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fishlium

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11def solve(puzzle: str) -> dict[str, int] | None:
2 pass
2 """
3 Solve an alphametics puzzle.
4
5 Args:
6 puzzle: A string representing the alphametics puzzle (e.g., "SEND + MORE == MONEY")
7
8 Returns:
9 A dictionary mapping letters to digits that solves the puzzle, or None if no solution exists.
10
11 Example:
12 >>> solve("SEND + MORE == MONEY")
13 {'S': 9, 'E': 5, 'N': 6, 'D': 7, 'M': 1, 'O': 0, 'R': 8, 'Y': 2}
14 """
15 # Edge Case: Empty or None puzzle
16 if not puzzle:
17 return None
18
19 # Parse the puzzle
20 parts = puzzle.replace("==", "=").replace(" ", "").split("=")
21
22 # Edge Case: Invalid puzzle format (no equals sign or too many parts)
23 if len(parts) != 2:
24 return None
25
26 left_side, right_side = parts[0], parts[1]
27
28 # Split the left side by '+' to get addends
29 addends = left_side.split("+")
30
31 # Edge Case: No addends on the left side
32 if not addends or not all(addends):
33 return None
34
35 # Edge Case: Empty right side
36 if not right_side:
37 return None
38
39 # Extract all unique letters
40 letters = set()
41 for part in addends + [right_side]:
42 letters.update(part)
43
44 # Edge Case: No letters in puzzle
45 if not letters:
46 return None
47
48 # Extract first letters (can't be zero)
49 first_letters = {word[0] for word in addends + [right_side]}
50
51 # Edge Case: More than 10 unique letters (impossible to assign unique digits)
52 if len(letters) > 10:
53 return None
54
55 # Convert to lists for indexing
56 letters_list = list(letters)
57
58 def is_valid_solution(mapping):
59 """Check if the current mapping is a valid solution."""
60 # Check if any first letter is mapped to 0
61 for letter in first_letters:
62 if mapping[letter] == 0:
63 return False
64
65 # Convert words to numbers
66 try:
67 addend_values = []
68 for addend in addends:
69 value = 0
70 for char in addend:
71 value = value * 10 + mapping[char]
72 addend_values.append(value)
73
74 right_value = 0
75 for char in right_side:
76 right_value = right_value * 10 + mapping[char]
77
78 # Check if the sum is correct
79 return sum(addend_values) == right_value
80 except KeyError:
81 # If a letter isn't mapped yet
82 return False
83
84 def backtrack(index, mapping, used_digits):
85 """Backtracking function to find a valid mapping."""
86 # Base case: all letters have been assigned
87 if index == len(letters_list):
88 if is_valid_solution(mapping):
89 return mapping.copy()
90 return None
91
92 letter = letters_list[index]
93
94 # Try each digit from 0 to 9
95 for digit in range(10):
96 # Skip if digit is already used
97 if digit in used_digits:
98 continue
99
100 # Assign the digit to the letter
101 mapping[letter] = digit
102 used_digits.add(digit)
103
104 # Recurse
105 result = backtrack(index + 1, mapping, used_digits)
106 if result is not None:
107 return result
108
109 # Backtrack
110 del mapping[letter]
111 used_digits.remove(digit)
112
113 return None
114
115 # Start backtracking
116 solution = backtrack(0, {}, set())
117 return solution
118 # Handled Edge Cases: Empty or None puzzle, Invalid puzzle format, No addends on left side,
119 # Empty right side, No letters in puzzle, More than 10 unique letters"
Test NameStatus
test_leading_zero_solution_is_invalid
Pass
test_puzzle_with_eight_letters
Pass
test_puzzle_with_four_letters
Pass
test_puzzle_with_seven_letters
Pass
test_puzzle_with_six_letters
Pass
test_puzzle_with_ten_letters
Pass
test_puzzle_with_ten_letters_and_199_addends
Pass
test_puzzle_with_three_letters
Pass
test_puzzle_with_two_digits_final_carry
Pass
test_solution_must_have_unique_value_for_each_letter
Pass
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