131 lines
4.2 KiB
Python
131 lines
4.2 KiB
Python
import unittest
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from oop import Tu
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class TextProcessor(Tu):
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def __init__(self):
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super().__init__()
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class TestQueryBridgeWords(unittest.TestCase):
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def setUp(self):
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# Initialize a graph for testing
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self.graph = {
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'a': {'b': 1, 'c': 2},
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'b': {'c': 1, 'd': 2},
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'c': {'d': 1},
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'x': {},
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'z': {}
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}
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self.processor = TextProcessor()
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self.processor.generate_directed_dict(self.processor.read_text_file("1.txt"))
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self.processor.generate_directed_graph()
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def test_normal_path1(self):
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# 正常情况:存在路径
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word1 = 'to'
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word2 = 'out'
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expected_path = ['to', 'seek', 'out']
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expected_length = 2
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path,length = self.processor.calcShortestPath(word1, word2)
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self.assertEqual(path, [expected_path])
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self.assertEqual(length, expected_length)
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"""def test_normal_path2(self):
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# 正常情况:存在路径
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word1 = 'to'
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word2 = 'new'
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expected_path = ['to', 'seek', 'out',"new"],['to', 'seek', "strange",'new'],['to', 'explore', "strange",'new']
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expected_length = 3
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path, length = self.processor.calcShortestPath(word1, word2)
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path_set=set([])
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for i in path :
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path_set.add(i)
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self.assertSetEqual(path_set, set(expected_path))
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self.assertEqual(length, expected_length)"""
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def test_no_path(self):
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# 无路径情况
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word1 = 'civilizations'
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word2 = 'to'
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expected_path = []
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expected_length = 0
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path, length = self.processor.calcShortestPath(word1, word2)
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self.assertEqual(path, expected_path)
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self.assertEqual(length, expected_length)
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def test_node_not_exists(self):
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# 节点不存在情况
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word1 = 'now'
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word2 = 'lod'
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expected_path = []
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expected_length = 0
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path, length = self.processor.calcShortestPath(word1, word2)
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self.assertEqual(path, expected_path)
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self.assertEqual(length, expected_length)
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def test_same_node(self):
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# 同一节点情况
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word1 = 'to'
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word2 = 'to'
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expected_path = []
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expected_length = 0
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path, length = self.processor.calcShortestPath(word1, word2)
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self.assertEqual(path, expected_path)
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self.assertEqual(length, expected_length)
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def test_valid_bridge_words_exist(self):
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# Valid equivalence class: bridge words exist
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result = self.processor.queryBridgeWords('the', 'floor')
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self.assertIn('forest', result)
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def test_valid_bridge_words_not_exist(self):
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# Valid equivalence class: no bridge words
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result = self.processor.queryBridgeWords('on', 'the')
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self.assertEqual(result, [])
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def test_invalid_word1_not_in_graph(self):
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# Invalid equivalence class: word1 not in graph
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result = self.processor.queryBridgeWords('an', 'a')
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self.assertEqual(result, [])
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def test_invalid_word2_not_in_graph(self):
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# Invalid equivalence class: word2 not in graph
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result = self.processor.queryBridgeWords('a', 'an')
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self.assertEqual(result, [])
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def test_invalid_both_words_not_in_graph(self):
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# Invalid equivalence class: both words not in graph
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result = self.processor.queryBridgeWords('now', 'lod')
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self.assertEqual(result, [])
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def test_edge_case_min_word(self):
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# Edge case: minimum word
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result = self.processor.queryBridgeWords('a', 'b')
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self.assertEqual(result, [])
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def test_edge_case_max_word(self):
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# Edge case: maximum word
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result = self.processor.queryBridgeWords('x', 'z')
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self.assertEqual(result, [])
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def test_edge_case_no_bridge_words(self):
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# Edge case: no bridge words
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result = self.processor.queryBridgeWords('new', 'worlds')
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self.assertEqual(result, [])
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def test_edge_case_single_bridge_word(self):
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# Edge case: single bridge word
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result = self.processor.queryBridgeWords('the', 'floor')
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self.assertIn('forest', result)
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if __name__ == '__main__':
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unittest.main()
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