def testSection10(self):
lexicon = Lexicon.getDefaultLexicon() # default simplenlg lexicon
nlgFactory = NLGFactory( lexicon ) # factory based on lexicon
realiser = Realiser( lexicon )
subject1 = nlgFactory.createNounPhrase( "Mary" )
subject2 = nlgFactory.createNounPhrase( "your", "giraffe" )
# next line is not correct ~ should be nlgFactory.createCoordinatedPhrase ~ may be corrected in the API
subj = nlgFactory.createCoordinatedPhrase( subject1, subject2 )
verb = nlgFactory.createVerbPhrase( "chase" )
p = nlgFactory.createClause()
p.setSubject( subj )
p.setVerb( verb )
p.setObject( "the monkey" )
outputA = realiser.realiseSentence( p )
self.assertEqual( "Mary and your giraffe chase the monkey.", outputA )
object1 = nlgFactory.createNounPhrase( "the monkey" )
object2 = nlgFactory.createNounPhrase( "George" )
# next line is not correct ~ should be nlgFactory.createCoordinatedPhrase ~ may be corrected in the API
obj = nlgFactory.createCoordinatedPhrase( object1, object2 )
obj.addCoordinate( "Martha" )
p.setObject( obj )
outputB = realiser.realiseSentence( p )
self.assertEqual( "Mary and your giraffe chase the monkey, George and Martha.", outputB )
obj.setFeature( Feature.CONJUNCTION, "or" )
outputC = realiser.realiseSentence( p )
self.assertEqual( "Mary and your giraffe chase the monkey, George or Martha.", outputC )
class PremodifierTest(unittest.TestCase):
# @Before
def setUp(self):
self.lexicon = Lexicon.getDefaultLexicon()
self.phraseFactory = NLGFactory(self.lexicon)
self.realiser = Realiser(self.lexicon)
# Test change from "a" to "an" in the presence of a premodifier with a vowel
def testIndefiniteWithPremodifier(self):
s = self.phraseFactory.createClause("there", "be")
s.setFeature(Feature.TENSE, Tense.PRESENT)
np = self.phraseFactory.createNounPhrase("a", "stenosis")
s.setObject(np)
# check without modifiers -- article should be "a"
self.assertEqual("there is a stenosis",
self.realiser.realise(s).getRealisation())
# add a single modifier -- should turn article to "an"
np.addPreModifier(
self.phraseFactory.createAdjectivePhrase("eccentric"))
self.assertEqual("there is an eccentric stenosis",
self.realiser.realise(s).getRealisation())
# Test for comma separation between premodifers
def testMultipleAdjPremodifiers(self):
np = self.phraseFactory.createNounPhrase("a", "stenosis")
np.addPreModifier(
self.phraseFactory.createAdjectivePhrase("eccentric"))
np.addPreModifier(self.phraseFactory.createAdjectivePhrase("discrete"))
self.assertEqual("an eccentric, discrete stenosis",
self.realiser.realise(np).getRealisation())
# Test for comma separation between verb premodifiers
def testMultipleAdvPremodifiers(self):
adv1 = self.phraseFactory.createAdverbPhrase("slowly")
adv2 = self.phraseFactory.createAdverbPhrase("discretely")
# case 1: concatenated premods: should have comma
vp = self.phraseFactory.createVerbPhrase("run")
vp.addPreModifier(adv1)
vp.addPreModifier(adv2)
self.assertEqual("slowly, discretely runs",
self.realiser.realise(vp).getRealisation())
# case 2: coordinated premods: no comma
vp2 = self.phraseFactory.createVerbPhrase("eat")
vp2.addPreModifier(
self.phraseFactory.createCoordinatedPhrase(adv1, adv2))
self.assertEqual("slowly and discretely eats",
self.realiser.realise(vp2).getRealisation())
def testSection13(self):
lexicon = Lexicon.getDefaultLexicon()
nlgFactory = NLGFactory( lexicon )
realiser = Realiser( lexicon )
s1 = nlgFactory.createClause( "my cat", "like", "fish" )
s2 = nlgFactory.createClause( "my dog", "like", "big bones" )
s3 = nlgFactory.createClause( "my horse", "like", "grass" )
c = nlgFactory.createCoordinatedPhrase()
c.addCoordinate( s1 )
c.addCoordinate( s2 )
c.addCoordinate( s3 )
outputA = realiser.realiseSentence( c )
correct = "My cat likes fish, my dog likes big bones and my horse likes grass."
