class SpellChecker():
def __init__(self):
self.dictionary = BloomFilter()
word_list = open('/usr/share/dict/words', 'r')
for word in word_list:
self.dictionary.add(word.strip())
def valid(self, string):
return self.dictionary.includes(string)
def testDumpGzippedAndLoadBloomFilter(self):
bloom_filter = BloomFilter(self.BLOOM_CAPACITY, self.BLOOM_ERROR_RATE)
for key in self.all_keys:
bloom_filter.add(key)
dump_bytes = bloom_filter.dump(gzipped=True);
bloom_filter2 = BloomFilter.load(dump_bytes)
self.assertEqual(bloom_filter, bloom_filter2)
self.check_contains(bloom_filter2)
def testDumpAndLoadBase64BloomFilter(self):
bloom_filter = BloomFilter(self.BLOOM_CAPACITY, self.BLOOM_ERROR_RATE)
for key in self.all_keys:
bloom_filter.add(key);
dump_str = bloom_filter.dump_to_base64_str(gzipped=True);
bloom_filter2 = BloomFilter.load_from_base64_str(dump_str);
self.assertEqual(bloom_filter, bloom_filter2)
self.check_contains(bloom_filter2)
class EventValidator:
last = -1
current = -1
bloom = BloomFilter(4980000, 0.01)
orderErrors = []
uniqueErrors = []
def __init__(self):
self
def checkOrder(self, value):
if self.last == -1:
self.last = value
else:
self.current = value
if self.last > self.current:
self.orderErrors.append(self.current)
else:
self.last = self.current
def checkUnique(self, value):
inside = value in self.bloom
if inside:
self.uniqueErrors.append(value)
else:
self.bloom.add(value)
def __init__(self, file_name):
self.bf = BloomFilter(10000000, 8)
input_file = open(file_name, "r")
for file_line in input_file:
file_line = file_line.rstrip()
self.bf.add(file_line)
input_file.close()
def build_entity_bloom(p="../../data/buboqa/indexes/names_2M.pkl",
outp="../../data/buboqa/data/names_2M.labels.bloom"):
tt = q.ticktock("bloom-entities")
tt.tick("loading names pkl")
entnames = pkl.load(open(p, "rb"))
tt.tock("loaded names pkl")
tt.tick("building bloom filter")
fset = BloomFilter(2e6, 1e-3)
for uri, names in tqdm(entnames.items()):
for name in names:
fset.add(name)
tt.tock("built")
tt.tick("saving bloom filter")
with open(outp, "wb") as f:
pkl.dump(fset, f)
tt.tock("saved")
return fset
class AutoResetBloomFilter:
RESET_TIME = 60 * 60 * 10 # NOTE 每10小时重置一次
def __init__(self):
self.bf = BloomFilter()
self.last_reset_time = int(time.time())
def add(self, v):
now = int(time.time())
if now - self.last_reset_time > self.RESET_TIME:
logging.info("bloom filter reset")
self.bf = BloomFilter()
self.last_reset_time = now
self.bf.add(v)
def __contains__(self, key):
return key in self.bf
def __init__(self, base_url: str, cfg: configparser) -> None:
self.base_url = base_url
self.config = cfg
self.closure_url = '{scheme}://{netloc}'.format(
scheme=urlsplit(self.base_url).scheme,
netloc=urlsplit(self.base_url).netloc)
self.pool = ThreadPoolExecutor(
max_workers=int(self.config['MAX_WORKER']))
self.task_queue = Queue(maxsize=3 * int(self.config['MAX_WORKER']))
self.task_queue.put(self.base_url)
self.crawled_pages = BloomFilter(
max_elements=int(self.config['MAX_ELEMENTS']),
error_rate=float(self.config['ERROR_RATE']))
self.crawled_pages.add(self.base_url)
self.total = 1
self.lock = Lock()
self.run_time = time.time()
def process_two(pipe21, pipe23):
pid = 1
counter = BloomFilter(n, p, 0)
counter = recv_message(pipe21, pid, counter, 'g')
counter = send_message(pipe21, pid, counter, 'h')
counter = send_message(pipe23, pid, counter, 'i')
counter = recv_message(pipe23, pid, counter, 'j')
print_history(counter, pid)
def __init__(self,
event_bus: EndpointAPI,
peer_pool: ETHProxyPeerPool,
tx_validation_fn: Callable[[BaseTransactionFields], bool],
token: CancelToken = None) -> None:
super().__init__(token)
self._event_bus = event_bus
self._peer_pool = peer_pool
if tx_validation_fn is None:
raise ValueError('Must pass a tx validation function')
self.tx_validation_fn = tx_validation_fn
# 1m should give us 9000 blocks before that filter becomes less reliable
# It should take up about 1mb of memory
self._bloom = BloomFilter(max_elements=1000000)
self._bloom_salt = str(uuid.uuid4())
async def filter(self, existed_vid_list=None):
bloom = BloomFilter(max_elements=config.MAX_ESTIMATE_RECORD_NUMBER
) ## construct a bloom filter
for ele in existed_vid_list:
bloom.add(ele) ## add origin_id into the filter
latest_results = [] ## final result to output
## The one who is responsible for the paging for xinpianchang do not have any kids
buffer = config.check_latest_buffer
latest = await self.fetch()
for ele in latest:
if bloom.__contains__(
ele['vid']): ## determine whether if the ele is reocrded
## if the ele is recorded
## meaning that the upcoming ele are repeated
## so we just return the current latest_results
## but due to the unreasonable paging issue
## we need a buffer to make sure that we make it to the end
if buffer == 0:
del bloom ## release memory
return jmespath.search(
'[]', latest_results) if latest_results else []
else:
buffer -= 1
continue
else:
bloom.add(ele['vid']) ## add origin_id into the filter
latest_results.append(ele)
else:
return jmespath.search('[]',
latest_results) if latest_results else []
class DoubleBloom:
def __init__(self, values, probability):
self.zero_bloom = BloomFilter(values, probability, False)
self.one_bloom = BloomFilter(values, probability, False)
self.next_level = None
def insert(self, key, value):
if value == '0':
self.zero_bloom.insert(key)
else:
self.one_bloom.insert(key)
def get_value(self, key):
if self.zero_bloom.contains(key):
if self.one_bloom.contains(key):
if self.next_level is not None:
return self.next_level.get_value(key)
return 'Both'
return '0'
elif self.one_bloom.contains(key):
return '1'
return None
def add_level(self, values, probability):
self.next_level = DoubleBloom(values, probability)
def do_add_strings(self, string_lists):
try:
for key in string_lists:
document = {}
bf = BloomFilter(max_elements=2**16, error_rate=0.01)
[bf.add(element) for element in string_lists.get(key)]
bf_pickle = cPickle.dumps(bf)
document[key] = bf_pickle
sig = key.split('_')
for type in self.collection:
if type == sig[len(sig) - 1]:
size = sys.getsizeof(document[key])
print(
"asynic save bloom tree into mongDB: %s \t size is %f"
% (key, size / 1024 / 1024))
break
except Exception as e:
print(e)
def check():
bloom_filter = BloomFilter(max_elements=2000000, error_rate=0.0001)
with open('urls.jsonl', mode='w') as f:
for file_name in os.listdir("url_outlinks"):
with open(f"url_outlinks/{file_name}", mode='r') as fp:
data = json.load(fp)
for domain, obj in data.items():
for url, outlinks in obj.items():
if url not in bloom_filter:
f.write(
f"""{json.dumps({"url": url, "no_outlinks": len(outlinks), "outlinks": outlinks})}\n"""
)
bloom_filter.add(url)
fp.close()
f.flush()
f.close()
class BLOOMDupeFilter(BaseDupeFilter):
"""Request Fingerprint duplicates filter"""
def __init__(self, path=None):
self.file = None
self.fingerprints = BloomFilter(10000, 0.00001)
@classmethod
def from_settings(cls, settings):
return cls(job_dir(settings))
def request_seen(self, request):
fp = request.url
if fp in self.fingerprints:
return True
self.fingerprints.add(fp)
def close(self, reason):
self.fingerprints = None
def process_one(pipe12):
pid = 0
counter = BloomFilter(n, p, 0)
counter = event(pid, counter, 'b')
counter = send_message(pipe12, pid, counter, 'c')
counter = event(pid, counter, 'd')
counter = recv_message(pipe12, pid, counter, 'e')
counter = event(pid, counter, 'f')
print_history(counter, pid)
def add(self, key):
bfilter = self.sbfilters[-1]
if bfilter.can_accomodate() == False:
new_expected_inserts = bfilter.expected_inserts * self.space_scale
new_error_rate = bfilter.error_rate * self.error_prob_ratio
new_bfilter = BloomFilter(new_expected_inserts, new_error_rate)
self.sbfilters.append(new_bfilter)
bfilter = new_bfilter
bfilter.add(key)
def put_all(self, kvps):
timestamp = self.next_timestamp()
txn_keys = None
if self.algorithm == RAMPAlgorithm.Fast:
txn_keys = kvps.keys()
bloom_filter = None
if self.algorithm == RAMPAlgorithm.Hybrid:
bloom_filter = BloomFilter(BLOOM_FILTER_SIZE, BLOOM_FILTER_HASHES)
bloom_filter.list_to_bloom(kvps.keys())
for key in kvps:
self.key_to_partition(key).prepare(
key, DataItem(kvps[key], timestamp, txn_keys, bloom_filter),
timestamp)
for key in kvps:
self.key_to_partition(key).commit(key, timestamp)
def __init__(self, start_urls: List[str], crawled_pages_count: int,
chunk_size: int, fetch_workers: int, database_workers: int):
# При использоание set на больших объемах достигнем лимита
# памяти.Поэтому используем фильтр блума, при этом проигрываем
# по скорости.
self._visited = BloomFilter(max_elements=crawled_pages_count)
self._logger = get_logger(__name__)
self._stop_crawling = False
self._urls = start_urls
self._data = []
self._buffer = []
self._total_crawled_pages = 0
self._stop_crawling = False
self._fetch_error_rate = 0.9
self._crawled_pages_count = crawled_pages_count
self._chunk_size = chunk_size
self._fetch_workers = fetch_workers
self._database_workers = database_workers
self._max_buffer_len = self._chunk_size * self._fetch_error_rate
def __init__(self, env, feature_transformer):
self.env = env
self.models = {}
self.models_elite = {}
self.feature_transformer = feature_transformer
for a in env.actions_available:
self.models[a] = PassiveAggressiveRegressor(
C=1.0,
fit_intercept=True,
shuffle=False,
loss='epsilon_insensitive',
epsilon=0.1)
self.models_elite[a] = PassiveAggressiveRegressor(
C=1.0,
fit_intercept=True,
shuffle=False,
loss='epsilon_insensitive',
epsilon=0.1)
self.bloom_states = BloomFilter(max_elements=256**2)
def __init__(self, settings, stats):
self.never_cache = set(
urlparse(url).path for url in settings.get("NEVER_CACHE", []))
self.never_cache.add(urlparse("/robots.txt").path)
logger.info(
f"Initiating bloom filter.... Never Cache paths: {sorted(self.never_cache)}"
)
self.visited = BloomFilter(
max_elements=settings.getint("VISITED_FILTER_MAX_REQUESTS",
4000000),
error_rate=settings.getfloat("VISITED_FILTER_ERROR_RATE", 1e-9),
filename=settings.get("VISITED_FILTER_PATH"),
)
self.stats = stats
logger.info(
f"Loaded visited urls bloomfilter. Size {self.visited.num_bits_m / (1024 ** 2 * 8)} MiB."
)
def add_test(self):
try:
for i in range(1000):
# Pick a random number for string size.
string_size = random.randrange(0, 10000)
# Create random alphanumeric strings.
random_string = ''.join(
random.choices(string.ascii_uppercase + string.digits,
k=string_size))
# The size of the filter is not important in this test.
bloom = BloomFilter(bit_vector_size=10)
# Add the random string to the filter.
bloom.add(random_string)
logging.info("add_test: PASS")
except ValueError:
logging.error("add_test: FAIL. A random string caused an error.")
def bloom_filter(fp, pattern):
ret = f'Query {pattern} pattern in date set\n'
for path in fp:
stock_name = os.path.basename(path)[:-4]
mvg,date = moving_average(path,10)
bmvg = trans2_01(mvg)
bloom = BloomFilter(max_elements=10000)
length = len(pattern)
ele = ''
for i in range(length):
ele = ele + str(bmvg[i])
for i in range(length - 1, len(bmvg)):
if i != length - 1:
ele = ele + str(bmvg[i])
ele = ele[1:]
bloom.add(ele)
if pattern in bloom:
ret = ret + f'Find {pattern} pattern in {stock_name}\n'
return ret
def __init__(self, server, key, debug=False):
"""Initialize the duplicates filter.
Parameters
----------
server : redis.StrictRedis
The redis server instance.
key : str
Redis key Where to store fingerprints.
debug : bool, optional
Whether to log filtered requests.
"""
self.server = server
self.key = key
self.debug = debug
self.logdupes = True
self.bloomfilter = BloomFilter(redis_conn=server, key=key)
def __init__(self, *args, **kwargs):
# // 要爬取网站的跟
self.base_url = 'http://wzggzy.wz.gov.cn/'
# super(QhSpider, self).__init__(*args, **kwargs)
self.bloom_filter = BloomFilter(max_elements=1000000,
error_rate=0.1,
filename='bf.data')
self.num = 0
self.scrawl_mode = ScrawlMode.HISTORY
self._stop_parse = False
class StatisticsHolder:
MAX_DELAY = 5
def __init__(self, start_ts, end_ts):
self.counter = 0
self.start_ts = start_ts
self.end_ts = end_ts
self.filter = BloomFilter(max_elements=50000, error_rate=0.01)
def add(self, uid):
if uid not in self.filter:
self.counter += 1
self.filter.add(uid)
def __contains__(self, ts):
return ts >= self.start_ts and ts < self.end_ts
def closed_by(self, ts):
return ts >= self.end_ts + StatisticsHolder.MAX_DELAY
class Node:
def __init__(self, k, expected_num, fp_prob):
"""
Represents a single node of Bloom Tree
"""
self.children: List[Node] = []
self.parent: Optional[Node] = None
self.filter = BloomFilter(expected_num, fp_prob)
self.dataset_id: Optional[str] = None
self.k = k
def populate_dataset_info(self, dataset: List[Read]) -> None:
self.dataset_id = dataset[0].filename
self.insert_kmers_from_dataset(dataset)
def insert_kmers_from_dataset(self, dataset: List[Read]) -> None:
for read in dataset:
for kmer in read.kmers(self.k):
self.filter.insert(kmer)
def add_node_kmers(self, other: 'Node') -> None:
self.filter.filter |= other.filter.filter
def num_children(self) -> int:
return len(self.children)
def score(self, other: 'Node') -> int:
"""
"Hamming distance" score where lower is better
:param other: The node to compare against
"""
return count_xor(self.filter.filter, other.filter.filter)
def get_size(self):
"""
Returns the total number of bytes occupied by the filter object
"""
return (sys.getsizeof(self.children) + sys.getsizeof(self.parent) +
sys.getsizeof(self.dataset_id) + sys.getsizeof(self.k) +
self.filter.get_size())
def false_positive_rate_benchmark(error_rate):
trial_arr = []
fps_rate = []
capacity = 10000
bfilter = BloomFilter(capacity, error_rate)
for trial in range(10000, 100000, 1000):
fp = 0
for i in range(trial):
bfilter.add(i)
for i in range(trial, 2 * trial + 1):
if i in bfilter:
fp += 1
fp_rate = fp / float(trial)
fps_rate.append(fp_rate)
trial_arr.append(trial)
plt.plot(trial_arr, fps_rate, 'bs')
plt.ylabel('False Positive Rate')
plt.xlabel('No of Trials')
plt.show()
def __init__(self):
self.headers = {
'User-Agent':
'Dalvik/2.1.0 (Linux; U; Android 8.0.0; MIX 2 MIUI/V10.2.2.0.ODECNXM) NewsArticle/8.4.4'
}
self.cookies = {
'cookies':
'install_id=6672646082571388678; ttreq=1$a9ed7f4ce8fc84fced473d6e25c22226f381c13d; odin_tt=3e76568447d177856560d524c6ef5400407a437cfdd62767a36fb3b2decdeb01d43b9a7978232dc05c57af3c81bd10c277e78619093795e8392c1302c9aa8a75; sid_guard=c8f84a23bcce86b376964aeb42991709%7C1554173959%7C5184000%7CSat%2C+01-Jun-2019+02%3A59%3A19+GMT; uid_tt=2ad7176029f7302e11b7924e6e6566b7120075732cedcd39bc999fa5cbcf07a1; sid_tt=c8f84a23bcce86b376964aeb42991709; sessionid=c8f84a23bcce86b376964aeb42991709'
}
self.headers_details = {
'User-Agent':
