Exemplo n.º 1
0
 def test_find_word_out_of_bounds(self):
     grid = puzzleObj2.grid
     wordName = list("OSLO")
     wordObj = Word(wordName)
     startCoordinates = [(1, 1), (1, 1), (9, 9), (9, 9)]
     for i in range(len(directions)):
         wordObj.startCoord = startCoordinates[i]
         expr = wordSearchObj._WordSearch__find_word_in_direction(
             grid, wordObj, directions[i])
         self.assertFalse(expr, "{} starting at {}-{} is out of bounds.".format(
             wordObj.name, wordObj.startCoord, directions[i]))
Exemplo n.º 2
0
 def test_word_not_found_in_every_direction(self):
     # Test setup
     grid = puzzleObj2.grid
     wordName = list("POETRY")
     wordObj = Word(wordName)
     wordObj.startCoord = (5, 5)
     for i in range(len(directions)):
         expr = wordSearchObj._WordSearch__find_word_in_direction(
             grid, wordObj, directions[i])
         self.assertFalse(expr, "{} not found {}.".format(
             wordObj.name, directions[i]))
Exemplo n.º 3
0
 def test_last_letter_not_found(self):
     grid = puzzleObj2.grid
     wordName = list("MOOD")
     wordObj = Word(wordName)
     startCoordinates = [(1, 1), (9, 9), (1, 1), (9, 9)]
     for i in range(len(directions)):
         wordObj.startCoord = startCoordinates[i]
         expr = wordSearchObj._WordSearch__find_word_in_direction(
             grid, wordObj, directions[i])
         self.assertFalse(expr, "Last letter of {}(direction: {})" \
             " was not found at the computed end coordinates.".format(
             wordObj.name, directions[i]))
Exemplo n.º 4
0
 def test_word_found_in_every_direction(self):
     # Test setup
     grid = puzzleObj1.grid
     words = ["NUM", "SYLLABLES", "SIMILE", "DIAMONTE"]
     startCoordinates = [(5, 0), (8, 8), (7, 1), (9, 7)]
     endCoordinates = [(7, 0), (0, 8), (7, 7), (9, 0)]
     for i in range(len(directions)):
         wordName = list(words[i])
         wordObj = Word(wordName)
         wordObj.startCoord = startCoordinates[i]
         expr = wordSearchObj._WordSearch__find_word_in_direction(
             grid, wordObj, directions[i])
         self.assertTrue(expr, "{} found in {} {}.".format(
             wordObj.name, wordObj.startCoord, wordObj.endCoord))
Exemplo n.º 5
0
 def test_term_with_two_words_found_in_puzzle(self):
     grid = puzzleObj1.grid
     words = puzzleObj1.words
     for i in range(len(words)):
         wordName = words[i]
         wordObj = Word(wordName)
         expr = wordSearchObj._WordSearch__find_word(grid, wordObj)
         self.assertTrue(expr, "{} is composed of two words.".format(
             wordObj.name))
Exemplo n.º 6
0
 def test_word_with_multiple_instance_found_in_puzzle(self):
     grid = puzzleObj1.grid
     words = ["TIC", "CIT"]
     for i in range(len(words)):
         wordName = words[i]
         wordObj = Word(wordName)
         expr = wordSearchObj._WordSearch__find_word(grid, wordObj)
         self.assertTrue(expr, "{} has multiple instances.".format(
             wordObj.name))
Exemplo n.º 7
0
 def test_word_not_found_in_puzzle(self):
     grid = puzzleObj1.grid
     words = ["DISNEY", "MOUSE", "RHYMES", "PATTERNS"]
     for i in range(len(words)):
         wordName = list(words[i])
         wordObj = Word(wordName)
         expr = wordSearchObj._WordSearch__find_word(grid, wordObj)
         self.assertFalse(expr, "{} not found.".format(
             wordObj.name))
Exemplo n.º 8
0
 def test_word_found_in_puzzle(self):
     grid = puzzleObj1.grid
     words = ["BALL", "COUPLETS", "RHYME", "POETRY"]
     for i in range(len(words)):
         wordName = list(words[i])
         wordObj = Word(wordName)
         expr = wordSearchObj._WordSearch__find_word(grid, wordObj)
         self.assertTrue(expr, "{} {} {}".format(
             wordObj.name, wordObj.startCoord, wordObj.endCoord))
Exemplo n.º 9
0
 def test_term_in_lower_case_found_in_puzzle(self):
     grid = puzzleObj3.grid
     words = puzzleObj3.words
     for i in range(len(words)):
         wordName = words[i]
         wordObj = Word(wordName)
         expr = wordSearchObj._WordSearch__find_word(grid,wordObj)
         self.assertTrue(expr, "{} cannot be found.".format(
             i + 1, wordObj.name))