2023 #1

Merged
tyrel merged 5 commits from 2023 into main 2023-12-03 04:14:17 +00:00
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#!/usr/bin/env -S just --justfile
DAY := `date +%d`
new:
cp python/_sample.py python/day{{ DAY }}.py
touch full/day{{ DAY }}.txt
touch samples/day{{ DAY }}.txt

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import matrix
import shared
import itertools
import functools
# @shared.profile
def part1(rows):
pass
# @shared.profile
def part2(rows):
pass
def main():
rows = [row for row in shared.load_rows(15)]
with shared.elapsed_timer() as elapsed:
part1(rows)
print("🕒", elapsed())
with shared.elapsed_timer() as elapsed:
part2(rows)
print("🕒", elapsed())
if __name__ == "__main__":
main()

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from matrix import get_size, pmx
import imageio
import matplotlib.pyplot as plt
import numpy as np
class Animate:
def __init__(self, mx, day="CHANGEME"):
self.mx = mx
self.day = day
_size = get_size(mx)
self.height = _size[0]
self.width = _size[1]
self.f_count = -1
def add_frame(self, frame):
self.f_count += 1
self.write_frame(frame)
def write_frame(self, frame):
current = np.zeros_like(self.mx)
for y, row in enumerate(frame):
for x, col in enumerate(row):
current[y][x] = frame[y][x]
fig, ax = plt.subplots()
ax.imshow(current, cmap=plt.cm.gray)
ax.axis("off")
_figpath = f"gif-{self.day}/{self.f_count:05}.png"
plt.savefig(_figpath)
plt.close()
def animate(self, frameskip=1):
with imageio.get_writer(
f"gif-{self.day}/day{self.day}.gif", mode="I"
) as writer:
names = [
f"gif-{self.day}/{x:05}.png" for x in range(0, self.f_count, frameskip)
]
print(names)
for filename in names:
try:
image = imageio.imread(filename)
writer.append_data(image)
except FileNotFoundError:
pass

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import matrix
import shared
import itertools
import functools
NUMS = {
"one": 1,
"two": 2,
"six": 6,
"four": 4,
"five": 5,
"nine": 9,
"seven": 7,
"eight": 8,
"three": 3,
}
# @shared.profile
def part1(rows):
total = 0
for row in rows:
numbers = ''.join(filter(str.isdigit, row))
total += get_total(numbers)
print(total)
def get_total(numbers):
tens, ones= int(numbers[0]),int(numbers[-1])
return (tens * 10) + ones
def loop_row(row):
digits = []
for idx, _ in enumerate(row):
if str.isdigit(row[idx]):
digits.append(row[idx])
continue
for x in [3,4,5]:
next = row[idx:idx+x]
if next in NUMS.keys():
digits.append(str(NUMS[next]))
break
return "".join(digits)
# @shared.profile
def part2(rows):
total = 0
for row in rows:
nums = loop_row(row)
total += get_total(nums)
print(total)
def main():
rows = [row for row in shared.load_rows(1)]
with shared.elapsed_timer() as elapsed:
#part1(rows)
print("🕒", elapsed())
with shared.elapsed_timer() as elapsed:
part2(rows)
print("🕒", elapsed())
if __name__ == "__main__":
main()

