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crossword.py
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crossword.py
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class Variable():
ACROSS = "across"
DOWN = "down"
def __init__(self, i, j, direction, length):
"""Create a new variable with starting point, direction, and length."""
self.i = i
self.j = j
self.direction = direction
self.length = length
self.cells = []
for k in range(self.length):
self.cells.append(
(self.i + (k if self.direction == Variable.DOWN else 0),
self.j + (k if self.direction == Variable.ACROSS else 0))
)
def __hash__(self):
return hash((self.i, self.j, self.direction, self.length))
def __eq__(self, other):
return (
(self.i == other.i) and
(self.j == other.j) and
(self.direction == other.direction) and
(self.length == other.length)
)
def __str__(self):
return f"({self.i}, {self.j}) {self.direction} : {self.length}"
def __repr__(self):
direction = repr(self.direction)
return f"Variable({self.i}, {self.j}, {direction}, {self.length})"
class Crossword():
def __init__(self, structure_file, words_file):
# Determine structure of crossword
with open(structure_file) as f:
contents = f.read().splitlines()
self.height = len(contents)
self.width = max(len(line) for line in contents)
self.structure = []
for i in range(self.height):
row = []
for j in range(self.width):
if j >= len(contents[i]):
row.append(False)
elif contents[i][j] == "_":
row.append(True)
else:
row.append(False)
self.structure.append(row)
# Save vocabulary list
with open(words_file) as f:
self.words = set(f.read().upper().splitlines())
# Determine variable set
self.variables = set()
for i in range(self.height):
for j in range(self.width):
# Vertical words
starts_word = (
self.structure[i][j]
and (i == 0 or not self.structure[i - 1][j])
)
if starts_word:
length = 1
for k in range(i + 1, self.height):
if self.structure[k][j]:
length += 1
else:
break
if length > 1:
self.variables.add(Variable(
i=i, j=j,
direction=Variable.DOWN,
length=length
))
# Horizontal words
starts_word = (
self.structure[i][j]
and (j == 0 or not self.structure[i][j - 1])
)
if starts_word:
length = 1
for k in range(j + 1, self.width):
if self.structure[i][k]:
length += 1
else:
break
if length > 1:
self.variables.add(Variable(
i=i, j=j,
direction=Variable.ACROSS,
length=length
))
# Compute overlaps for each word
# For any pair of variables v1, v2, their overlap is either:
# None, if the two variables do not overlap; or
# (i, j), where v1's ith character overlaps v2's jth character
self.overlaps = dict()
for v1 in self.variables:
for v2 in self.variables:
if v1 == v2:
continue
cells1 = v1.cells
cells2 = v2.cells
intersection = set(cells1).intersection(cells2)
if not intersection:
self.overlaps[v1, v2] = None
else:
intersection = intersection.pop()
self.overlaps[v1, v2] = (
cells1.index(intersection),
cells2.index(intersection)
)
def neighbors(self, var):
"""Given a variable, return set of overlapping variables."""
return set(
v for v in self.variables
if v != var and self.overlaps[v, var]
)