def train_classifier():
if (not Tag.objects.filter(
matching_algorithm=Tag.MATCH_AUTO).exists() and
not DocumentType.objects.filter(
matching_algorithm=Tag.MATCH_AUTO).exists() and
not Correspondent.objects.filter(
matching_algorithm=Tag.MATCH_AUTO).exists()):
return
classifier = load_classifier()
if not classifier:
classifier = DocumentClassifier()
try:
if classifier.train():
logger.info(
"Saving updated classifier model to {}...".format(
settings.MODEL_FILE)
)
classifier.save()
else:
logger.debug(
"Training data unchanged."
)
except Exception as e:
logger.warning(
"Classifier error: " + str(e)
)
def test_load_and_classify(self):
self.generate_test_data()
new_classifier = DocumentClassifier()
new_classifier.load()
self.assertCountEqual(new_classifier.predict_tags(self.doc2.content),
[45, 12])
def train_classifier():
classifier = DocumentClassifier()
try:
# load the classifier, since we might not have to train it again.
classifier.reload()
except (OSError, EOFError, IncompatibleClassifierVersionError):
# This is what we're going to fix here.
classifier = DocumentClassifier()
try:
if classifier.train():
logging.getLogger(__name__).info(
"Saving updated classifier model to {}...".format(
settings.MODEL_FILE)
)
classifier.save_classifier()
else:
logging.getLogger(__name__).debug(
"Training data unchanged."
)
except Exception as e:
logging.getLogger(__name__).error(
"Classifier error: " + str(e)
)
def testSaveClassifier(self):
self.generate_test_data()
self.classifier.train()
self.classifier.save()
new_classifier = DocumentClassifier()
new_classifier.load()
self.assertFalse(new_classifier.train())
def handle(self, *args, **options):
self.verbosity = options["verbosity"]
if options["inbox_only"]:
queryset = Document.objects.filter(tags__is_inbox_tag=True)
else:
queryset = Document.objects.all()
documents = queryset.distinct()
classifier = DocumentClassifier()
try:
classifier.reload()
except (OSError, EOFError, IncompatibleClassifierVersionError) as e:
logging.getLogger(__name__).warning(
f"Cannot classify documents: {e}.")
classifier = None
for document in documents:
logging.getLogger(__name__).info(
f"Processing document {document.title}")
if options['correspondent']:
set_correspondent(sender=None,
document=document,
classifier=classifier,
replace=options['overwrite'],
use_first=options['use_first'])
if options['document_type']:
set_document_type(sender=None,
document=document,
classifier=classifier,
replace=options['overwrite'],
use_first=options['use_first'])
if options['tags']:
set_tags(sender=None,
document=document,
classifier=classifier,
replace=options['overwrite'])
def testVersionIncreased(self):
self.generate_test_data()
self.assertTrue(self.classifier.train())
self.assertFalse(self.classifier.train())
self.classifier.save()
classifier2 = DocumentClassifier()
current_ver = DocumentClassifier.FORMAT_VERSION
with mock.patch(
"documents.classifier.DocumentClassifier.FORMAT_VERSION",
current_ver + 1):
# assure that we won't load old classifiers.
self.assertRaises(IncompatibleClassifierVersionError,
classifier2.load)
self.classifier.save()
# assure that we can load the classifier after saving it.
classifier2.load()
def testReload(self):
self.generate_test_data()
self.assertTrue(self.classifier.train())
self.classifier.save_classifier()
classifier2 = DocumentClassifier()
classifier2.reload()
