def testnormalFormProductionSuperl2(self):
        tree = computeTree(data.car())
        NamedEntityMerging(tree).merge()
        PrepositionMerging(tree).merge()
        qw = simplify(tree)
        result = normalFormProduction(tree, qw)
        self.assertEqual(result, {
    "list": {
        "list": {
            "subject": {
                "value": "world",
                "type": "resource"
            },
            "predicate": {
                "value": "car",
                "type": "resource"
            },
            "object": {
                "type": "missing"
            },
            "type": "triple"
        },
        "predicate": {
                    "value" : "cost",
                    "type"  : "resource"
                },
        "type": "sort"
    },
    "index": -1,
    "type": "nth"
})
Ejemplo n.º 2
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 def testnormalFormProductionSuperl2(self):
     tree = computeTree(data.car())
     NamedEntityMerging(tree).merge()
     PrepositionMerging(tree).merge()
     qw = simplify(tree)
     result = normalFormProduction(tree, qw)
     self.assertEqual(
         result, {
             "list": {
                 "list": {
                     "subject": {
                         "value": "world",
                         "type": "resource"
                     },
                     "predicate": {
                         "value": "car",
                         "type": "resource"
                     },
                     "object": {
                         "type": "missing"
                     },
                     "type": "triple"
                 },
                 "predicate": {
                     "value": "cost",
                     "type": "resource"
                 },
                 "type": "sort"
             },
             "index": -1,
             "type": "nth"
         })
Ejemplo n.º 3
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 def testnormalFormProduction3(self):
     tree = computeTree(data.give_obama_president_usa())
     NamedEntityMerging(tree).merge()
     PrepositionMerging(tree).merge()
     qw = simplify(tree)
     result = normalFormProduction(tree, qw)
     self.assertEqual(
         result, {
             "type":
             "intersection",
             "list": [{
                 "predicate": {
                     "type":
                     "list",
                     "list": [{
                         "type": "resource",
                         "value": "been"
                     }, {
                         "type": "resource",
                         "value": "identity"
                     }]
                 },
                 "type": "triple",
                 "subject": {
                     "type": "resource",
                     "value": "Obama"
                 },
                 "inverse-predicate": {
                     "type": "resource",
                     "value": "identity"
                 },
                 "object": {
                     "type": "missing"
                 }
             }, {
                 "predicate": {
                     "type":
                     "list",
                     "list": [{
                         "type": "resource",
                         "value": "been"
                     }, {
                         "type": "resource",
                         "value": "identity"
                     }]
                 },
                 "type": "triple",
                 "subject": {
                     "type": "resource",
                     "value": "United States president"
                 },
                 "inverse-predicate": {
                     "type": "resource",
                     "value": "identity"
                 },
                 "object": {
                     "type": "missing"
                 }
             }]
         })
    def testnormalFormProductionSuperl(self):
        tree = computeTree(data.tanzania()['sentences'][0])
        NamedEntityMerging(tree).merge()
        PrepositionMerging(tree).merge()
        qw = simplify(tree)
        result = normalFormProduction(tree, qw)
        self.assertEqual(result, {
    "list": {
        "list": {
            "object": {
                "type": "missing"
            },
            "predicate": {
                "value": "mountain",
                "type": "resource"
            },
            "subject": {
                "value": "Tanzania",
                "type": "resource"
            },
            "type": "triple"
        },
        "predicate": {
                    "value" : "height",
                    "type"  : "resource"
                },
        "type": "sort"
    },
    "type": "last"
})
    def testnormalFormProductionR8(self):
        tree = computeTree(data.mistake())
        NamedEntityMerging(tree).merge()
        PrepositionMerging(tree).merge()
        qw = simplify(tree)
        result = normalFormProduction(tree, qw)
        self.assertEqual(result, {
    "type": "triple",
    "subject": {
        "type": "resource",
        "value": "mistake"
    },
    "object": {
        "type": "missing"
    },
    "predicate": {
        "type": "list",
        "list": [
            {
                "type": "resource",
                "value": "place"
            },
            {
                "type": "resource",
