def test_crossword_can_get_set_metadata(self):
crossword = Crossword(1, 1)
self.assertEqual(len(crossword.meta), 15)
crossword.meta['creator'] = 'A'
self.assertEqual(crossword.meta.creator, 'A')
crossword.meta.creator = 'B'
self.assertEqual(crossword.meta.creator, 'B')
setattr(crossword.meta, 'creator', 'C')
self.assertEqual(crossword.meta['creator'], 'C')
self.assertEqual(getattr(crossword.meta, 'creator'), 'C')
self.assertEqual(list(crossword.meta()), [
('contributor', None),
('coverage', None),
('creator', 'C'),
('date', None),
('description', None),
('format', None),
('identifier', None),
('language', None),
('publisher', None),
('relation', None),
('rights', None),
('source', None),
('subject', None),
('title', None),
('type', None),
])
with self.assertRaises(AttributeError):
crossword.meta.doesnotexist
def test_crossword_can_get_set_metadata(self):
crossword = Crossword(1, 1)
self.assertEqual(len(crossword.meta), 15)
crossword.meta['creator'] = 'A'
self.assertEqual(crossword.meta.creator, 'A')
crossword.meta.creator = 'B'
self.assertEqual(crossword.meta.creator, 'B')
setattr(crossword.meta, 'creator', 'C')
self.assertEqual(crossword.meta['creator'], 'C')
self.assertEqual(getattr(crossword.meta, 'creator'), 'C')
self.assertEqual(list(crossword.meta()), [
('contributor', None),
('coverage', None),
('creator', 'C'),
('date', None),
('description', None),
('format', None),
('identifier', None),
('language', None),
('publisher', None),
('relation', None),
('rights', None),
('source', None),
('subject', None),
('title', None),
('type', None),
])
with self.assertRaises(AttributeError):
crossword.meta.doesnotexist
def main():
"""App entry point."""
puzzle = read_json_data('./data/crossword.json')
words = read_json_data('./data/words.json')
crossword_game = Crossword(puzzle, words)
result = crossword_game.find_words()
return result
def test_crossword_supports_explicit_iteration(self):
crossword = Crossword(15, 15)
for y in range(crossword.height):
for x in range(crossword.width):
self.assertEqual(crossword[x, y], {})
for x, y in crossword.cells:
self.assertEqual(crossword[x, y], {})
self.assertEqual(len(list(crossword.cells)),
crossword.width * crossword.height)
with self.assertRaises(AttributeError):
crossword.cells = None
def test_crossword_supports_explicit_iteration(self):
crossword = Crossword(15, 15)
for y in range(crossword.height):
for x in range(crossword.width):
self.assertEqual(crossword[x, y], {})
for x, y in crossword.cells:
self.assertEqual(crossword[x, y], {})
self.assertEqual(
len(list(crossword.cells)),
crossword.width * crossword.height
)
with self.assertRaises(AttributeError):
crossword.cells = None
def test_invalid_cell_coordinates_raises_exception(self):
crossword = Crossword(15, 15)
with self.assertRaises(IndexError) as cm:
crossword[-5, -5]
self.assertEqual(str(cm.exception),
"Invalid cell coordinates: (-5, -5)")
crossword = Crossword(3, 3)
with self.assertRaises(IndexError) as cm:
crossword[-5, -5]
self.assertEqual(str(cm.exception),
"Invalid cell coordinates: (-5, -5)")
crossword = Crossword(3, 3)
with self.assertRaises(IndexError) as cm:
crossword[3, 3]
self.assertEqual(str(cm.exception), "Invalid cell coordinates: (3, 3)")
def test_order_domain_values():
crossword = Crossword("./Project3/crossword/data/structure0.txt",
"./Project3/crossword/data/words0.txt")
creator = CrosswordCreator(crossword)
creator.enforce_node_consistency()