v1 = classifier2.classifier_version
# change the classifier after some time.
sleep(1)
self.classifier.save_classifier()
classifier2.reload()
v2 = classifier2.classifier_version
self.assertNotEqual(v1, v2)
def setUp(self):
super(TestClassifier, self).setUp()
self.classifier = DocumentClassifier()
class TestClassifier(DirectoriesMixin, TestCase):
def setUp(self):
super(TestClassifier, self).setUp()
self.classifier = DocumentClassifier()
def generate_test_data(self):
self.c1 = Correspondent.objects.create(
name="c1", matching_algorithm=Correspondent.MATCH_AUTO)
self.c2 = Correspondent.objects.create(name="c2")
self.c3 = Correspondent.objects.create(
name="c3", matching_algorithm=Correspondent.MATCH_AUTO)
self.t1 = Tag.objects.create(name="t1",
matching_algorithm=Tag.MATCH_AUTO,
pk=12)
self.t2 = Tag.objects.create(name="t2",
matching_algorithm=Tag.MATCH_ANY,
pk=34,
is_inbox_tag=True)
self.t3 = Tag.objects.create(name="t3",
matching_algorithm=Tag.MATCH_AUTO,
pk=45)
self.dt = DocumentType.objects.create(
name="dt", matching_algorithm=DocumentType.MATCH_AUTO)
self.dt2 = DocumentType.objects.create(
name="dt2", matching_algorithm=DocumentType.MATCH_AUTO)
self.doc1 = Document.objects.create(
title="doc1",
content="this is a document from c1",
correspondent=self.c1,
checksum="A",
document_type=self.dt)
self.doc2 = Document.objects.create(
title="doc1",
content="this is another document, but from c2",
correspondent=self.c2,
checksum="B")
self.doc_inbox = Document.objects.create(title="doc235",
content="aa",
checksum="C")
self.doc1.tags.add(self.t1)
self.doc2.tags.add(self.t1)
self.doc2.tags.add(self.t3)
self.doc_inbox.tags.add(self.t2)
def testNoTrainingData(self):
try:
self.classifier.train()
except ValueError as e:
self.assertEqual(str(e), "No training data available.")
else:
self.fail("Should raise exception")
def testEmpty(self):
Document.objects.create(title="WOW", checksum="3457", content="ASD")
self.classifier.train()
self.assertIsNone(self.classifier.document_type_classifier)
self.assertIsNone(self.classifier.tags_classifier)
self.assertIsNone(self.classifier.correspondent_classifier)
self.assertListEqual(self.classifier.predict_tags(""), [])
self.assertIsNone(self.classifier.predict_document_type(""))
self.assertIsNone(self.classifier.predict_correspondent(""))
def testTrain(self):
self.generate_test_data()
self.classifier.train()
self.assertListEqual(
list(self.classifier.correspondent_classifier.classes_),
[-1, self.c1.pk])
self.assertListEqual(list(self.classifier.tags_binarizer.classes_),
[self.t1.pk, self.t3.pk])
def testPredict(self):
self.generate_test_data()
self.classifier.train()
self.assertEqual(
self.classifier.predict_correspondent(self.doc1.content),
self.c1.pk)
self.assertEqual(
self.classifier.predict_correspondent(self.doc2.content), None)
self.assertListEqual(self.classifier.predict_tags(self.doc1.content),
[self.t1.pk])
self.assertListEqual(self.classifier.predict_tags(self.doc2.content),
[self.t1.pk, self.t3.pk])
self.assertEqual(
self.classifier.predict_document_type(self.doc1.content),
self.dt.pk)
self.assertEqual(
self.classifier.predict_document_type(self.doc2.content), None)
def testDatasetHashing(self):
self.generate_test_data()
self.assertTrue(self.classifier.train())
self.assertFalse(self.classifier.train())
def testVersionIncreased(self):
self.generate_test_data()
self.assertTrue(self.classifier.train())
self.assertFalse(self.classifier.train())
self.classifier.save()
classifier2 = DocumentClassifier()
current_ver = DocumentClassifier.FORMAT_VERSION
with mock.patch(
"documents.classifier.DocumentClassifier.FORMAT_VERSION",
current_ver + 1):
# assure that we won't load old classifiers.
self.assertRaises(IncompatibleClassifierVersionError,
classifier2.load)
self.classifier.save()
