def test_terminals(self): # Terminal . words = "i eat food .".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words]) # Terminal ? words = "i eat food ?".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words]) # Terminal ! words = "i eat food !".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words])
def test_not_opened(self): words = "i '' eat .".split() with self.assertRaisesRegex(ValueError, "Un-paired close"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Un-paired close"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ] words = "i ) eat .".split() with self.assertRaisesRegex(ValueError, "Un-paired close"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Un-paired close"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ] words = "i ] eat .".split() with self.assertRaisesRegex(ValueError, "Un-paired close"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Un-paired close"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ]
def test_quotation(self): # Terminal . words = "i eat `` food '' .".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words]) words = "i eat `` food . ''".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words]) # Terminal ? words = "i eat `` food '' ?".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words]) words = "i eat `` food ? ''".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words]) # Terminal ! words = "i eat `` food '' !".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words]) words = "i eat `` food ! ''".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words])
def test_symbols(self): words = "i - eat { food < .".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words]) words = "i + eat } food > .".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words]) words = "i / eat | food \ .".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words]) words = "i ` eat ~ food @ .".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words]) words = "i # eat $ food % .".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words]) words = "i ^ eat & food * .".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words]) words = "i 't eat : food ; .".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words]) words = "i , eat , food * .".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words])
def test_quoted(self): words = "i eat ' food ' .".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words]) words = "i eat ' food . '".split() with self.assertRaisesRegex(ValueError, "Early-terminated"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Non-terminated"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ] words = "'".split() with self.assertRaisesRegex(ValueError, "Non-terminated"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Non-terminated"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ] words = "i eat ' food .".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words]) words = "i eat \" food \" .".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words]) words = "i eat \" food . \"".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words])
def test_not_terminated(self): words = "i eat".split() with self.assertRaisesRegex(ValueError, "Non-terminated"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Non-terminated"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ] words = "i eat `` food".split() with self.assertRaisesRegex(ValueError, "Non-terminated"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Non-terminated"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ] words = "i eat `` food ''".split() with self.assertRaisesRegex(ValueError, "Non-terminated"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Non-terminated"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ] words = "i eat `` food \"".split() with self.assertRaisesRegex(ValueError, "Non-terminated"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Non-terminated"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ]
def test_eventually_terminal(self): words = "i eat `` ( [ ( `` food . '' ) ] ) ''".split() self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words])
def test_not_closed(self): # Determined by abrupt non-termination words = "i \" eat .".split() with self.assertRaisesRegex(ValueError, "Non-terminated"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Non-terminated"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ] words = "i `` eat .".split() with self.assertRaisesRegex(ValueError, "Non-terminated"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Non-terminated"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ] words = "i ( eat .".split() with self.assertRaisesRegex(ValueError, "Non-terminated"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Non-terminated"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ] words = "i [ eat .".split() with self.assertRaisesRegex(ValueError, "Non-terminated"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Non-terminated"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ] # Determined by continuing non-termination words = "i ' eat . nothing".split() with self.assertRaisesRegex(ValueError, "Early-terminated"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Non-terminated"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ] words = "i \" eat . nothing".split() with self.assertRaisesRegex(ValueError, "Non-terminated"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Non-terminated"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ] words = "i `` eat . nothing".split() with self.assertRaisesRegex(ValueError, "Non-terminated"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Non-terminated"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ] words = "i ( eat . nothing".split() with self.assertRaisesRegex(ValueError, "Non-terminated"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Non-terminated"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ] words = "i [ eat . nothing".split() with self.assertRaisesRegex(ValueError, "Non-terminated"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Non-terminated"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ] # Determined by other closing. words = "i \" eat '' .".split() with self.assertRaisesRegex(ValueError, "Un-paired open/close"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Un-paired open/close"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ] words = "i `` eat ] .".split() with self.assertRaisesRegex(ValueError, "Un-paired open/close"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Un-paired open/close"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ] words = "i ( eat '' .".split() with self.assertRaisesRegex(ValueError, "Un-paired open/close"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Un-paired open/close"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ] words = "i [ eat ) .".split() with self.assertRaisesRegex(ValueError, "Un-paired open/close"): processing.as_sentence(words) with self.assertRaisesRegex(ValueError, "Un-paired open/close"): [ s for s in processing.sentences( [processing.Token(w) for w in words]) ]
def test_apostrophe(self): words = "the teachers ' students are \" junior congress members \" .".split( ) self.assertEqual(processing.as_sentence(words), words) generator = processing.sentences([processing.Token(w) for w in words]) self.assertEqual([s for s in generator], [words])