self.assertEqual(correct, outputA )
p = nlgFactory.createClause( "I", "be", "happy" )
q = nlgFactory.createClause( "I", "eat", "fish" )
q.setFeature( Feature.COMPLEMENTISER, "because" )
q.setFeature( Feature.TENSE, Tense.PAST )
p.addComplement( q )
outputB = realiser.realiseSentence( p )
self.assertEqual( "I am happy because I ate fish.", outputB )
class StringElementTest(unittest.TestCase):
def setUp(self):
self.lexicon = Lexicon.getDefaultLexicon()
self.phraseFactory = NLGFactory(self.lexicon)
self.realiser = Realiser(self.lexicon)
# Test that string elements can be used as heads of NP
def testStringElementAsHead(self):
np = self.phraseFactory.createNounPhrase()
np.setHead(self.phraseFactory.createStringElement("dogs and cats"))
np.setSpecifier(
self.phraseFactory.createWord("the", LexicalCategory.DETERMINER))
self.assertEqual("the dogs and cats",
self.realiser.realise(np).getRealisation())
# Sentences whose VP is a canned string
def testStringElementAsVP(self):
s = self.phraseFactory.createClause()
s.setVerbPhrase(
self.phraseFactory.createStringElement("eats and drinks"))
s.setSubject(self.phraseFactory.createStringElement("the big fat man"))
self.assertEqual("the big fat man eats and drinks",
self.realiser.realise(s).getRealisation())
# Test for when the SPhraseSpec has a NPSpec added directly after it:
# "Mary loves NP[the cow]."
def testTailNPStringElement(self):
senSpec = self.phraseFactory.createClause()
senSpec.addComplement(
(self.phraseFactory.createStringElement("mary loves")))
np = self.phraseFactory.createNounPhrase()
np.setHead("cow")
np.setDeterminer("the")
senSpec.addComplement(np)
completeSen = self.phraseFactory.createSentence()
completeSen.addComponent(senSpec)
self.assertEqual("Mary loves the cow.",
self.realiser.realise(completeSen).getRealisation())
# Test for a NP followed by a canned text: "NP[A cat] loves a dog".
def testFrontNPStringElement(self):
senSpec = self.phraseFactory.createClause()
np = self.phraseFactory.createNounPhrase()
np.setHead("cat")
np.setDeterminer("the")
senSpec.addComplement(np)
senSpec.addComplement(
self.phraseFactory.createStringElement("loves a dog"))
completeSen = self.phraseFactory.createSentence()
completeSen.addComponent(senSpec)
self.assertEqual("The cat loves a dog.", \
self.realiser.realise(completeSen).getRealisation())
# Test for a StringElement followed by a NP followed by a StringElement
# "The world loves NP[ABBA] but not a sore loser."
def testMulitpleStringElements(self):
senSpec = self.phraseFactory.createClause()
senSpec.addComplement(
self.phraseFactory.createStringElement("the world loves"))
np = self.phraseFactory.createNounPhrase()
np.setHead("ABBA")
senSpec.addComplement(np)
senSpec.addComplement(
self.phraseFactory.createStringElement("but not a sore loser"))
completeSen = self.phraseFactory.createSentence()
completeSen.addComponent(senSpec)
self.assertEqual("The world loves ABBA but not a sore loser.", \
self.realiser.realise(completeSen).getRealisation())
# Test for multiple NP phrases with a single StringElement phrase:
# "NP[John is] a trier NP[for cheese]."
def testMulitpleNPElements(self):
senSpec = self.phraseFactory.createClause()
frontNoun = self.phraseFactory.createNounPhrase()
frontNoun.setHead("john")
senSpec.addComplement(frontNoun)
senSpec.addComplement(
self.phraseFactory.createStringElement("is a trier"))
backNoun = self.phraseFactory.createNounPhrase()
backNoun.setDeterminer("for")
backNoun.setNoun("cheese")
senSpec.addComplement(backNoun)
completeSen = self.phraseFactory.createSentence()
completeSen.addComponent(senSpec)
self.assertEqual("John is a trier for cheese.", \
self.realiser.realise(completeSen).getRealisation())
# White space check: Test to see how SNLG deals with additional whitespaces:
# NP[The Nasdaq] rose steadily during NP[early trading], however it plummeted due to NP[a shock] after NP[IBM] announced poor
