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import argparse
import collections
import gzip
import html
import json
import os
import random
import re
import torch
from tqdm import tqdm
import numpy as np
from utils import check_path, clean_text, amazon18_dataset2fullname, write_json_file, write_remap_index
def load_ratings(file):
users, items, inters = set(), set(), set()
with open(file, 'r') as fp:
for line in tqdm(fp, desc='Load ratings'):
try:
item, user, rating, time = line.strip().split(',')
users.add(user)
items.add(item)
inters.add((user, item, float(rating), int(time)))
except ValueError:
print(line)
return users, items, inters
def load_meta_items(file):
items = {}
with gzip.open(file, "r") as fp:
for line in tqdm(fp, desc="Load metas"):
data = json.loads(line)
item = data["asin"]
title = clean_text(data["title"])
descriptions = data["description"]
descriptions = clean_text(descriptions)
brand = data["brand"].replace("by\n", "").strip()
categories = data["category"]
new_categories = []
for category in categories:
if "</span>" in category:
break
new_categories.append(category.strip())
categories = ",".join(new_categories).strip()
items[item] = {"title": title, "description": descriptions, "brand": brand, "categories": categories}
# print(items[item])
return items
def load_review_data(args, user2id, item2id):
dataset_full_name = amazon18_dataset2fullname[args.dataset]
review_file_path = os.path.join(args.input_path, 'Review', dataset_full_name + '.json.gz')
reviews = {}
with gzip.open(review_file_path, "r") as fp:
for line in tqdm(fp,desc='Load reviews'):
inter = json.loads(line)
try:
user = inter['reviewerID']
item = inter['asin']
if user in user2id and item in item2id:
uid = user2id[user]
iid = item2id[item]
else:
continue
if 'reviewText' in inter:
review = clean_text(inter['reviewText'])
else:
review = ''
if 'summary' in inter:
summary = clean_text(inter['summary'])
else:
summary = ''
reviews[str((uid,iid))]={"review":review, "summary":summary}
except ValueError:
print(line)
return reviews
def get_user2count(inters):
user2count = collections.defaultdict(int)
for unit in inters:
user2count[unit[0]] += 1
return user2count
def get_item2count(inters):
item2count = collections.defaultdict(int)
for unit in inters:
item2count[unit[1]] += 1
return item2count
def generate_candidates(unit2count, threshold):
cans = set()
for unit, count in unit2count.items():
if count >= threshold:
cans.add(unit)
return cans, len(unit2count) - len(cans)
def filter_inters(inters, can_items=None,
user_k_core_threshold=0, item_k_core_threshold=0):
new_inters = []
# filter by meta items
if can_items:
print('\nFiltering by meta items: ')
for unit in inters:
if unit[1] in can_items.keys():
new_inters.append(unit)
inters, new_inters = new_inters, []
print(' The number of inters: ', len(inters))
# filter by k-core
if user_k_core_threshold or item_k_core_threshold:
print('\nFiltering by k-core:')
idx = 0
user2count = get_user2count(inters)
item2count = get_item2count(inters)
while True:
new_user2count = collections.defaultdict(int)
new_item2count = collections.defaultdict(int)
users, n_filtered_users = generate_candidates( # users is set
user2count, user_k_core_threshold)
items, n_filtered_items = generate_candidates(
item2count, item_k_core_threshold)
if n_filtered_users == 0 and n_filtered_items == 0:
break
for unit in inters:
if unit[0] in users and unit[1] in items:
new_inters.append(unit)
new_user2count[unit[0]] += 1
new_item2count[unit[1]] += 1
idx += 1
inters, new_inters = new_inters, []
user2count, item2count = new_user2count, new_item2count
print(' Epoch %d The number of inters: %d, users: %d, items: %d'
% (idx, len(inters), len(user2count), len(item2count)))
return inters
def make_inters_in_order(inters):
user2inters, new_inters = collections.defaultdict(list), list()
for inter in inters:
user, item, rating, timestamp = inter
user2inters[user].append((user, item, rating, timestamp))
for user in user2inters:
user_inters = user2inters[user]
user_inters.sort(key=lambda d: d[3])
interacted_item = set()
for inter in user_inters:
if inter[1] in interacted_item: # 过滤重复交互
continue
interacted_item.add(inter[1])
new_inters.append(inter)
return new_inters
def preprocess_rating(args):
dataset_full_name = amazon18_dataset2fullname[args.dataset]
print('Process rating data: ')
print(' Dataset: ', args.dataset)
# load ratings
rating_file_path = os.path.join(args.input_path, 'Ratings', dataset_full_name + '.csv')
rating_users, rating_items, rating_inters = load_ratings(rating_file_path)