'Mozilla/5.0 (Macintosh; Intel Mac OS X 10_14_4) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/73.0.3683.103 Safari/537.36'
}
self.cookies_details = {
'Cookie':
'tt_webid=6683297640216282629; __tea_sdk__user_unique_id=6683297640216282629; __tea_sdk__ssid=40d2e59e-696c-4a93-ace8-e1479b10aeef; csrf-token=61575f8b568b577d9d06c777d103ae53e6c10723; csrf-secret=6qDUsFL6WZ1aG2soaPw7PpmCtnxCv7fw'
}
self.post_video_url = 'http://127.0.0.1:30008/crawler/video/transfer'
self.filter_url = 'http://console.cc.clipclaps.tv/crawler/log'
self.have_met = BloomFilter(max_elements=100000, error_rate=0.1)
class WordLookup:
def __init__(self, file_name):
self.bf = BloomFilter(10000000, 8)
input_file = open(file_name, "r")
for file_line in input_file:
file_line = file_line.rstrip()
self.bf.add(file_line)
input_file.close()
def is_qualified(self, string):
str_len = len(string)
if str_len != 6:
return False
for i in range(1, str_len - 1):
first = string[:i]
second = string[i:]
if self.bf.lookup(first) and self.bf.lookup(second):
#print first + '+' + second + '=>' + string
return True
return False
def process_three(pipe32, return_dict):
pid = 2
counter = BloomFilter(n, p, 0)
print('\nInitial Bit array: 3')
print(counter.bit_array)
print()
counter = recv_message(pipe32, pid, counter, 'k')
counter = send_message(pipe32, pid, counter, 'l')
print_history(counter, pid)
for i in counter.history.keys():
return_dict[i] = counter.history[i]
def test_bloom_filter():
bloomfilter = BloomFilter(NUM_KEYS, FALSE_POSITIVE_PROBABILITY)
word_present = ['abound','abounds','abundance','abundant','accessable',
'bloom','blossom','bolster','bonny','bonus','bonuses',
'coherent','cohesive','colorful','comely','comfort',
'gems','generosity','generous','generously','genial']
word_absent = ['facebook','twitter']
for item in word_present:
bloomfilter.add(item)
test_words = word_present[:10] + word_absent
shuffle(test_words)
for word in test_words:
if bloomfilter.is_member(word):
if word in word_absent:
print(f"'{word}' is a false positive!")
else:
print(f"'{word}' is probably present!")
else:
print(f"'{word}' is definitely not present!")
def put_all(self, kvps):
timestamp = self.next_timestamp()
txn_keys = None
if self.algorithm == RAMPAlgorithm.Fast:
txn_keys = kvps.keys()
bloom_filter = None
if self.algorithm == RAMPAlgorithm.Hybrid:
bloom_filter = BloomFilter(BLOOM_FILTER_SIZE, BLOOM_FILTER_HASHES)
bloom_filter.list_to_bloom(kvps.keys())
for key in kvps:
self.key_to_partition(key).prepare(key,
DataItem(kvps[key],
timestamp,
txn_keys,
bloom_filter),
timestamp)
for key in kvps:
self.key_to_partition(key).commit(key, timestamp)
def generate_bf_list(cols):
block_cnt = 20
block_len = 30
n = block_cnt * block_len # code space. set it to the max size of a col for now
p = 0.01 # false positive probability
# build bloom filter for all cols
bloom_filter_list = []
for col in cols:
bloom_filter = BloomFilter(n, p)
for num in col:
bloom_filter.add(chr(num))
bloom_filter_list.append(bloom_filter)
return bloom_filter_list
def process_two(pipe21, pipe23, return_dict):
pid = 1
counter = BloomFilter(n, p, 0)
print('\nInitial Bit array: 2')
print(counter.bit_array)
print()
counter = recv_message(pipe21, pid, counter, 'g')
counter = send_message(pipe21, pid, counter, 'h')
counter = send_message(pipe23, pid, counter, 'i')
counter = recv_message(pipe23, pid, counter, 'j')
print_history(counter, pid)
for i in counter.history.keys():