# NP[first quarter results].
def testWhiteSpaceNP(self):
senSpec = self.phraseFactory.createClause()
firstNoun = self.phraseFactory.createNounPhrase()
firstNoun.setDeterminer("the")
firstNoun.setNoun("Nasdaq")
senSpec.addComplement(firstNoun)
senSpec.addComplement(
self.phraseFactory.createStringElement(" rose steadily during "))
secondNoun = self.phraseFactory.createNounPhrase()
secondNoun.setSpecifier("early")
secondNoun.setNoun("trading")
senSpec.addComplement(secondNoun)
senSpec.addComplement(
self.phraseFactory.createStringElement(
" , however it plummeted due to"))
thirdNoun = self.phraseFactory.createNounPhrase()
thirdNoun.setSpecifier("a")
thirdNoun.setNoun("shock")
senSpec.addComplement(thirdNoun)
senSpec.addComplement(
self.phraseFactory.createStringElement(" after "))
fourthNoun = self.phraseFactory.createNounPhrase()
fourthNoun.setNoun("IBM")
senSpec.addComplement(fourthNoun)
senSpec.addComplement(
self.phraseFactory.createStringElement("announced poor "))
fifthNoun = self.phraseFactory.createNounPhrase()
fifthNoun.setSpecifier("first quarter")
fifthNoun.setNoun("results")
fifthNoun.setPlural(True)
senSpec.addComplement(fifthNoun)
completeSen = self.phraseFactory.createSentence()
completeSen.addComponent(senSpec)
correct = "The Nasdaq rose steadily during early trading, however it plummeted " \
+ "due to a shock after IBM announced poor first quarter results."
self.assertEqual(correct,
self.realiser.realise(completeSen).getRealisation())
# Point absorption test: Check to see if SNLG respects abbreviations at the end of a sentence.
# "NP[Yahya] was sleeping his own and dreaming etc."
def testPointAbsorption(self):
senSpec = self.phraseFactory.createClause()
firstNoun = self.phraseFactory.createNounPhrase()
firstNoun.setNoun("yaha")
senSpec.addComplement(firstNoun)
senSpec.addComplement("was sleeping on his own and dreaming etc.")
completeSen = self.phraseFactory.createSentence()
completeSen.addComponent(senSpec)
self.assertEqual("Yaha was sleeping on his own and dreaming etc.", \
self.realiser.realise(completeSen).getRealisation())
# Point absorption test: As above, but with trailing white space.
# "NP[Yaha] was sleeping his own and dreaming etc. "
def testPointAbsorptionTrailingWhiteSpace(self):
senSpec = self.phraseFactory.createClause()
firstNoun = self.phraseFactory.createNounPhrase()
firstNoun.setNoun("yaha")
senSpec.addComplement(firstNoun)
senSpec.addComplement(
"was sleeping on his own and dreaming etc. ")
completeSen = self.phraseFactory.createSentence()
completeSen.addComponent(senSpec)
self.assertEqual("Yaha was sleeping on his own and dreaming etc.", \
self.realiser.realise(completeSen).getRealisation())
# Abbreviation test: Check to see how SNLG deals with abbreviations in the middle of a sentence.
# "NP[Yahya] and friends etc. went to NP[the park] to play."
def testMiddleAbbreviation(self):
senSpec = self.phraseFactory.createClause()
firstNoun = self.phraseFactory.createNounPhrase()
firstNoun.setNoun("yahya")
senSpec.addComplement(firstNoun)
senSpec.addComplement(
self.phraseFactory.createStringElement("and friends etc. went to"))
secondNoun = self.phraseFactory.createNounPhrase()
secondNoun.setDeterminer("the")
secondNoun.setNoun("park")
senSpec.addComplement(secondNoun)
senSpec.addComplement("to play")
completeSen = self.phraseFactory.createSentence()
completeSen.addComponent(senSpec)
self.assertEqual("Yahya and friends etc. went to the park to play.", \
self.realiser.realise(completeSen).getRealisation())
# Indefinite Article Inflection: StringElement to test how SNLG handles a/an situations.
# "I see an NP[elephant]"
def testStringIndefiniteArticleInflectionVowel(self):
senSpec = self.phraseFactory.createClause()
senSpec.addComplement(
self.phraseFactory.createStringElement("I see a"))
firstNoun = self.phraseFactory.createNounPhrase("elephant")
senSpec.addComplement(firstNoun)
completeSen = self.phraseFactory.createSentence()
completeSen.addComponent(senSpec)
self.assertEqual("I see an elephant.",
self.realiser.realise(completeSen).getRealisation())
