, lines)))
answer_1 = number2snafu(sum(map(snafu2number, lines)))
print(f"answer 1 is {answer_1}")

39
src/holt59/aoc/2022/day3.py
View File

@@ -1,28 +1,23 @@
import string
from typing import Any, Iterator
import sys
from ..base import BaseSolver
lines = [line.strip() for line in sys.stdin.readlines()]
# extract content of each part
parts = [(set(line[: len(line) // 2]), set(line[len(line) // 2 :])) for line in lines]
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
lines = [line.strip() for line in input.splitlines()]
# priorities
priorities = {c: i + 1 for i, c in enumerate(string.ascii_letters)}
# extract content of each part
parts = [
(set(line[: len(line) // 2]), set(line[len(line) // 2 :])) for line in lines
]
# part 1
part1 = sum(priorities[c] for p1, p2 in parts for c in p1.intersection(p2))
print(f"answer 1 is {part1}")
# priorities
priorities = {c: i + 1 for i, c in enumerate(string.ascii_letters)}
# part 1
yield sum(priorities[c] for p1, p2 in parts for c in p1.intersection(p2))
# part 2
n_per_group = 3
yield sum(
priorities[c]
for i in range(0, len(lines), n_per_group)
for c in set(lines[i]).intersection(*lines[i + 1 : i + n_per_group])
)
# part 2
n_per_group = 3
part2 = sum(
priorities[c]
for i in range(0, len(lines), n_per_group)
for c in set(lines[i]).intersection(*lines[i + 1 : i + n_per_group])
)
print(f"answer 2 is {part2}")

17
src/holt59/aoc/2022/day4.py
View File

@@ -1,6 +1,6 @@
from typing import Any, Iterator
import sys
from ..base import BaseSolver
lines = [line.strip() for line in sys.stdin.readlines()]
def make_range(value: str) -> set[int]:
@@ -8,13 +8,10 @@ def make_range(value: str) -> set[int]:
return set(range(int(parts[0]), int(parts[1]) + 1))
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
lines = [line.strip() for line in input.splitlines()]
sections = [tuple(make_range(part) for part in line.split(",")) for line in lines]
sections = [
tuple(make_range(part) for part in line.split(",")) for line in lines
]
answer_1 = sum(s1.issubset(s2) or s2.issubset(s1) for s1, s2 in sections)
print(f"answer 1 is {answer_1}")
yield sum(s1.issubset(s2) or s2.issubset(s1) for s1, s2 in sections)
yield sum(bool(s1.intersection(s2)) for s1, s2 in sections)
answer_2 = sum(bool(s1.intersection(s2)) for s1, s2 in sections)
print(f"answer 1 is {answer_2}")