# assure that we can load the classifier after saving it.
classifier2.load()
@override_settings(DATA_DIR=tempfile.mkdtemp())
def testSaveClassifier(self):
self.generate_test_data()
self.classifier.train()
self.classifier.save()
new_classifier = DocumentClassifier()
new_classifier.load()
self.assertFalse(new_classifier.train())
@override_settings(MODEL_FILE=os.path.join(os.path.dirname(__file__),
"data", "model.pickle"))
def test_load_and_classify(self):
self.generate_test_data()
new_classifier = DocumentClassifier()
new_classifier.load()
self.assertCountEqual(new_classifier.predict_tags(self.doc2.content),
[45, 12])
def test_one_correspondent_predict(self):
c1 = Correspondent.objects.create(
name="c1", matching_algorithm=Correspondent.MATCH_AUTO)
doc1 = Document.objects.create(title="doc1",
content="this is a document from c1",
correspondent=c1,
checksum="A")
self.classifier.train()
self.assertEqual(self.classifier.predict_correspondent(doc1.content),
c1.pk)
def test_one_correspondent_predict_manydocs(self):
c1 = Correspondent.objects.create(
name="c1", matching_algorithm=Correspondent.MATCH_AUTO)
doc1 = Document.objects.create(title="doc1",
content="this is a document from c1",
correspondent=c1,
checksum="A")
doc2 = Document.objects.create(title="doc2",
content="this is a document from noone",
checksum="B")
self.classifier.train()
self.assertEqual(self.classifier.predict_correspondent(doc1.content),
c1.pk)
self.assertIsNone(self.classifier.predict_correspondent(doc2.content))
def test_one_type_predict(self):
dt = DocumentType.objects.create(
name="dt", matching_algorithm=DocumentType.MATCH_AUTO)
doc1 = Document.objects.create(title="doc1",
content="this is a document from c1",
checksum="A",
document_type=dt)
self.classifier.train()
self.assertEqual(self.classifier.predict_document_type(doc1.content),
dt.pk)
def test_one_type_predict_manydocs(self):
dt = DocumentType.objects.create(
name="dt", matching_algorithm=DocumentType.MATCH_AUTO)
doc1 = Document.objects.create(title="doc1",
content="this is a document from c1",
checksum="A",
document_type=dt)
doc2 = Document.objects.create(title="doc1",
content="this is a document from c2",
checksum="B")
self.classifier.train()
self.assertEqual(self.classifier.predict_document_type(doc1.content),
dt.pk)
self.assertIsNone(self.classifier.predict_document_type(doc2.content))
def test_one_tag_predict(self):
t1 = Tag.objects.create(name="t1",
matching_algorithm=Tag.MATCH_AUTO,
pk=12)
doc1 = Document.objects.create(title="doc1",
content="this is a document from c1",
checksum="A")
doc1.tags.add(t1)
self.classifier.train()
self.assertListEqual(self.classifier.predict_tags(doc1.content),
[t1.pk])
def test_one_tag_predict_unassigned(self):
t1 = Tag.objects.create(name="t1",
matching_algorithm=Tag.MATCH_AUTO,
pk=12)
doc1 = Document.objects.create(title="doc1",
content="this is a document from c1",
checksum="A")
self.classifier.train()
self.assertListEqual(self.classifier.predict_tags(doc1.content), [])
def test_two_tags_predict_singledoc(self):
t1 = Tag.objects.create(name="t1",
matching_algorithm=Tag.MATCH_AUTO,
pk=12)
t2 = Tag.objects.create(name="t2",
matching_algorithm=Tag.MATCH_AUTO,
pk=121)
doc4 = Document.objects.create(title="doc1",
content="this is a document from c4",
checksum="D")
doc4.tags.add(t1)
doc4.tags.add(t2)
self.classifier.train()
self.assertListEqual(self.classifier.predict_tags(doc4.content),
[t1.pk, t2.pk])
def test_two_tags_predict(self):
t1 = Tag.objects.create(name="t1",
matching_algorithm=Tag.MATCH_AUTO,
pk=12)
t2 = Tag.objects.create(name="t2",
matching_algorithm=Tag.MATCH_AUTO,
pk=121)
doc1 = Document.objects.create(title="doc1",
content="this is a document from c1",
checksum="A")
doc2 = Document.objects.create(title="doc1",
content="this is a document from c2",
checksum="B")
doc3 = Document.objects.create(title="doc1",
content="this is a document from c3",
checksum="C")
doc4 = Document.objects.create(title="doc1",
content="this is a document from c4",
checksum="D")
doc1.tags.add(t1)
doc2.tags.add(t2)
doc4.tags.add(t1)
doc4.tags.add(t2)
self.classifier.train()
self.assertListEqual(self.classifier.predict_tags(doc1.content),
[t1.pk])
self.assertListEqual(self.classifier.predict_tags(doc2.content),
[t2.pk])
self.assertListEqual(self.classifier.predict_tags(doc3.content), [])
self.assertListEqual(self.classifier.predict_tags(doc4.content),
[t1.pk, t2.pk])
def test_one_tag_predict_multi(self):
t1 = Tag.objects.create(name="t1",
matching_algorithm=Tag.MATCH_AUTO,
pk=12)
doc1 = Document.objects.create(title="doc1",
content="this is a document from c1",
checksum="A")
doc2 = Document.objects.create(title="doc2",
content="this is a document from c2",
checksum="B")
doc1.tags.add(t1)
doc2.tags.add(t1)
self.classifier.train()
self.assertListEqual(self.classifier.predict_tags(doc1.content),
[t1.pk])
self.assertListEqual(self.classifier.predict_tags(doc2.content),
[t1.pk])
def test_one_tag_predict_multi_2(self):
t1 = Tag.objects.create(name="t1",
matching_algorithm=Tag.MATCH_AUTO,
pk=12)
doc1 = Document.objects.create(title="doc1",
content="this is a document from c1",
checksum="A")
doc2 = Document.objects.create(title="doc2",
content="this is a document from c2",
checksum="B")
doc1.tags.add(t1)
self.classifier.train()
self.assertListEqual(self.classifier.predict_tags(doc1.content),
[t1.pk])
self.assertListEqual(self.classifier.predict_tags(doc2.content), [])
def test_load_classifier_not_exists(self):
self.assertFalse(os.path.exists(settings.MODEL_FILE))
self.assertIsNone(load_classifier())
@override_settings(CACHES={
'default': {
'BACKEND': 'django.core.cache.backends.dummy.DummyCache'
}
})
@mock.patch("documents.classifier.DocumentClassifier.load")
def test_load_classifier(self, load):
Path(settings.MODEL_FILE).touch()
self.assertIsNotNone(load_classifier())
load.assert_called_once()
@override_settings(CACHES={
'default': {
'BACKEND': 'django.core.cache.backends.locmem.LocMemCache'
}
})
@override_settings(MODEL_FILE=os.path.join(os.path.dirname(__file__),
"data", "model.pickle"))
def test_load_classifier_cached(self):
classifier = load_classifier()
self.assertIsNotNone(classifier)
with mock.patch(
"documents.classifier.DocumentClassifier.load") as load:
classifier2 = load_classifier()
load.assert_not_called()
@override_settings(CACHES={
'default': {
'BACKEND': 'django.core.cache.backends.dummy.DummyCache'
}
})
@mock.patch("documents.classifier.DocumentClassifier.load")
def test_load_classifier_incompatible_version(self, load):
Path(settings.MODEL_FILE).touch()
self.assertTrue(os.path.exists(settings.MODEL_FILE))
load.side_effect = IncompatibleClassifierVersionError()
self.assertIsNone(load_classifier())
self.assertFalse(os.path.exists(settings.MODEL_FILE))
@override_settings(CACHES={
'default': {
'BACKEND': 'django.core.cache.backends.dummy.DummyCache'
}
})
@mock.patch("documents.classifier.DocumentClassifier.load")
def test_load_classifier_os_error(self, load):
Path(settings.MODEL_FILE).touch()
self.assertTrue(os.path.exists(settings.MODEL_FILE))
load.side_effect = OSError()
self.assertIsNone(load_classifier())
self.assertTrue(os.path.exists(settings.MODEL_FILE))
class TestClassifier(DirectoriesMixin, TestCase):
def setUp(self):
super(TestClassifier, self).setUp()
self.classifier = DocumentClassifier()
def generate_test_data(self):
self.c1 = Correspondent.objects.create(
name="c1", matching_algorithm=Correspondent.MATCH_AUTO)
self.c2 = Correspondent.objects.create(name="c2")
self.c3 = Correspondent.objects.create(
name="c3", matching_algorithm=Correspondent.MATCH_AUTO)
self.t1 = Tag.objects.create(name="t1",
matching_algorithm=Tag.MATCH_AUTO,
pk=12)
self.t2 = Tag.objects.create(name="t2",
matching_algorithm=Tag.MATCH_ANY,
pk=34,
is_inbox_tag=True)
self.t3 = Tag.objects.create(name="t3",
matching_algorithm=Tag.MATCH_AUTO,
pk=45)
self.dt = DocumentType.objects.create(
name="dt", matching_algorithm=DocumentType.MATCH_AUTO)
self.dt2 = DocumentType.objects.create(
name="dt2", matching_algorithm=DocumentType.MATCH_AUTO)
self.doc1 = Document.objects.create(
title="doc1",
content="this is a document from c1",
correspondent=self.c1,
checksum="A",
document_type=self.dt)
self.doc2 = Document.objects.create(
title="doc1",
content="this is another document, but from c2",
correspondent=self.c2,
checksum="B")
self.doc_inbox = Document.objects.create(title="doc235",
content="aa",
checksum="C")
self.doc1.tags.add(self.t1)
self.doc2.tags.add(self.t1)
self.doc2.tags.add(self.t3)
self.doc_inbox.tags.add(self.t2)
def testNoTrainingData(self):
try:
self.classifier.train()
except ValueError as e:
self.assertEqual(str(e), "No training data available.")
else:
self.fail("Should raise exception")
def testEmpty(self):
Document.objects.create(title="WOW", checksum="3457", content="ASD")
self.classifier.train()
self.assertIsNone(self.classifier.document_type_classifier)
self.assertIsNone(self.classifier.tags_classifier)
self.assertIsNone(self.classifier.correspondent_classifier)
self.assertListEqual(self.classifier.predict_tags(""), [])
self.assertIsNone(self.classifier.predict_document_type(""))
self.assertIsNone(self.classifier.predict_correspondent(""))
def testTrain(self):
self.generate_test_data()
self.classifier.train()
self.assertListEqual(
list(self.classifier.correspondent_classifier.classes_),
[-1, self.c1.pk])
self.assertListEqual(list(self.classifier.tags_binarizer.classes_),
[self.t1.pk, self.t3.pk])
def testPredict(self):
self.generate_test_data()
self.classifier.train()
self.assertEqual(
self.classifier.predict_correspondent(self.doc1.content),
self.c1.pk)
self.assertEqual(
self.classifier.predict_correspondent(self.doc2.content), None)
self.assertListEqual(self.classifier.predict_tags(self.doc1.content),
[self.t1.pk])
self.assertListEqual(self.classifier.predict_tags(self.doc2.content),
[self.t1.pk, self.t3.pk])
self.assertEqual(
self.classifier.predict_document_type(self.doc1.content),
self.dt.pk)
self.assertEqual(
self.classifier.predict_document_type(self.doc2.content), None)
def testDatasetHashing(self):
self.generate_test_data()
self.assertTrue(self.classifier.train())
self.assertFalse(self.classifier.train())
def testVersionIncreased(self):
self.generate_test_data()
self.assertTrue(self.classifier.train())
self.assertFalse(self.classifier.train())
self.classifier.save_classifier()
classifier2 = DocumentClassifier()
current_ver = DocumentClassifier.FORMAT_VERSION
with mock.patch(
"documents.classifier.DocumentClassifier.FORMAT_VERSION",
current_ver + 1):
# assure that we won't load old classifiers.
self.assertRaises(IncompatibleClassifierVersionError,
classifier2.reload)
self.classifier.save_classifier()
# assure that we can load the classifier after saving it.
classifier2.reload()
def testReload(self):
self.generate_test_data()
self.assertTrue(self.classifier.train())
self.classifier.save_classifier()
classifier2 = DocumentClassifier()
classifier2.reload()
v1 = classifier2.classifier_version
# change the classifier after some time.
sleep(1)
self.classifier.save_classifier()
classifier2.reload()
v2 = classifier2.classifier_version
self.assertNotEqual(v1, v2)
@override_settings(DATA_DIR=tempfile.mkdtemp())
def testSaveClassifier(self):
self.generate_test_data()
self.classifier.train()
self.classifier.save_classifier()
new_classifier = DocumentClassifier()
new_classifier.reload()
self.assertFalse(new_classifier.train())
def test_one_correspondent_predict(self):
c1 = Correspondent.objects.create(
name="c1", matching_algorithm=Correspondent.MATCH_AUTO)
doc1 = Document.objects.create(title="doc1",
content="this is a document from c1",
correspondent=c1,
checksum="A")
self.classifier.train()
self.assertEqual(self.classifier.predict_correspondent(doc1.content),
c1.pk)
def test_one_correspondent_predict_manydocs(self):
c1 = Correspondent.objects.create(
name="c1", matching_algorithm=Correspondent.MATCH_AUTO)
doc1 = Document.objects.create(title="doc1",
content="this is a document from c1",
correspondent=c1,
checksum="A")
doc2 = Document.objects.create(title="doc2",
content="this is a document from noone",
checksum="B")
self.classifier.train()
self.assertEqual(self.classifier.predict_correspondent(doc1.content),
c1.pk)
self.assertIsNone(self.classifier.predict_correspondent(doc2.content))
def test_one_type_predict(self):
dt = DocumentType.objects.create(
name="dt", matching_algorithm=DocumentType.MATCH_AUTO)
doc1 = Document.objects.create(title="doc1",
content="this is a document from c1",
checksum="A",
document_type=dt)
self.classifier.train()
self.assertEqual(self.classifier.predict_document_type(doc1.content),
dt.pk)
def test_one_type_predict_manydocs(self):
dt = DocumentType.objects.create(
name="dt", matching_algorithm=DocumentType.MATCH_AUTO)
doc1 = Document.objects.create(title="doc1",
content="this is a document from c1",
checksum="A",
document_type=dt)
doc2 = Document.objects.create(title="doc1",
content="this is a document from c2",
checksum="B")
self.classifier.train()
self.assertEqual(self.classifier.predict_document_type(doc1.content),
dt.pk)
self.assertIsNone(self.classifier.predict_document_type(doc2.content))
def test_one_tag_predict(self):
t1 = Tag.objects.create(name="t1",
matching_algorithm=Tag.MATCH_AUTO,
pk=12)
doc1 = Document.objects.create(title="doc1",
content="this is a document from c1",
checksum="A")
doc1.tags.add(t1)
self.classifier.train()
self.assertListEqual(self.classifier.predict_tags(doc1.content),
[t1.pk])
def test_one_tag_predict_unassigned(self):
t1 = Tag.objects.create(name="t1",
matching_algorithm=Tag.MATCH_AUTO,
pk=12)
doc1 = Document.objects.create(title="doc1",
content="this is a document from c1",
checksum="A")
self.classifier.train()
self.assertListEqual(self.classifier.predict_tags(doc1.content), [])
def test_two_tags_predict_singledoc(self):
t1 = Tag.objects.create(name="t1",
matching_algorithm=Tag.MATCH_AUTO,
pk=12)
t2 = Tag.objects.create(name="t2",
matching_algorithm=Tag.MATCH_AUTO,
pk=121)
doc4 = Document.objects.create(title="doc1",
content="this is a document from c4",
checksum="D")
doc4.tags.add(t1)
doc4.tags.add(t2)
self.classifier.train()
self.assertListEqual(self.classifier.predict_tags(doc4.content),
[t1.pk, t2.pk])
def test_two_tags_predict(self):
t1 = Tag.objects.create(name="t1",
matching_algorithm=Tag.MATCH_AUTO,
pk=12)
t2 = Tag.objects.create(name="t2",
matching_algorithm=Tag.MATCH_AUTO,
pk=121)
doc1 = Document.objects.create(title="doc1",
content="this is a document from c1",
checksum="A")
doc2 = Document.objects.create(title="doc1",
content="this is a document from c2",
checksum="B")
doc3 = Document.objects.create(title="doc1",
content="this is a document from c3",
checksum="C")
doc4 = Document.objects.create(title="doc1",
content="this is a document from c4",
checksum="D")
doc1.tags.add(t1)
doc2.tags.add(t2)
doc4.tags.add(t1)
doc4.tags.add(t2)
self.classifier.train()
self.assertListEqual(self.classifier.predict_tags(doc1.content),
[t1.pk])
self.assertListEqual(self.classifier.predict_tags(doc2.content),
[t2.pk])
self.assertListEqual(self.classifier.predict_tags(doc3.content), [])
self.assertListEqual(self.classifier.predict_tags(doc4.content),
[t1.pk, t2.pk])
def test_one_tag_predict_multi(self):
t1 = Tag.objects.create(name="t1",
matching_algorithm=Tag.MATCH_AUTO,
pk=12)
doc1 = Document.objects.create(title="doc1",
content="this is a document from c1",
checksum="A")
doc2 = Document.objects.create(title="doc2",
content="this is a document from c2",
checksum="B")
doc1.tags.add(t1)
doc2.tags.add(t1)
self.classifier.train()
self.assertListEqual(self.classifier.predict_tags(doc1.content),
[t1.pk])
self.assertListEqual(self.classifier.predict_tags(doc2.content),
[t1.pk])
def test_one_tag_predict_multi_2(self):
t1 = Tag.objects.create(name="t1",
matching_algorithm=Tag.MATCH_AUTO,
pk=12)
doc1 = Document.objects.create(title="doc1",
content="this is a document from c1",
checksum="A")
doc2 = Document.objects.create(title="doc2",
content="this is a document from c2",
checksum="B")
doc1.tags.add(t1)
self.classifier.train()
self.assertListEqual(self.classifier.predict_tags(doc1.content),
[t1.pk])
self.assertListEqual(self.classifier.predict_tags(doc2.content), [])
