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'add_app_files'
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"""
Example: --positives 5,50 1,1000 ~~> best-5 (in top-50) + best-1 (in top-1000)
"""
import os
import sys
import git
import tqdm
import ujson
import random
from argparse import ArgumentParser
from colbert.utils.utils import print_message, load_ranking, groupby_first_item, create_directory
from utility.utils.save_metadata import save_metadata
MAX_NUM_TRIPLES = 40_000_000
def sample_negatives(negatives, num_sampled, biased=None):
assert biased in [None, 100, 200], "NOTE: We bias 50% from the top-200 negatives, if there are twice or more."
num_sampled = min(len(negatives), num_sampled)
if biased and num_sampled < len(negatives):
assert num_sampled % 2 == 0, num_sampled
num_sampled_top100 = num_sampled // 2
num_sampled_rest = num_sampled - num_sampled_top100
oversampled, undersampled = negatives[:biased], negatives[biased:]
if len(oversampled) < len(undersampled):
return random.sample(oversampled, num_sampled_top100) + random.sample(undersampled, num_sampled_rest)
return random.sample(negatives, num_sampled)
def sample_for_query(qid, ranking, args_positives, depth, permissive, biased):
"""
Requires that the ranks are sorted per qid.
"""
positives, negatives, triples = [], [], []
for pid, rank, *_, label in ranking:
assert rank >= 1, f"ranks should start at 1 \t\t got rank = {rank}"
assert label in [0, 1]
if rank > depth:
break
if label:
take_this_positive = any(rank <= maxDepth and len(positives) < maxBest for maxBest, maxDepth in args_positives)
if take_this_positive:
positives.append((pid, 0))
elif permissive:
positives.append((pid, rank)) # utilize with a few negatives, starting at (next) rank
else:
negatives.append(pid)
for pos, neg_start in positives:
num_sampled = 100 if neg_start == 0 else 5
negatives_ = negatives[neg_start:]
biased_ = biased if neg_start == 0 else None
for neg in sample_negatives(negatives_, num_sampled, biased=biased_):
triples.append((qid, pos, neg))
return triples
def main(args):
try:
rankings = load_ranking(args.ranking, types=[int, int, int, float, int])
except:
rankings = load_ranking(args.ranking, types=[int, int, int, int])
print_message("#> Group by QID")
qid2rankings = groupby_first_item(tqdm.tqdm(rankings))
Triples = []
NonEmptyQIDs = 0
for processing_idx, qid in enumerate(qid2rankings):
l = sample_for_query(qid, qid2rankings[qid], args.positives, args.depth, args.permissive, args.biased)
NonEmptyQIDs += (len(l) > 0)
Triples.extend(l)
if processing_idx % (10_000) == 0:
print_message(f"#> Done with {processing_idx+1} questions!\t\t "
f"{str(len(Triples) / 1000)}k triples for {NonEmptyQIDs} unqiue QIDs.")
print_message(f"#> Sub-sample the triples (if > {MAX_NUM_TRIPLES})..")
print_message(f"#> len(Triples) = {len(Triples)}")
if len(Triples) > MAX_NUM_TRIPLES:
Triples = random.sample(Triples, MAX_NUM_TRIPLES)
### Prepare the triples ###
print_message("#> Shuffling the triples...")
random.shuffle(Triples)
print_message("#> Writing {}M examples to file.".format(len(Triples) / 1000.0 / 1000.0))
with open(args.output, 'w') as f:
for example in Triples:
ujson.dump(example, f)
f.write('\n')
save_metadata(f'{args.output}.meta', args)
print('\n\n', args, '\n\n')
print(args.output)
print_message("#> Done.")
if __name__ == "__main__":
parser = ArgumentParser(description='Create training triples from ranked list.')
# Input / Output Arguments
parser.add_argument('--ranking', dest='ranking', required=True, type=str)
parser.add_argument('--output', dest='output', required=True, type=str)
# Weak Supervision Arguments.
parser.add_argument('--positives', dest='positives', required=True, nargs='+')
parser.add_argument('--depth', dest='depth', required=True, type=int) # for negatives
parser.add_argument('--permissive', dest='permissive', default=False, action='store_true')
# parser.add_argument('--biased', dest='biased', default=False, action='store_true')
parser.add_argument('--biased', dest='biased', default=None, type=int)
parser.add_argument('--seed', dest='seed', required=False, default=12345, type=int)
args = parser.parse_args()
random.seed(args.seed)
assert not os.path.exists(args.output), args.output
args.positives = [list(map(int, configuration.split(','))) for configuration in args.positives]
assert all(len(x) == 2 for x in args.positives)
assert all(maxBest <= maxDepth for maxBest, maxDepth in args.positives), args.positives
create_directory(os.path.dirname(args.output))
assert args.biased in [None, 100, 200]
main(args)