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@ -31,6 +31,8 @@ import dlib
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# vectors and store them into a ranking_pair object like so:
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data = dlib.ranking_pair()
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# Here we add two examples. In real applications, you would want lots of
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# examples of relevant and non-relevant vectors.
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data.relevant.append(dlib.vector([1, 0]))
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data.nonrelevant.append(dlib.vector([0, 1]))
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@ -52,7 +54,7 @@ rank = trainer.train(data)
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# score for non-relevant vectors.
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print "ranking score for a relevant vector: ", rank(data.relevant[0])
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print "ranking score for a non-relevant vector: ", rank(data.nonrelevant[0])
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# These output the following:
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# The output is the following:
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# ranking score for a relevant vector: 0.5
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# ranking score for a non-relevant vector: -0.5
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@ -108,3 +110,36 @@ rank = trainer.train(queries)
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# mean average precision.
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print "cross validation results: ", dlib.cross_validate_ranking_trainer(trainer, queries, 4)
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# Finally, note that the ranking tools also support the use of sparse vectors in
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# addition to dense vectors (which we used above). So if we wanted to do
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# exactly what we did in the first part of the example program above but using
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# sparse vectors we would do it like so:
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data = dlib.sparse_ranking_pair()
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samp = dlib.sparse_vector()
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# Make samp represent the same vector as dlib.vector([1, 0]). In dlib, a sparse
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# vector is just an array of pair objects. Each pair stores an index and a
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# value. Moreover, the svm-ranking tools require sparse vectors to be sorted
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# and to have unique indices. This means that the indices are listed in
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# increasing order and no index value shows up more than once. If necessary,
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# you can use the dlib.make_sparse_vector() routine to make a sparse vector
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# object properly sorted and contain unique indices.
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samp.append(dlib.pair(0,1))
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data.relevant.append(samp)
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# Mow make samp represent the same vector as dlib.vector([0, 1])
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samp.clear()
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samp.append(dlib.pair(1,1))
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data.nonrelevant.append(samp)
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trainer = dlib.svm_rank_trainer_sparse()
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rank = trainer.train(data)
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print "ranking score for a relevant vector: ", rank(data.relevant[0])
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print "ranking score for a non-relevant vector: ", rank(data.nonrelevant[0])
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# Just as before, the output is the following:
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# ranking score for a relevant vector: 0.5
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# ranking score for a non-relevant vector: -0.5
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Davis King
11 years ago