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find_duplicates.py
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find_duplicates.py
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# coding=utf-8
# Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import argparse
from functools import partial
import itertools
import json
from lsh import cache, minhash
import multiprocessing
import numpy as np
import time
import pickle
import sys
import os
# This function is adapted from:
# https://github.com/mattilyra/LSH/blob/master/examples/Introduction.ipynb
def shingles(text, char_ngram=5):
return set(text[head:head + char_ngram]
for head in range(0, len(text) - char_ngram))
# This function is adapted from:
# https://github.com/mattilyra/LSH/blob/master/examples/Introduction.ipynb
def jaccard(set_a, set_b, args):
if len(set_a) < 1 or len(set_b) < 1:
return 0.0
intersection = set_a & set_b
union = set_a | set_b
if args.jaccard == 'min':
return len(intersection) / min(len(set_a), len(set_b))
elif args.jaccard == 'max':
return len(intersection) / max(len(set_a), len(set_b))
else:
return len(intersection) / len(union)
def compute_fingerprint(line, key):
try:
myjson = json.loads(line)
url = myjson[key]
text = myjson['text']
fingerprint = hasher.fingerprint(text)
except Exception as e:
print('Error:', e)
return None, None, None, False
return url, text, fingerprint, True
def url_pairs_to_remove(args, bucket_urls, url_doc):
remove_urls_list = []
deduped_local, counter_local = 0, 0
iteration = 0
while len(bucket_urls) > 1:
if args.heuristic_iter != -1 and \
iteration == args.heuristic_iter:
break
items = list(bucket_urls)
remove_urls = []
main_url = items[np.random.randint(0, len(items))]
main_dhingles = shingles(url_doc[main_url])
for i in range(0, len(items)):
counter_local += 1
other_url = items[i]
if other_url == main_url:
continue
other_shingles = shingles(url_doc[other_url])
try:
jaccard_sim = jaccard(main_dhingles, other_shingles, args)
except Exception as e:
print('Error:', e)
jaccard_sim = 0.0
if jaccard_sim > 0.5:
remove_urls.append({other_url: jaccard_sim})
deduped_local += 1
bucket_urls.remove(other_url)
bucket_urls.remove(main_url)
if len(remove_urls) > 0:
remove_urls_list.append({main_url: remove_urls})
iteration += 1
return remove_urls_list, deduped_local, counter_local
def write_remove_urls_list(remove_urls_list, f_out):
if len(remove_urls_list) > 0:
for each_url_remove in remove_urls_list:
myjson = json.dumps(each_url_remove, ensure_ascii=False)
f_out.write(myjson.encode('utf-8'))
f_out.write('\n'.encode('utf-8'))
def compute_jaccard(each_bin, num_bins, start_time_local):
remove_urls_list = []
deduped_local, counter_local, bucket_local = 0, 0, 0
for bucket_id in each_bin:
bucket_local += 1
if os.getpid() % num_bins == 0 and bucket_local % 100000 == 0:
print("Counter {}, progress {:.2f} time {:.2f}".\
format(bucket_local, float(bucket_local)/float(len(each_bin)),\
time.time() - start_time_local), flush=True)
if len(each_bin[bucket_id]) <= 1:
continue
bucket_urls = each_bin[bucket_id].copy()
remove_urls_list_sub, deduped_local_sub, counter_local_sub = \
url_pairs_to_remove(args, bucket_urls, url_doc)
deduped_local += deduped_local_sub
counter_local += counter_local_sub
if len(remove_urls_list_sub) > 0:
remove_urls_list.extend(remove_urls_list_sub)
return remove_urls_list, deduped_local, counter_local
def find_pair_urls_parallel(args, lshcache, url_doc):
start_time = time.time()
f_out = open(args.output, 'wb')
deduped, counter = 0, 0
# compute jaccards of buckets in bin in parallel (parallelism
# limited to # of bins)
num_bins = len(lshcache.bins)
pool = multiprocessing.Pool(num_bins)
compute_jaccard_partial = partial(compute_jaccard, num_bins=num_bins, \
start_time_local=start_time)
# don't need to pass args and url_doc as they are already shared
compute_jaccard_iter = pool.imap(compute_jaccard_partial, lshcache.bins)
print("multiprocessing init took {:.2f}".format(time.time() - start_time),\
flush=True)
for remove_urls_list, deduped_local, counter_local in compute_jaccard_iter:
deduped += deduped_local
counter += counter_local
write_remove_urls_list(remove_urls_list, f_out)
print(' [write]> processed {} documents in {:.2f} '
'seoncds and deduped {} documents ...'.format(counter, time.time()\
- start_time, deduped), flush=True)
pool.close()
pool.join()
f_out.close()
print(' Taken time for jaccard similariries {:.2f} seconds'.format(\
time.time() - start_time), flush=True)
def find_pair_urls_sequential(args, lshcache, url_doc):
start_time = time.time()
f_out = open(args.output, 'wb')
deduped, counter = 0, 0
for b in lshcache.bins:
for bucket_id in b:
if len(b[bucket_id]) <= 1:
continue
bucket_urls = b[bucket_id].copy()
remove_urls_list_sub, deduped_local_sub, counter_local_sub = \
url_pairs_to_remove(args, bucket_urls, url_doc)
deduped += deduped_local_sub
counter += counter_local_sub
write_remove_urls_list(remove_urls_list_sub, f_out)
if counter % 10000 == 0:
print(' [write]> processed {} documents in {:.2f} '
'seoncds and deduped {} documents ...'.