creator.ac3()
across_3 = Variable(0, 1, 'across', 3)
creator.order_domain_values(across_3, dict())
def test_can_build_solution_from_letters_dictionary(self):
crossword = Crossword()
crossword.size(3)
letters = {}
letters[0, 0] = "A"
letters[1, 0] = "B"
letters[2, 0] = ""
letters[0, 1] = ""
letters[1, 1] = "C"
letters[2, 1] = "D"
letters[0, 2] = "E"
letters[1, 2] = "F"
letters[2, 2] = "G"
crossword.build_solution(letters)
self.assertEquals(crossword.across_solutions[0], "AB")
self.assertEquals(crossword.across_solutions[2], "EFG")
self.assertEquals(crossword.down_solutions[0], "BCF")
def test_select_unassigned_variable():
crossword = Crossword("./Project3/crossword/data/test.txt",
"./Project3/crossword/data/test_words.txt")
creator = CrosswordCreator(crossword)
creator.enforce_node_consistency()
actual = creator.select_unassigned_variable(dict())
expected = Variable(0, 0, 'across', 3)
assert expected == actual
def test_get_neighbors():
crossword = Crossword("./Project3/crossword/data/structure0.txt",
"./Project3/crossword/data/words0.txt")
creator = CrosswordCreator(crossword)
creator.enforce_node_consistency()
x = Variable(4, 1, 'across', 4)
actual = (creator.crossword.neighbors(x))
expected = {Variable(0, 1, 'down', 5), Variable(1, 4, 'down', 4)}
assert actual == expected
def test_revise():
crossword = Crossword("./Project3/crossword/data/structure0.txt",
"./Project3/crossword/data/words0.txt")
creator = CrosswordCreator(crossword)
creator.enforce_node_consistency()
x = Variable(4, 1, 'across', 4)
y = Variable(0, 1, 'down', 5)
assert creator.revise(x, y) == True
assert creator.domains[x] == {'NINE'}
def test_order_domain_values_2():
crossword = Crossword("./Project3/crossword/data/test.txt",
"./Project3/crossword/data/test_words.txt")
creator = CrosswordCreator(crossword)
creator.enforce_node_consistency()
across_3 = Variable(0, 0, 'across', 3)
expected = ['BAT','DAT','CAT']
actual = creator.order_domain_values(across_3, dict())
assert expected == actual
def test_clues_are_sorted_in_provided_order_when_not_sorting(self):
crossword = Crossword(15, 15)
crossword.clues.across["1"] = "Clue 1"
crossword.clues.across["10"] = "Clue 10"
crossword.clues.across["2"] = "Clue 2"
self.assertEqual(list(crossword.clues.across(sort=None)), [
("1", "Clue 1"),
("10", "Clue 10"),
("2", "Clue 2"),
])
def test_clues_can_be_sorted_using_function(self):
crossword = Crossword(15, 15)
crossword.clues.across[1] = "Clue 1"
crossword.clues.across[10] = "Clue 10"
crossword.clues.across[2] = "Clue 2"
self.assertEqual(list(crossword.clues.across(sort=int)), [
(1, "Clue 1"),
(2, "Clue 2"),
(10, "Clue 10"),
])
def test_clues_are_sorted_in_numerical_order(self):
crossword = Crossword(15, 15)
crossword.clues.across[1] = "Clue 1"
crossword.clues.across[10] = "Clue 10"
crossword.clues.across[2] = "Clue 2"
self.assertEqual(list(crossword.clues.across()), [
(1, "Clue 1"),
(2, "Clue 2"),
(10, "Clue 10"),
])
def main():
codeUser, wordObjects = Authentication().login()
correctAnswer = True
while correctAnswer:
userInput = input(
'Would you like to do the wordtrainer (WT) or crossword puzzle (CW): '
)
if userInput.lower() == 'wt':
WordTrainer().keepAsking(codeUser, wordObjects)
elif userInput.lower() == 'cw':
correctAnswer = Crossword(wordObjects)
def test_enforce_node_consistency():
crossword = Crossword("./Project3/crossword/data/structure0.txt",
"./Project3/crossword/data/words0.txt")
