def test_pickle(self):
lsh = MinHashLSH(threshold=0.5, num_perm=4)
mg = WeightedMinHashGenerator(10, 4)
m1 = mg.minhash(np.random.uniform(1, 10, 10))
m2 = mg.minhash(np.random.uniform(1, 10, 10))
lsh.insert("a", m1)
lsh.insert("b", m2)
result = lsh.query(m1)
self.assertTrue("a" in result)
result = lsh.query(m2)
self.assertTrue("b" in result)
def test_pickle(self):
lsh = MinHashLSH(threshold=0.5, num_perm=16)
m1 = MinHash(16)
m1.update("a".encode("utf8"))
m2 = MinHash(16)
m2.update("b".encode("utf8"))
lsh.insert("a", m1)
lsh.insert("b", m2)
lsh2 = pickle.loads(pickle.dumps(lsh))
result = lsh.query(m1)
self.assertTrue("a" in result)
result = lsh.query(m2)
self.assertTrue("b" in result)
def test_pickle(self):
lsh = MinHashLSH(threshold=0.5, num_perm=16)
m1 = MinHash(16)
m1.update("a".encode("utf8"))
m2 = MinHash(16)
m2.update("b".encode("utf8"))
lsh.insert("a", m1)
lsh.insert("b", m2)
lsh2 = pickle.loads(pickle.dumps(lsh))
result = lsh.query(m1)
self.assertTrue("a" in result)
result = lsh.query(m2)
self.assertTrue("b" in result)
def test_query(self):
lsh = MinHashLSH(threshold=0.5, num_perm=16)
m1 = MinHash(16)
m1.update("a".encode("utf8"))
m2 = MinHash(16)
m2.update("b".encode("utf8"))
lsh.insert("a", m1)
lsh.insert("b", m2)
result = lsh.query(m1)
self.assertTrue("a" in result)
result = lsh.query(m2)
self.assertTrue("b" in result)
m3 = MinHash(18)
self.assertRaises(ValueError, lsh.query, m3)
def test_query(self):
lsh = MinHashLSH(threshold=0.5, num_perm=16)
m1 = MinHash(16)
m1.update("a".encode("utf8"))
m2 = MinHash(16)
m2.update("b".encode("utf8"))
lsh.insert("a", m1)
lsh.insert("b", m2)
result = lsh.query(m1)
self.assertTrue("a" in result)
result = lsh.query(m2)
self.assertTrue("b" in result)
m3 = MinHash(18)
self.assertRaises(ValueError, lsh.query, m3)
def find_more_then_threshold(self, threshold, curr_file_name):
lsh = MinHashLSH(threshold)
current_m = self.min_hash_text(set(self.file_to_words('/'.join([self.doc_dir, curr_file_name]))))
for k, v in self.min_hash_dict.iteritems():
lsh.insert(k, v)
result = lsh.query(current_m)
print("Candidates with Jaccard similarity > " + str(threshold), result)
def eg2():
mg = WeightedMinHashGenerator(10, 5)
m1 = mg.minhash(v1)
m2 = mg.minhash(v2)
m3 = mg.minhash(v3)
print("Estimated Jaccard m1, m2", m1.jaccard(m2))
print("Estimated Jaccard m1, m3", m1.jaccard(m3))
# Create LSH index
lsh = MinHashLSH(threshold=0.1, num_perm=5)
lsh.insert("m2", m2)
lsh.insert("m3", m3)
result = lsh.query(m1)
print("Approximate neighbours with weighted Jaccard similarity > 0.1",
result)
def test_query_redis(self):
with patch('redis.Redis', fake_redis) as mock_redis:
lsh = MinHashLSH(threshold=0.5,
num_perm=16,
storage_config={
'type': 'redis',
'redis': {
'host': 'localhost',
'port': 6379
}
})
m1 = MinHash(16)
m1.update("a".encode("utf8"))
m2 = MinHash(16)
m2.update("b".encode("utf8"))
lsh.insert("a", m1)
lsh.insert("b", m2)
result = lsh.query(m1)
self.assertTrue("a" in result)
result = lsh.query(m2)
self.assertTrue("b" in result)
m3 = MinHash(18)
self.assertRaises(ValueError, lsh.query, m3)
def eg1():
m1 = MinHash()
m2 = MinHash()
m3 = MinHash()
for d in data1:
m1.update(d.encode('utf8'))
for d in data2:
m2.update(d.encode('utf8'))
for d in data3:
m3.update(d.encode('utf8'))
# Create LSH index
lsh = MinHashLSH(threshold=0.5)
lsh.insert("m2", m2)
lsh.insert("m3", m3)
result = lsh.query(m1)
print("Approximate neighbours with Jaccard similarity > 0.5", result)
def eg1():
m1 = MinHash()
m2 = MinHash()
m3 = MinHash()
for d in data1:
m1.update(d.encode('utf8'))
for d in data2:
m2.update(d.encode('utf8'))
for d in data3:
m3.update(d.encode('utf8'))
# Create LSH index
lsh = MinHashLSH(threshold=0.5)
lsh.insert("m2", m2)
lsh.insert("m3", m3)
result = lsh.query(m1)
print("Approximate neighbours with Jaccard similarity > 0.5", result)
question = tokenize_sentence(str(row['question1']))
for word in question:
min_Hash.update(word.encode('utf8'))
lsh.insert(str(index), min_Hash)
total = 0
return_result = 0
correct = 0
total_correct = 0
#for each sentense in column question2 find similar questions
for i in range(0, total_questions):
question_minHash = MinHash()
question = tokenize_sentence(str(df['question2'][i]))
for word in question:
question_minHash.update(word.encode('utf8'))
candidates = lsh.query(question_minHash)
result = []
#check which candidates are similar with the sentence
for j in range(len(candidates)):
canditade = df['question1'][int(candidates[j])]
cand = set(tokenize_sentence(str(canditade)))
cand_minHash = MinHash()
for word in cand:
cand_minHash.update(word.encode('utf8'))
if cand_minHash.jaccard(question_minHash) >= threshold_jacard:
result.append(str(candidates[j]))
#statistcs
if df['is_duplicate'][i] == 1:
total_correct += 1
if len(result) > 0:
