5.1 KiB
id, title, challengeType, dashedName
| id | title | challengeType | dashedName |
|---|---|---|---|
| 697a49e9860d24853adef680 | Challenge 195: 2026 Winter Games Day 16: Curling | 29 | challenge-195 |
--description--
Given a 5x5 matrix representing the "house" at the end of a curling round, determine which team scores and how many points they score.
The layout:
- The center cell (index
[2, 2]) is the "button". - The 8 cells directly surrounding the button represent ring 1.
- And the 16 cells on the outer edge of the house represent ring 2.
In the given matrix:
"."represents an empty space."R"represents a space with a red stone."Y"represents a space with a yellow stone.
Scoring rules:
- Only one team can score per round.
- The team with the stone closest to the button scores.
- The scoring team earns 1 point for each of their stones that is closer to the button than the opponent's closest stone.
- The lower the ring number, the closer to the center the stone is.
- If both teams' closest stone is the same distance from the center, no team scores.
Return:
- A string in the format
"team: number_of_points". e.g:"R: 2". - or
"No points awarded"if neither team scored any points.
For example, given:
[
[".", ".", "R", ".", "."],
[".", "R", ".", ".", "."],
["Y", ".", ".", ".", "."],
[".", "R", ".", ".", "."],
[".", ".", ".", ".", "."]
]
Return "R: 2". The two red stones in ring 1 are tied for the closest and are the only two stones closer than yellows closest.
--hints--
score_curling([[".", ".", "R", ".", "."], [".", "R", ".", ".", "."], ["Y", ".", ".", ".", "."], [".", "R", ".", ".", "."], [".", ".", ".", ".", "."]]) should return "R:2".
({test: () => { runPython(`
from unittest import TestCase
TestCase().assertEqual(score_curling([[".", ".", "R", ".", "."], [".", "R", ".", ".", "."], ["Y", ".", ".", ".", "."], [".", "R", ".", ".", "."], [".", ".", ".", ".", "."]]), "R: 2")`)
}})
score_curling([[".", ".", "R", ".", "."], [".", ".", ".", ".", "."], [".", ".", "Y", ".", "R"], [".", ".", "Y", "Y", "."], [".", "Y", "R", "R", "."]]) should return "Y: 3".
({test: () => { runPython(`
from unittest import TestCase
TestCase().assertEqual(score_curling([[".", ".", "R", ".", "."], [".", ".", ".", ".", "."], [".", ".", "Y", ".", "R"], [".", ".", "Y", "Y", "."], [".", "Y", "R", "R", "."]]), "Y: 3")`)
}})
score_curling([[".", "R", "Y", ".", "."], ["Y", ".", ".", ".", "."], [".", ".", ".", ".", "."], [".", "Y", "R", "Y", "."], [".", ".", "R", "R", "."]]) should return "No points awarded".
({test: () => { runPython(`
from unittest import TestCase
TestCase().assertEqual(score_curling([[".", "R", "Y", ".", "."], ["Y", ".", ".", ".", "."], [".", ".", ".", ".", "."], [".", "Y", "R", "Y", "."], [".", ".", "R", "R", "."]]), "No points awarded")`)
}})
score_curling([[".", "Y", "Y", ".", "."], ["Y", ".", ".", "R", "."], [".", ".", "R", ".", "."], [".", ".", "R", "R", "."], [".", "Y", "R", "Y", "."]]) should return "R: 4".
({test: () => { runPython(`
from unittest import TestCase
TestCase().assertEqual(score_curling([[".", "Y", "Y", ".", "."], ["Y", ".", ".", "R", "."], [".", ".", "R", ".", "."], [".", ".", "R", "R", "."], [".", "Y", "R", "Y", "."]]), "R: 4")`)
}})
score_curling([["Y", "Y", "Y", "Y", "Y"], ["Y", "R", "R", "R", "Y"], ["Y", "R", "Y", "R", "Y"], ["Y", "R", "R", "R", "Y"], ["Y", "Y", "Y", "Y", "Y"]]) should return "Y: 1".
({test: () => { runPython(`
from unittest import TestCase
TestCase().assertEqual(score_curling([["Y", "Y", "Y", "Y", "Y"], ["Y", "R", "R", "R", "Y"], ["Y", "R", "Y", "R", "Y"], ["Y", "R", "R", "R", "Y"], ["Y", "Y", "Y", "Y", "Y"]]), "Y: 1")`)
}})
score_curling([["Y", "R", "Y", "R", "Y"], ["R", ".", ".", ".", "R"], ["Y", ".", ".", ".", "Y"], ["R", ".", ".", ".", "R"], ["Y", ".", ".", "R", "Y"]]) should return "No points awarded".
({test: () => { runPython(`
from unittest import TestCase
TestCase().assertEqual(score_curling([["Y", "R", "Y", "R", "Y"], ["R", ".", ".", ".", "R"], ["Y", ".", ".", ".", "Y"], ["R", ".", ".", ".", "R"], ["Y", ".", ".", "R", "Y"]]), "No points awarded")`)
}})
--seed--
--seed-contents--
def score_curling(house):
return house
--solutions--
def score_curling(house):
stones = {'R': [], 'Y': []}
for i in range(5):
for j in range(5):
cell = house[i][j]
if cell == 'R' or cell == 'Y':
distance = max(abs(i - 2), abs(j - 2))
stones[cell].append(distance)
red_closest = min(stones['R']) if stones['R'] else float('inf')
yellow_closest = min(stones['Y']) if stones['Y'] else float('inf')
if red_closest == float('inf') and yellow_closest == float('inf'):
return "No points awarded"
if red_closest == yellow_closest:
return "No points awarded"
if red_closest < yellow_closest:
winner = 'R'
opponent_closest = yellow_closest
winning_stones = stones['R']
else:
winner = 'Y'
opponent_closest = red_closest
winning_stones = stones['Y']
points = sum(1 for d in winning_stones if d < opponent_closest)
return "No points awarded" if points == 0 else f"{winner}: {points}"