                "value": "location"
            },
            {
                "type": "resource",
                "value": "residence"
            },
            {
                "type": "resource",
                "value": "country"
            },
            {
                "type": "resource",
                "value": "city"
            },
            {
                "type": "resource",
                "value": "town"
            },
            {
                "type": "resource",
                "value": "state"
            },
            {
                "type": "resource",
                "value": "locality"
            }
        ]
    }
})
def get_answer(sentence=""):
    nlp = StanfordNLP()
    if sentence == "":
        sentence = eval(input(""))
    handler = ppp_questionparsing_grammatical.QuotationHandler()
    simplifiedSentence = handler.pull(sentence)
    result = nlp.parse(simplifiedSentence)
    tree = ppp_questionparsing_grammatical.computeTree(result)
    handler.push(tree)
    ppp_questionparsing_grammatical.NamedEntityMerging(tree).merge()
    ppp_questionparsing_grammatical.PrepositionMerging(tree).merge()
    qw = ppp_questionparsing_grammatical.simplify(tree)
    t = ppp_questionparsing_grammatical.normalFormProduction(tree, qw)
    return t
def get_answer(sentence=""):
    nlp = StanfordNLP()
    if sentence == "":
        sentence = input("")
    handler = ppp_questionparsing_grammatical.QuotationHandler()
    simplifiedSentence = handler.pull(sentence)
    result = nlp.parse(simplifiedSentence)
    tree = ppp_questionparsing_grammatical.computeTree(result['sentences'][0])
    handler.push(tree)
    ppp_questionparsing_grammatical.NamedEntityMerging(tree).merge()
    ppp_questionparsing_grammatical.PrepositionMerging(tree).merge()
    qw = ppp_questionparsing_grammatical.simplify(tree)
    t = ppp_questionparsing_grammatical.normalFormProduction(tree,qw)
    return t
    def testAndnormalFormProduction(self):
        tree = computeTree(data.give_chief())
        NamedEntityMerging(tree).merge()
        PrepositionMerging(tree).merge()
        qw = simplify(tree)
        result = normalFormProduction(tree, qw)
        self.assertEqual(result, {
    "list": [
        {
            "type": "triple",
            "subject": {
                "type": "resource",
                "value": "chief"
            },
            "object": {
                "type": "missing"
            },
            "predicate": {
                "list": [
                    {
                        "type": "resource",
                        "value": "identity"
                    }
                ],
                "type": "list"
            }
        },
        {
            "type": "triple",
            "subject": {
                "type": "resource",
                "value": "prime minister"
            },
            "object": {
                "type": "missing"
            },
            "predicate": {
                "list": [
                    {
                        "type": "resource",
                        "value": "identity"
                    }
                ],
                "type": "list"
            }
        }
    ],
    "type": "intersection"
})
Ejemplo n.º 9
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 def testnormalFormProductionR8(self):
     tree = computeTree(data.mistake())
     NamedEntityMerging(tree).merge()
     PrepositionMerging(tree).merge()
     qw = simplify(tree)
     result = normalFormProduction(tree, qw)
     self.assertEqual(
         result, {
             "type": "triple",
             "subject": {
                 "type": "resource",
                 "value": "mistake"
             },
             "object": {
                 "type": "missing"
             },
             "predicate": {
                 "type":
                 "list",
                 "list": [{
                     "type": "resource",
                     "value": "place"
                 }, {
                     "type": "resource",
                     "value": "location"
                 }, {
                     "type": "resource",
                     "value": "residence"
                 }, {
                     "type": "resource",
                     "value": "country"
                 }, {
                     "type": "resource",
                     "value": "city"
                 }, {
                     "type": "resource",
                     "value": "town"
                 }, {
                     "type": "resource",
                     "value": "state"
                 }, {
                     "type": "resource",
                     "value": "locality"
                 }]
             }
         })
Ejemplo n.º 10
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 def testAndnormalFormProduction(self):
     tree = computeTree(data.give_chief())
     NamedEntityMerging(tree).merge()
     PrepositionMerging(tree).merge()
     qw = simplify(tree)
     result = normalFormProduction(tree, qw)
     self.assertEqual(
         result, {
             "list": [{
                 "type": "triple",
                 "subject": {
                     "type": "resource",
                     "value": "chief"
                 },
                 "object": {
                     "type": "missing"
                 },
                 "predicate": {