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from copy import deepcopy
from collections import defaultdict
import math
from typing import List, Dict, Tuple
split_word_to_chr_list = lambda y: [w for w in y]
split_word_to_int_list = lambda y: [int(w) for w in y]
split_line_to_int_list = lambda y: [int(w) for w in y.split(" ") if w]
def split_x_out(l):
return [x for _, x in l]
def split_y_out(l):
return [y for y, _ in l]
class colors:
# HEADER = '\033[95m'
BLUE = "\033[94m"
GREEN = "\033[92m"
YELLOW = "\033[93m"
RED = "\033[91m"
ENDC = "\033[0m"
BLINK = "\033[5m"
def apply_to_all(mx, func):
for row_num, row in enumerate(mx):
for col_num, val in enumerate(row):
mx[row_num][col_num] = func(val)
def rotate(m, right=True): # -90
"""
Takes a matrix, and rotates all of the values 90 degrees to the left
"""
x = list(zip(*m[::-1]))
if right:
return x
return [list(reversed(y)) for y in x]
def load_matrix_file(name, func=None):
"""
Open a file and split all space separated word lists to integers as a matrix
"""
with open(name, "r") as f:
my_file = []
for line in f:
my_file.append(line.rstrip())
if func:
return [func(x) for x in my_file]
return [split_word_to_int_list(x) for x in my_file]
def find_in_matrix(mx, what, one=True):
coords = []
for row_num, row in enumerate(mx):
for col_num, val in enumerate(row):
if val == what:
coord = (row_num, col_num)
if one is True:
return coord
else:
coords.append(coord)
return coords
def get_neighbors(matrix, x, y, _dict=False):
neighbors = []
# left
try:
if x - 1 >= 0:
if _dict:
neighbors.append({"x": x - 1, "y": y, "value": matrix[y][x - 1]})
else:
neighbors.append([(x - 1, y), matrix[y][x - 1]])
except IndexError:
pass
# right
try:
if _dict:
neighbors.append({"x": x + 1, "y": y, "value": matrix[y][x + 1]})
else:
neighbors.append([(x + 1, y), matrix[y][x + 1]])
except IndexError:
pass
# up
try:
if y - 1 >= 0:
if _dict:
neighbors.append({"x": x, "y": y - 1, "value": matrix[y - 1][x]})
else:
neighbors.append([(x, y - 1), matrix[y - 1][x]])
except IndexError:
pass
# down
try:
if _dict:
neighbors.append({"x": x, "y": y + 1, "value": matrix[y + 1][x]})
else:
neighbors.append([(x, y + 1), matrix[y + 1][x]])
except IndexError:
pass
return neighbors
def valid_neighbors(matrix, x, y, criteria=None):
if criteria is None:
raise Exception("Please pass in a lambda for criteria")
cur = matrix[y][x]
neighbors = get_neighbors(matrix, x, y, _dict=True)
valid = []
for neighbor in neighbors:
if criteria(cur, neighbor["value"]):
valid.append(neighbor)
return valid
def sum_matrix(mtx):
total = 0
for row in mtx:
total += sum(row)
return total
M_UL, M_U, M_UR = (-1, -1), (0, -1), (1, -1)
M_L, M_R = (-1, 0), (1, 0)
M_DL, M_D, M_DR = (-1, 1), (0, 1), (1, 1)
def get_neighbor_coords(matrix, c, r, diagonals=True):
height = len(matrix)
width = len(matrix[0])
if diagonals:
coords = (M_UL, M_U, M_UR, M_L, M_R, M_DL, M_D, M_DR)
else:
coords = (M_U, M_L, M_R, M_D)
neighbors = []
for _c, _r in coords:
try:
value = matrix[r + _r][c + _c] # Try to get a value error
if r + _r >= 0 and c + _c >= 0:
neighbors.append(
[{"c": c + _c, "r": r + _r}, value]
) # woo, no error, this coord is valid
except IndexError:
pass # okay we out of bounds boizzzz
return neighbors
def line_of_sight_coords(
matrix, row, col, distance=None
) -> Dict[str, List[Tuple[int, int]]]:
"""
Takes a matrix, a row, and a column
calculates the coordinates to the edge for all four cardinal directions
returns a dict with a list of tuple coordes TRAVELING AWAY from the
requested coordinate
"""
height, width = get_size(matrix)
col_ids = list(range(0, height))
row_ids = list(range(0, width))
if distance:
up_ids, down_ids = (
list(reversed(col_ids[:col])),
col_ids[col + 1 : col + distance + 1],
)
left_ids, right_ids = (
list(reversed(row_ids[:row])),
row_ids[row + 1 : row + distance + 1],
)
else:
up_ids, down_ids = list(reversed(col_ids[:col])), col_ids[col + 1 :]
left_ids, right_ids = list(reversed(row_ids[:row])), row_ids[row + 1 :]
left = [(r, col) for r in left_ids]
right = [(r, col) for r in right_ids]
up = [(row, c) for c in up_ids]
down = [(row, c) for c in down_ids]
return {
"U": up,
"L": left,
"D": down,
"R": right,
}
def line_of_sight(mx, row, col, distance=None):
"""
renders a line of sight coord calculation, into the values
"""
coords = line_of_sight_coords(mx, row, col, distance)
