Пример #1
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    def test_classify(self):
        corpus_inst = CorpusInst()
        descriptor = create_setting().descriptor
        corpus_inst.loadtxt("exp/inst/dev001.inst", 
                            descriptor.dtype)
        graph_inst = corpus_inst[0]
        
        # clear relevant fields
        graph_inst["pred_relation"] = "None"
        graph_inst["pred_weight"] = 0.0

        # backup original for comparison later on
        pred_before = graph_inst["pred_relation"].copy()
        weight_before = graph_inst["pred_weight"].copy()
        
        classifier = TimblClassifier(descriptor,
                                     "exp/inst/dev001.inst")
        classifier.classify(graph_inst)
        
        # delete classifier to make sure that server is killed,
        # even if test fails
        del classifier
        
        # check that at least one prediction is different (i.e. not None)
        self.assertTrue(any(graph_inst["pred_relation"] != pred_before))
        
        # check that at least one weight is different (i.e. not 0.0)
        self.assertTrue(any(graph_inst["pred_weight"] != weight_before))
Пример #2
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    def test_aligner(self):
        descriptor = create_setting().descriptor
        classifier = TimblClassifier(descriptor, "exp/inst/dev001.inst")
        aligner = GraphAligner(descriptor=descriptor, classifier=classifier)

        corpus = ParallelGraphCorpus(inf="exp/true/dev001_true.pgc")

        for graph_pair in corpus[:3]:
            graph_inst = aligner.align(graph_pair, clear=True)
Пример #3
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 def test_merge(self):
     corpus_inst = CorpusInst()
     dtype = create_setting().descriptor.dtype
     corpus_inst.loadtxt("exp/inst/dev001.inst", dtype)
     graph_inst = corpus_inst[0]
     
     pgc = ParallelGraphCorpus(inf="exp/true/dev001_true.pgc")
     graph_pair = pgc[0]
     
     gm = Merger()
     gm.merge(graph_inst, graph_pair)
Пример #4
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    def test_merge(self):
        corpus_inst = CorpusInst()
        dtype = create_setting().descriptor.dtype
        corpus_inst.loadtxt("exp/inst/dev001.inst", dtype)
        graph_inst = corpus_inst[0]

        pgc = ParallelGraphCorpus(inf="exp/true/dev001_true.pgc")
        graph_pair = pgc[0]

        gm = Merger()
        gm.merge(graph_inst, graph_pair)
Пример #5
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    def test_aligner(self):
        descriptor = create_setting().descriptor
        classifier = TimblClassifier(descriptor,
                                     "exp/inst/dev001.inst")
        aligner = GraphAligner(
            descriptor=descriptor,
            classifier=classifier)

        corpus = ParallelGraphCorpus(inf="exp/true/dev001_true.pgc")
        
        for graph_pair in corpus[:3]:
            graph_inst = aligner.align(graph_pair, clear=True)
Пример #6
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    def test_match(self):
        corpus_inst = CorpusInst()
        dtype = create_setting().descriptor.dtype
        corpus_inst.loadtxt("exp/inst/dev001.inst", dtype)
        graph_inst = corpus_inst[0]

        graph_inst["match_relation"] = "None"
        match_before = graph_inst["match_relation"].copy()

        gm = Matcher()
        gm.match(graph_inst)

        ## print graph_inst["match_relation"]
        # check that at least one match is different 
        self.assertTrue(any(graph_inst["match_relation"] != match_before))
Пример #7
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    def test_match(self):
        corpus_inst = CorpusInst()
        dtype = create_setting().descriptor.dtype
        corpus_inst.loadtxt("exp/inst/dev001.inst", dtype)
        graph_inst = corpus_inst[0]

        graph_inst["match_relation"] = "None"
        match_before = graph_inst["match_relation"].copy()

        gm = Matcher()
        gm.match(graph_inst)

        ## print graph_inst["match_relation"]
        # check that at least one match is different
        self.assertTrue(any(graph_inst["match_relation"] != match_before))
Пример #8
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    def test_align(self):
        # create graph aligner
        descriptor = create_setting().descriptor
        classifier = TimblClassifier(descriptor, "exp/inst/dev001.inst")
        graph_aligner = GraphAligner(descriptor=descriptor,
                                     classifier=classifier)

        # create corpus aligner
        corpus_aligner = CorpusAligner(graph_aligner=graph_aligner,
                                       graph_selector=select_parsed_graph_pair)

        # align part of corpus
        corpus = ParallelGraphCorpus(inf="exp/true/dev001_true.pgc")[:3]
        corpus_aligner.align(corpus[:3], clear=True)
        #corpus.write(pprint=True)

        self.assertTrue(corpus[0].alignments() or corpus[1].alignments()
                        or corpus[2].alignments())
Пример #9
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    def test_align(self):
        # create graph aligner
        descriptor = create_setting().descriptor
        classifier = TimblClassifier(descriptor,
                                     "exp/inst/dev001.inst")
        graph_aligner = GraphAligner(
            descriptor=descriptor,
            classifier=classifier)
        
        # create corpus aligner
        corpus_aligner = CorpusAligner(
            graph_aligner=graph_aligner,
            graph_selector=select_parsed_graph_pair)
        
        # align part of corpus
        corpus = ParallelGraphCorpus(inf="exp/true/dev001_true.pgc")[:3]
        corpus_aligner.align(corpus[:3], clear=True)
        #corpus.write(pprint=True)

        self.assertTrue(
            corpus[0].alignments() or
            corpus[1].alignments() or
            corpus[2].alignments())