58
src/holt59/aoc/2022/day5.py
View File

@@ -1,43 +1,41 @@
import copy
from typing import Any, Iterator
import sys
from ..base import BaseSolver
blocks_s, moves_s = (part.splitlines() for part in sys.stdin.read().split("\n\n"))
blocks: dict[str, list[str]] = {stack: [] for stack in blocks_s[-1].split()}
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
blocks_s, moves_s = (part.splitlines() for part in input.split("\n\n"))
# this codes assumes that the lines are regular, i.e., 4 characters per "crate" in the
# form of '[X] ' (including the trailing space)
#
for block in blocks_s[-2::-1]:
for stack, index in zip(blocks, range(0, len(block), 4)):
crate = block[index + 1 : index + 2].strip()
blocks: dict[str, list[str]] = {stack: [] for stack in blocks_s[-1].split()}
if crate:
blocks[stack].append(crate)
# this codes assumes that the lines are regular, i.e., 4 characters per "crate" in the
# form of '[X] ' (including the trailing space)
#
for block in blocks_s[-2::-1]:
for stack, index in zip(blocks, range(0, len(block), 4)):
crate = block[index + 1 : index + 2].strip()
# part 1 - deep copy for part 2
blocks_1 = copy.deepcopy(blocks)
if crate:
blocks[stack].append(crate)
for move in moves_s:
_, count_s, _, from_, _, to_ = move.strip().split()
# part 1 - deep copy for part 2
blocks_1 = copy.deepcopy(blocks)
for _i in range(int(count_s)):
blocks_1[to_].append(blocks_1[from_].pop())
for move in moves_s:
_, count_s, _, from_, _, to_ = move.strip().split()
# part 2
blocks_2 = copy.deepcopy(blocks)
for _i in range(int(count_s)):
blocks_1[to_].append(blocks_1[from_].pop())
for move in moves_s:
_, count_s, _, from_, _, to_ = move.strip().split()
count = int(count_s)
# part 2
blocks_2 = copy.deepcopy(blocks)
blocks_2[to_].extend(blocks_2[from_][-count:])
del blocks_2[from_][-count:]
for move in moves_s:
_, count_s, _, from_, _, to_ = move.strip().split()
count = int(count_s)
answer_1 = "".join(s[-1] for s in blocks_1.values())
print(f"answer 1 is {answer_1}")
blocks_2[to_].extend(blocks_2[from_][-count:])
del blocks_2[from_][-count:]
yield "".join(s[-1] for s in blocks_1.values())
yield "".join(s[-1] for s in blocks_2.values())
answer_2 = "".join(s[-1] for s in blocks_2.values())
print(f"answer 2 is {answer_2}")

13
src/holt59/aoc/2022/day6.py
View File

@@ -1,6 +1,4 @@
from typing import Any, Iterator
from ..base import BaseSolver
import sys
def index_of_first_n_differents(data: str, n: int) -> int:
@@ -10,7 +8,8 @@ def index_of_first_n_differents(data: str, n: int) -> int:
return -1
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
yield index_of_first_n_differents(input, 4)
yield index_of_first_n_differents(input, 14)
data = sys.stdin.read().strip()
print(f"answer 1 is {index_of_first_n_differents(data, 4)}")
print(f"answer 2 is {index_of_first_n_differents(data, 14)}")

137
src/holt59/aoc/2022/day7.py
View File

@@ -1,81 +1,80 @@
import sys
from pathlib import Path
from typing import Any, Iterator
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
# we are going to use Path to create path and go up/down in the file tree since it
# implements everything we need
#
# we can use .resolve() to get normalized path, although this will add C:\ to all paths
# on Windows but that is not an issue since only the sizes matter
#
# mapping from path to list of files or directories
trees: dict[Path, list[Path]] = {}
# mapping from paths to either size (for file) or -1 for directory
sizes: dict[Path, int] = {}
# first line must be a cd otherwise we have no idea where we are
assert lines[0].startswith("$ cd")
base_path = Path(lines[0].strip("$").split()[1]).resolve()
cur_path = base_path
trees[cur_path] = []
sizes[cur_path] = -1
for line in lines[1:]:
# command
if line.startswith("$"):
parts = line.strip("$").strip().split()
command = parts[0]
if command == "cd":
cur_path = cur_path.joinpath(parts[1]).resolve()
# just initialize the lis of files if not already done
if cur_path not in trees:
trees[cur_path] = []
else:
# nothing to do here
pass
# fill the current path
else:
parts = line.split()
name: str = parts[1]
if line.startswith("dir"):
size = -1
else:
size = int(parts[0])
path = cur_path.joinpath(name)
trees[cur_path].append(path)
sizes[path] = size
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
lines = [line.strip() for line in input.splitlines()]
def compute_size(path: Path) -> int:
size = sizes[path]
# we are going to use Path to create path and go up/down in the file tree since it
# implements everything we need
#
# we can use .resolve() to get normalized path, although this will add C:\ to all paths
# on Windows but that is not an issue since only the sizes matter
#
if size >= 0:
return size
# mapping from path to list of files or directories
trees: dict[Path, list[Path]] = {}
return sum(compute_size(sub) for sub in trees[path])
# mapping from paths to either size (for file) or -1 for directory
sizes: dict[Path, int] = {}
# first line must be a cd otherwise we have no idea where we are
assert lines[0].startswith("$ cd")
base_path = Path(lines[0].strip("$").split()[1]).resolve()
cur_path = base_path
acc_sizes = {path: compute_size(path) for path in trees}
trees[cur_path] = []
sizes[cur_path] = -1
# part 1
answer_1 = sum(size for size in acc_sizes.values() if size <= 100_000)
print(f"answer 1 is {answer_1}")
for line in lines[1:]:
# command
if line.startswith("$"):
parts = line.strip("$").strip().split()
command = parts[0]
# part 2
total_space = 70_000_000
update_space = 30_000_000
free_space = total_space - acc_sizes[base_path]
if command == "cd":
cur_path = cur_path.joinpath(parts[1]).resolve()
to_free_space = update_space - free_space
# just initialize the lis of files if not already done
if cur_path not in trees:
trees[cur_path] = []
else:
# nothing to do here
pass
# fill the current path
else:
parts = line.split()
name: str = parts[1]
if line.startswith("dir"):
size = -1
else:
size = int(parts[0])
path = cur_path.joinpath(name)
trees[cur_path].append(path)
sizes[path] = size
def compute_size(path: Path) -> int:
size = sizes[path]
if size >= 0:
return size
return sum(compute_size(sub) for sub in trees[path])
acc_sizes = {path: compute_size(path) for path in trees}
# part 1
yield sum(size for size in acc_sizes.values() if size <= 100_000)
# part 2
total_space = 70_000_000
update_space = 30_000_000
free_space = total_space - acc_sizes[base_path]
to_free_space = update_space - free_space
yield min(size for size in acc_sizes.values() if size >= to_free_space)
answer_2 = min(size for size in acc_sizes.values() if size >= to_free_space)
print(f"answer 2 is {answer_2}")

81
src/holt59/aoc/2022/day8.py
View File

@@ -1,54 +1,53 @@
from typing import Any, Iterator
import sys
import numpy as np
from numpy.typing import NDArray
from ..base import BaseSolver
lines = sys.stdin.read().splitlines()
trees = np.array([[int(x) for x in row] for row in lines])
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
lines = [line.strip() for line in input.splitlines()]
trees = np.array([[int(x) for x in row] for row in lines])
# answer 1
highest_trees = np.ones(trees.shape + (4,), dtype=int) * -1
highest_trees[1:-1, 1:-1] = [
[
[
trees[:i, j].max(),
trees[i + 1 :, j].max(),
trees[i, :j].max(),
trees[i, j + 1 :].max(),
]
for j in range(1, trees.shape[1] - 1)
]
for i in range(1, trees.shape[0] - 1)
# answer 1
highest_trees = np.ones(trees.shape + (4,), dtype=int) * -1
highest_trees[1:-1, 1:-1] = [
[
[
trees[:i, j].max(),
trees[i + 1 :, j].max(),
trees[i, :j].max(),
trees[i, j + 1 :].max(),
]
for j in range(1, trees.shape[1] - 1)
]
for i in range(1, trees.shape[0] - 1)
]
yield (highest_trees.min(axis=2) < trees).sum()
answer_1 = (highest_trees.min(axis=2) < trees).sum()
print(f"answer 1 is {answer_1}")
def viewing_distance(row_of_trees: NDArray[np.int_], value: int) -> int:
w = np.where(row_of_trees >= value)[0]
if not w.size:
return len(row_of_trees)
def viewing_distance(row_of_trees: NDArray[np.int_], value: int) -> int:
w = np.where(row_of_trees >= value)[0]
return w[0] + 1
if not w.size:
return len(row_of_trees)
# answer 2
v_distances = np.zeros(trees.shape + (4,), dtype=int)
v_distances[1:-1, 1:-1, :] = [
[
[
viewing_distance(trees[i - 1 :: -1, j], trees[i, j]),
viewing_distance(trees[i, j - 1 :: -1], trees[i, j]),
viewing_distance(trees[i, j + 1 :], trees[i, j]),
viewing_distance(trees[i + 1 :, j], trees[i, j]),
]
for j in range(1, trees.shape[1] - 1)
]
for i in range(1, trees.shape[0] - 1)
return w[0] + 1
# answer 2
v_distances = np.zeros(trees.shape + (4,), dtype=int)
v_distances[1:-1, 1:-1, :] = [
[
[
viewing_distance(trees[i - 1 :: -1, j], trees[i, j]),
viewing_distance(trees[i, j - 1 :: -1], trees[i, j]),
viewing_distance(trees[i, j + 1 :], trees[i, j]),
viewing_distance(trees[i + 1 :, j], trees[i, j]),
]
yield np.prod(v_distances, axis=2).max()
for j in range(1, trees.shape[1] - 1)
]
for i in range(1, trees.shape[0] - 1)
]
answer_2 = np.prod(v_distances, axis=2).max()
print(f"answer 2 is {answer_2}")

26
src/holt59/aoc/2022/day9.py
View File

@@ -1,10 +1,7 @@
import itertools as it
from typing import Any, Iterator
import sys
import numpy as np
from ..base import BaseSolver
def move(head: tuple[int, int], command: str) -> tuple[int, int]:
h_col, h_row = head
@@ -46,14 +43,17 @@ def run(commands: list[str], n_blocks: int) -> list[tuple[int, int]]:
return visited
class Solver(BaseSolver):
def solve(self, input: str) -> Iterator[Any]:
lines = [line.strip() for line in input.splitlines()]
lines = sys.stdin.read().splitlines()
# flatten the commands
commands = list(
it.chain(*(p[0] * int(p[1]) for line in lines if (p := line.split())))
)
# flatten the commands
commands: list[str] = []
for line in lines:
d, c = line.split()
commands.extend(d * int(c))
yield len(set(run(commands, n_blocks=2)))
yield len(set(run(commands, n_blocks=10)))
visited_1 = run(commands, n_blocks=2)
print(f"answer 1 is {len(set(visited_1))}")
visited_2 = run(commands, n_blocks=10)
print(f"answer 2 is {len(set(visited_2))}")

2
src/holt59/aoc/2023/day25.py
View File

@@ -1,5 +1,3 @@
# pyright: reportUnknownMemberType=false
from typing import Any, Iterator
import networkx as nx

4
src/holt59/aoc/__main__.py
View File

@@ -179,7 +179,7 @@ def main():
start = datetime.now()
last = start
it = solver.solve(data.rstrip())
it = solver.solve(data.strip())
if it is None:
solver.logger.error(f"no implementation for {year} day {day}")
@@ -193,7 +193,7 @@ def main():
"answer",
{
"answer": i_answer + 1,
"value": str(answer),
"value": answer,
"answerTime_s": (current - last).total_seconds(),
"totalTime_s": (current - start).total_seconds(),
},

9
src/holt59/aoc/base.py
View File

@@ -7,10 +7,12 @@ _T = TypeVar("_T")
class ProgressHandler(Protocol):
@overload
def wrap(self, values: Sequence[_T]) -> Iterator[_T]: ...
def wrap(self, values: Sequence[_T]) -> Iterator[_T]:
...
@overload
def wrap(self, values: Iterable[_T], total: int) -> Iterator[_T]: ...
def wrap(self, values: Iterable[_T], total: int) -> Iterator[_T]:
...
class BaseSolver:
@@ -31,4 +33,5 @@ class BaseSolver:
self.outputs = outputs
@abstractmethod
def solve(self, input: str) -> Iterator[Any] | None: ...
def solve(self, input: str) -> Iterator[Any] | None:
...