format(counter, time.time() - start_time,
deduped), flush=True)
f_out.close()
print(' [write]> processed {} documents in {:.2f} '
'seoncds and deduped {} documents ...'.
format(counter, time.time() - start_time,
deduped), flush=True)
if __name__ == '__main__':
print('parsing the arguments ...')
parser = argparse.ArgumentParser()
parser.add_argument('--seed', type=int, default=1234,
help='Random seed used for python, numpy')
parser.add_argument('--inputs', nargs = '*', default=None, help = \
'Pairwise list of the input files and keys, '
'e.g. --inputs cc.json cc_id news.json news_id')
parser.add_argument('--load-fingerprints', nargs = '*', default=None,
help='Load fingerprints from a list of pickle files,'
' e.g. cc.pkl news.pkl')
parser.add_argument('--save-fingerprints', type=str, default=None,
help='Save the fingerprints of the inputs.')
parser.add_argument('--output', type=str, default=None,
help='Output file name that consists of all ids'
' with matching similarities')
parser.add_argument('--jaccard', type=str, default='union',
choices=['union', 'min', 'max'], help='Jaccard'\
' similarity computation')
parser.add_argument('--heuristic-iter', type=int, default=1,
help='Number of iterations to run the heuristics'
': use -1 for exact')
parser.add_argument('--num-bands', type=int, default=10,
help='Number of bands to use in cache')
parser.add_argument('--num-seeds', type=int, default=100,
help='Number of seeds to use for minhash. Note that'
' this value should be divisible by num-bands')
parser.add_argument('--jaccard-parallel', action='store_true',
help='Use this to process large number of documents.')
args = parser.parse_args()
print('finding possible duplicate content ...')
# set seed and get an array of seeds of 100 integers
np.random.seed(args.seed)
seeds = np.random.randint(0, 1e6, size=args.num_seeds)
# initialize minhash and lsh cache
hasher = minhash.MinHasher(seeds=seeds, char_ngram=5, hashbytes=4)
lshcache = cache.Cache(num_bands=args.num_bands, hasher=hasher)
url_doc = {}
# load fingerprints from pickle file if needed
if args.load_fingerprints is not None:
for count_fp, fp_file_name in enumerate(args.load_fingerprints):
print("Loading fingerprints from pickle file {}".format(
fp_file_name), flush=True)
fp = open(fp_file_name, "rb")
if count_fp == 0:
# assign directory for the first pkl
lshcache = pickle.load(fp)
url_doc = pickle.load(fp)
else:
# append these to lshcache and url_doc
local_lshcache = pickle.load(fp)
local_url_doc = pickle.load(fp)
for url in local_lshcache.fingerprints.keys():
url_doc[url] = local_url_doc[url]
lshcache.add_fingerprint(local_lshcache.fingerprints[url], url)
fp.close()
counter = 0
start_time = time.time()
# compute finger prints of the inputs if any
# input file and the key to use as id
if args.inputs is not None:
print("Computing fingerprints", flush=True)
assert len(args.inputs) % 2 == 0
for input_file, key in zip(args.inputs[::2], args.inputs[1::2]):
print(' document processing {} with key {}'.format(input_file, key),
flush=True)
# compute fingerprints in parallel
num_workers = 40
pool = multiprocessing.Pool(num_workers)
fin = open(input_file, 'r', encoding='utf-8')
compute_fingerprint_partial = partial(compute_fingerprint, key=key)
compute_fingerprint_iter = pool.imap(compute_fingerprint_partial,
fin, 512)
# traverse all the texts and add fingerprints
for url, text, fingerprint, flag in compute_fingerprint_iter:
counter += 1
if flag:
url_doc[url] = text
lshcache.add_fingerprint(fingerprint, url)
if counter % 10000 == 0:
print(' [read]> processed {} documents in {:.2f} '
'seconds ...'.format(counter, time.time() - \
start_time), flush=True)
fin.close()
pool.close()
pool.join()
# Save the fingerprints if needed
if args.save_fingerprints is not None:
print("Saving fingerprints to pickle file {}".format(
args.save_fingerprints), flush=True)
with open(args.save_fingerprints, 'wb') as f_save:
pickle.dump(lshcache, f_save)
pickle.dump(url_doc, f_save)
# compute jaccard index of the input texts and write to file if needed
if args.output is not None:
print("Compute jaccard similarity", flush=True)
if args.jaccard_parallel:
find_pair_urls_parallel(args, lshcache, url_doc)
else:
find_pair_urls_sequential(args, lshcache, url_doc)
print('done :-)')