# load item IDs with meta data
meta_file_path = os.path.join(args.input_path, 'Metadata', f'meta_{dataset_full_name}.json.gz')
meta_items = load_meta_items(meta_file_path)
# 1. Filter items w/o meta data;
# 2. K-core filtering;
print('The number of raw inters: ', len(rating_inters))
rating_inters = make_inters_in_order(rating_inters)
rating_inters = filter_inters(rating_inters, can_items=meta_items,
user_k_core_threshold=args.user_k,
item_k_core_threshold=args.item_k)
# sort interactions chronologically for each user
rating_inters = make_inters_in_order(rating_inters)
print('\n')
# return: list of (user_ID, item_ID, rating, timestamp)
return rating_inters, meta_items
def convert_inters2dict(inters):
user2items = collections.defaultdict(list)
user2index, item2index = dict(), dict()
for inter in inters:
user, item, rating, timestamp = inter
if user not in user2index:
user2index[user] = len(user2index)
if item not in item2index:
item2index[item] = len(item2index)
user2items[user2index[user]].append(item2index[item])
return user2items, user2index, item2index
def generate_data(args, rating_inters):
print('Split dataset: ')
print(' Dataset: ', args.dataset)
# generate train valid temp
user2items, user2index, item2index = convert_inters2dict(rating_inters)
train_inters, valid_inters, test_inters = dict(), dict(), dict()
for u_index in range(len(user2index)):
inters = user2items[u_index]
# leave one out
train_inters[u_index] = [str(i_index) for i_index in inters[:-2]]
valid_inters[u_index] = [str(inters[-2])]
test_inters[u_index] = [str(inters[-1])]
assert len(user2items[u_index]) == len(train_inters[u_index]) + \
len(valid_inters[u_index]) + len(test_inters[u_index])
return user2items, train_inters, valid_inters, test_inters, user2index, item2index
def convert_to_atomic_files(args, train_data, valid_data, test_data):
print('Convert dataset: ')
print(' Dataset: ', args.dataset)
uid_list = list(train_data.keys())
uid_list.sort(key=lambda t: int(t))
with open(os.path.join(args.output_path, args.dataset, f'{args.dataset}.train.inter'), 'w') as file:
file.write('user_id:token\titem_id_list:token_seq\titem_id:token\n')
for uid in uid_list:
item_seq = train_data[uid]
seq_len = len(item_seq)
for target_idx in range(1, seq_len):
target_item = item_seq[-target_idx]
seq = item_seq[:-target_idx][-50:]
file.write(f'{uid}\t{" ".join(seq)}\t{target_item}\n')
with open(os.path.join(args.output_path, args.dataset, f'{args.dataset}.valid.inter'), 'w') as file:
file.write('user_id:token\titem_id_list:token_seq\titem_id:token\n')
for uid in uid_list:
item_seq = train_data[uid][-50:]
target_item = valid_data[uid][0]
file.write(f'{uid}\t{" ".join(item_seq)}\t{target_item}\n')
with open(os.path.join(args.output_path, args.dataset, f'{args.dataset}.test.inter'), 'w') as file:
file.write('user_id:token\titem_id_list:token_seq\titem_id:token\n')
for uid in uid_list:
item_seq = (train_data[uid] + valid_data[uid])[-50:]
target_item = test_data[uid][0]
file.write(f'{uid}\t{" ".join(item_seq)}\t{target_item}\n')
def parse_args():
parser = argparse.ArgumentParser()
parser.add_argument('--dataset', type=str, default='Arts', help='Instruments / Arts / Games')
parser.add_argument('--user_k', type=int, default=5, help='user k-core filtering')
parser.add_argument('--item_k', type=int, default=5, help='item k-core filtering')
parser.add_argument('--input_path', type=str, default='')
parser.add_argument('--output_path', type=str, default='')
return parser.parse_args()
if __name__ == '__main__':
args = parse_args()
# load interactions from raw rating file
rating_inters, meta_items = preprocess_rating(args)
# split train/valid/temp
all_inters,train_inters, valid_inters, test_inters, user2index, item2index = generate_data(args, rating_inters)
check_path(os.path.join(args.output_path, args.dataset))
write_json_file(all_inters, os.path.join(args.output_path, args.dataset, f'{args.dataset}.inter.json'))
convert_to_atomic_files(args, train_inters, valid_inters, test_inters)
item2feature = collections.defaultdict(dict)
for item, item_id in item2index.items():
item2feature[item_id] = meta_items[item]
# reviews = load_review_data(args, user2index, item2index)
print("user:",len(user2index))
print("item:",len(item2index))
write_json_file(item2feature, os.path.join(args.output_path, args.dataset, f'{args.dataset}.item.json'))
# write_json_file(reviews, os.path.join(args.output_path, args.dataset, f'{args.dataset}.review.json'))
write_remap_index(user2index, os.path.join(args.output_path, args.dataset, f'{args.dataset}.user2id'))
write_remap_index(item2index, os.path.join(args.output_path, args.dataset, f'{args.dataset}.item2id')) |