los = defaultdict(list)
for k, ids in coords.items():
for _row, _col in ids:
los[k].append(mx[_row][_col])
return los
def coords_between_points(point1, point2):
y1, x1 = point1
y2, x2 = point2
coords = []
x = 0
y = 0
if x2 < x1:
y = point1[0]
for _x in range(x2, x1 + 1):
coords.append((y, _x))
elif x1 < x2:
y = point1[0]
for _x in range(x1, x2 + 1):
coords.append((y, _x))
elif y2 < y1:
x = point1[1]
for _y in range(y2, y1 + 1):
coords.append((_y, x))
elif y1 < y2:
x = point1[1]
for _y in range(y1, y2 + 1):
coords.append((_y, x))
return coords
def get_size(matrix):
height = len(matrix)
width = len(matrix[0])
return height, width
def row_col_from_int(matrix, x):
h, w = get_size(matrix)
col = x % w
row = x // h
return row, col
def matrix_of_size(width, height, default=0):
return [[default] * width for x in range(height)]
def set_matrix_dict(m):
for x in range(len(m)):
for y in range(len(m[x])):
m[x][y] = {}
return m
def pmx(*matrices, pad=True, space=True):
"""
print a matrix of integers, zero turns to `.` for clarity
"""
if len(matrices) > 1:
matrices = list(zip(*matrices))
for row in matrices:
r = []
for col in row:
r.append("".join([f"{int(x)or '.'}".rjust(3) for x in col]))
print(" ".join(r))
else:
for row in matrices:
for c in row:
if pad:
f = lambda x: f"{int(x)or '.'}".rjust(2)
if space:
f = lambda x: f"{int(x)or '.'}".rjust(3)
else:
f = lambda x: f"{int(x)or '.'}"
if space:
f = lambda x: f"{int(x)or '.'} "
print("".join([f(x) for x in c]))
def ppmx(*matrices, pad=True, space=True, zero="."):
"""
print a matrix of anything, Falsy values turns to `.` for clarity
"""
out = []
if len(matrices) > 1:
matrices = list(zip(*matrices))
for row in matrices:
r = []
for col in row:
r.append("".join([f"{x or zero}".rjust(3) for x in col]))
out.append(" ".join(r))
else:
for row in matrices:
for c in row:
if pad:
f = lambda x: f"{x or zero}".rjust(2)
if space:
f = lambda x: f"{x or zero}".rjust(3)
else:
f = lambda x: f"{x or zero}"
if space:
f = lambda x: f"{x or zero} "
out.append("".join([f(x) for x in c]))
return "\n".join(out)
def view_matrix(matrix, y1, x1, y2, x2):
lines = ppmx(matrix, pad=0, space=0).split("\n")
for line in lines[y1 : y2 + 1]:
print(line[x1:x2])
def highlight(matrix, red=[], green=[], blue=[], blink_green=[]):
"""
print a matrix of anything, Falsy values turns to `.` for clarity
"""
mx = deepcopy(matrix)
for (y, x) in red:
if (y, x) in blue or (y, x) in green or (y, x) in blink_green:
continue
new = f"{colors.RED}{mx[y][x]}{colors.ENDC}"
mx[y][x] = new
for (y, x) in green:
if (y, x) in blue or (y, x) in blink_green:
continue
new = f"{colors.GREEN}{mx[y][x]}{colors.ENDC}"
mx[y][x] = new
for (y, x) in blue:
if (y, x) in blink_green:
continue
new = f"{colors.BLUE}{mx[y][x]}{colors.ENDC}"
mx[y][x] = new
for (y, x) in blink_green:
new = f"{colors.BLINK}{colors.GREEN}{mx[y][x]}{colors.ENDC}"
mx[y][x] = new
print(ppmx(mx, pad=False, space=True, zero="0"))
def draw_shape_at(mx, row, col, shape=None, value=1):
if shape is None:
raise Exception("Please provide a list of coordinate offsets from Y,X to draw")
for y,x in shape:
mx[row+y][col+x] = value
def collision_at(mx, row, col, shape=None):
if shape is None:
raise Exception("Please provide a list of coordinate offsets from Y,X to draw")
for y,x in shape:
if mx[row+y][col+x] != 0:
return True
return False
def out_of_bounds(mx, row, col, shape=None):
if shape is None:
raise Exception("Please provide a list of coordinate offsets from Y,X to draw")
height, width = get_size(mx)
for y,x in shape:
if row+y > height-1:
return True
if col+x >= width:
return True
if col+x < 0:
return True
return False
def spiral_generator(width, height):
k = 0
l = 0
m = height
n = width
''' k - starting row index
m - ending row index
l - starting column index
n - ending column index
i - iterator '''
while (k < m and l < n):
# Print the first row from
# the remaining rows
for i in range(l, n):
yield (i,k)
#print(a[k][i], end=" ")
k += 1
# Print the last column from
# the remaining columns
for i in range(k, m):
yield (n-1,i)
#print(a[i][n - 1], end=" ")
n -= 1
# Print the last row from
# the remaining rows
if (k < m):
for i in range(n - 1, (l - 1), -1):
#print(a[m - 1][i], end=" ")
yield (i, m-1)
m -= 1
# Print the first column from
# the remaining columns
if (l < n):
for i in range(m - 1, k - 1, -1):
#print(a[i][l], end=" ")
yield (l,i)
l += 1