return_dict[i] = counter.history[i]
def do_add(self, string_lists):
"""
:param string_lists: eg. {lib1_fn: string_list, lib1_1g: string_list, lib1_2g: string_list, ..., }
:return:
"""
try:
for key in string_lists:
document = {}
bf = BloomFilter(max_elements=2**16, error_rate=0.01)
[bf.add(element) for element in string_lists.get(key)]
bf_pickle = cPickle.dumps(bf)
document[key] = bf_pickle
sig = key.split('_')
for type in self.collection:
if type == sig[len(sig) - 1]:
self.collection[type].save(document)
size = sys.getsizeof(document[key])
print(
"save bloom tree into mongoDB: %s \t size is %f M"
% (key, size / 1024 / 1024))
break
except Exception as e:
print(e)
def main():
inital_page = "http://yue.ifeng.com"
url_queue = Queue.Queue()
filter = BloomFilter()
filter.add(inital_page)
url_queue.put(inital_page)
while True:
urls = []
current_url = url_queue.get() # 取队列第一个元素
try:
store(current_url)
urls = extract_urls(current_url) # 抽取页面中的链接
except Exception, e:
print "Error extract_urls"
print e
for next_url in urls:
if filter.notcontains(next_url):
filter.add(next_url)
url_queue.put(next_url)
count+=1
f.close()
num_of_items= count
print("Number of Items: " + str(num_of_items))
p = 0.005
print("Probability of false positive error " + str(p))
bit_size = bit_array_size(num_of_items, p)
print("Bit Size: "+str(bit_size))
hash_size = size_of_hash(num_of_items, bit_size)
print("Hash Size: "+str(hash_size))
bf = BloomFilter(num_of_items, hash_size)
word_list = open("word_list.txt").read().splitlines()
for word in word_list:
bf.add(word)
word_list.close()
print(bf.lookup("99"))
print(bf.lookup("donkey"))
print(bf.lookup("oitqv"))
print(bf.lookup("fart"))
print(bf.lookup("Max"))
print(bf.lookup("Dichha"))
print(bf.lookup("Khuwalung"))
import sys
from trie import Trie
from bloom_filter import BloomFilter
from tools import get_size
if __name__ == '__main__':
bf_dups = 0
tr = Trie()
bf = BloomFilter(capacity=700000, error_rate=0.001)
with open("words.txt") as file:
for line in file:
tr.put(line.strip())
if bf.put(line.strip()):
print("Duplicate in bloom filter: {0}".format(line.strip()))
bf_dups += 1
print("Trie. number of objects put: {0}".format(len(tr)))
print("Bloom filter. number of objects put: {0}".format(len(bf)))
print()
print("Trie. Size of the object: {0}".format(sys.getsizeof(tr)))
print("Bloom filter. Size of the object: {0}".format(sys.getsizeof(bf)))
print()
print("Trie. Size of the object(full): {0}".format(get_size(tr)))
print("Bloom filter. Size of the object(full): {0}".format(get_size(bf)))
print()
print("Bloom filter errors: {0}".format(bf_dups))
print("----------------------------------------------------------")
def __init__(self):
self.dictionary = BloomFilter()
word_list = open('/usr/share/dict/words', 'r')
for word in word_list:
self.dictionary.add(word.strip())
def test_can_insert(self):
bloom = BloomFilter(2000, 4)
bloom.insert(5)
def test_inserted_is_probably_contained(self):
bloom = BloomFilter(2000, 4)
bloom.insert(42)
self.assertTrue(42 in bloom)
def testLoadBloomFilterFromBase64File(self):
with open(self.BF_DUMP_FILE_BASE_64, "r") as f:
dump_str = f.read()
bloom_filter = BloomFilter.load_from_base64_str(dump_str)
self.check_contains(bloom_filter)
def testLoadBloomFilterFromFile(self):
with open(self.BF_DUMP_FILE, "rb") as f:
dump_bytes = f.read()
bloom_filter = BloomFilter.load(dump_bytes)
self.check_contains(bloom_filter)
