-
Notifications
You must be signed in to change notification settings - Fork 2.4k
/
sudoku.py
161 lines (135 loc) · 6.1 KB
/
sudoku.py
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
## Solve Every Sudoku Puzzle
## See http://norvig.com/sudoku.html
## Throughout this program we have:
## r is a row, e.g. 'A'
## c is a column, e.g. '3'
## s is a square, e.g. 'A3'
## d is a digit, e.g. '9'
## u is a unit, e.g. ['A1','B1','C1','D1','E1','F1','G1','H1','I1']
## grid is a grid,e.g. 81 non-blank chars, e.g. starting with '.18...7...
## values is a dict of possible values, e.g. {'A1':'12349', 'A2':'8', ...}
def cross(A, B):
"Cross product of elements in A and elements in B."
return [a+b for a in A for b in B]
digits = '123456789'
rows = 'ABCDEFGHI'
cols = digits
squares = cross(rows, cols)
unitlist = ([cross(rows, c) for c in cols] +
[cross(r, cols) for r in rows] +
[cross(rs, cs) for rs in ('ABC','DEF','GHI') for cs in ('123','456','789')])
units = dict((s, [u for u in unitlist if s in u])
for s in squares)
peers = dict((s, set(sum(units[s],[]))-set([s]))
for s in squares)
################ Parse a Grid ################
def parse_grid(grid):
"""Convert grid to a dict of possible values, {square: digits}, or
return False if a contradiction is detected."""
## To start, every square can be any digit; then assign values from the grid.
values = dict((s, digits) for s in squares)
for s,d in grid_values(grid).items():
if d in digits and not assign(values, s, d):
return False ## (Fail if we can't assign d to square s.)
return values
def grid_values(grid):
"Convert grid into a dict of {square: char} with '0' or '.' for empties."
chars = [c for c in grid if c in digits or c in '0.']
if len(chars) != 81: print(grid, chars, len(chars))
assert len(chars) == 81
return dict(zip(squares, chars))
################ Constraint Propagation ################
def assign(values, s, d):
"""Eliminate all the other values (except d) from values[s] and propagate.
Return values, except return False if a contradiction is detected."""
other_values = values[s].replace(d, '')
if all(eliminate(values, s, d2) for d2 in other_values):
return values
else:
return False
def eliminate(values, s, d):
"""Eliminate d from values[s]; propagate when values or places <= 2.
Return values, except return False if a contradiction is detected."""
if d not in values[s]:
return values ## Already eliminated
values[s] = values[s].replace(d,'')
## (1) If a square s is reduced to one value d2, then eliminate d2 from the peers.
if len(values[s]) == 0:
return False ## Contradiction: removed last value
elif len(values[s]) == 1:
d2 = values[s]
if not all(eliminate(values, s2, d2) for s2 in peers[s]):
return False
## (2) If a unit u is reduced to only one place for a value d, then put it there.
for u in units[s]:
dplaces = [s for s in u if d in values[s]]
if len(dplaces) == 0:
return False ## Contradiction: no place for this value
elif len(dplaces) == 1:
# d can only be in one place in unit; assign it there
if not assign(values, dplaces[0], d):
return False
return values
################ Display as 2-D grid ################
def display(values):
"Display these values as a 2-D grid."
width = 1+max(len(values[s]) for s in squares)
line = '+'.join(['-'*(width*3)]*3)
for r in rows:
print(''.join(values[r+c].center(width) + ('|' if c in '36' else '')
for c in cols))
if r in 'CF': print(line)
print()
################ Search ################
def solve(grid): return search(parse_grid(grid))
def search(values):
"Using depth-first search and propagation, try all possible values."
if values is False:
return False ## Failed earlier
if all(len(values[s]) == 1 for s in squares):
return values ## Solved!
## Chose the unfilled square s with the fewest possibilities
n,s = min((len(values[s]), s) for s in squares if len(values[s]) > 1)
for d in values[s]:
result = search(assign(values.copy(), s, d))
if result: return result
################ Unit Tests ################
def test():
"A set of tests that must pass."
assert len(squares) == 81
assert len(unitlist) == 27
assert all(len(units[s]) == 3 for s in squares)
assert all(len(peers[s]) == 20 for s in squares)
assert units['C2'] == [['A2', 'B2', 'C2', 'D2', 'E2', 'F2', 'G2', 'H2', 'I2'],
['C1', 'C2', 'C3', 'C4', 'C5', 'C6', 'C7', 'C8', 'C9'],
['A1', 'A2', 'A3', 'B1', 'B2', 'B3', 'C1', 'C2', 'C3']]
assert peers['C2'] == set(['A2', 'B2', 'D2', 'E2', 'F2', 'G2', 'H2', 'I2',
'C1', 'C3', 'C4', 'C5', 'C6', 'C7', 'C8', 'C9',
'A1', 'A3', 'B1', 'B3'])
print('All tests pass.')
################ System test ################
import time
def solve_all(grids, name=''):
"""Attempt to solve a sequence of grids. Report results."""
times, results = zip(*[time_solve(grid) for grid in grids])
N = len(results)
if N > 1:
print("Solved %d of %d %s puzzles (avg %.2f secs (%d Hz), max %.2f secs)." % (
sum(results), N, name, sum(times)/N, N/sum(times), max(times)))
def time_solve(grid):
start = time.clock()
values = solve(grid)
t = time.clock()-start
return (t, solved(values))
def solved(values):
"A puzzle is solved if each unit is a permutation of the digits 1 to 9."
def unitsolved(unit): return set(values[s] for s in unit) == set(digits)
return values is not False and all(unitsolved(unit) for unit in unitlist)
grid1 = '003020600900305001001806400008102900700000008006708200002609500800203009005010300'
grid2 = '4.....8.5.3..........7......2.....6.....8.4......1.......6.3.7.5..2.....1.4......'
hard1 = '.....6....59.....82....8....45........3........6..3.54...325..6..................'
if __name__ == '__main__':
test()
solve_all(open("sudoku-easy50.txt"), "easy")
solve_all(open("sudoku-top95.txt"), "hard")
solve_all(open("sudoku-hardest.txt"), "hardest")