creator = CrosswordCreator(crossword)
creator.enforce_node_consistency()
for var in creator.domains:
for word in creator.domains[var]:
assert len(word) == var.length
x = Variable(4, 1, 'across', 4)
y = Variable(0, 1, 'down', 5)
assert creator.domains[x] == {'FOUR', 'FIVE', 'NINE'}
assert creator.domains[y] == {'THREE', 'SEVEN', 'EIGHT'}
def test_crossword_can_iterate_over_all_clues(self):
crossword = Crossword(5, 5)
crossword.clues.across[1] = "This is an across clue 1"
crossword.clues.across[2] = "This is an across clue 2"
crossword.clues.across[3] = "This is an across clue 3"
crossword.clues.down[2] = "This is a down clue"
clues = list(crossword.clues.all())
self.assertEqual(clues, [
('across', 1, "This is an across clue 1"),
('across', 2, "This is an across clue 2"),
('across', 3, "This is an across clue 3"),
('down', 2, "This is a down clue"),
])
def test_crossword_can_iterate_over_clues_of_direction(self):
crossword = Crossword(5, 5)
crossword.clues.across[1] = "This is an across clue"
crossword.clues.across[2] = "This is an across clue"
crossword.clues.across[3] = "This is an across clue"
crossword.clues.down[2] = "This is a down clue"
self.assertEqual(list(crossword.clues.across()), [
(1, "This is an across clue"),
(2, "This is an across clue"),
(3, "This is an across clue"),
])
self.assertEqual(list(crossword.clues.down()), [
(2, "This is a down clue"),
])
def test_medium_crossword():
w = [
Word(6), # 1 Across
Word(6), # 1 Down
Word(3), # 2d
Word(3), # 3d
Word(6), # 4d
Word(7), # 5a
Word(3), # 6d
Word(7), # 7a
Word(3), # 8d
Word(3), # 9d
Word(6), # 10a
]
w[0].addCollision(w[1], 0, 0)
w[0].addCollision(w[2], 2, 0)
w[0].addCollision(w[3], 4, 0)
w[1].addCollision(w[5], 2, 0)
w[1].addCollision(w[7], 4, 0)
w[2].addCollision(w[5], 2, 2)
w[3].addCollision(w[5], 2, 4)
w[4].addCollision(w[5], 1, 6)
w[4].addCollision(w[7], 3, 6)
w[4].addCollision(w[10], 5, 5)
w[5].addCollision(w[6], 3, 1)
w[6].addCollision(w[7], 2, 3)
w[7].addCollision(w[8], 2, 0)
w[7].addCollision(w[9], 4, 0)
w[8].addCollision(w[10], 2, 1)
w[9].addCollision(w[10], 2, 3)
dictionary = WordLengthDictionary()
dictionary.loadFromFile("/usr/share/dict/words")
xw = Crossword(w, dictionary)
res = xw.solve()
print(res)
assert (res > 0)
def test_ac3():
crossword = Crossword("./Project3/crossword/data/structure0.txt",
"./Project3/crossword/data/words0.txt")
creator = CrosswordCreator(crossword)
creator.enforce_node_consistency()
actual = creator.ac3()
expected = True
assert expected == actual
across_3 = Variable(0, 1, 'across', 3)
down_5 = Variable(0, 1, 'down', 5)
acrross_4 = Variable(4, 1, 'across', 4)
down_4 = Variable(1, 4, 'down', 4)
assert creator.domains[across_3] == {"SIX"}
assert creator.domains[down_5] == {"SEVEN"}
assert creator.domains[acrross_4] == {"NINE"}
assert creator.domains[down_4] == {"FIVE", "NINE"}
def test_clues_in_both_directions_sorted_with_function(self):
crossword = Crossword(15, 15)
crossword.clues.across[1] = "Clue 1"
crossword.clues.across[10] = "Clue 10"
crossword.clues.across[2] = "Clue 2"
crossword.clues.down[1] = "Clue 1"
crossword.clues.down[10] = "Clue 10"
crossword.clues.down[2] = "Clue 2"
self.assertEqual(list(crossword.clues.all(sort=int)), [
('across', 1, "Clue 1"),
('across', 2, "Clue 2"),
('across', 10, "Clue 10"),
('down', 1, "Clue 1"),
('down', 2, "Clue 2"),
('down', 10, "Clue 10"),
])
def test_crossword_can_get_set_clues(self):
crossword = Crossword(1, 1)
crossword.clues.across[1] = "The clue"
self.assertEqual(crossword.clues.across[1], "The clue")
self.assertEqual(len(crossword.clues.across), 1)
self.assertEqual(len(crossword.clues.down), 0)
crossword.clues.down[1] = "Other clue"
self.assertEqual(crossword.clues.down[1], "Other clue")
self.assertEqual(crossword.clues.across[1], "The clue")
self.assertEqual(crossword.clues.across, {
1: "The clue",
})
self.assertEqual(crossword.clues.down, {
1: "Other clue",
})
with self.assertRaises(AttributeError):
crossword.clues.doesnotexist
def main():
# Check usage
if len(sys.argv) not in [3, 4]:
sys.exit("Usage: python generate.py structure words [output]")
# Parse command-line arguments
structure = sys.argv[1]
words = sys.argv[2]
output = sys.argv[3] if len(sys.argv) == 4 else None
# Generate crossword
crossword = Crossword(structure, words)
creator = CrosswordCreator(crossword)
assignment = creator.solve()
# Print result
if assignment is None:
print("No solution.")
else:
creator.print(assignment)
if output:
creator.save(assignment, output)
def test_crossword_can_be_converted_to_dictionary(self):
crossword = Crossword(5, 10)
crossword.meta.creator = "The author"
crossword.clues.across[1] = "This is a clue"
self.assertEqual(
crossword.content, {
'type': None,
'width': 5,
'height': 10,
'cells': [[{}] * 5] * 10,
'metadata': {
'contributor': None,
'coverage': None,
'creator': "The author",
'date': None,
'description': None,
'format': None,
'identifier': None,
'language': None,
'publisher': None,
'relation': None,
'rights': None,
'source': None,
'subject': None,
'title': None,
'type': None,
},
'clues': {
'across': {
1: "This is a clue",
},
'down': {},
},
'block': None,
'empty': None,
'format': {},
})
def test_should_just_use_name_for_title_if_no_type(self):
crossword = Crossword()
crossword.name = "Geoffrey"
self.assertEqual(crossword.title(), "Geoffrey")
def test_should_provide_helpful_title_when_no_creator_set(self):
crossword = Crossword()
crossword.type = "cryptic"
crossword.number = 42
self.assertEqual(crossword.title(), "Cryptic Crossword No. 42")
def test_should_provide_helpful_title_with_creator(self):
crossword = Crossword()
crossword.type = "cryptic"
crossword.number = 42
crossword.creator = "Philus Willus"
self.assertEqual(crossword.title(), "Cryptic Crossword No. 42 set by Philus Willus")
def test_should_provide_link_to_full_version(self):
crossword = Crossword()
crossword.type = "quick"
crossword.number = 42
self.assertEqual(crossword.url(), "/quick/42")
from crossword import Crossword
from grid import Grid
from square import Square
import pyglet
if __name__ == '__main__':
xword = Crossword(
'http://freecrosswordpuzzles.com.au/printablecrossword.aspx?cw=M1-1-2014',
False)
pyglet.app.run()
def test_crossword_can_set_attributes_as_needed(self):
crossword = Crossword(10, 10)
crossword[3, 3].cell = 'A'
self.assertEqual(crossword[3, 3].cell, 'A')
def test_crossword_width_needs_to_be_one_or_more(self):
with self.assertRaises(ValueError) as cm:
Crossword(0, 10)
self.assertEqual(str(cm.exception), "Width needs to be at least one")
from crossword import Crossword
import random
test_word1 = word_dictionary[random.randint(0, 52250)]
test_word2 = word_dictionary[random.randint(0, 52250)]
test_word3 = word_dictionary[random.randint(0, 52250)]
def check_direction(spots):
if spots[0][0] != spots[0][1]:
return 'down'
else:
return 'across'
cw = Crossword()