                     "list": [{
                         "type": "resource",
                         "value": "identity"
                     }],
                     "type": "list"
                 }
             }, {
                 "type": "triple",
                 "subject": {
                     "type": "resource",
                     "value": "prime minister"
                 },
                 "object": {
                     "type": "missing"
                 },
                 "predicate": {
                     "list": [{
                         "type": "resource",
                         "value": "identity"
                     }],
                     "type": "list"
                 }
             }],
             "type":
             "intersection"
         })
    def testSemiQuestionWord1(self):
        tree = computeTree(data.roald())
        NamedEntityMerging(tree).merge()
        PrepositionMerging(tree).merge()
        qw = simplify(tree)
        result = normalFormProduction(tree, qw)
        self.assertEqual(result, {
    "subject": {
        "value": "Roald Dahl",
        "type": "resource"
    },
    "type": "triple",
    "predicate": {
        "value": "book",
        "type": "resource"
    },
    "object": {
        "type": "missing"
    }
})
    def testSemiQuestionWord5(self):
        tree = computeTree(data.capital2())
        NamedEntityMerging(tree).merge()
        PrepositionMerging(tree).merge()
        qw = simplify(tree)
        result = normalFormProduction(tree, qw)
        self.assertEqual(result, {
    "predicate": {
        "type": "resource",
        "value": "capital"
    },
    "type": "triple",
    "subject": {
        "type": "resource",
        "value": "France"
    },
    "object": {
        "type": "missing"
    }
})
    def testnormalFormProduction1(self):
        tree = computeTree(data.give_president_of_USA())
        NamedEntityMerging(tree).merge()
        PrepositionMerging(tree).merge()
        qw = simplify(tree)
        result = normalFormProduction(tree, qw)
        self.assertEqual(result, {
    "object": {
        "type": "missing"
    },
    "subject": {
        "type": "resource",
        "value": "United States"
    },
    "predicate": {
        "type": "resource",
        "value": "president"
    },
    "type": "triple"
})
    def testSemiQuestionWord3(self):
        tree = computeTree(data.list_president2()['sentences'][0])
        NamedEntityMerging(tree).merge()
        PrepositionMerging(tree).merge()
        qw = simplify(tree)
        result = normalFormProduction(tree, qw)
        self.assertEqual(result, {
    "type": "triple",
    "object": {
        "type": "missing"
    },
    "predicate": {
        "type": "resource",
        "value": "president"
    },
    "subject": {
        "type": "resource",
        "value": "France"
    }
})
    def testSuperlativenormalFormProduction(self):
        tree = computeTree(data.give_opera())
        NamedEntityMerging(tree).merge()
        PrepositionMerging(tree).merge()
        qw = simplify(tree)
        result = normalFormProduction(tree, qw)
        self.assertEqual(result, {
    "list": [
        {
            "list": {
                "predicate": {
                    "value": "default",
                    "type": "resource"
                },
                "list": {
                    "value": "Gilbert",
                    "type": "resource"
                },
                "type": "sort"
            },
            "index": 0,
            "type": "nth"
        },
        {
            "list": {
                "predicate": {
                    "value": "default",
                    "type": "resource"
                },
                "list": {
                    "value": "Sullivan opera",
                    "type": "resource"
                },
                "type": "sort"
            },
            "index": 0,
            "type": "nth"
        }
    ],
    "type": "intersection"
})
Ejemplo n.º 16
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 def testSemiQuestionWord1(self):
     tree = computeTree(data.roald())
     NamedEntityMerging(tree).merge()
     PrepositionMerging(tree).merge()
     qw = simplify(tree)
     result = normalFormProduction(tree, qw)
     self.assertEqual(
         result, {
             "subject": {
                 "value": "Roald Dahl",
                 "type": "resource"
             },
             "type": "triple",
             "predicate": {
                 "value": "book",
                 "type": "resource"
             },
             "object": {
                 "type": "missing"
             }
         })
Ejemplo n.º 17
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 def testSemiQuestionWord5(self):
     tree = computeTree(data.capital2())
     NamedEntityMerging(tree).merge()
     PrepositionMerging(tree).merge()
     qw = simplify(tree)
     result = normalFormProduction(tree, qw)
     self.assertEqual(
         result, {
             "predicate": {
                 "type": "resource",
                 "value": "capital"
             },
             "type": "triple",
             "subject": {
                 "type": "resource",
                 "value": "France"
             },
             "object": {
                 "type": "missing"
             }
         })
Ejemplo n.º 18
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 def testnormalFormProduction1(self):
     tree = computeTree(data.give_president_of_USA())
     NamedEntityMerging(tree).merge()
     PrepositionMerging(tree).merge()
     qw = simplify(tree)
     result = normalFormProduction(tree, qw)
     self.assertEqual(
         result, {
             "object": {
                 "type": "missing"
             },
             "subject": {
                 "type": "resource",
                 "value": "United States"
             },
             "predicate": {
                 "type": "resource",
                 "value": "president"
             },
             "type": "triple"
         })
Ejemplo n.º 19
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 def testSuperlativenormalFormProduction(self):
     tree = computeTree(data.give_opera())
     NamedEntityMerging(tree).merge()
     PrepositionMerging(tree).merge()
     qw = simplify(tree)
     result = normalFormProduction(tree, qw)
     self.assertEqual(
         result, {
             "list": [{
                 "list": {
                     "predicate": {
                         "value": "default",
                         "type": "resource"
                     },
                     "list": {
                         "value": "Gilbert",
                         "type": "resource"
                     },
                     "type": "sort"
                 },
                 "index": 0,
                 "type": "nth"
             }, {
                 "list": {
                     "predicate": {
                         "value": "default",
                         "type": "resource"
                     },
                     "list": {
                         "value": "Sullivan opera",
                         "type": "resource"
                     },
                     "type": "sort"
                 },
                 "index": 0,
                 "type": "nth"
             }],
             "type":
             "intersection"
         })
    def testExists(self):
        tree = computeTree(data.king_england())
        NamedEntityMerging(tree).merge()
        PrepositionMerging(tree).merge()
        qw = simplify(tree)
        result = normalFormProduction(tree, qw)
        self.assertEqual(result, {
    "list": {
        "predicate": {
            "type": "resource",
            "value": "king"
        },
        "subject": {
            "type": "resource",
            "value": "England"
        },
        "type": "triple",
        "object": {
            "type": "missing"
        }
    },
    "type": "exists"
})
Ejemplo n.º 21
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 def testExists(self):
     tree = computeTree(data.king_england())
     NamedEntityMerging(tree).merge()
     PrepositionMerging(tree).merge()
     qw = simplify(tree)
     result = normalFormProduction(tree, qw)
     self.assertEqual(
         result, {
             "list": {
                 "predicate": {
                     "type": "resource",
                     "value": "king"
                 },
                 "subject": {
                     "type": "resource",
                     "value": "England"
                 },
                 "type": "triple",
                 "object": {
                     "type": "missing"
                 }
             },
             "type": "exists"
         })
    def testnormalFormProduction3(self):
        tree = computeTree(data.give_obama_president_usa())
        NamedEntityMerging(tree).merge()
        PrepositionMerging(tree).merge()
        qw = simplify(tree)
        result = normalFormProduction(tree, qw)
        self.assertEqual(result, {
    "type": "intersection",
    "list": [
        {
            "predicate": {
                "type": "list",
                "list": [
                    {
                        "type": "resource",
                        "value": "been"
                    },
                    {
                        "type": "resource",
                        "value": "identity"
                    }
                ]
            },
            "type": "triple",
            "subject": {
                "type": "resource",
                "value": "Obama"
            },
            "inverse-predicate": {
                "type": "resource",
                "value": "identity"
            },
            "object": {
                "type": "missing"
            }
        },
        {
            "predicate": {
                "type": "list",
                "list": [
                    {
                        "type": "resource",
                        "value": "been"
                    },
                    {
                        "type": "resource",
                        "value": "identity"
                    }
                ]
            },
            "type": "triple",
            "subject": {
                "type": "resource",
                "value": "United States president"
            },
            "inverse-predicate": {
                "type": "resource",
                "value": "identity"
            },
            "object": {
                "type": "missing"
            }
        }
    ]
})
    def testnormalFormProduction2(self):
        handler = QuotationHandler('foo')
        sentence = 'Who wrote "Lucy in the Sky with Diamonds" and "Let It Be"?'
        nonAmbiguousSentence = handler.pull(sentence)
        result=data.give_LSD_LIB()
        tree=computeTree(result)
        handler.push(tree)
        NamedEntityMerging(tree).merge()
        PrepositionMerging(tree).merge()
        qw = simplify(tree)
        result = normalFormProduction(tree, qw)
        self.assertEqual(result, {
    "list": [
        {
            "inverse-predicate": {
                "list": [
                    {
                        "value": "author",
                        "type": "resource"
                    },
                    {
                        "value": "writer",
                        "type": "resource"
                    }
                ],
                "type": "list"
            },
            "subject": {
                "type": "missing"
            },
            "object": {
                "value": "Lucy in the Sky with Diamonds",
                "type": "resource"
            },
            "type": "triple",
            "predicate": {
                "list": [
                    {
                        "value": "written",
                        "type": "resource"
                    },
                    {
                        "value": "literary works",
                        "type": "resource"
                    },
                    {
                        "value": "bibliography",
                        "type": "resource"
                    },
                    {
                        "value": "notable work",
                        "type": "resource"
                    }
                ],
                "type": "list"
            }
        },
        {
            "inverse-predicate": {
                "list": [
                    {
                        "value": "author",
                        "type": "resource"
                    },
                    {
                        "value": "writer",
                        "type": "resource"
                    }
                ],
                "type": "list"
            },
            "subject": {
                "type": "missing"
            },
            "object": {
                "value": "Let It Be",
                "type": "resource"
            },
            "type": "triple",
            "predicate": {
                "list": [
                    {
                        "value": "written",
                        "type": "resource"
                    },
                    {
                        "value": "literary works",
                        "type": "resource"
                    },
                    {
                        "value": "bibliography",
                        "type": "resource"
                    },
                    {
                        "value": "notable work",
                        "type": "resource"
                    }
                ],
                "type": "list"
            }
        }
    ],
    "type": "intersection"
})
Ejemplo n.º 24
0
 def testnormalFormProduction2(self):
     handler = QuotationHandler('foo')
     sentence = 'Who wrote "Lucy in the Sky with Diamonds" and "Let It Be"?'
     nonAmbiguousSentence = handler.pull(sentence)
     result = data.give_LSD_LIB()
     tree = computeTree(result)
     handler.push(tree)
     NamedEntityMerging(tree).merge()
     PrepositionMerging(tree).merge()
     qw = simplify(tree)
     result = normalFormProduction(tree, qw)
     self.assertEqual(
         result, {
             "list": [{
                 "inverse-predicate": {
                     "list": [{
                         "value": "author",
                         "type": "resource"
                     }, {
                         "value": "writer",
                         "type": "resource"
                     }],
                     "type":
                     "list"
                 },
                 "subject": {
                     "type": "missing"
                 },
                 "object": {
                     "value": "Lucy in the Sky with Diamonds",
                     "type": "resource"
                 },
                 "type": "triple",
                 "predicate": {
                     "list": [{
                         "value": "written",
                         "type": "resource"
                     }, {
                         "value": "literary works",
                         "type": "resource"
                     }, {
                         "value": "bibliography",
                         "type": "resource"
                     }, {
                         "value": "notable work",
                         "type": "resource"
                     }],
                     "type":
                     "list"
                 }
             }, {
                 "inverse-predicate": {
                     "list": [{
                         "value": "author",
                         "type": "resource"
                     }, {
                         "value": "writer",
                         "type": "resource"
                     }],
                     "type":
                     "list"
                 },
                 "subject": {
                     "type": "missing"
                 },
                 "object": {
                     "value": "Let It Be",
                     "type": "resource"
                 },
                 "type": "triple",
                 "predicate": {
                     "list": [{
                         "value": "written",
                         "type": "resource"
                     }, {
                         "value": "literary works",
                         "type": "resource"
                     }, {
                         "value": "bibliography",
                         "type": "resource"
                     }, {
                         "value": "notable work",
                         "type": "resource"
                     }],
                     "type":
                     "list"
                 }
             }],
             "type":
             "intersection"
         })