# Indefinite Article Inflection: StringElement to test how SNLG handles a/an situations.
# "I see NP[a elephant]" -->
def testNPIndefiniteArticleInflectionVowel(self):
senSpec = self.phraseFactory.createClause()
senSpec.addComplement(self.phraseFactory.createStringElement("I see"))
firstNoun = self.phraseFactory.createNounPhrase("elephant")
firstNoun.setDeterminer("a")
senSpec.addComplement(firstNoun)
completeSen = self.phraseFactory.createSentence()
completeSen.addComponent(senSpec)
self.assertEqual("I see an elephant.",
self.realiser.realise(completeSen).getRealisation())
'''
# Not useful in python. Java code returns "I see an cow." (ie.. it doesn't change the article)
# assertNotSame simply verifies that two objects do not refer to the same object.
# Indefinite Article Inflection: StringElement to test how SNLG handles a/an situations.
# "I see an NP[cow]"
def testStringIndefiniteArticleInflectionConsonant(self):
senSpec = self.phraseFactory.createClause()
senSpec.addComplement(self.phraseFactory.createStringElement("I see an"))
firstNoun = self.phraseFactory.createNounPhrase("cow")
senSpec.addComplement(firstNoun)
completeSen = self.phraseFactory.createSentence()
completeSen.addComponent(senSpec)
# Do not attempt "an" -> "a"
self.assertNotSame("I see an cow.", self.realiser.realise(completeSen).getRealisation())
'''
# Indefinite Article Inflection: StringElement to test how SNLG handles a/an situations.
# "I see NP[an cow]" -->
def testNPIndefiniteArticleInflectionConsonant(self):
senSpec = self.phraseFactory.createClause()
senSpec.addComplement(self.phraseFactory.createStringElement("I see"))
firstNoun = self.phraseFactory.createNounPhrase("cow")
firstNoun.setDeterminer("an")
senSpec.addComplement(firstNoun)
completeSen = self.phraseFactory.createSentence()
completeSen.addComponent(senSpec)
# Do not attempt "an" -> "a"
self.assertEqual("I see an cow.",
self.realiser.realise(completeSen).getRealisation())
# aggregationStringElementTest: Test to see if we can aggregate two StringElements
# in a CoordinatedPhraseElement.
def testAggregationStringElement(self):
coordinate = self.phraseFactory.createCoordinatedPhrase( \
StringElement("John is going to Tesco"), StringElement("Mary is going to Sainsburys"))
sentence = self.phraseFactory.createClause()
sentence.addComplement(coordinate)
self.assertEqual("John is going to Tesco and Mary is going to Sainsburys.", \
self.realiser.realiseSentence(sentence))
# Tests that no empty space is added when a StringElement is instantiated with an empty string
# or None object.
def testNullAndEmptyStringElement(self):
NoneStringElement = self.phraseFactory.createStringElement(None)
emptyStringElement = self.phraseFactory.createStringElement("")
beautiful = self.phraseFactory.createStringElement("beautiful")
horseLike = self.phraseFactory.createStringElement("horse-like")
creature = self.phraseFactory.createStringElement("creature")
# Test1: None or empty at beginning
test1 = self.phraseFactory.createClause("a unicorn", "be",
"regarded as a")
test1.addPostModifier(emptyStringElement)
test1.addPostModifier(beautiful)
test1.addPostModifier(horseLike)
test1.addPostModifier(creature)
self.assertEqual("A unicorn is regarded as a beautiful horse-like creature.", \
self.realiser.realiseSentence(test1))
# Test2: empty or None at end
test2 = self.phraseFactory.createClause("a unicorn", "be",
"regarded as a")
test2.addPostModifier(beautiful)
test2.addPostModifier(horseLike)
test2.addPostModifier(creature)
test2.addPostModifier(NoneStringElement)
self.assertEqual("A unicorn is regarded as a beautiful horse-like creature.", \
self.realiser.realiseSentence(test2))
# Test3: empty or None in the middle
test3 = self.phraseFactory.createClause("a unicorn", "be",
"regarded as a")
test3.addPostModifier("beautiful")
test3.addPostModifier("horse-like")
test3.addPostModifier("")
test3.addPostModifier("creature")
self.assertEqual("A unicorn is regarded as a beautiful horse-like creature.", \
self.realiser.realiseSentence(test3))
# Test4: empty or None in the middle with empty or None at beginning
test4 = self.phraseFactory.createClause("a unicorn", "be",
"regarded as a")
test4.addPostModifier("")
test4.addPostModifier("beautiful")
test4.addPostModifier("horse-like")
test4.addPostModifier(NoneStringElement)
test4.addPostModifier("creature")
self.assertEqual("A unicorn is regarded as a beautiful horse-like creature.", \
self.realiser.realiseSentence(test4))
