this post was submitted on 07 Dec 2025
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Advent Of Code

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An unofficial home for the advent of code community on programming.dev! Other challenges are also welcome!

Advent of Code is an annual Advent calendar of small programming puzzles for a variety of skill sets and skill levels that can be solved in any programming language you like.

Everybody Codes is another collection of programming puzzles with seasonal events.

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๐Ÿ‘ช - 2025 DAY 7 SOLUTIONS - ๐Ÿ‘ช (programming.dev)
submitted 2 weeks ago by CameronDev@programming.dev to c/advent_of_code@programming.dev
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Day 7: Laboratories

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[โ€“] Avicenna@programming.dev 2 points 2 weeks ago

I went for recursion (and a simple graph node class) but my favourite solution is transfer matrices one that I have seen some people do


from pathlib import Path
import numpy as np
import itertools as it

cwd = Path(__file__).parent


def parse_input(file_path):
  with file_path.open("r") as fp:
    data = list(map(str.strip, fp.readlines()))

  return np.array([list(row) for row in data], dtype=object)


class Node:

  def __init__(self, symbol, row, col):
    self.symbol = symbol
    self.loc = tuple([row, col])
    self.parents = []
    self.npaths_to_start = -1

  @property
  def is_connected(self):
    return self.symbol=='S' or len(self.parents)>0

  def connect(self, node_dict, s0, s1):

    if self.loc[0]==0:
      return

    top = node_dict[self.loc[0]-1, self.loc[1]]

    if top.symbol in ['.','S'] and top.is_connected:
      self.parents.append(top)

    if self.symbol=='^' and top.is_connected:
      left =  node_dict[self.loc[0], self.loc[1]-1]
      right =  node_dict[self.loc[0], self.loc[1]+1]

      left.parents.append(self)
      right.parents.append(self)


def count_paths_to_start(node0, node1):
  '''
  node0 should always be the start node else
  result is meaningless
  '''

  if node0 in node1.parents:
    return 1
  else:
    npaths = 0
    for p in node1.parents:
      if p.npaths_to_start != -1:
        npaths += p.npaths_to_start
      else:
        p.npaths_to_start = count_paths_to_start(node0, p)
        npaths += p.npaths_to_start

    return npaths


def solve_problem(file_name, quantum=False):

  grid = parse_input(Path(cwd, file_name))
  s0,s1 = grid.shape

  node_dict = {(i,j):Node(grid[i,j], i, j) for i,j in
               it.product(range(s0), range(s1))}
  [node.connect(node_dict, s0, s1) for node in node_dict.values()]

  if not quantum:
    return len([x for x in node_dict.values() if x.symbol == '^' and
                x.is_connected>0])
  else:
    start_ind = [(0, j) for j in range(s1) if node_dict[0,j].symbol=='S'][0]

    return\
      sum([count_paths_to_start(node_dict[start_ind], node_dict[s0-1, j]) for
           j in range(s1) if node_dict[s0-1,j].is_connected])



if __name__ == "__main__":

  assert solve_problem("test_input") == 21
  assert solve_problem("input") == 1633
  assert solve_problem("test_input", True) == 40
  assert solve_problem("input", True) == 34339203133559