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from contextlib import contextmanager
from timeit import default_timer
from pathlib import Path
import cProfile
import functools
import pstats
def profile(func):
@functools.wraps(func)
def inner(*args, **kwargs):
profiler = cProfile.Profile()
profiler.enable()
try:
retval = func(*args, **kwargs)
finally:
profiler.disable()
with open("profile.out", "w") as profile_file:
stats = pstats.Stats(profiler, stream=profile_file)
stats.print_stats()
return retval
return inner
spl = lambda y: [int(w) for w in y]
def minmax(l):
return min(l), max(l)
def load_rows(day):
return [row for row in load(day)]
def load(day):
path = Path(get_fname(day))
return path.read_text().rstrip().split("\n")
def get_fname(day: int) -> str:
import sys
if sys.argv[-1] == "--sample":
return f"../samples/day{day:02}.txt"
else:
return f"../full/day{day:02}.txt"
#############
def load_char_matrix(f):
my_file = []
for line in f:
my_file.append(line.rstrip())
return [list(x) for x in my_file]
def load_file_char_matrix(name):
with open(name, "r") as f:
return load_char_matrix(f)
def load_int_matrix(f):
my_file = []
for line in f:
my_file.append(line.rstrip())
return [list(map(int, x)) for x in my_file]
def load_file_int_matrix(name):
with open(name, "r") as f:
return load_int_matrix(f)
def load_word_matrix(f):
my_file = []
for line in f:
my_file.append(line.rstrip())
return [x.split(" ") for x in my_file]
def load_file_word_matrix(name):
with open(name, "r") as f:
return load_word_matrix(f)
#############
def rotate(WHAT, times=1):
what = WHAT
for x in range(times):
what = list(zip(*what[::-1]))
return what
@contextmanager
def elapsed_timer():
start = default_timer()
elapser = lambda: default_timer() - start
yield lambda: elapser()
end = default_timer()
elapser = lambda: end - start
def render_cubes(maxX,maxY,maxZ, my_cubes):
from mpl_toolkits.mplot3d import Axes3D
import numpy as np
import matplotlib.pyplot as plt
from mpl_toolkits.mplot3d.art3d import Poly3DCollection
def cuboid_data(o, size=(1,1,1)):
X = [[[0, 1, 0], [0, 0, 0], [1, 0, 0], [1, 1, 0]],
[[0, 0, 0], [0, 0, 1], [1, 0, 1], [1, 0, 0]],
[[1, 0, 1], [1, 0, 0], [1, 1, 0], [1, 1, 1]],
[[0, 0, 1], [0, 0, 0], [0, 1, 0], [0, 1, 1]],
[[0, 1, 0], [0, 1, 1], [1, 1, 1], [1, 1, 0]],
[[0, 1, 1], [0, 0, 1], [1, 0, 1], [1, 1, 1]]]
X = np.array(X).astype(float)
for i in range(3):
X[:,:,i] *= size[i]
X += np.array(o)
return X
def plotCubeAt(positions,sizes=None,colors=None, **kwargs):
if not isinstance(colors,(list,np.ndarray)): colors=["C0"]*len(positions)
if not isinstance(sizes,(list,np.ndarray)): sizes=[(1,1,1)]*len(positions)
g = []
for p,s,c in zip(positions,sizes,colors):
g.append( cuboid_data(p, size=s) )
return Poly3DCollection(np.concatenate(g),
facecolors=np.repeat(colors,6, axis=0), **kwargs)
N1 = maxX
N2 = maxY
N3 = maxZ
ma = np.random.choice([0,1], size=(N1,N2,N3), p=[0.99, 0.01])
x,y,z = np.indices((N1,N2,N3))-.5
#positions = np.c_[x[ma==1],y[ma==1],z[ma==1]]
positions = np.c_[my_cubes]
colors= np.random.rand(len(positions),3)
fig = plt.figure()
ax = fig.add_subplot(projection='3d')
ax.set_aspect('equal')
pc = plotCubeAt(positions, colors=colors,edgecolor="k")
ax.add_collection3d(pc)
ax.set_xlim([0,maxX])
ax.set_ylim([0,maxY])
ax.set_zlim([0,maxZ])
#plotMatrix(ax, ma)
#ax.voxels(ma, edgecolor="k")
plt.show()

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1abc2
pqr3stu8vwx
a1b2c3d4e5f
treb7uchet

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two1nine
eightwothree
abcone2threexyz
xtwone3four
4nineeightseven2
zoneight234
7pqrstsixteen

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