possible_spots1 = cw.board.get_sequences(len(test_word1))
possible_spots2 = cw.board.get_sequences(len(test_word2))
possible_spots3 = cw.board.get_sequences(len(test_word3))
if possible_spots1:
cw.insert_word(test_word1, possible_spots1[0],
check_direction(possible_spots1[0]))
if possible_spots2:
cw.insert_word(test_word2, possible_spots2[0],
check_direction(possible_spots2[0]))
if possible_spots3:
cw.insert_word(test_word3, possible_spots3[0],
check_direction(possible_spots3[0]))
cw.visualize()
print(cw.words.across, cw.words.down)
def test_crossword_iteration_over_rows_and_columns(self):
crossword = Crossword(10, 5)
for row in crossword:
self.assertEqual(len(row), 10)
self.assertEqual(len([row for row in crossword]), 5)
def test_crossword_can_set_consecutive_values(self):
crossword = Crossword(3, 3)
crossword[0, 0].cell = 'A'
self.assertEqual(crossword[0, 0].cell, 'A')
crossword[0, 0].cell = 'B'
self.assertEqual(crossword[0, 0].cell, 'B')
def latest(self, type):
crosswords = Crossword.all().filter("type =", type).order("-date").fetch(limit=1)
if len(crosswords) > 0:
return crosswords[0]
return None
# quick crossword
next_quick_filename = os.path.join(data_dir, "next_quick.txt")
if os.path.exists(next_quick_filename):
f = open(next_quick_filename, "r")
quick_serial = int(f.read())
f.close()
else:
quick_serial = 12559
ok = True
while ok:
print "Attempting to create Quick Crossword %d..." % quick_serial
crossword = Crossword(home_page = home_page, cross_type="quick", data_dir = data_dir, prefix = "quick_crossword", serial_number = str(quick_serial), density = 128, border = 16, border_color = "#fff", smtp_server = smtp_server, from_email_address = from_email_address, to_email_address = to_email_address)
ok = crossword.create()
if ok:
print "created"
quick_serial += 1
f = open(next_quick_filename, "w")
f.write(str(quick_serial))
f.close()
# cryptic crossword
next_cryptic_filename = os.path.join(data_dir, "next_cryptic.txt")
if os.path.exists(next_cryptic_filename):
f = open(next_cryptic_filename, "r")
cryptic_serial = int(f.read())
f.close()
def find(self, type, number):
crosswords = Crossword.all().filter("type =", type).filter("number =", int(number)).fetch(limit=1)
if len(crosswords) > 0:
return crosswords[0]
return None
def test_invalid_row_coordinate_raises_exception(self):
crossword = Crossword(3, 3)
with self.assertRaises(IndexError) as cm:
crossword[-5]
self.assertEqual(str(cm.exception), "Invalid row coordinate: -5")
from cPickle import dumps, loads
from tempfile import mkstemp
from crossword import Crossword
def format_clues(clues):
clues = map(lambda x: '%s. %s' % (x.num, x.clue), clues)
return '\n'.join(clues)
if __name__ == "__main__":
puzzle = Crossword()
puzzle.init_game(16, 15)
print puzzle.get_clue(1, 'a').clue
print puzzle.get_clue(2, 'a')
print format_clues(puzzle.across_clues)
print format_clues(puzzle.down_clues)
print puzzle.all_clues
puzzle.submit(1, 'a','PAIN')
puzzle.submit(1, 'd', 'plains')
puzzle.clear(1, 'a')
puzzle.ghost(4, 'd', 'clams')
puzzle.ghost(1, 'a','pear')
puzzle.clear(1, 'a')
puzzle.submit(65, 'a', 'Monk')
puzzle.submit(48, 'd', 'drunks')
puzzle.clear(65, 'a')
# puzzle.ghost(1, 'd','PANE')
print puzzle.save_game()
# _handle, path = mkstemp()
# f = open(path, 'w')
# f.write(dumps(puzzle))
def test_crossword_can_set_dict_as_cell(self):
crossword = Crossword(3, 3)
crossword[0, 0] = {'cell': 'A'}
self.assertEqual(crossword[0, 0].cell, 'A')
